Your search keyword '"Dorrucci M"' showing total 208 results

1. Effects of Influenza Vaccine on the Immune Responses to SARS-CoV-2 Vaccination

Author

Riccomi, A., primary, Trombetta, C. M., additional, Dorrucci, M., additional, Di Placido, D., additional, Sanarico, N., additional, Farchi, F., additional, Giuseppetti, R., additional, Villano, U., additional, Marcantonio, C., additional, Marchi, S., additional, Ciaramella, A., additional, Pezzotti, P., additional, Montomoli, E., additional, Valdarchi, C., additional, Ciccaglione, A. R., additional, and Vendetti, S., additional

Published

2024

2. Serum IgG Antibodies to Human Herpesvirus-6 (HHV-6) Do Not Predict the Progression of HIV Disease to AIDS

Author

Dorrucci, M., Rezza, G., Andreoni, M., Pezzotti, P., Nicastri, E., Ventura, L., Zignani, M., Alliegro, M. B., Tarantini, G., Salassa, B., Colangeli, V., Mazzarello, G., Ursitti, M. A., Barbanera, M., Pristerà, R., Castelli, F., and Ortona, L.

Published

1999

3. No need for secondary Pneumocystis jirovecii pneumonia prophylaxis in adult people living with HIV from Europe on ART with suppressed viraemia and a CD4 cell count greater than 100 cells/µL

Author

Atkinson, A, Miro, J, Mocroft, A, Reiss, P, Kirk, O, Morlat, P, Ghosn, J, Stephan, C, Mussini, C, Antoniadou, A, Doerholt, K, Girardi, E, De Wit, S, Kraus, D, Zwahlen, M, Furrer, H, Castagna, A, Fatkenheuer, G, Raben, D, Teira, R, Zangerle, R, Judd, A, Touloumi, G, Warszawski, J, Meyer, L, Dabis, F, Krause, M, Leport, C, Wittkop, L, Wit, F, Prins, M, Bucher, H, Gibb, D, Del Amo, J, Obel, N, Thorne, C, Perez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, d'Arminio Monforte, A, Brockmeyer, N, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Casabona, J, Goetghebuer, T, Sonnerborg, A, Torti, C, Sabin, C, Garrido, M, Haerry, D, Costagliola, D, d'Arminio-Monforte, A, del Amo, J, Chene, G, Barger, D, Schwimmer, C, Termote, M, Frederiksen, C, Brandt, R, Berenguer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Davies, M, Dorrucci, M, Dunn, D, Egger, M, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Rohner, E, Schomaker, M, Smit, C, Sterne, J, Thiebaut, R, Wqetu, C, van der Valk, M, Atkinson A., Miro J. M., Mocroft A., Reiss P., Kirk O., Morlat P., Ghosn J., Stephan C., Mussini C., Antoniadou A., Doerholt K., Girardi E., De Wit S., Kraus D., Zwahlen M., Furrer H., Castagna A., Fatkenheuer G., Raben D., Teira R., Zangerle R., Judd A., Touloumi G., Warszawski J., Meyer L., Dabis F., Krause M. M., Leport C., Wittkop L., Wit F., Prins M., Bucher H., Gibb D., Del Amo J., Obel N., Thorne C., Perez-Hoyos S., Hamouda O., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Antinori A., d'Arminio Monforte A., Brockmeyer N., Prieto L., Conejo P. R., Soriano-Arandes A., Battegay M., Kouyos R., Casabona J., Goetghebuer T., Sonnerborg A., Torti C., Sabin C., Garrido M., Haerry D., Costagliola D., d'Arminio-Monforte A., del Amo J., Chene G., Barger D., Schwimmer C., Termote M., Frederiksen C. M., Brandt R. S., Berenguer J., Bohlius J., Bouteloup V., Cozzi-Lepri A., Davies M. -A., Dorrucci M., Dunn D., Egger M., Guiguet M., Grabar S., Lambotte O., Leroy V., Lodi S., Matheron S., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Rohner E., Schomaker M., Smit C., Sterne J., Thiebaut R., Wqetu C., van der Valk M., Atkinson, A, Miro, J, Mocroft, A, Reiss, P, Kirk, O, Morlat, P, Ghosn, J, Stephan, C, Mussini, C, Antoniadou, A, Doerholt, K, Girardi, E, De Wit, S, Kraus, D, Zwahlen, M, Furrer, H, Castagna, A, Fatkenheuer, G, Raben, D, Teira, R, Zangerle, R, Judd, A, Touloumi, G, Warszawski, J, Meyer, L, Dabis, F, Krause, M, Leport, C, Wittkop, L, Wit, F, Prins, M, Bucher, H, Gibb, D, Del Amo, J, Obel, N, Thorne, C, Perez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, d'Arminio Monforte, A, Brockmeyer, N, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Casabona, J, Goetghebuer, T, Sonnerborg, A, Torti, C, Sabin, C, Garrido, M, Haerry, D, Costagliola, D, d'Arminio-Monforte, A, del Amo, J, Chene, G, Barger, D, Schwimmer, C, Termote, M, Frederiksen, C, Brandt, R, Berenguer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Davies, M, Dorrucci, M, Dunn, D, Egger, M, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Rohner, E, Schomaker, M, Smit, C, Sterne, J, Thiebaut, R, Wqetu, C, van der Valk, M, Atkinson A., Miro J. M., Mocroft A., Reiss P., Kirk O., Morlat P., Ghosn J., Stephan C., Mussini C., Antoniadou A., Doerholt K., Girardi E., De Wit S., Kraus D., Zwahlen M., Furrer H., Castagna A., Fatkenheuer G., Raben D., Teira R., Zangerle R., Judd A., Touloumi G., Warszawski J., Meyer L., Dabis F., Krause M. M., Leport C., Wittkop L., Wit F., Prins M., Bucher H., Gibb D., Del Amo J., Obel N., Thorne C., Perez-Hoyos S., Hamouda O., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Antinori A., d'Arminio Monforte A., Brockmeyer N., Prieto L., Conejo P. R., Soriano-Arandes A., Battegay M., Kouyos R., Casabona J., Goetghebuer T., Sonnerborg A., Torti C., Sabin C., Garrido M., Haerry D., Costagliola D., d'Arminio-Monforte A., del Amo J., Chene G., Barger D., Schwimmer C., Termote M., Frederiksen C. M., Brandt R. S., Berenguer J., Bohlius J., Bouteloup V., Cozzi-Lepri A., Davies M. -A., Dorrucci M., Dunn D., Egger M., Guiguet M., Grabar S., Lambotte O., Leroy V., Lodi S., Matheron S., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Rohner E., Schomaker M., Smit C., Sterne J., Thiebaut R., Wqetu C., and van der Valk M.

Abstract

Introduction: Since the beginning of the HIV epidemic in resource-rich countries, Pneumocystis jirovecii pneumonia (PjP) is one of the most frequent opportunistic AIDS-defining infections. The Collaboration of Observational HIV Epidemiological Research Europe (COHERE) has shown that primary Pneumocystis jirovecii Pneumonia (PjP) prophylaxis can be safely withdrawn in patients with CD4 counts of 100 to 200 cells/µL if plasma HIV-RNA is suppressed on combination antiretroviral therapy. Whether this holds true for secondary prophylaxis is not known, and this has proved difficult to determine due to the much lower population at risk. Methods: We estimated the incidence of secondary PjP by including patient data collected from 1998 to 2015 from the COHERE cohort collaboration according to time-updated CD4 counts, HIV-RNA and use of PjP prophylaxis in persons >16 years of age. We fitted a Poisson generalized additive model in which the smoothed effect of CD4 was modelled by a restricted cubic spline, and HIV-RNA was stratified as low (<400), medium (400 to 10,000) or high (>10,000copies/mL). Results: There were 373 recurrences of PjP during 74,295 person-years (py) in 10,476 patients. The PjP incidence in the different plasma HIV-RNA strata differed significantly and was lowest in the low stratum. For patients off prophylaxis with CD4 counts between 100 and 200 cells/µL and HIV-RNA below 400 copies/mL, the incidence of recurrent PjP was 3.9 (95% CI: 2.0 to 5.8) per 1000 py, not significantly different from patients on prophylaxis in the same stratum (1.9, 95% CI: 0.1 to 3.7). Conclusions: HIV viraemia importantly affects the risk of recurrent PjP. In virologically suppressed patients on ART with CD4 counts of 100 to 200/µL, the incidence of PjP off prophylaxis is below 10/1000 py. Secondary PjP prophylaxis may be safely withheld in such patients. While European guidelines recommend discontinuing secondary PjP prophylaxis only if CD4 counts ris

Published

2021

4. No need for secondary Pneumocystis jirovecii pneumonia prophylaxis in adult people living with HIV from Europe on ART with suppressed viraemia and a CD4 cell count greater than 100 cells/µL

Author

Atkinson, A., Miro, J. M., Mocroft, A., Reiss, P., Kirk, O., Morlat, P., Ghosn, J., Stephan, C., Mussini, C., Antoniadou, A., Doerholt, K., Girardi, E., De Wit, S., Kraus, D., Zwahlen, M., Furrer, H., Castagna, A., Fatkenheuer, G., Raben, D., Teira, R., Zangerle, R., Judd, A., Touloumi, G., Warszawski, J., Meyer, L., Dabis, F., Krause, M. M., Leport, C., Wittkop, L., Wit, F., Prins, M., Bucher, H., Gibb, D., Del Amo, J., Obel, N., Thorne, C., Perez-Hoyos, S., Hamouda, O., Bartmeyer, B., Chkhartishvili, N., Noguera-Julian, A., Antinori, A., d'Arminio Monforte, A., Brockmeyer, N., Prieto, L., Conejo, P. R., Soriano-Arandes, A., Battegay, M., Kouyos, R., Casabona, J., Goetghebuer, T., Sonnerborg, A., Torti, C., Sabin, C., Garrido, M., Haerry, D., Costagliola, D., d'Arminio-Monforte, A., del Amo, J., Chene, G., Barger, D., Schwimmer, C., Termote, M., Frederiksen, C. M., Brandt, R. S., Berenguer, J., Bohlius, J., Bouteloup, V., Cozzi-Lepri, A., Davies, M. -A., Dorrucci, M., Dunn, D., Egger, M., Guiguet, M., Grabar, S., Lambotte, O., Leroy, V., Lodi, S., Matheron, S., Monge, S., Nakagawa, F., Paredes, R., Phillips, A., Puoti, M., Rohner, E., Schomaker, M., Smit, C., Sterne, J., Thiebaut, R., Wqetu, C., van der Valk, M., Global Health, Infectious diseases, AII - Infectious diseases, APH - Aging & Later Life, Atkinson, A, Miro, J, Mocroft, A, Reiss, P, Kirk, O, Morlat, P, Ghosn, J, Stephan, C, Mussini, C, Antoniadou, A, Doerholt, K, Girardi, E, De Wit, S, Kraus, D, Zwahlen, M, Furrer, H, Castagna, A, Fatkenheuer, G, Raben, D, Teira, R, Zangerle, R, Judd, A, Touloumi, G, Warszawski, J, Meyer, L, Dabis, F, Krause, M, Leport, C, Wittkop, L, Wit, F, Prins, M, Bucher, H, Gibb, D, Del Amo, J, Obel, N, Thorne, C, Perez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, d'Arminio Monforte, A, Brockmeyer, N, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Casabona, J, Goetghebuer, T, Sonnerborg, A, Torti, C, Sabin, C, Garrido, M, Haerry, D, Costagliola, D, d'Arminio-Monforte, A, del Amo, J, Chene, G, Barger, D, Schwimmer, C, Termote, M, Frederiksen, C, Brandt, R, Berenguer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Davies, M, Dorrucci, M, Dunn, D, Egger, M, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Rohner, E, Schomaker, M, Smit, C, Sterne, J, Thiebaut, R, Wqetu, C, and van der Valk, M

Subjects

Adult, medicine.medical_specialty, Adolescent, opportunistic infection, Population, Human immunodeficiency virus (HIV), HIV Infections, 610 Medicine & health, Pneumocystis carinii, medicine.disease_cause, Young Adult, 03 medical and health sciences, 0302 clinical medicine, 360 Social problems & social services, Internal medicine, Epidemiology, medicine, Humans, Opportunistic infections, Viremia, 030212 general & internal medicine, education, Research Articles, education.field_of_study, 030505 public health, business.industry, Pneumonia, Pneumocystis, Incidence (epidemiology), prophylaxi, Pneumocystis jirovecii Pneumonia, Public Health, Environmental and Occupational Health, opportunistic infections, Pneumocystis jirovecii pneumonia, CD4 Lymphocyte Count, 3. Good health, Discontinuation, Europe, Infectious Diseases, Cohort, Infeccions per VIH, prophylaxis, 0305 other medical science, business, Viral load, Infeccions oportunistes, Research Article, HIV infections

Abstract

Introduction: Since the beginning of the HIV epidemic in resource-rich countries, Pneumocystis jirovecii pneumonia (PjP) is one of the most frequent opportunistic AIDS-defining infections. The Collaboration of Observational HIV Epidemiological Research Europe (COHERE) has shown that primary Pneumocystis jirovecii Pneumonia (PjP) prophylaxis can be safely withdrawn in patients with CD4 counts of 100 to 200 cells/µL if plasma HIV-RNA is suppressed on combination antiretroviral therapy. Whether this holds true for secondary prophylaxis is not known, and this has proved difficult to determine due to the much lower population at risk. Methods: We estimated the incidence of secondary PjP by including patient data collected from 1998 to 2015 from the COHERE cohort collaboration according to time-updated CD4 counts, HIV-RNA and use of PjP prophylaxis in persons >16 years of age. We fitted a Poisson generalized additive model in which the smoothed effect of CD4 was modelled by a restricted cubic spline, and HIV-RNA was stratified as low (10,000copies/mL). Results: There were 373 recurrences of PjP during 74,295 person-years (py) in 10,476 patients. The PjP incidence in the different plasma HIV-RNA strata differed significantly and was lowest in the low stratum. For patients off prophylaxis with CD4 counts between 100 and 200 cells/µL and HIV-RNA below 400 copies/mL, the incidence of recurrent PjP was 3.9 (95% CI: 2.0 to 5.8) per 1000 py, not significantly different from patients on prophylaxis in the same stratum (1.9, 95% CI: 0.1 to 3.7). Conclusions: HIV viraemia importantly affects the risk of recurrent PjP. In virologically suppressed patients on ART with CD4 counts of 100 to 200/µL, the incidence of PjP off prophylaxis is below 10/1000 py. Secondary PjP prophylaxis may be safely withheld in such patients. While European guidelines recommend discontinuing secondary PjP prophylaxis only if CD4 counts rise above 200 cells/mL, the latest US Guidelines consider secondary prophylaxis discontinuation even in patients with a CD4 count above 100 cells/µL and suppressed viral load. Our results strengthen and support this US recommendation. Keywords: opportunistic infections; Pneumocystis jirovecii pneumonia; prophylaxis

Published

2021

5. Higher rates of triple‐class virological failure in perinatally HIV‐infected teenagers compared with heterosexually infected young adults in Europe

Author

Judd, A, Lodwick, R, NogueraJulian, A, Gibb, DM, Butler, K, Costagliola, D, Sabin, C, van Sighem, A, Ledergerber, B, Torti, C, Mocroft, A, Podzamczer, D, Dorrucci, M, De Wit, S, Obel, N, Dabis, F, CozziLepri, A, García, F, Brockmeyer, NH, Warszawski, J, GonzalezTome, MI, Mussini, C, Touloumi, G, Zangerle, R, Ghosn, J, Castagna, A, Fätkenheuer, G, Stephan, C, Meyer, L, Campbell, MA, Chene, G, Phillips, A, Mary Krause, Murielle, Leport, Catherine, Wittkop, Linda, Reiss, Peter, Wit, Ferdinand, Prins, Maria, Bucher, Heiner, Gibb, Diana, Amo, Julia Del, Thorne, Claire, Kirk, Ole, PérezHoyos, Santiago, Hamouda, Osamah, Bartmeyer, Barbara, Chkhartishvili, Nikoloz, Antinori, Andrea, Monforte, Antonella dʼArminio, Prieto, Luis, Rojo, Pablo, SorianoArandes, Antoni, Battegay, Manuel, Kouyos, Roger, Tookey, Pat, Casabona, Jordi, Miró, Jose M., Konopnick, Deborah, Goetghebuer, Tessa, Sönnerborg, Anders, Teira, Ramon, Garrido, Myriam, Haerry, David, Raben, Dorthe, Chêne, Geneviève, Barger, Diana, Schwimmer, Christine, Termote, Monique, Frederiksen, Casper M., FriisMøller, Nina, Kjaer, Jesper, Salbøl Brandt, Rikke, Berenguer, Juan, Bohlius, Julia, Bouteloup, Vincent, Davies, MaryAnne, Dunn, David, Egger, Matthias, Furrer, Hansjakob, Guiguet, Marguerite, Grabar, Sophie, Lambotte, Olivier, Leroy, Valériane, Lodi, Sara, Matheron, Sophie, Monge, Susana, Nakagawa, Fumiyo, Paredes, Roger, Puoti, Massimo, Schomaker, Michael, Smit, Colette, Sterne, Jonathan, Thiebaut, Rodolphe, Thorne, Claire, van der Valk, Marc, and Wyss, Natasha

Published

2017

6. Low compliance with hepatocellular carcinoma screening guidelines in hepatitis B/C virus co-infected HIV patients with cirrhosis

Author

Willemse, S, Smit, C, Sogni, P, Sarcletti, M, Uberti-Foppa, C, Wittkop, L, Raben, D, D'Arminio Monforte, A, Dabis, F, Van Der Valk, M, Judd, A, Zangerle, R, Touloumi, G, Warszawski, J, Meyer, L, Murielle, M, Ghosn, J, Leport, C, Reiss, P, Wit, F, Prins, M, Bucher, H, Gibb, D, Fatkenheuer, G, Obel, N, Thorne, C, Mocroft, A, Kirk, O, Stephan, C, Perez-Hoyos, S, Hamouda, O, Clinsurv, G, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, Brockmeyer, N, Prieto, L, Pablo, R, Soriano-Arandes, A, Battegay, M, Kouyos, R, Mussini, C, Tookey, P, Casabona, J, Miro, J, Castagna, A, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Torti, C, Sabin, C, Teira, R, Garrido, M, Haerry, D, Stephane, D, Jose, M, Costagliola, D, Raffaele, S, Julia, D, Chene, G, Barger, D, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Davies, M, Dorrucci, M, Dunn, D, Egger, M, Furrer, H, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Rohner, E, Schomaker, M, Sterne, J, Thiebaut, R, Willemse S., Smit C., Sogni P., Sarcletti M., Uberti-Foppa C., Wittkop L., Raben D., D'Arminio Monforte A., Dabis F., Van Der Valk M., Judd A., Zangerle R., Touloumi G., Warszawski J., Meyer L., Murielle M., Ghosn J., Leport C., Reiss P., Wit F., Prins M., Bucher H., Gibb D., Fatkenheuer G., Obel N., Thorne C., Mocroft A., Kirk O., Stephan C., Perez-Hoyos S., Hamouda O., ClinSurv G., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Antinori A., Brockmeyer N., Prieto L., Pablo R., Soriano-Arandes A., Battegay M., Kouyos R., Mussini C., Tookey P., Casabona J., Miro J. M., Castagna A., Konopnick D., Goetghebuer T., Sonnerborg A., Torti C., Sabin C., Teira R., Garrido M., Haerry D., Stephane D., Jose M., Costagliola D., Raffaele S., Julia D., Chene G., Barger D., Schwimmer C., Termote M., Campbell M., Frederiksen C. M., Friis-Moller N., Kjaer J., Bohlius J., Bouteloup V., Cozzi-Lepri A., Davies M. -A., Dorrucci M., Dunn D., Egger M., Furrer H., Guiguet M., Grabar S., Lambotte O., Leroy V., Lodi S., Matheron S., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Rohner E., Schomaker M., Sterne J., Thiebaut R., Willemse, S, Smit, C, Sogni, P, Sarcletti, M, Uberti-Foppa, C, Wittkop, L, Raben, D, D'Arminio Monforte, A, Dabis, F, Van Der Valk, M, Judd, A, Zangerle, R, Touloumi, G, Warszawski, J, Meyer, L, Murielle, M, Ghosn, J, Leport, C, Reiss, P, Wit, F, Prins, M, Bucher, H, Gibb, D, Fatkenheuer, G, Obel, N, Thorne, C, Mocroft, A, Kirk, O, Stephan, C, Perez-Hoyos, S, Hamouda, O, Clinsurv, G, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, Brockmeyer, N, Prieto, L, Pablo, R, Soriano-Arandes, A, Battegay, M, Kouyos, R, Mussini, C, Tookey, P, Casabona, J, Miro, J, Castagna, A, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Torti, C, Sabin, C, Teira, R, Garrido, M, Haerry, D, Stephane, D, Jose, M, Costagliola, D, Raffaele, S, Julia, D, Chene, G, Barger, D, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Davies, M, Dorrucci, M, Dunn, D, Egger, M, Furrer, H, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Rohner, E, Schomaker, M, Sterne, J, Thiebaut, R, Willemse S., Smit C., Sogni P., Sarcletti M., Uberti-Foppa C., Wittkop L., Raben D., D'Arminio Monforte A., Dabis F., Van Der Valk M., Judd A., Zangerle R., Touloumi G., Warszawski J., Meyer L., Murielle M., Ghosn J., Leport C., Reiss P., Wit F., Prins M., Bucher H., Gibb D., Fatkenheuer G., Obel N., Thorne C., Mocroft A., Kirk O., Stephan C., Perez-Hoyos S., Hamouda O., ClinSurv G., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Antinori A., Brockmeyer N., Prieto L., Pablo R., Soriano-Arandes A., Battegay M., Kouyos R., Mussini C., Tookey P., Casabona J., Miro J. M., Castagna A., Konopnick D., Goetghebuer T., Sonnerborg A., Torti C., Sabin C., Teira R., Garrido M., Haerry D., Stephane D., Jose M., Costagliola D., Raffaele S., Julia D., Chene G., Barger D., Schwimmer C., Termote M., Campbell M., Frederiksen C. M., Friis-Moller N., Kjaer J., Bohlius J., Bouteloup V., Cozzi-Lepri A., Davies M. -A., Dorrucci M., Dunn D., Egger M., Furrer H., Guiguet M., Grabar S., Lambotte O., Leroy V., Lodi S., Matheron S., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Rohner E., Schomaker M., Sterne J., and Thiebaut R.

Published

2019

7. Low compliance with hepatocellular carcinoma screening guidelines in hepatitis B/C virus co-infected HIV patients with cirrhosis

Author

Willemse, S., Smit, C., Sogni, P., Sarcletti, M., Uberti-Foppa, C., Wittkop, L., Raben, D., D'Arminio Monforte, A., Dabis, F., Van Der Valk, M., Judd, A., Zangerle, R., Touloumi, G., Warszawski, J., Meyer, L., Murielle, M., Ghosn, J., Leport, C., Reiss, P., Wit, F., Prins, M., Bucher, H., Gibb, D., Fatkenheuer, G., Obel, N., Thorne, C., Mocroft, A., Kirk, O., Stephan, C., Perez-Hoyos, S., Hamouda, O., Clinsurv, G., Bartmeyer, B., Chkhartishvili, N., Noguera-Julian, A., Antinori, A., Brockmeyer, N., Prieto, L., Pablo, R., Soriano-Arandes, A., Battegay, M., Kouyos, R., Mussini, C., Tookey, P., Casabona, J., Miro, J. M., Castagna, A., Konopnick, D., Goetghebuer, T., Sonnerborg, A., Torti, C., Sabin, C., Teira, R., Garrido, M., Haerry, D., Stephane, D., Jose, M., Costagliola, D., Raffaele, S., Julia, D., Chene, G., Barger, D., Schwimmer, C., Termote, M., Campbell, M., Frederiksen, C. M., Friis-Moller, N., Kjaer, J., Bohlius, J., Bouteloup, V., Cozzi-Lepri, A., Davies, M. -A., Dorrucci, M., Dunn, D., Egger, M., Furrer, H., Guiguet, M., Grabar, S., Lambotte, O., Leroy, V., Lodi, S., Matheron, S., Monge, S., Nakagawa, F., Paredes, R., Phillips, A., Puoti, M., Rohner, E., Schomaker, M., Sterne, J., Thiebaut, R., Willemse, S., Smit, C., Sogni, P., Sarcletti, M., Uberti-Foppa, C., Wittkop, L., Raben, D., D'Arminio Monforte, A., Dabis, F., Van Der Valk, M., Judd, A., Zangerle, R., Touloumi, G., Warszawski, J., Meyer, L., Murielle, M., Ghosn, J., Leport, C., Reiss, P., Wit, F., Prins, M., Bucher, H., Gibb, D., Fatkenheuer, G., Obel, N., Thorne, C., Mocroft, A., Kirk, O., Stephan, C., Perez-Hoyos, S., Hamouda, O., Clinsurv, G., Bartmeyer, B., Chkhartishvili, N., Noguera-Julian, A., Antinori, A., Brockmeyer, N., Prieto, L., Pablo, R., Soriano-Arandes, A., Battegay, M., Kouyos, R., Mussini, C., Tookey, P., Casabona, J., Miro, J. M., Castagna, A., Konopnick, D., Goetghebuer, T., Sonnerborg, A., Torti, C., Sabin, C., Teira, R., Garrido, M., Haerry, D., Stephane, D., Jose, M., Costagliola, D., Raffaele, S., Julia, D., Chene, G., Barger, D., Schwimmer, C., Termote, M., Campbell, M., Frederiksen, C. M., Friis-Moller, N., Kjaer, J., Bohlius, J., Bouteloup, V., Cozzi-Lepri, A., Davies, M. -A., Dorrucci, M., Dunn, D., Egger, M., Furrer, H., Guiguet, M., Grabar, S., Lambotte, O., Leroy, V., Lodi, S., Matheron, S., Monge, S., Nakagawa, F., Paredes, R., Phillips, A., Puoti, M., Rohner, E., Schomaker, M., Sterne, J., Thiebaut, R., Willemse, S, Smit, C, Sogni, P, Sarcletti, M, Uberti-Foppa, C, Wittkop, L, Raben, D, D'Arminio Monforte, A, Dabis, F, Van Der Valk, M, Judd, A, Zangerle, R, Touloumi, G, Warszawski, J, Meyer, L, Murielle, M, Ghosn, J, Leport, C, Reiss, P, Wit, F, Prins, M, Bucher, H, Gibb, D, Fatkenheuer, G, Obel, N, Thorne, C, Mocroft, A, Kirk, O, Stephan, C, Perez-Hoyos, S, Hamouda, O, Clinsurv, G, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, Brockmeyer, N, Prieto, L, Pablo, R, Soriano-Arandes, A, Battegay, M, Kouyos, R, Mussini, C, Tookey, P, Casabona, J, Miro, J, Castagna, A, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Torti, C, Sabin, C, Teira, R, Garrido, M, Haerry, D, Stephane, D, Jose, M, Costagliola, D, Raffaele, S, Julia, D, Chene, G, Barger, D, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Davies, M, Dorrucci, M, Dunn, D, Egger, M, Furrer, H, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Rohner, E, Schomaker, M, Sterne, J, Thiebaut, R, Infectious diseases, AII - Infectious diseases, Global Health, APH - Aging & Later Life, APH - Global Health, APH - Digital Health, and APH - Personalized Medicine

Subjects

Liver Cirrhosis, Male, Cirrhosis, co‐infection, medicine.disease_cause, 0302 clinical medicine, 80 and over, Mass Screening, 030212 general & internal medicine, Chronic, guideline adherence, Aged, 80 and over, cancer screening, chronic viral hepatitis, co-infection, hepatocellular carcinoma, hepatocellular carcinoma screening, human immunodeficiency virus, liver cirrhosis, Adolescent, Adult, Aged, Carcinoma, Hepatocellular, Coinfection, Female, Guideline Adherence, Hepatitis B, Chronic, Hepatitis C, Chronic, Humans, Liver Neoplasms, Middle Aged, Young Adult, medicine.diagnostic_test, chronic viral hepatiti, virus diseases, Hepatitis C, Hepatitis B, 3. Good health, Infectious Diseases, Hepatocellular carcinoma, Liver biopsy, 030211 gastroenterology & hepatology, medicine.medical_specialty, Hepatitis C virus, Short Communication, Short Communications, 03 medical and health sciences, Virology, Internal medicine, medicine, Mass screening, Hepatitis B virus, Hepatology, business.industry, human immunodeficiency viru, Carcinoma, Hepatocellular, medicine.disease, digestive system diseases, business

Abstract

The incidence of hepatocellular carcinoma (HCC) in patients co-infected with HIV and hepatitis B virus (HBV) or hepatitis C virus (HCV) is increasing. In patients with cirrhosis, guidelines recommend HCC screening every 6 months. We assessed compliance with HCC screening guidelines in cirrhotic HBV/HCV-HIV-co-infected patients. HBV/HCV-HIV-co-infected patients with cirrhosis were enrolled from 4 European prospective cohorts participating in the COHERE collaboration, followed from 1 January 2005-1 January 2015. Assessment of liver cirrhosis was based on clinical diagnosis and liver biopsy or Fibroscan. Compliance with HCC screening guidelines was defined as one ultrasound every 6 months. Generalized estimating equation models adjusted for repeated measurements were fitted to determine predictors of low compliance. Different sensitivity analyses were performed and validation of the data was carried out by randomly checking 10% of each cohort's data. 646 HIV-patients with the diagnosis of cirrhosis were included: 518 (80%) HCV-, 85 (13%) HBV- and 43 (7%) HBV/HCV-co-infected. Median age at cirrhosis diagnosis was 44 years, median follow-up time since diagnosis was 5.3 years. Screening

Published

2019

8. Declining Prevalence of HIV Infection among Injecting Drug Users Entering Drug Treatment in Italy: 1990-1991

Author

Rezza, G., De Rose, A., Dorrucci, M., Arpino, C., and Serafin, I.

Published

1993

9. No need for secondary Pneumocystis jirovecii pneumonia prophylaxis in adult people living with HIV from Europe on ART with suppressed viraemia and a CD4 cell count greater than 100 cells/µL

Author

Atkinson, A. Miro, J.M. Mocroft, A. Reiss, P. Kirk, O. Morlat, P. Ghosn, J. Stephan, C. Mussini, C. Antoniadou, A. Doerholt, K. Girardi, E. De Wit, S. Kraus, D. Zwahlen, M. Furrer, H. De Wit, S. Antoniadou, A. Castagna, A. Doerholt, K. Fätkenheuer, G. Raben, D. Teira, R. Zangerle, R. Judd, A. Zangerle, R. Touloumi, G. Warszawski, J. Meyer, L. Dabis, F. Krause, M.M. Leport, C. Wittkop, L. Wit, F. Prins, M. Bucher, H. Gibb, D. Fätkenheuer, G. Del Amo, J. Obel, N. Thorne, C. Pérez-Hoyos, S. Hamouda, O. Bartmeyer, B. Chkhartishvili, N. Noguera-Julian, A. Antinori, A. d’Arminio Monforte, A. Brockmeyer, N. Prieto, L. Conejo, P.R. Soriano-Arandes, A. Battegay, M. Kouyos, R. Casabona, J. Goetghebuer, T. Sönnerborg, A. Torti, C. Sabin, C. Teira, R. Garrido, M. Haerry, D. Costagliola, D. d’Arminio-Monforte, A. del Amo, J. Raben, D. Chêne, G. Judd, A. Conejo, P.R. Barger, D. Schwimmer, C. Termote, M. Wittkop, L. Frederiksen, C.M. Raben, D. Brandt, R.S. Berenguer, J. Bohlius, J. Bouteloup, V. Bucher, H. Cozzi-Lepri, A. Dabis, F. d’Arminio Monforte, A. Davies, M.-A. del Amo, J. Dorrucci, M. Dunn, D. Egger, M. Guiguet, M. Grabar, S. Judd, A. Lambotte, O. Leroy, V. Lodi, S. Matheron, S. Meyer, L. Monge, S. Nakagawa, F. Paredes, R. Phillips, A. Puoti, M. Rohner, E. Schomaker, M. Smit, C. Sterne, J. Thiebaut, R. Thorne, C. Wqetu, C. van der Valk, M. Wittkop, L. the Opportunistic Infections Working Group of the Collaboration of Observational HIV Epidemiological Research Europe (COHERE) study in EuroCOORD

Abstract

Introduction: Since the beginning of the HIV epidemic in resource-rich countries, Pneumocystis jirovecii pneumonia (PjP) is one of the most frequent opportunistic AIDS-defining infections. The Collaboration of Observational HIV Epidemiological Research Europe (COHERE) has shown that primary Pneumocystis jirovecii Pneumonia (PjP) prophylaxis can be safely withdrawn in patients with CD4 counts of 100 to 200 cells/µL if plasma HIV-RNA is suppressed on combination antiretroviral therapy. Whether this holds true for secondary prophylaxis is not known, and this has proved difficult to determine due to the much lower population at risk. Methods: We estimated the incidence of secondary PjP by including patient data collected from 1998 to 2015 from the COHERE cohort collaboration according to time-updated CD4 counts, HIV-RNA and use of PjP prophylaxis in persons >16 years of age. We fitted a Poisson generalized additive model in which the smoothed effect of CD4 was modelled by a restricted cubic spline, and HIV-RNA was stratified as low (10,000copies/mL). Results: There were 373 recurrences of PjP during 74,295 person-years (py) in 10,476 patients. The PjP incidence in the different plasma HIV-RNA strata differed significantly and was lowest in the low stratum. For patients off prophylaxis with CD4 counts between 100 and 200 cells/µL and HIV-RNA below 400 copies/mL, the incidence of recurrent PjP was 3.9 (95% CI: 2.0 to 5.8) per 1000 py, not significantly different from patients on prophylaxis in the same stratum (1.9, 95% CI: 0.1 to 3.7). Conclusions: HIV viraemia importantly affects the risk of recurrent PjP. In virologically suppressed patients on ART with CD4 counts of 100 to 200/µL, the incidence of PjP off prophylaxis is below 10/1000 py. Secondary PjP prophylaxis may be safely withheld in such patients. While European guidelines recommend discontinuing secondary PjP prophylaxis only if CD4 counts rise above 200 cells/mL, the latest US Guidelines consider secondary prophylaxis discontinuation even in patients with a CD4 count above 100 cells/µL and suppressed viral load. Our results strengthen and support this US recommendation. © 2021 The Authors. Journal of the International AIDS Society published by John Wiley & Sons Ltd on behalf of the International AIDS Society.

Published

2021

10. Global temporal changes in the proportion of children with advanced disease at the start of combination antiretroviral therapy in an era of changing criteria for treatment initiation

Author

Panayidou, K, Davies, M, Anderegg, N, Egger, M, Fatti, G, Vinikoor, M, Sawry, S, Ehmer, J, Eley, B, Phiri, S, Technau, K, Chimbetete, C, Rabie, H, Boulle, A, Tanser, F, Wood, R, Wools-Kaloustian, K, Vreeman, R, Oyaro, P, Ayaya, S, Nakigozi, G, Musick, B, Yiannoutsos, C, Amorissani-Folquet, M, Takassi, E, Sylla, M, Renner, L, Malateste, K, Desmonde, S, Leroy, V, Kurniati, N, Hansudewechakul, R, Nguyen, L, Ly, P, Truong, K, Kariminia, A, Sohn, A, Edmonds, A, Yumo, H, Dusingize, J, Yotebieng, M, Judd, A, Rojo, P, Smit, C, Grabar, S, Warszwarski, J, Chene, G, Raban, D, Patel, K, Seage, G, Van Dyke, R, Oleske, J, Williams, P, Abzug, M, Succi, R, Machado, D, Pinto, J, Rouzier, V, Luque, M, Mejia, F, Khol, V, Tucker, J, Kumarasamy, N, Saghayam, S, Chandrasekaran, E, Wati, D, Vedaswari, D, Malino, I, Muktiarti, D, Fong, S, Lim, M, Daut, F, Nik Yusoff, N, Mohamad, P, Mohamed, T, Drawis, M, Nallusamy, R, Chan, K, Sudjaritruk, T, Sirisanthana, V, Aurpibul, L, Oberdorfer, P, Denjanta, S, Watanaporn, S, Kongphonoi, A, Lumbiganon, P, Kosalaraksa, P, Tharnprisan, P, Udomphanit, T, Jourdain, G, Puthanakit, T, Anugulruengkitt, S, Phadungphon, C, Chokephaibulkit, K, Lapphra, K, Phongsamart, W, Sricharoenchai, S, Du, Q, Nguyen, C, Do, V, Ha, T, An, V, Khu, D, Pham, A, Le, O, Ross, J, Sethaputra, C, Law, M, Cahn, P, Cesar, C, Fink, V, Sued, O, Dell'Isola, E, Perez, H, Valiente, J, Yamamoto, C, Grinsztejn, B, Veloso, V, Luz, P, de Boni, R, Wagner, S, Friedman, R, Moreira, R, Ferreira, F, Maia, M, de Menezes Succi, R, Barbosa Gouv E A, A, Wolff, M, Cortes, C, Rodriguez, M, Allendes, G, Pape, J, Marcelin, A, Perodin, C, Padgett, D, Madero, J, Ramirez, B, Belaunzaran, P, Vega, Y, Gotuzzo, E, Carriquiry, G, Mcgowan, C, Shepherd, B, Sterling, T, Jayathilake, K, Person, A, Rebeiro, P, Giganti, M, Castilho, J, Duda, S, Maruri, F, Vansell, H, P E Lagie, N, Gateretse, P, Munezero, J, Nitereka, V, Niyongabo, T, Twizere, C, Bukuru, H, Nahimana, T, Biziragusenyuka, J, Manyundo, R, Atsu, K, Mbuh, T, Ajeh, R, Benwi, M, Dzudie, A, Mbuh, A, Ngamani, M, Nkome, V, Amadou, D, Ngassam, E, Pefura Yone, E, Ewanoge, A, Fuhngwa, N, Moki, C, Akele, C, Kitetele, F, Lelo, P, Tabala, M, Okitolonda, E, Wenzi, L, Diafouka, M, Ekat, M, Nsonde, D, Mafou, A, Ntarambirwa, F, Tuyishimire, Y, Hakizimana, T, Ayinkamiye, J, Mukantwali, S, Kayitesi, H, Uwamahoro, O, Habumuremyi, V, Mukamana, J, Kubwimana, G, Mugenzi, P, Muhoza, B, Munyaneza, A, Ndahiro, E, Nyiransabimana, D, D'Amour Sinayobye, J, Sugira, V, Benekigeri, C, Mbaraga, G, Adedimeji, A, Anastos, K, Dilorenzo, M, Murchison, L, Addison, D, Baker, M, Brazier, E, Jones, H, Kelvin, E, Kulkarni, S, Nash, D, Tymejczyk, O, Elul, B, Cai, X, Hoover, D, Kim, H, Li, C, Shi, Q, Lancaster, K, Kuniholm, M, Parcesepe, A, Kimmel, A, Mcnairy, M, Diero, L, Plus, A, Bukusi, E, Ssali, J, Nalugoda, F, Somi, G, Lyamuya, R, Ngonyani, K, Lugina, E, Urassa, M, Michael, D, Zannou, M, Poda, A, Sarfo, F, Messou, E, Chenal, H, Minga, K, Bissagnene, E, Tanon, A, Seydi, M, Patassi, A, Koumakpai-Adeothy, S, N'Gbeche, S, Bosse, C, Kouakou, K, Folquet, M, Eboua, F, Traore, F, Dabis, F, Arrive, E, Balestre, E, Becquet, R, Bernard, C, Arikawa, S, Doring, A, Jaquet, A, Rabourdin, E, Tiendrebeogo, T, Jesson, J, Ekouevi, D, Azani, J, Coffi E, P, Gnepa, G, Kouadio, C, Tchounga, B, Maartens, G, Lettow, M, Muhairwe, J, Jores, A, Kamenova, K, Fox, M, Prozesky, H, Zangerle, R, Touloumi, G, Warszawski, J, Meyer, L, Krause, M, Ghosn, J, Leport, C, Wittkop, L, Reiss, P, Wit, F, Prins, M, Bucher, H, Gibb, D, Fatkenheuer, G, Del Amo, J, Obel, N, Thorne, C, Mocroft, A, Kirk, O, Stephan, C, Perez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, D'Arminio Monforte, A, Brockmeyer, N, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Mussini, C, Tookey, P, Casabona, J, Miro, J, Castagna, A, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Torti, C, Sabin, C, Teira, R, Garrido, M, Haerry, D, de Wit, S, Costagliola, D, Raben, D, Barger, D, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Brandt, R, Berenguer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Dorrucci, M, Dunn, D, Furrer, H, Guiguet, M, Lambotte, O, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Rohner, E, Schomaker, M, Sterne, J, Thiebaut, R, van der Valk, M, Hazra, R, Heckman, B, O'Gara, E, Siminski, S, Panayidou K., Davies M. -A., Anderegg N., Egger M., Fatti G., Vinikoor M., Sawry S., Ehmer J., Eley B., Phiri S., Technau K. -G. u. N., Chimbetete C., Rabie H., Boulle A., Tanser F., Wood R., Wools-Kaloustian K., Vreeman R., Oyaro P., Ayaya S., Nakigozi G., Musick B., Yiannoutsos C., Amorissani-Folquet M., Takassi E., Sylla M., Renner L., Malateste K., Desmonde S., Leroy V., Kurniati N., Hansudewechakul R., Nguyen L. V., Ly P. S., Truong K. H., Kariminia A., Sohn A. H., Edmonds A., Yumo H. A., Dusingize J. C., Yotebieng M., Judd A., Rojo P., Smit C., Grabar S., Warszwarski J., Chene G., Raban D., Patel K., Seage G. R., Van Dyke R. B., Oleske J., Williams P. L., Abzug M. J., Succi R., Machado D. M., Pinto J., Rouzier V., Luque M., Mejia F., Khol V., Tucker J., Kumarasamy N., Saghayam S., Chandrasekaran E., Wati D. K., Vedaswari D., Malino I. Y., Muktiarti D., Fong S. M., Lim M., Daut F., Nik Yusoff N. K., Mohamad P., Mohamed T. J., Drawis M. R., Nallusamy R., Chan K. C., Sudjaritruk T., Sirisanthana V., Aurpibul L., Oberdorfer P., Denjanta S., Watanaporn S., Kongphonoi A., Lumbiganon P., Kosalaraksa P., Tharnprisan P., Udomphanit T., Jourdain G., Puthanakit T., Anugulruengkitt S., Phadungphon C., Chokephaibulkit K., Lapphra K., Phongsamart W., Sricharoenchai S., Du Q. T., Nguyen C. H., Do V. C., Ha T. M., An V. T., Khu D. T. K., Pham A. N., Nguyen L. T., Le O. N., Ross J. L., Sethaputra C., Law M. G., Cahn P., Cesar C., Fink V., Sued O., Dell'isola E., Perez H., Valiente J., Yamamoto C., Grinsztejn B., Veloso V., Luz P., de Boni R., Wagner S. C., Friedman R., Moreira R., Ferreira F., Maia M., de Menezes Succi R. C., Barbosa Gouv E A A. F. a. T., Wolff M., Cortes C., Rodriguez M. F., Allendes G., Pape J. W., Marcelin A., Perodin C., Luque M. T., Padgett D., Madero J. S., Ramirez B. C., Belaunzaran P., Vega Y. C., Gotuzzo E., Carriquiry G., McGowan C. C., Shepherd B. E., Sterling T., Jayathilake K., Person A. K., Rebeiro P. F., Giganti M., Castilho J., Duda S. N., Maruri F., Vansell H., P E Lagie N., Gateretse P., Munezero J., Nitereka V., Niyongabo T., Twizere C., Bukuru H., Nahimana T., Biziragusenyuka J., Manyundo R. S., Atsu K., Mbuh T., Ajeh R., Benwi M., Dzudie A., Mbuh A., Ngamani M. L., Nkome V., Amadou D., Ngassam E., Pefura Yone E. W., Ewanoge A. N., Fuhngwa N., Moki C., Akele C., Kitetele F., Lelo P., Tabala M., Okitolonda E. W., Wenzi L., Diafouka M., Ekat M. H., Nsonde D. M., Mafou A., Ntarambirwa F., Tuyishimire Y., Hakizimana T., Ayinkamiye J., Mukantwali S., Kayitesi H., Uwamahoro O., Habumuremyi V., Mukamana J., Kubwimana G., Mugenzi P., Muhoza B., Munyaneza A., Ndahiro E., Nyiransabimana D., D'Amour Sinayobye J., Sugira V., Benekigeri C., Mbaraga G., Adedimeji A., Anastos K., Dilorenzo M., Murchison L., Ross J., Addison D., Baker M., Brazier E., Jones H., Kelvin E., Kulkarni S., Nash D., Tymejczyk O., Elul B., Cai X., Hoover D., Kim H. -Y., Li C., Shi Q., Lancaster K., Kuniholm M., Parcesepe A., Duda S., Kimmel A., McNairy M., Diero L., Plus A. M. P. A. T. H., Bukusi E., Ssali J., Nalugoda F., Somi G. R., Lyamuya R. E., Ngonyani K., Lugina E., Urassa M., Michael D., Zannou M. D., Poda A., Sarfo F. S., Messou E., Chenal H., Minga K. A., Bissagnene E., Tanon A., Seydi M., Patassi A. A., Koumakpai-Adeothy S. A., Renner L. A., N'gbeche S. M., Bosse C. A., Kouakou K., Folquet M. A., Eboua F. c. O. T., Traore F. D., Dabis F. c. O., Arrive E., Balestre E., Becquet R., Bernard C., Arikawa S. C., Doring A., Jaquet A., Rabourdin E., Tiendrebeogo T., Jesson J., Ekouevi D. K., Azani J. -C., Coffi E P., Gnepa G., Kouadio C. G. K., Tchounga B., Maartens G., Lettow M. V., Muhairwe J., Jores A., Kamenova K., Fox M. P., Prozesky H., Zangerle R., Touloumi G., Warszawski J., Meyer L., Krause M. M., Ghosn J., Leport C., Wittkop L., Reiss P., Wit F., Prins M., Bucher H., Gibb D., Fatkenheuer G., Del Amo J., Obel N., Thorne C., Mocroft A., Kirk O., Stephan C., Perez-Hoyos S., Hamouda O., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Antinori A., D'Arminio Monforte A., Brockmeyer N., Prieto L., Conejo P. R., Soriano-Arandes A., Battegay M., Kouyos R., Mussini C., Tookey P., Casabona J., Miro J. M., Castagna A., Konopnick D., Goetghebuer T., Sonnerborg A., Torti C., Sabin C., Teira R., Garrido M., Haerry D., de Wit S., Costagliola D., Raben D., Barger D., Schwimmer C., Termote M., Campbell M., Frederiksen C. M., Friis-Moller N., Kjaer J., Brandt R. S., Berenguer J., Bohlius J., Bouteloup V., Cozzi-Lepri A., Dorrucci M., Dunn D., Furrer H., Guiguet M., Lambotte O., Lodi S., Matheron S., Miro J. M. a., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Rohner E., Schomaker M., Sterne J., Thiebaut R., van der Valk M., Hazra R., Heckman B., O'gara E., Siminski S., Panayidou, K, Davies, M, Anderegg, N, Egger, M, Fatti, G, Vinikoor, M, Sawry, S, Ehmer, J, Eley, B, Phiri, S, Technau, K, Chimbetete, C, Rabie, H, Boulle, A, Tanser, F, Wood, R, Wools-Kaloustian, K, Vreeman, R, Oyaro, P, Ayaya, S, Nakigozi, G, Musick, B, Yiannoutsos, C, Amorissani-Folquet, M, Takassi, E, Sylla, M, Renner, L, Malateste, K, Desmonde, S, Leroy, V, Kurniati, N, Hansudewechakul, R, Nguyen, L, Ly, P, Truong, K, Kariminia, A, Sohn, A, Edmonds, A, Yumo, H, Dusingize, J, Yotebieng, M, Judd, A, Rojo, P, Smit, C, Grabar, S, Warszwarski, J, Chene, G, Raban, D, Patel, K, Seage, G, Van Dyke, R, Oleske, J, Williams, P, Abzug, M, Succi, R, Machado, D, Pinto, J, Rouzier, V, Luque, M, Mejia, F, Khol, V, Tucker, J, Kumarasamy, N, Saghayam, S, Chandrasekaran, E, Wati, D, Vedaswari, D, Malino, I, Muktiarti, D, Fong, S, Lim, M, Daut, F, Nik Yusoff, N, Mohamad, P, Mohamed, T, Drawis, M, Nallusamy, R, Chan, K, Sudjaritruk, T, Sirisanthana, V, Aurpibul, L, Oberdorfer, P, Denjanta, S, Watanaporn, S, Kongphonoi, A, Lumbiganon, P, Kosalaraksa, P, Tharnprisan, P, Udomphanit, T, Jourdain, G, Puthanakit, T, Anugulruengkitt, S, Phadungphon, C, Chokephaibulkit, K, Lapphra, K, Phongsamart, W, Sricharoenchai, S, Du, Q, Nguyen, C, Do, V, Ha, T, An, V, Khu, D, Pham, A, Le, O, Ross, J, Sethaputra, C, Law, M, Cahn, P, Cesar, C, Fink, V, Sued, O, Dell'Isola, E, Perez, H, Valiente, J, Yamamoto, C, Grinsztejn, B, Veloso, V, Luz, P, de Boni, R, Wagner, S, Friedman, R, Moreira, R, Ferreira, F, Maia, M, de Menezes Succi, R, Barbosa Gouv E A, A, Wolff, M, Cortes, C, Rodriguez, M, Allendes, G, Pape, J, Marcelin, A, Perodin, C, Padgett, D, Madero, J, Ramirez, B, Belaunzaran, P, Vega, Y, Gotuzzo, E, Carriquiry, G, Mcgowan, C, Shepherd, B, Sterling, T, Jayathilake, K, Person, A, Rebeiro, P, Giganti, M, Castilho, J, Duda, S, Maruri, F, Vansell, H, P E Lagie, N, Gateretse, P, Munezero, J, Nitereka, V, Niyongabo, T, Twizere, C, Bukuru, H, Nahimana, T, Biziragusenyuka, J, Manyundo, R, Atsu, K, Mbuh, T, Ajeh, R, Benwi, M, Dzudie, A, Mbuh, A, Ngamani, M, Nkome, V, Amadou, D, Ngassam, E, Pefura Yone, E, Ewanoge, A, Fuhngwa, N, Moki, C, Akele, C, Kitetele, F, Lelo, P, Tabala, M, Okitolonda, E, Wenzi, L, Diafouka, M, Ekat, M, Nsonde, D, Mafou, A, Ntarambirwa, F, Tuyishimire, Y, Hakizimana, T, Ayinkamiye, J, Mukantwali, S, Kayitesi, H, Uwamahoro, O, Habumuremyi, V, Mukamana, J, Kubwimana, G, Mugenzi, P, Muhoza, B, Munyaneza, A, Ndahiro, E, Nyiransabimana, D, D'Amour Sinayobye, J, Sugira, V, Benekigeri, C, Mbaraga, G, Adedimeji, A, Anastos, K, Dilorenzo, M, Murchison, L, Addison, D, Baker, M, Brazier, E, Jones, H, Kelvin, E, Kulkarni, S, Nash, D, Tymejczyk, O, Elul, B, Cai, X, Hoover, D, Kim, H, Li, C, Shi, Q, Lancaster, K, Kuniholm, M, Parcesepe, A, Kimmel, A, Mcnairy, M, Diero, L, Plus, A, Bukusi, E, Ssali, J, Nalugoda, F, Somi, G, Lyamuya, R, Ngonyani, K, Lugina, E, Urassa, M, Michael, D, Zannou, M, Poda, A, Sarfo, F, Messou, E, Chenal, H, Minga, K, Bissagnene, E, Tanon, A, Seydi, M, Patassi, A, Koumakpai-Adeothy, S, N'Gbeche, S, Bosse, C, Kouakou, K, Folquet, M, Eboua, F, Traore, F, Dabis, F, Arrive, E, Balestre, E, Becquet, R, Bernard, C, Arikawa, S, Doring, A, Jaquet, A, Rabourdin, E, Tiendrebeogo, T, Jesson, J, Ekouevi, D, Azani, J, Coffi E, P, Gnepa, G, Kouadio, C, Tchounga, B, Maartens, G, Lettow, M, Muhairwe, J, Jores, A, Kamenova, K, Fox, M, Prozesky, H, Zangerle, R, Touloumi, G, Warszawski, J, Meyer, L, Krause, M, Ghosn, J, Leport, C, Wittkop, L, Reiss, P, Wit, F, Prins, M, Bucher, H, Gibb, D, Fatkenheuer, G, Del Amo, J, Obel, N, Thorne, C, Mocroft, A, Kirk, O, Stephan, C, Perez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, D'Arminio Monforte, A, Brockmeyer, N, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Mussini, C, Tookey, P, Casabona, J, Miro, J, Castagna, A, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Torti, C, Sabin, C, Teira, R, Garrido, M, Haerry, D, de Wit, S, Costagliola, D, Raben, D, Barger, D, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Brandt, R, Berenguer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Dorrucci, M, Dunn, D, Furrer, H, Guiguet, M, Lambotte, O, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Rohner, E, Schomaker, M, Sterne, J, Thiebaut, R, van der Valk, M, Hazra, R, Heckman, B, O'Gara, E, Siminski, S, Panayidou K., Davies M. -A., Anderegg N., Egger M., Fatti G., Vinikoor M., Sawry S., Ehmer J., Eley B., Phiri S., Technau K. -G. u. N., Chimbetete C., Rabie H., Boulle A., Tanser F., Wood R., Wools-Kaloustian K., Vreeman R., Oyaro P., Ayaya S., Nakigozi G., Musick B., Yiannoutsos C., Amorissani-Folquet M., Takassi E., Sylla M., Renner L., Malateste K., Desmonde S., Leroy V., Kurniati N., Hansudewechakul R., Nguyen L. V., Ly P. S., Truong K. H., Kariminia A., Sohn A. H., Edmonds A., Yumo H. A., Dusingize J. C., Yotebieng M., Judd A., Rojo P., Smit C., Grabar S., Warszwarski J., Chene G., Raban D., Patel K., Seage G. R., Van Dyke R. B., Oleske J., Williams P. L., Abzug M. J., Succi R., Machado D. M., Pinto J., Rouzier V., Luque M., Mejia F., Khol V., Tucker J., Kumarasamy N., Saghayam S., Chandrasekaran E., Wati D. K., Vedaswari D., Malino I. Y., Muktiarti D., Fong S. M., Lim M., Daut F., Nik Yusoff N. K., Mohamad P., Mohamed T. J., Drawis M. R., Nallusamy R., Chan K. C., Sudjaritruk T., Sirisanthana V., Aurpibul L., Oberdorfer P., Denjanta S., Watanaporn S., Kongphonoi A., Lumbiganon P., Kosalaraksa P., Tharnprisan P., Udomphanit T., Jourdain G., Puthanakit T., Anugulruengkitt S., Phadungphon C., Chokephaibulkit K., Lapphra K., Phongsamart W., Sricharoenchai S., Du Q. T., Nguyen C. H., Do V. C., Ha T. M., An V. T., Khu D. T. K., Pham A. N., Nguyen L. T., Le O. N., Ross J. L., Sethaputra C., Law M. G., Cahn P., Cesar C., Fink V., Sued O., Dell'isola E., Perez H., Valiente J., Yamamoto C., Grinsztejn B., Veloso V., Luz P., de Boni R., Wagner S. C., Friedman R., Moreira R., Ferreira F., Maia M., de Menezes Succi R. C., Barbosa Gouv E A A. F. a. T., Wolff M., Cortes C., Rodriguez M. F., Allendes G., Pape J. W., Marcelin A., Perodin C., Luque M. T., Padgett D., Madero J. S., Ramirez B. C., Belaunzaran P., Vega Y. C., Gotuzzo E., Carriquiry G., McGowan C. C., Shepherd B. E., Sterling T., Jayathilake K., Person A. K., Rebeiro P. F., Giganti M., Castilho J., Duda S. N., Maruri F., Vansell H., P E Lagie N., Gateretse P., Munezero J., Nitereka V., Niyongabo T., Twizere C., Bukuru H., Nahimana T., Biziragusenyuka J., Manyundo R. S., Atsu K., Mbuh T., Ajeh R., Benwi M., Dzudie A., Mbuh A., Ngamani M. L., Nkome V., Amadou D., Ngassam E., Pefura Yone E. W., Ewanoge A. N., Fuhngwa N., Moki C., Akele C., Kitetele F., Lelo P., Tabala M., Okitolonda E. W., Wenzi L., Diafouka M., Ekat M. H., Nsonde D. M., Mafou A., Ntarambirwa F., Tuyishimire Y., Hakizimana T., Ayinkamiye J., Mukantwali S., Kayitesi H., Uwamahoro O., Habumuremyi V., Mukamana J., Kubwimana G., Mugenzi P., Muhoza B., Munyaneza A., Ndahiro E., Nyiransabimana D., D'Amour Sinayobye J., Sugira V., Benekigeri C., Mbaraga G., Adedimeji A., Anastos K., Dilorenzo M., Murchison L., Ross J., Addison D., Baker M., Brazier E., Jones H., Kelvin E., Kulkarni S., Nash D., Tymejczyk O., Elul B., Cai X., Hoover D., Kim H. -Y., Li C., Shi Q., Lancaster K., Kuniholm M., Parcesepe A., Duda S., Kimmel A., McNairy M., Diero L., Plus A. M. P. A. T. H., Bukusi E., Ssali J., Nalugoda F., Somi G. R., Lyamuya R. E., Ngonyani K., Lugina E., Urassa M., Michael D., Zannou M. D., Poda A., Sarfo F. S., Messou E., Chenal H., Minga K. A., Bissagnene E., Tanon A., Seydi M., Patassi A. A., Koumakpai-Adeothy S. A., Renner L. A., N'gbeche S. M., Bosse C. A., Kouakou K., Folquet M. A., Eboua F. c. O. T., Traore F. D., Dabis F. c. O., Arrive E., Balestre E., Becquet R., Bernard C., Arikawa S. C., Doring A., Jaquet A., Rabourdin E., Tiendrebeogo T., Jesson J., Ekouevi D. K., Azani J. -C., Coffi E P., Gnepa G., Kouadio C. G. K., Tchounga B., Maartens G., Lettow M. V., Muhairwe J., Jores A., Kamenova K., Fox M. P., Prozesky H., Zangerle R., Touloumi G., Warszawski J., Meyer L., Krause M. M., Ghosn J., Leport C., Wittkop L., Reiss P., Wit F., Prins M., Bucher H., Gibb D., Fatkenheuer G., Del Amo J., Obel N., Thorne C., Mocroft A., Kirk O., Stephan C., Perez-Hoyos S., Hamouda O., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Antinori A., D'Arminio Monforte A., Brockmeyer N., Prieto L., Conejo P. R., Soriano-Arandes A., Battegay M., Kouyos R., Mussini C., Tookey P., Casabona J., Miro J. M., Castagna A., Konopnick D., Goetghebuer T., Sonnerborg A., Torti C., Sabin C., Teira R., Garrido M., Haerry D., de Wit S., Costagliola D., Raben D., Barger D., Schwimmer C., Termote M., Campbell M., Frederiksen C. M., Friis-Moller N., Kjaer J., Brandt R. S., Berenguer J., Bohlius J., Bouteloup V., Cozzi-Lepri A., Dorrucci M., Dunn D., Furrer H., Guiguet M., Lambotte O., Lodi S., Matheron S., Miro J. M. a., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Rohner E., Schomaker M., Sterne J., Thiebaut R., van der Valk M., Hazra R., Heckman B., O'gara E., and Siminski S.

Abstract

Introduction: The CD4 cell count and percent at initiation of combination antiretroviral therapy (cART) are measures of advanced HIV disease and thus are important indicators of programme performance for children living with HIV. In particular, World Health Organization (WHO) 2017 guidelines on advanced HIV disease noted that >80% of children aged <5 years started cART with WHO Stage 3 or 4 disease or severe immune suppression. We compared temporal trends in CD4 measures at cART start in children from low-, middle- and high-income countries, and examined the effect of WHO treatment initiation guidelines on reducing the proportion of children initiating cART with advanced disease. Methods: We included children aged <16 years from the International Epidemiology Databases to Evaluate acquired immunodeficiency syndrome (AIDS) (IeDEA) Collaboration (Caribbean, Central and South America, Asia-Pacific, and West, Central, East and Southern Africa), the Collaboration of Observational HIV Epidemiological Research in Europe (COHERE), the North American Pediatric HIV/AIDS Cohort Study (PHACS) and International Maternal Pediatric Adolescent AIDS Clinical Trials (IMPAACT) 219C study. Severe immunodeficiency was defined using WHO guidelines. We used generalized weighted additive mixed effect models to analyse temporal trends in CD4 measurements and piecewise regression to examine the impact of 2006 and 2010 WHO cART initiation guidelines. Results: We included 52,153 children from fourteen low-, eight lower middle-, five upper middle- and five high-income countries. From 2004 to 2013, the estimated percentage of children starting cART with severe immunodeficiency declined from 70% to 42% (low-income), 67% to 64% (lower middle-income) and 61% to 43% (upper middle-income countries). In high-income countries, severe immunodeficiency at cART initiation declined from 45% (1996) to 14% (2012). There were annual decreases in the percentage of children with severe immuno

Published

2018

11. Immunological and virological response to antiretroviral treatment in migrant and native men and women in Western Europe; is benefit equal for all?

Author

Monge, S, Mocroft, A, Sabin, A, Touloumi, G, Sighem, A, Abgrall, S, Dray-Spira, R, Spire, B, Castagna, A, Mussini, C, Zangerle, R, Hessamfar, M, Anderson, J, Hamouda, O, Ehren, K, Obel, N, Kirk, O, Antinori, A, Girardi, E, Saracino, A, Calmy, A, Wit, S, Wittkop, L, Bucher, C, Montoliu, A, Raben, D, Prins, M, Meyer, L, Chene, G, Burns, F, Amo, J, Judd, A, Warszawski, J, Dabis, F, Krause, M, Ghosn, J, Leport, C, Reiss, P, Wit, F, Bucher, H, Gibb, D, Fatkenheuer, G, Thorne, C, Stephan, C, Perez-Hoyos, S, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Monforte, A, Brockmeyer, N, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Tookey, P, Casabona, J, Miro, J, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Torti, C, Sabin, C, Teira, R, Garrido, M, Haerry, D, Miro, M, Costagliola, D, d'Arminio-Monforte, A, Barger, D, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Brandt, R, Berenguer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Davies, M, Dorrucci, M, Dunn, D, Egger, M, Furrer, H, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Rohner, E, Schomaker, M, Smit, C, Sterne, J, Thiebaut, R, Valk, M, Monge S., Mocroft A., Sabin A., Touloumi G., Sighem A., Abgrall S., Dray-Spira R., Spire B., Castagna A., Mussini C., Zangerle R., Hessamfar M., Anderson J., Hamouda O., Ehren K., Obel N., Kirk O., Antinori A., Girardi E., Saracino A., Calmy A., Wit S., Wittkop L., Bucher C., Montoliu A., Raben D., Prins M., Meyer L., Chene G., Burns F., Amo J., Judd A., Warszawski J., Dabis F., Krause M., Ghosn J., Leport C., Reiss P., Wit F., Bucher H., Gibb D., Fatkenheuer G., Thorne C., Stephan C., Perez-Hoyos S., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Monforte A., Brockmeyer N., Prieto L., Conejo P., Soriano-Arandes A., Battegay M., Kouyos R., Tookey P., Casabona J., Miro J., Konopnick D., Goetghebuer T., Sonnerborg A., Torti C., Sabin C., Teira R., Garrido M., Haerry D., Miro M., Costagliola D., d'Arminio-Monforte A., Barger D., Schwimmer C., Termote M., Campbell M., Frederiksen C. M., Friis-Moller N., Kjaer J., Brandt R., Berenguer J., Bohlius J., Bouteloup V., Cozzi-Lepri A., Davies M. -A., Dorrucci M., Dunn D., Egger M., Furrer H., Guiguet M., Grabar S., Lambotte O., Leroy V., Lodi S., Matheron S., Nakagawa F., Paredes R., Phillips A., Puoti M., Rohner E., Schomaker M., Smit C., Sterne J., Thiebaut R., Valk M., Monge, S, Mocroft, A, Sabin, A, Touloumi, G, Sighem, A, Abgrall, S, Dray-Spira, R, Spire, B, Castagna, A, Mussini, C, Zangerle, R, Hessamfar, M, Anderson, J, Hamouda, O, Ehren, K, Obel, N, Kirk, O, Antinori, A, Girardi, E, Saracino, A, Calmy, A, Wit, S, Wittkop, L, Bucher, C, Montoliu, A, Raben, D, Prins, M, Meyer, L, Chene, G, Burns, F, Amo, J, Judd, A, Warszawski, J, Dabis, F, Krause, M, Ghosn, J, Leport, C, Reiss, P, Wit, F, Bucher, H, Gibb, D, Fatkenheuer, G, Thorne, C, Stephan, C, Perez-Hoyos, S, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Monforte, A, Brockmeyer, N, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Tookey, P, Casabona, J, Miro, J, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Torti, C, Sabin, C, Teira, R, Garrido, M, Haerry, D, Miro, M, Costagliola, D, d'Arminio-Monforte, A, Barger, D, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Brandt, R, Berenguer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Davies, M, Dorrucci, M, Dunn, D, Egger, M, Furrer, H, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Rohner, E, Schomaker, M, Smit, C, Sterne, J, Thiebaut, R, Valk, M, Monge S., Mocroft A., Sabin A., Touloumi G., Sighem A., Abgrall S., Dray-Spira R., Spire B., Castagna A., Mussini C., Zangerle R., Hessamfar M., Anderson J., Hamouda O., Ehren K., Obel N., Kirk O., Antinori A., Girardi E., Saracino A., Calmy A., Wit S., Wittkop L., Bucher C., Montoliu A., Raben D., Prins M., Meyer L., Chene G., Burns F., Amo J., Judd A., Warszawski J., Dabis F., Krause M., Ghosn J., Leport C., Reiss P., Wit F., Bucher H., Gibb D., Fatkenheuer G., Thorne C., Stephan C., Perez-Hoyos S., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Monforte A., Brockmeyer N., Prieto L., Conejo P., Soriano-Arandes A., Battegay M., Kouyos R., Tookey P., Casabona J., Miro J., Konopnick D., Goetghebuer T., Sonnerborg A., Torti C., Sabin C., Teira R., Garrido M., Haerry D., Miro M., Costagliola D., d'Arminio-Monforte A., Barger D., Schwimmer C., Termote M., Campbell M., Frederiksen C. M., Friis-Moller N., Kjaer J., Brandt R., Berenguer J., Bohlius J., Bouteloup V., Cozzi-Lepri A., Davies M. -A., Dorrucci M., Dunn D., Egger M., Furrer H., Guiguet M., Grabar S., Lambotte O., Leroy V., Lodi S., Matheron S., Nakagawa F., Paredes R., Phillips A., Puoti M., Rohner E., Schomaker M., Smit C., Sterne J., Thiebaut R., and Valk M.

Abstract

Objectives: The aim of the study was to evaluate differences in immunovirological response to combination antiretroviral therapy (cART) in migrant and native men and women within a European collaboration of HIV cohorts Collaboration of Observational HIV Epidemiological Research in Europ (COHERE) in EuroCoord, 2004–2013. Methods: Migrants were defined as those with geographical origin (GO) different from the reporting country and were grouped as originating from Western Europe and Western Countries (WEWC), Eastern Europe (EE), North Africa and the Middle East (NAME), sub-Saharan Africa (SSA), Latin America (LA), Caribbean (CRB) and Asia/Oceania (ASIA/OCE). Native (NAT) individuals were defined as those originating from the reporting country. CD4 cell counts were modelled using piecewise linear mixed-effects models with two slopes, whereas models to estimate subdistribution hazard ratios (sHRs) were used for time to virological response (VR) (i.e. time from cART initiation to the first of two successive HIV RNA measurements < 400 HIV-1 RNA copies/ml). Results: Of 32 817 individuals, 25 799 (78.6%) were men. The percentage of migrants was higher in women (48.9%) than in men (21.2%) and migrants from SSA accounted for the largest migrant group (29.9% in men and 63.3% in women). Migrant men and women from SSA started at lower CD4 cell counts than NAT individuals, which remained lower over time. VR was ≥ 85% at 12 months for all groups except CRB women (77.7%). Compared with NAT men and women, lower VR was experienced by NAME [sHR 0.91; 95% confidence interval (CI) 0.86–0.97] and SSA (sHR 0.88; 95% CI 0.82–0.95) men and CRB (sHR 0.77; 85% CI 0.67–0.89) women, respectively. Conclusions: Immunovirological response to cART in Western Europe varies by GO and sex of patients. ART benefits are not equal for all, underlining the point that efforts need to prioritize those most in need.

Published

2018

12. Demographic and Socio-economic Determinants of Poor HIV-risk Perception at First HIV Diagnosis: Analysis of the HIV Surveillance Data, Italy 2010-2016

Author

Dorrucci, M., Regine, V., Pezzotti, P., Mammone, A., Girardi, E., Suligoi, B, Icardi, G, and Lai, P.

Subjects

Adult, Male, Adolescent, Social Determinants of Health, Epidemiology, Sexual Behavior, HIV Infections, Risk Assessment, Young Adult, Odds Ratio, Humans, Substance Abuse, Intravenous, Aged, HIV, Risk-perception, Aged, 80 and over, Motivation, Age Factors, AIDS Serodiagnosis, Middle Aged, Patient Acceptance of Health Care, CD4 Lymphocyte Count, Italy, Population Surveillance, Educational Status, Female, Attitude to Health

Abstract

HIV infections in Italy has not undergone a substantial decline over recent years. For this reason, we analysed risk-factors and socio-economic indicators of HIV-risk perception in HIV surveillance data.An observational study was conducted and HIV-risk perception was estimated on the basis of reasons for undergoing testing. Ordinal logistic models were applied with three groups of response corresponding to three ordered levels of HIV-risk perception.The study included 18 055 individuals: 27% with low, 40% moderate and 33% with high perception. A low risk perception was estimated in both areas, least deprived and highly deprived [Adjusted Odds Ratio (AOR) = 1.58, CI: 1.14-2.18 and AOR = 2.33, CI: 1.39-3.90]; for heterosexuals (AOR = 1.96, CI: 1.83-2.11), Injecting Drug Users (IDU) (AOR =1.82, CI: 1.59-2.08), low education (AOR = 1.74. CI: 1.20-2.54), age40 years (AOR = 1.59, CI: 1.50-1.69), males (AOR = 1.30, CI: 1.20-1.40).In Italy there is a high percentage of HIV-infected people with poor HIV-risk perception. Poorer HIV-risk perception was associated with both, least and high deprivation, low education, older age, male gender, heterosexual and IDU groups. Our results could be relevant to address targeted HIV testing policies at both local and national levels.

Published

2020

13. Global temporal changes in the proportion of children with advanced disease at the start of combination antiretroviral therapy in an era of changing criteria for treatment initiation

Author

Panayidou K., Davies M. -A., Anderegg N., Egger M., Fatti G., Vinikoor M., Sawry S., Ehmer J., Eley B., Phiri S., Technau K. -G. u. N., Chimbetete C., Rabie H., Boulle A., Tanser F., Wood R., Wools-Kaloustian K., Vreeman R., Oyaro P., Ayaya S., Nakigozi G., Musick B., Yiannoutsos C., Amorissani-Folquet M., Takassi E., Sylla M., Renner L., Malateste K., Desmonde S., Leroy V., Kurniati N., Hansudewechakul R., Nguyen L. V., Ly P. S., Truong K. H., Kariminia A., Sohn A. H., Edmonds A., Yumo H. A., Dusingize J. C., Yotebieng M., Judd A., Rojo P., Smit C., Grabar S., Warszwarski J., Chene G., Raban D., Patel K., Seage G. R., Van Dyke R. B., Oleske J., Williams P. L., Abzug M. J., Succi R., Machado D. M., Pinto J., Rouzier V., Luque M., Mejia F., Khol V., Tucker J., Kumarasamy N., Saghayam S., Chandrasekaran E., Wati D. K., Vedaswari D., Malino I. Y., Muktiarti D., Fong S. M., Lim M., Daut F., Nik Yusoff N. K., Mohamad P., Mohamed T. J., Drawis M. R., Nallusamy R., Chan K. C., Sudjaritruk T., Sirisanthana V., Aurpibul L., Oberdorfer P., Denjanta S., Watanaporn S., Kongphonoi A., Lumbiganon P., Kosalaraksa P., Tharnprisan P., Udomphanit T., Jourdain G., Puthanakit T., Anugulruengkitt S., Phadungphon C., Chokephaibulkit K., Lapphra K., Phongsamart W., Sricharoenchai S., Du Q. T., Nguyen C. H., Do V. C., Ha T. M., An V. T., Khu D. T. K., Pham A. N., Nguyen L. T., Le O. N., Ross J. L., Sethaputra C., Law M. G., Cahn P., Cesar C., Fink V., Sued O., Dell'isola E., Perez H., Valiente J., Yamamoto C., Grinsztejn B., Veloso V., Luz P., de Boni R., Wagner S. C., Friedman R., Moreira R., Ferreira F., Maia M., de Menezes Succi R. C., Barbosa Gouv E A A. F. a. T., Wolff M., Cortes C., Rodriguez M. F., Allendes G., Pape J. W., Marcelin A., Perodin C., Luque M. T., Padgett D., Madero J. S., Ramirez B. C., Belaunzaran P., Vega Y. C., Gotuzzo E., Carriquiry G., McGowan C. C., Shepherd B. E., Sterling T., Jayathilake K., Person A. K., Rebeiro P. F., Giganti M., Castilho J., Duda S. N., Maruri F., Vansell H., P E Lagie N., Gateretse P., Munezero J., Nitereka V., Niyongabo T., Twizere C., Bukuru H., Nahimana T., Biziragusenyuka J., Manyundo R. S., Atsu K., Mbuh T., Ajeh R., Benwi M., Dzudie A., Mbuh A., Ngamani M. L., Nkome V., Amadou D., Ngassam E., Pefura Yone E. W., Ewanoge A. N., Fuhngwa N., Moki C., Akele C., Kitetele F., Lelo P., Tabala M., Okitolonda E. W., Wenzi L., Diafouka M., Ekat M. H., Nsonde D. M., Mafou A., Ntarambirwa F., Tuyishimire Y., Hakizimana T., Ayinkamiye J., Mukantwali S., Kayitesi H., Uwamahoro O., Habumuremyi V., Mukamana J., Kubwimana G., Mugenzi P., Muhoza B., Munyaneza A., Ndahiro E., Nyiransabimana D., D'Amour Sinayobye J., Sugira V., Benekigeri C., Mbaraga G., Adedimeji A., Anastos K., Dilorenzo M., Murchison L., Ross J., Addison D., Baker M., Brazier E., Jones H., Kelvin E., Kulkarni S., Nash D., Tymejczyk O., Elul B., Cai X., Hoover D., Kim H. -Y., Li C., Shi Q., Lancaster K., Kuniholm M., Parcesepe A., Duda S., Kimmel A., McNairy M., Diero L., Plus A. M. P. A. T. H., Bukusi E., Ssali J., Nalugoda F., Somi G. R., Lyamuya R. E., Ngonyani K., Lugina E., Urassa M., Michael D., Zannou M. D., Poda A., Sarfo F. S., Messou E., Chenal H., Minga K. A., Bissagnene E., Tanon A., Seydi M., Patassi A. A., Koumakpai-Adeothy S. A., Renner L. A., N'gbeche S. M., Bosse C. A., Kouakou K., Folquet M. A., Eboua F. c. O. T., Traore F. D., Dabis F. c. O., Arrive E., Balestre E., Becquet R., Bernard C., Arikawa S. C., Doring A., Jaquet A., Rabourdin E., Tiendrebeogo T., Jesson J., Ekouevi D. K., Azani J. -C., Coffi E P., Gnepa G., Kouadio C. G. K., Tchounga B., Maartens G., Lettow M. V., Muhairwe J., Jores A., Kamenova K., Fox M. P., Prozesky H., Zangerle R., Touloumi G., Warszawski J., Meyer L., Krause M. M., Ghosn J., Leport C., Wittkop L., Reiss P., Wit F., Prins M., Bucher H., Gibb D., Fatkenheuer G., Del Amo J., Obel N., Thorne C., Mocroft A., Kirk O., Stephan C., Perez-Hoyos S., Hamouda O., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Antinori A., D'Arminio Monforte A., Brockmeyer N., Prieto L., Conejo P. R., Soriano-Arandes A., Battegay M., Kouyos R., Mussini C., Tookey P., Casabona J., Miro J. M., Castagna A., Konopnick D., Goetghebuer T., Sonnerborg A., Torti C., Sabin C., Teira R., Garrido M., Haerry D., de Wit S., Costagliola D., Raben D., Barger D., Schwimmer C., Termote M., Campbell M., Frederiksen C. M., Friis-Moller N., Kjaer J., Brandt R. S., Berenguer J., Bohlius J., Bouteloup V., Cozzi-Lepri A., Dorrucci M., Dunn D., Furrer H., Guiguet M., Lambotte O., Lodi S., Matheron S., Miro J. M. ª., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Rohner E., Schomaker M., Sterne J., Thiebaut R., van der Valk M., Hazra R., Heckman B., O'gara E., Siminski S., Panayidou, K, Davies, M, Anderegg, N, Egger, M, Fatti, G, Vinikoor, M, Sawry, S, Ehmer, J, Eley, B, Phiri, S, Technau, K, Chimbetete, C, Rabie, H, Boulle, A, Tanser, F, Wood, R, Wools-Kaloustian, K, Vreeman, R, Oyaro, P, Ayaya, S, Nakigozi, G, Musick, B, Yiannoutsos, C, Amorissani-Folquet, M, Takassi, E, Sylla, M, Renner, L, Malateste, K, Desmonde, S, Leroy, V, Kurniati, N, Hansudewechakul, R, Nguyen, L, Ly, P, Truong, K, Kariminia, A, Sohn, A, Edmonds, A, Yumo, H, Dusingize, J, Yotebieng, M, Judd, A, Rojo, P, Smit, C, Grabar, S, Warszwarski, J, Chene, G, Raban, D, Patel, K, Seage, G, Van Dyke, R, Oleske, J, Williams, P, Abzug, M, Succi, R, Machado, D, Pinto, J, Rouzier, V, Luque, M, Mejia, F, Khol, V, Tucker, J, Kumarasamy, N, Saghayam, S, Chandrasekaran, E, Wati, D, Vedaswari, D, Malino, I, Muktiarti, D, Fong, S, Lim, M, Daut, F, Nik Yusoff, N, Mohamad, P, Mohamed, T, Drawis, M, Nallusamy, R, Chan, K, Sudjaritruk, T, Sirisanthana, V, Aurpibul, L, Oberdorfer, P, Denjanta, S, Watanaporn, S, Kongphonoi, A, Lumbiganon, P, Kosalaraksa, P, Tharnprisan, P, Udomphanit, T, Jourdain, G, Puthanakit, T, Anugulruengkitt, S, Phadungphon, C, Chokephaibulkit, K, Lapphra, K, Phongsamart, W, Sricharoenchai, S, Du, Q, Nguyen, C, Do, V, Ha, T, An, V, Khu, D, Pham, A, Le, O, Ross, J, Sethaputra, C, Law, M, Cahn, P, Cesar, C, Fink, V, Sued, O, Dell'Isola, E, Perez, H, Valiente, J, Yamamoto, C, Grinsztejn, B, Veloso, V, Luz, P, de Boni, R, Wagner, S, Friedman, R, Moreira, R, Ferreira, F, Maia, M, de Menezes Succi, R, Barbosa Gouv E A, A, Wolff, M, Cortes, C, Rodriguez, M, Allendes, G, Pape, J, Marcelin, A, Perodin, C, Padgett, D, Madero, J, Ramirez, B, Belaunzaran, P, Vega, Y, Gotuzzo, E, Carriquiry, G, Mcgowan, C, Shepherd, B, Sterling, T, Jayathilake, K, Person, A, Rebeiro, P, Giganti, M, Castilho, J, Duda, S, Maruri, F, Vansell, H, P E Lagie, N, Gateretse, P, Munezero, J, Nitereka, V, Niyongabo, T, Twizere, C, Bukuru, H, Nahimana, T, Biziragusenyuka, J, Manyundo, R, Atsu, K, Mbuh, T, Ajeh, R, Benwi, M, Dzudie, A, Mbuh, A, Ngamani, M, Nkome, V, Amadou, D, Ngassam, E, Pefura Yone, E, Ewanoge, A, Fuhngwa, N, Moki, C, Akele, C, Kitetele, F, Lelo, P, Tabala, M, Okitolonda, E, Wenzi, L, Diafouka, M, Ekat, M, Nsonde, D, Mafou, A, Ntarambirwa, F, Tuyishimire, Y, Hakizimana, T, Ayinkamiye, J, Mukantwali, S, Kayitesi, H, Uwamahoro, O, Habumuremyi, V, Mukamana, J, Kubwimana, G, Mugenzi, P, Muhoza, B, Munyaneza, A, Ndahiro, E, Nyiransabimana, D, D'Amour Sinayobye, J, Sugira, V, Benekigeri, C, Mbaraga, G, Adedimeji, A, Anastos, K, Dilorenzo, M, Murchison, L, Addison, D, Baker, M, Brazier, E, Jones, H, Kelvin, E, Kulkarni, S, Nash, D, Tymejczyk, O, Elul, B, Cai, X, Hoover, D, Kim, H, Li, C, Shi, Q, Lancaster, K, Kuniholm, M, Parcesepe, A, Kimmel, A, Mcnairy, M, Diero, L, Plus, A, Bukusi, E, Ssali, J, Nalugoda, F, Somi, G, Lyamuya, R, Ngonyani, K, Lugina, E, Urassa, M, Michael, D, Zannou, M, Poda, A, Sarfo, F, Messou, E, Chenal, H, Minga, K, Bissagnene, E, Tanon, A, Seydi, M, Patassi, A, Koumakpai-Adeothy, S, N'Gbeche, S, Bosse, C, Kouakou, K, Folquet, M, Eboua, F, Traore, F, Dabis, F, Arrive, E, Balestre, E, Becquet, R, Bernard, C, Arikawa, S, Doring, A, Jaquet, A, Rabourdin, E, Tiendrebeogo, T, Jesson, J, Ekouevi, D, Azani, J, Coffi E, P, Gnepa, G, Kouadio, C, Tchounga, B, Maartens, G, Lettow, M, Muhairwe, J, Jores, A, Kamenova, K, Fox, M, Prozesky, H, Zangerle, R, Touloumi, G, Warszawski, J, Meyer, L, Krause, M, Ghosn, J, Leport, C, Wittkop, L, Reiss, P, Wit, F, Prins, M, Bucher, H, Gibb, D, Fatkenheuer, G, Del Amo, J, Obel, N, Thorne, C, Mocroft, A, Kirk, O, Stephan, C, Perez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, D'Arminio Monforte, A, Brockmeyer, N, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Mussini, C, Tookey, P, Casabona, J, Miro, J, Castagna, A, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Torti, C, Sabin, C, Teira, R, Garrido, M, Haerry, D, de Wit, S, Costagliola, D, Raben, D, Barger, D, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Brandt, R, Berenguer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Dorrucci, M, Dunn, D, Furrer, H, Guiguet, M, Lambotte, O, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Rohner, E, Schomaker, M, Sterne, J, Thiebaut, R, van der Valk, M, Hazra, R, Heckman, B, O'Gara, E, and Siminski, S

Subjects

0301 basic medicine, Male, sub-Saharan Africa, Databases, Factual, CD4 cell count, HIV Infections, Global Health, Cohort Studies, 0302 clinical medicine, Central and South America, Advanced disease, Medicine, 030212 general & internal medicine, Prospective Studies, Cd4 cell count, skin and connective tissue diseases, Child, Research Articles, humanities, 3. Good health, Europe, Infectious Diseases, Child, Preschool, Income, Drug Therapy, Combination, Female, advanced HIV disease, antiretroviral therapy, Asia, Caribbean, North America, WHO guidelines, Adolescent, Adult, Anti-HIV Agents, CD4 Lymphocyte Count, Drug Administration Schedule, Follow-Up Studies, Humans, Poverty, World Health Organization, Research Article, medicine.medical_specialty, education, 610 Medicine & health, 03 medical and health sciences, Acquired immunodeficiency syndrome (AIDS), 360 Social problems & social services, Intensive care medicine, business.industry, Public Health, Environmental and Occupational Health, medicine.disease, 030112 virology, Antiretroviral therapy, Who guidelines, sense organs, business, sub‐Saharan Africa

Abstract

Introduction: The CD4 cell count and percent at initiation of combination antiretroviral therapy (cART) are measures of advanced HIV disease and thus are important indicators of programme performance for children living with HIV. In particular, World Health Organization (WHO) 2017 guidelines on advanced HIV disease noted that >80% of children aged 40% of children in low- and middle-income countries started cART with severe immunodeficiency compared to

Published

2018

14. Effect of incident hepatitis C infection on CD4(+) cell count and HIV RNA trajectories based on a multinational HIV seroconversion cohort

Author

van Santen, DK, van der Helm, JJ, Touloumi, G, Pantazis, N, Muga, R, Gunsenheimer-Bartmeyer, B, Gill, MJ, Sanders, E, Kelleher, A, Zangerle, R, Porter, K, Prins, M, Geskus, RB, Del Amo, J, Meyer, L, Bucher, HC, Chene, G, Hamouda, O, Pillay, D, Rosinska, M, Sabin, C, Olson, A, Cartier, A, Fradette, L, Walker, S, Babiker, A, De Luca, A, Fisher, M, Kelleher, T, Cooper, D, Grey, P, Finlayson, R, Bloch, M, Ramacciotti, T, Gelgor, L, Smith, D, Lutsar, I, Dabis, F, Thiebaut, R, Costagliola, D, Guiguet, M, Vanhems, P, Chaix, ML, Ghosn, J, Boufassa, F, Meixenberger, K, Bannert, N, Antoniadou, A, Chrysos, G, Daikos, GL, Katsarou, O, Rezza, G, Dorrucci, M, Monforte, AD, Schuitemaker, H, Sannes, M, Kran, AMB, Tor, J, de Olalla, PG, Cayla, J, Moreno, S, Monge, S, del Romero, J, Perez-Hoyos, S, Sonnerborg, A, Gunthard, H, Scherrer, A, Malyuta, R, Murphy, G, Johnson, A, Phillips, A, Morrison, C, Salata, R, Mugerwa, R, Chipato, T, Price, MA, Gilmour, J, Kamali, A, Karita, E, Burns, F, Giaquinto, C, Grarup, J, Kirk, O, Bailey, H, Anne, AV, Panteleev, A, Thorne, C, Aboulker, JP, Albert, J, Asandi, S, De Wit, S, Reiss, P, Gatell, J, Karpov, I, Ledergerber, B, Lundgren, J, Moller, C, Rakhmanova, A, Rockstroh, J, Sandhu, M, Dedes, N, Fenton, K, Pizzuti, D, Vitoria, M, Faggion, S, Frost, R, Raben, D, Schwimmer, C, and Scott, M

Subjects

hepatitis C virus, HIV RNA, CD4(+) cell count, HIV, MSM

Abstract

Background: Most studies on hepatitis C virus (HCV)/HIV-coinfection do not account for the order and duration of these two infections. We aimed to assess the effect of incident HCVinfection, and its timing relative to HIVseroconversion (HIVsc) in HIV-positiveMSM on their subsequent CD4(+) T-cell count and HIV RNA viral load trajectories. Methods: WeincludedMSMwithwell estimated dates ofHIVsc from 17 cohortswithin the CASCADE Collaboration. HCV-coinfected MSM were matched to as many HIV monoinfected MSM as possible by HIV-infection duration and combination antiretroviral therapy (cART) use. We used multilevel random-effects models stratified by cART use to assess differences inCD4(+) cell count andHIVRNAviral loadtrajectoriesbyHCV-coinfection status. Findings: Wematched 214 (ART-naive) and 147 (on cART) HCV-coinfectedMSMto 5384 and 3954, respectively, matched controls. The timing of HCV seroconversion (HCVsc) relative to HIVsc had no demonstrable effect on HIV RNA viral load or CD4(+) cell count trajectories. In the first 2-3 years following HCVsc CD4(+) cell counts were lower among HCV-coinfected MSM, but became comparable with HIV monoinfected MSM thereafter. In ART-naive MSM, during the first 2 years after HCVsc, HIV RNA viral load levels were lower or comparable with HIV monoinfected, tending to be higher thereafter. In MSM on cART, HCV had no significant effect on having a detectable HIV RNA viral load. Interpretation: Irrespective of the duration of HIV infection when HCV is acquired, CD4(+) cell counts were temporarily lower following HCVsc, even when on cART. The clinical implications of our findings remain to be further elucidated. Copyright (C) 2018 Wolters Kluwer Health, Inc. All rights reserved.

Published

2019

15. Comparison of Kaposi Sarcoma Risk in Human Immunodeficiency Virus-Positive Adults Across 5 Continents: A Multiregional Multicohort Study

Author

Rohner E., Butikofer L., Schmidlin K., Sengayi M., Maskew M., Giddy J., Garone D., Moore R. D., D'Souza G., Goedert J. J., Achenbach C., Gill M. J., Kitahata M. M., Patel P., Silverberg M. J., Castilho J., McGowan C., Chen Y. -M. A., Law M., Taylor N., Paparizos V., Bonnet F., Verbon A., Fatkenheuer G., Post F. A., Sabin C., Mocroft A., Le Moing V., Dronda F., Obel N., Grabar S., Spagnuolo V., Antinori A., Quiros-Roldan E., Mussini C., Miro J. M., Meyer L., Hasse B., Konopnicki D., Roca B., Barger D., Raben D., Clifford G. M., Franceschi S., Brockmeyer N., Chakraborty R., Egger M., Bohlius J., Judd A., Zangerle R., Touloumi G., Warszawski J., Dabis F., Krause M. M., Ghosn J., Leport C., Wittkop L., Reiss P., Wit F., Prins M., Bucher H., Gibb D., Del Amo J., Thorne C., Kirk O., Stephan C., Perez-Hoyos S., Hamouda O., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Monforte A. D., Prieto L., Conejo P. R., Soriano-Arandes A., Battegay M., Kouyos R., Tookey P., Casabona J., Castagna A., Konopnick D., Goetghebuer T., Sonnerborg A., Teira R., Garrido M., Haerry D., De Wit S., Costagliola D., D'Arminio-Monforte A., Chene G., Schwimmer C., Termote M., Campbell M., Frederiksen C. M., Friis-Moller N., Kjaer J., Brandt R. S., Berenguer J., Bouteloup V., Cozzi-Lepri A., Davies M. -A., Dorrucci M., Dunn D., Furrer H., Guiguet M., Lambotte O., Leroy V., Lodi S., Matheron S., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Schomaker M., Smit C., Sterne J., Thiebaut R., Torti C., Van Der Valk M., Tanser F., Vinikoor M., MacEte E., Wood R., Stinson K., Fatti G., Phiri S., Chimbetete C., Malisita K., Eley B., Fritz C., Hobbins M., Kamenova K., Fox M., Prozesky H., Technau K., Sawry S., Benson C. A., Bosch R. J., Kirk G. D., Boswell S., Mayer K. H., Grasso C., Hogg R. S., Harrigan P. R., Montaner J. S. G., Yip B., Zhu J., Salters K., Gabler K., Buchacz K., Brooks J. T., Gebo K. A., Carey J. T., Rodriguez B., Horberg M. A., Thorne J. E., Rabkin C., Margolick J. B., Jacobson L. P., Klein M. B., Rourke S. B., Rachlis A. R., Cupido P., Hunter-Mellado R. F., Mayor A. M., Deeks S. G., Martin J. N., Saag M. S., Mugavero M. J., Willig J., Eron J. J., Napravnik S., Crane H. M., Drozd D. R., Haas D., Rebeiro P., Turner M., Bebawy S., Rogers B., Justice A. C., Dubrow R., Fiellin D., Gange S. J., Anastos K., Althoff K. N., McKaig R. G., Freeman A. M., Lent C., Van Rompaey S. E., Morton L., McReynolds J., Lober W. B., Abraham A. G., Lau B., Zhang J., Jing J., Modur S., Wong C., Hogan B., Desir F., Liu B., You B., Cahn P., Cesar C., Fink V., Sued O., Dell'Isola E., Perez H., Valiente J., Yamamoto C., Grinsztejn B., Veloso V., Luz P., De Boni R., Wagner S. C., Friedman R., Moreira R., Pinto J., Ferreira F., Maia M., De Menezes Succi R. C., MacHado D. M., De Fatima Barbosa Gouvea A., Wolff M., Cortes C., Rodriguez M. F., Allendes G., Pape J. W., Rouzier V., Marcelin A., Perodin C., Luque M. T., Padgett D., Madero J. S., Ramirez B. C., Belaunzaran P., Vega Y. C., Gotuzzo E., Mejia F., Carriquiry G., McGowan C. C., Shepherd B. E., Sterling T., Jayathilake K., Person A. K., Rebeiro P. F., Giganti M., Duda S. N., Maruri F., Vansell H., Ly P. S., Khol V., Zhang F. J., Zhao H. X., Han N., Lee M. P., Li P. C. K., Lam W., Chan Y. T., Kumarasamy N., Saghayam S., Ezhilarasi C., Pujari S., Joshi K., Gaikwad S., Chitalikar A., Merati T. P., Wirawan D. N., Yuliana F., Yunihastuti E., Imran D., Widhani A., Tanuma J., Oka S., Nishijima T., Choi J. Y., Na S., Kim J. M., Sim B. L. H., Gani Y. M., David R., Kamarulzaman A., Syed Omar S. F., Ponnampalavanar S., Azwa I., Ditangco R., Uy E., Bantique R., Wong W. W., Ku W. W., Wu P. C., Ng O. T., Lim P. L., Lee L. S., Ohnmar P. S., Avihingsanon A., Gatechompol S., Phanuphak P., Phadungphon C., Kiertiburanakul S., Sungkanuparph S., Chumla L., Sanmeema N., Chaiwarith R., Sirisanthana T., Kotarathititum W., Praparattanapan J., Kantipong P., Kambua P., Ratanasuwan W., Sriondee R., Nguyen K. V., Bui H. V., Nguyen D. T. H., Nguyen D. T., Cuong D. D., An N. V., Luan N. T., Sohn A. H., Ross J. L., Petersen B., Cooper D. A., Law M. G., Jiamsakul A., Boettiger D. C., Ellis D., Bloch M., Agrawal S., Vincent T., Allen D., Smith D., Rankin A., Baker D., Templeton D. J., Jackson E., McCallum K., Ryder N., Sweeney G., Cooper D., Carr A., MacRae K., Hesse K., Finlayson R., Gupta S., Langton-Lockton J., Shakeshaft J., Brown K., Idle S., Arvela N., Varma R., Lu H., Couldwell D., Eswarappa S., Smith D. E., Furner V., Cabrera G., Fernando S., Cogle A., Lawrence C., Mulhall B., Boyd M., Petoumenos K., Puhr R., Huang R., Han A., Gunathilake M., Payne R., O'Sullivan M., Croydon A., Russell D., Cashman C., Roberts C., Sowden D., Taing K., Marshall P., Orth D., Youds D., Rowling D., Latch N., Warzywoda E., Dickson B., Donohue W., Moore R., Edwards S., Boyd S., Roth N. J., Lau H., Read T., Silvers J., Zeng W., Hoy J., Watson K., Bryant M., Price S., Woolley I., Giles M., Korman T., Williams J., Nolan D., Allen A., Guelfi G., Mills G., Wharry C., Raymond N., Bargh K., Templeton D., Medical Microbiology & Infectious Diseases, Global Health, Infectious diseases, APH - Aging & Later Life, AII - Infectious diseases, APH - Global Health, Graduate School, APH - Digital Health, APH - Personalized Medicine, Bohlius, Julia, Cohere In, Eurocoord, Castagna, Antonella, Rohner, E, Butikofer, L, Schmidlin, K, Sengayi, M, Maskew, M, Giddy, J, Garone, D, Moore, R, D'Souza, G, Goedert, J, Achenbach, C, Gill, M, Kitahata, M, Patel, P, Silverberg, M, Castilho, J, Mcgowan, C, Chen, Y, Law, M, Taylor, N, Paparizos, V, Bonnet, F, Verbon, A, Fatkenheuer, G, Post, F, Sabin, C, Mocroft, A, Le Moing, V, Dronda, F, Obel, N, Grabar, S, Spagnuolo, V, Antinori, A, Quiros-Roldan, E, Mussini, C, Miro, J, Meyer, L, Hasse, B, Konopnicki, D, Roca, B, Barger, D, Raben, D, Clifford, G, Franceschi, S, Brockmeyer, N, Chakraborty, R, Egger, M, Bohlius, J, Judd, A, Zangerle, R, Touloumi, G, Warszawski, J, Dabis, F, Krause, M, Ghosn, J, Leport, C, Wittkop, L, Reiss, P, Wit, F, Prins, M, Bucher, H, Gibb, D, Del Amo, J, Thorne, C, Kirk, O, Stephan, C, Perez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Monforte, A, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Tookey, P, Casabona, J, Castagna, A, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Teira, R, Garrido, M, Haerry, D, De Wit, S, Costagliola, D, D'Arminio-Monforte, A, Chene, G, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Brandt, R, Berenguer, J, Bouteloup, V, Cozzi-Lepri, A, Davies, M, Dorrucci, M, Dunn, D, Furrer, H, Guiguet, M, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Schomaker, M, Smit, C, Sterne, J, Thiebaut, R, Torti, C, Van Der Valk, M, Tanser, F, Vinikoor, M, Macete, E, Wood, R, Stinson, K, Fatti, G, Phiri, S, Chimbetete, C, Malisita, K, Eley, B, Fritz, C, Hobbins, M, Kamenova, K, Fox, M, Prozesky, H, Technau, K, Sawry, S, Benson, C, Bosch, R, Kirk, G, Boswell, S, Mayer, K, Grasso, C, Hogg, R, Harrigan, P, Montaner, J, Yip, B, Zhu, J, Salters, K, Gabler, K, Buchacz, K, Brooks, J, Gebo, K, Carey, J, Rodriguez, B, Horberg, M, Thorne, J, Rabkin, C, Margolick, J, Jacobson, L, Klein, M, Rourke, S, Rachlis, A, Cupido, P, Hunter-Mellado, R, Mayor, A, Deeks, S, Martin, J, Saag, M, Mugavero, M, Willig, J, Eron, J, Napravnik, S, Crane, H, Drozd, D, Haas, D, Rebeiro, P, Turner, M, Bebawy, S, Rogers, B, Justice, A, Dubrow, R, Fiellin, D, Gange, S, Anastos, K, Althoff, K, Mckaig, R, Freeman, A, Lent, C, Van Rompaey, S, Morton, L, Mcreynolds, J, Lober, W, Abraham, A, Lau, B, Zhang, J, Jing, J, Modur, S, Wong, C, Hogan, B, Desir, F, Liu, B, You, B, Cahn, P, Cesar, C, Fink, V, Sued, O, Dell'Isola, E, Perez, H, Valiente, J, Yamamoto, C, Grinsztejn, B, Veloso, V, Luz, P, De Boni, R, Wagner, S, Friedman, R, Moreira, R, Pinto, J, Ferreira, F, Maia, M, De Menezes Succi, R, Machado, D, De Fatima Barbosa Gouvea, A, Wolff, M, Cortes, C, Rodriguez, M, Allendes, G, Pape, J, Rouzier, V, Marcelin, A, Perodin, C, Luque, M, Padgett, D, Madero, J, Ramirez, B, Belaunzaran, P, Vega, Y, Gotuzzo, E, Mejia, F, Carriquiry, G, Shepherd, B, Sterling, T, Jayathilake, K, Person, A, Giganti, M, Duda, S, Maruri, F, Vansell, H, Ly, P, Khol, V, Zhang, F, Zhao, H, Han, N, Lee, M, Li, P, Lam, W, Chan, Y, Kumarasamy, N, Saghayam, S, Ezhilarasi, C, Pujari, S, Joshi, K, Gaikwad, S, Chitalikar, A, Merati, T, Wirawan, D, Yuliana, F, Yunihastuti, E, Imran, D, Widhani, A, Tanuma, J, Oka, S, Nishijima, T, Choi, J, Na, S, Kim, J, Sim, B, Gani, Y, David, R, Kamarulzaman, A, Syed Omar, S, Ponnampalavanar, S, Azwa, I, Ditangco, R, Uy, E, Bantique, R, Wong, W, Ku, W, Wu, P, Ng, O, Lim, P, Lee, L, Ohnmar, P, Avihingsanon, A, Gatechompol, S, Phanuphak, P, Phadungphon, C, Kiertiburanakul, S, Sungkanuparph, S, Chumla, L, Sanmeema, N, Chaiwarith, R, Sirisanthana, T, Kotarathititum, W, Praparattanapan, J, Kantipong, P, Kambua, P, Ratanasuwan, W, Sriondee, R, Nguyen, K, Bui, H, Nguyen, D, Cuong, D, An, N, Luan, N, Sohn, A, Ross, J, Petersen, B, Cooper, D, Jiamsakul, A, Boettiger, D, Ellis, D, Bloch, M, Agrawal, S, Vincent, T, Allen, D, Smith, D, Rankin, A, Baker, D, Templeton, D, Jackson, E, Mccallum, K, Ryder, N, Sweeney, G, Carr, A, Macrae, K, Hesse, K, Finlayson, R, Gupta, S, Langton-Lockton, J, Shakeshaft, J, Brown, K, Idle, S, Arvela, N, Varma, R, Lu, H, Couldwell, D, Eswarappa, S, Furner, V, Cabrera, G, Fernando, S, Cogle, A, Lawrence, C, Mulhall, B, Boyd, M, Petoumenos, K, Puhr, R, Huang, R, Han, A, Gunathilake, M, Payne, R, O'Sullivan, M, Croydon, A, Russell, D, Cashman, C, Roberts, C, Sowden, D, Taing, K, Marshall, P, Orth, D, Youds, D, Rowling, D, Latch, N, Warzywoda, E, Dickson, B, Donohue, W, Edwards, S, Boyd, S, Roth, N, Lau, H, Read, T, Silvers, J, Zeng, W, Hoy, J, Watson, K, Bryant, M, Price, S, Woolley, I, Giles, M, Korman, T, Williams, J, Nolan, D, Allen, A, Guelfi, G, Mills, G, Wharry, C, Raymond, N, and Bargh, K

Subjects

Male, viruses, HIV Infections, Men who have sex with men, Cohort Studies, 0302 clinical medicine, Risk Factors, Antiretroviral therapy, Cohort study, HIV, Kaposi sarcoma, Adolescent, Adult, Anti-Retroviral Agents, CD4 Lymphocyte Count, Female, HIV-1, Humans, Middle Aged, Sarcoma, Kaposi, Viral Load, Young Adult, 030212 general & internal medicine, Articles and Commentaries, Incidence (epidemiology), Hazard ratio, virus diseases, Sarcoma, 3. Good health, Infectious Diseases, 030220 oncology & carcinogenesis, Cohort, Coinfection, Microbiology (medical), antiretroviral therapy, 610 Medicine & health, Kaposi, 03 medical and health sciences, SDG 3 - Good Health and Well-being, 360 Social problems & social services, medicine, cohort study, business.industry, medicine.disease, Confidence interval, business, Demography

Abstract

Background We compared Kaposi sarcoma (KS) risk in adults who started antiretroviral therapy (ART) across the Asia-Pacific, South Africa, Europe, Latin, and North America. Methods We included cohort data of human immunodeficiency virus (HIV)-positive adults who started ART after 1995 within the framework of 2 large collaborations of observational HIV cohorts. We present incidence rates and adjusted hazard ratios (aHRs). Results We included 208140 patients from 57 countries. Over a period of 1066572 person-years, 2046 KS cases were diagnosed. KS incidence rates per 100000 person-years were 52 in the Asia-Pacific and ranged between 180 and 280 in the other regions. KS risk was 5 times higher in South African women (aHR, 4.56; 95% confidence intervals [CI], 2.73-7.62) than in their European counterparts, and 2 times higher in South African men (2.21; 1.34-3.63). In Europe, Latin, and North America KS risk was 6 times higher in men who have sex with men (aHR, 5.95; 95% CI, 5.09-6.96) than in women. Comparing patients with current CD4 cell counts ≥700 cells/µL with those whose counts were

Published

2017

16. Reference curves for CD4 T-cell count response to combination antiretroviral therapy in HIV-1-infected treatment-naïve patients

Author

Bouteloup V., Sabin C., Mocroft A., Gras L., Pantazis N., Le Moing V., d'Arminio Monforte A., Mary-Krause M., Roca B., Miro J. M., Battegay M., Brockmeyer N., Berenguer J., Morlat P., Obel N., De Wit S., Fatkenheuer G., Zangerle R., Ghosn J., Perez-Hoyos S., Campbell M., Prins M., Chene G., Meyer L., Dorrucci M., Torti C., Thiebaut R., Touloumi G., Warszawski J., Dabis F., Leport C., Wittkop L., Reiss P., Wit F., Bucher H., Gibb D., Amo J. D., Thorne C., Kirk O., Stephan C., Hamouda O., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Antinori A., Prieto L., Conejo P. R., Soriano-Arandes A., Rauch A., Mussini C., Tookey P., Casabona J., Castagna A., Deborah Konopnick, Goetghebuer T., Sonnerborg A., Teira R., Garrido M., Haerry D., Costagliola D., del Amo J., Raben D., Judd A., Barger D., Colin C., Schwimmer C., Termote M., Friis-Moller N., Kjaer J., Brandt R. S., Bohlius J., Cozzi-Lepri A., Davies M. -A., Dunn D., Egger M., Furrer H., Guiguet M., Grabar S., Lambotte O., Leroy V., Lodi S., Matheron S., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Schomaker M., Smit C., Sterne J., van der Valk M., Wyss N., AII - Infectious diseases, APH - Global Health, Infectious diseases, APH - Aging & Later Life, Global Health, Bouteloup, V, Sabin, C, Mocroft, A, Gras, L, Pantazis, N, Le Moing, V, d'Arminio Monforte, A, Mary-Krause, M, Roca, B, Miro, Jm, Battegay, M, Brockmeyer, N, Berenguer, J, Morlat, P, Obel, N, De Wit, S, Fätkenheuer, G, Zangerle, R, Ghosn, J, Pérez-Hoyos, S, Campbell, M, Prins, M, Chêne, G, Dorrucci, M, Torti, C, Thiébaut, R, the Standard Reference Distribution of CD4 Response to HAART Project Team for the Collaboration of Observational HIV Epidemiological Research in Europe (COHERE) in, Eurocoord, Castagna, Antonella, Miro, J, Fatkenheuer, G, Perez-Hoyos, S, Chene, G, Meyer, L, Thiebaut, R, Touloumi, G, Warszawski, J, Dabis, F, Leport, C, Wittkop, L, Reiss, P, Wit, F, Bucher, H, Gibb, D, Amo, J, Thorne, C, Kirk, O, Stephan, C, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, Prieto, L, Conejo, P, Soriano-Arandes, A, Rauch, A, Mussini, C, Tookey, P, Casabona, J, Castagna, A, Deborah, K, Goetghebuer, T, Sonnerborg, A, Teira, R, Garrido, M, Haerry, D, Costagliola, D, del Amo, J, Raben, D, Judd, A, Barger, D, Colin, C, Schwimmer, C, Termote, M, Friis-Moller, N, Kjaer, J, Brandt, R, Bohlius, J, Cozzi-Lepri, A, Davies, M, Dunn, D, Egger, M, Furrer, H, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Schomaker, M, Smit, C, Sterne, J, van der Valk, M, Wyss, N, Bordeaux population health (BPH), Université de Bordeaux (UB)-Institut de Santé Publique, d'Épidémiologie et de Développement (ISPED)-Institut National de la Santé et de la Recherche Médicale (INSERM), Research Department of Infection and Population Health [London], University College of London [London] (UCL), Stichting HIV Monitoring [Amsterdam], Universiteit van Amsterdam (UvA), Department of Hygiene, Epidemiology and Medical Statistics [Athens], University of Athens Medical School [Athens], Université de Montpellier (UM), Università degli Studi di Milano [Milano] (UNIMI), Institut Pierre Louis d'Epidémiologie et de Santé Publique (iPLESP), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM), Hospital General De Castellon, Clinical and experimental neuroimmunology [IDIBAPS], Institut d'Investigacions Biomèdiques August Pi i Sunyer, University Hospital Basel [Basel], Ruhr-Universität Bochum [Bochum], Hospital General Universitario 'Gregorio Marañón' [Madrid], Hôpital Saint-André, University of Copenhagen = Københavns Universitet (KU), Université libre de Bruxelles (ULB), University Hospital of Cologne [Cologne], Universität Innsbruck [Innsbruck], Hôpital Hôtel-Dieu [Paris], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Universitat Autònoma de Barcelona (UAB), University of Illinois at Urbana-Champaign [Urbana], University of Illinois System, Academic Medical Center - Academisch Medisch Centrum [Amsterdam] (AMC), University of Amsterdam [Amsterdam] (UvA), Centre de recherche en épidémiologie et santé des populations (CESP), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Université Paris-Sud - Paris 11 (UP11)-Hôpital Paul Brousse-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Istituto Superiore di Sanita [Rome], Università degli Studi 'Magna Graecia' di Catanzaro [Catanzaro, Italie] (UMG), Epidémiologie et Biostatistique [Bordeaux], Université Bordeaux Segalen - Bordeaux 2-Institut de Santé Publique, d'Épidémiologie et de Développement (ISPED)-Institut National de la Santé et de la Recherche Médicale (INSERM), Statistics In System biology and Translational Medicine (SISTM), Inria Bordeaux - Sud-Ouest, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria)- Bordeaux population health (BPH), Université de Bordeaux (UB)-Institut de Santé Publique, d'Épidémiologie et de Développement (ISPED)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Bordeaux (UB)-Institut de Santé Publique, d'Épidémiologie et de Développement (ISPED)-Institut National de la Santé et de la Recherche Médicale (INSERM), Università degli Studi di Milano = University of Milan (UNIMI), University of Copenhagen = Københavns Universitet (UCPH), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Université Paris-Sud - Paris 11 (UP11)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Paul Brousse-Institut National de la Santé et de la Recherche Médicale (INSERM), Istituto Superiore di Sanità (ISS), Università degli Studi 'Magna Graecia' di Catanzaro = University of Catanzaro (UMG), Laboratoire de Météorologie Dynamique (UMR 8539) (LMD), Département des Géosciences - ENS Paris, École normale supérieure - Paris (ENS Paris)-École normale supérieure - Paris (ENS Paris)-Centre National de la Recherche Scientifique (CNRS)-École des Ponts ParisTech (ENPC)-École polytechnique (X)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC), CRAHI-UPC, Edifici NEXUS 104-106, Calle Gran Capità 2-4, 08034 Barcelona, Spain, affiliation inconnue, Pork CRC Roseworthy, Alfred-Wegener-Institut, Helmholtz-Zentrum für Polar- und Meeresforschung (AWI), Laboratoire Evolution, Génomes et Spéciation (LEGS), and Centre National de la Recherche Scientifique (CNRS)

Subjects

0301 basic medicine, CD4-Positive T-Lymphocytes, Male, Pediatrics, Percentile, longitudinal data, [SDV]Life Sciences [q-bio], CD4 response, HIV monitoring, antiretroviral treatment monitoring, longitudinal data, HIV Infections, Cohort Studies, 0302 clinical medicine, antiretroviral treatment monitoring, CD4 response, HIV monitoring, Adolescent, Adult, Aged, Anti-Retroviral Agents, Antiretroviral Therapy, Highly Active, CD4 Lymphocyte Count, Drug Monitoring, Europe, Female, HIV-1, Humans, Middle Aged, Treatment Outcome, Viral Load, Young Adult, Interquartile range, [MATH.MATH-ST]Mathematics [math]/Statistics [math.ST], Epidemiology, HIV Infection, Pharmacology (medical), 030212 general & internal medicine, ComputingMilieux_MISCELLANEOUS, Health Policy, virus diseases, 3. Good health, Infectious Diseases, CD4-Positive T-Lymphocyte, Cohort, Viral load, Human, Cart, medicine.medical_specialty, 03 medical and health sciences, Acquired immunodeficiency syndrome (AIDS), medicine, business.industry, medicine.disease, 030112 virology, Antiretroviral therapy, [SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie, Anti-Retroviral Agent, Cohort Studie, business

Abstract

Objectives: The aim of this work was to provide a reference for the CD4 T-cell count response in the early months after the initiation of combination antiretroviral therapy (cART) in HIV-1-infected patients. Methods: All patients in the Collaboration of Observational HIV Epidemiological Research Europe (COHERE) cohort who were aged ≥ 18 years and started cART for the first time between 1 January 2005 and 1 January 2010 and who had at least one available measurement of CD4 count and a viral load ≤ 50 HIV-1 RNA copies/mL at 6 months (± 3 months) after cART initiation were included in the study. Unadjusted and adjusted references curves and predictions were obtained using quantile regressions. Results: A total of 28 992 patients were included in the study. The median CD4 T-cell count at treatment initiation was 249 [interquartile range (IQR) 150, 336] cells/μL. The median observed CD4 counts at 6, 9 and 12 months were 382 (IQR 256, 515), 402 (IQR 274, 543) and 420 (IQR 293, 565) cells/μL. The two main factors explaining the variation of CD4 count at 6 months were AIDS stage and CD4 count at cART initiation. A CD4 count increase of ≥ 100 cells/mL is generally required in order that patients stay ‘on track’ (i.e. with a CD4 count at the same percentile as when they started), with slightly higher gains required for those starting with CD4 counts in the higher percentiles. Individual predictions adjusted for factors influencing CD4 count were more precise. Conclusions: Reference curves aid the evaluation of the immune response early after antiretroviral therapy initiation that leads to viral control.

Published

2017

17. Mortality in migrants living with HIV in western Europe (1997–2013): a collaborative cohort study

Author

Monge, S., Jarrin, I., Mocroft, A., Sabin, C. A., Touloumi, G., van Sighem, A., Abgrall, S., Dray-Spira, R., Spire, B., Castagna, A., Mussini, C., Zangerle, R., Hessamfar, M., Anderson, J., Hamouda, O., Ehren, K., Obel, N., Kirk, O., de Monteynard, L. A., Antinori, A., Girardi, E., Saracino, A. L., Calmy, A., De Wit, S., Wittkop, L., Bucher, H. C., Montoliu, A., Raben, D., Prins, M., Meyer, L., Chene, G., Burns, F., Warszawski, J., Dabis, F., Krause, M. M., Ghosn, J., Leport, C., Reiss, P., Wit, F., Bucher, H., Gibb, D., Fatkenheuer, G., Del Amo, J., Thorne, C., Stephan, C., Perez-Hoyos, S., Bartmeyer, B., Chkhartishvili, N., Noguera-Julian, A., d'Arminio Monforte, A., Brockmeyer, N., Prieto, L., Conejo, P. R., Soriano-Arandes, A., Battegay, M., Kouyos, R., Tookey, P., Casabona, J., Miro, J. M., Konopnick, D., Goetghebuer, T., Sonnerborg, A., Torti, C., Sabin, C., Teira, R., Garrido, M., Haerry, D., Costagliola, D., Barger, D., Schwimmer, C., Termote, M., Campbell, M., Frederiksen, C. M., Friis-Moller, N., Kjaer, J., Brandt, R. S., Berenguer, J., Bohlius, J., Bouteloup, V., Cozzi-Lepri, A., Davies, M. -A., del Amo, J., Dorrucci, M., Dunn, D., Egger, M., Furrer, H., Guiguet, M., Grabar, S., Judd, A., Lambotte, O., Leroy, V., Lodi, S., Matheron, S., Nakagawa, F., Paredes, R., Phillips, A., Puoti, M., Schomaker, M., Smit, C., Sterne, J., Thiebaut, R., van der Valk, M., Wyss, N., Infectious diseases, The Migrants Working Group on behalf of COHERE in, Eurocoord, and Castagna, Antonella

Subjects

Adult, Male, Epidemiology, Sexual Behavior, Immunology, HIV diagnosis, Human immunodeficiency virus (HIV), HIV Infections, Infectious Disease, medicine.disease_cause, Risk Assessment, Health Services Accessibility, Health services, Virology, medicine, Humans, Cooperative Behavior, Socioeconomic status, Aged, Transients and Migrants, business.industry, Disease progression, virus diseases, Health Status Disparities, Middle Aged, Antiretroviral therapy, Europe, Review Literature as Topic, Infectious Diseases, Socioeconomic Factors, Western europe, Female, business, Cohort study, Demography

Abstract

Background: Many migrants face adverse socioeconomic conditions and barriers to health services that can impair timely HIV diagnosis and access to life-saving treatments. We aimed to assess the differences in overall mortality by geographical origin in HIV-positive men and women using data from COHERE, a large European collaboration of HIV cohorts from 1997 to 2013. Methods: In this observational cohort study, we included HIV-positive, antiretroviral-naive people accessing care in western Europe from COHERE. Individuals were eligible if enrolled in a cohort that collected information on geographical origin or ethnic origin from Jan 1, 1997, to March 19, 2013, aged 18-75 years, they had available information about sex, they were not infected perinatally or after the receipt of clotting factor concentrates, and were naive to combination antiretroviral therapy at cohort entry. Migrants' origins were grouped into seven regions: western Europe and similar countries (Australia, Canada, New Zealand, and the USA); eastern Europe; North Africa and the Middle East; sub-Saharan Africa; Latin America; the Caribbean; and Asia and the rest of Oceania (excluding Australia and New Zealand). Crude and adjusted mortality rate ratios were calculated by use of Poisson regression stratified by sex, comparing each group with the native population. Multiple imputation with chained equations was used to account for missing values. Findings: Between Oct 25, 1979, and March 19, 2013, we recruited 279 659 individuals to the COHERE collaboration in EuroCoord. Of these 123 344 men and 45 877 women met the inclusion criteria. Our data suggested effect modification by transmission route (pinteraction=0·12 for men; pinteraction=0·002 for women). No significant difference in mortality was identified by geographical origin in men who have sex with men. In heterosexual populations, most migrant men had mortality lower than or equal to that of native men, whereas no group of migrant women had mortality lower than that in native women. High mortality was identified in heterosexual men from Latin America (rate ratio [RR] 1·46, 95% CI 1·00-2·12, p=0·049) and heterosexual women from the Caribbean (1·48, 1·29-1·70, p

Published

2015

18. Improved darunavir genotypic mutation score predicting treatment response for patients infected with HIRaben-1 subtype B and non-subtype B receiving a salvage regimen

Author

De Luca, A, Flandre, P, Dunn, D, Zazzi, M, Wensing, A, Santoro, M, Gunthard, H, Wittkop, L, Kordossis, T, Garcia, F, Castagna, A, Cozzi-Lepri, A, Churchill, D, De Wit, S, Brockmeyer, N, Imaz, A, Mussini, C, Obel, N, Perno, C, Roca, B, Reiss, P, Schulter, E, Torti, C, van Sighem, A, Zangerle, R, Descamps, D, Mocroft, A, Kirk, O, Sabin, C, Casadi, W, Casabona, J, Miro, J, Touloumi, G, Garrido, M, Teira, R, Wit, F, Warszawski, J, Meyer, L, Dabis, F, Krause, M, Ghosn, J, Leport, C, Prins, M, Bucher, H, Gibb, D, Fatkenheuer, G, del Amo, J, Thorne, C, Stephan, C, Perez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, d'Arminio Monforte, A, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Tookey, P, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Haerry, D, de Wit, S, Costagliola, D, Raben, D, Chene, G, Ceccherini-Silberstein, F, Judd, A, Barger, D, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Brandt, R, Berenguer, J, Bohlius, J, Bouteloup, V, Davies, M, Dorrucci, M, Egger, M, Furrer, H, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Schomaker, M, Smit, C, Sterne, J, Thiebaut, R, van der Valk, M, Wyss, N, Aubert, V, Bernasconi, E, Boni, J, Burton-Jeangros, C, Calmy, A, Cavassini, M, Dollenmaier, G, Elzi, L, Fehr, J, Fellay, J, Fux, C, Gorgievski, M, Hasse, B, Hirsch, H, Hoffmann, M, Hosli, I, Kahlert, C, Kaiser, L, Keiser, O, Klimkait, T, Kovari, H, Ledergerber, B, Martinetti, G, Martinez de Tejada, B, Metzner, K, Muller, N, Nadal, D, Nicca, D, Pantaleo, G, Rauch, A, Regenass, S, Rickenbach, M, Rudin, C, Schoni-Affolter, F, Schmid, P, Schupbach, J, Speck, R, Tarr, P, Telenti, A, Trkola, A, Vernazza, P, Weber, R, Yerly, S, De Luca A., Flandre P., Dunn D., Zazzi M., Wensing A., Santoro M. M., Gunthard H. F., Wittkop L., Kordossis T., Garcia F., Castagna A., Cozzi-Lepri A., Churchill D., De Wit S., Brockmeyer N. H., Imaz A., Mussini C., Obel N., Perno C. F., Roca B., Reiss P., Schulter E., Torti C., van Sighem A., Zangerle R., Descamps D., Mocroft A., Kirk O., Sabin C., Casadi W., Casabona J., Miro J. M., Touloumi G., Garrido M., Teira R., Wit F., Warszawski J., Meyer L., Dabis F., Krause M. M., Ghosn J., Leport C., Prins M., Bucher H., Gibb D., Fatkenheuer G., del Amo J., Thorne C., Stephan C., Perez-Hoyos S., Hamouda O., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Antinori A., d'Arminio Monforte A., Prieto L., Conejo P. R., Soriano-Arandes A., Battegay M., Kouyos R., Tookey P., Konopnick D., Goetghebuer T., Sonnerborg A., Haerry D., de Wit S., Costagliola D., Raben D., Chene G., Ceccherini-Silberstein F., Gunthard H., Judd A., Barger D., Schwimmer C., Termote M., Campbell M., Frederiksen C. M., Friis-Moller N., Kjaer J., Brandt R. S., Berenguer J., Bohlius J., Bouteloup V., Davies M. -A., Dorrucci M., Egger M., Furrer H., Guiguet M., Grabar S., Lambotte O., Leroy V., Lodi S., Matheron S., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Schomaker M., Smit C., Sterne J., Thiebaut R., van der Valk M., Wyss N., Aubert V., Bernasconi E., Boni J., Burton-Jeangros C., Calmy A., Cavassini M., Dollenmaier G., Elzi L., Fehr J., Fellay J., Fux C. A., Gorgievski M., Hasse B., Hirsch H. H., Hoffmann M., Hosli I., Kahlert C., Kaiser L., Keiser O., Klimkait T., Kovari H., Ledergerber B., Martinetti G., Martinez de Tejada B., Metzner K., Muller N., Nadal D., Nicca D., Pantaleo G., Rauch A., Regenass S., Rickenbach M., Rudin C., Schoni-Affolter F., Schmid P., Schupbach J., Speck R., Tarr P., Telenti A., Trkola A., Vernazza P., Weber R., Yerly S., De Luca, A, Flandre, P, Dunn, D, Zazzi, M, Wensing, A, Santoro, M, Gunthard, H, Wittkop, L, Kordossis, T, Garcia, F, Castagna, A, Cozzi-Lepri, A, Churchill, D, De Wit, S, Brockmeyer, N, Imaz, A, Mussini, C, Obel, N, Perno, C, Roca, B, Reiss, P, Schulter, E, Torti, C, van Sighem, A, Zangerle, R, Descamps, D, Mocroft, A, Kirk, O, Sabin, C, Casadi, W, Casabona, J, Miro, J, Touloumi, G, Garrido, M, Teira, R, Wit, F, Warszawski, J, Meyer, L, Dabis, F, Krause, M, Ghosn, J, Leport, C, Prins, M, Bucher, H, Gibb, D, Fatkenheuer, G, del Amo, J, Thorne, C, Stephan, C, Perez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, d'Arminio Monforte, A, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Tookey, P, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Haerry, D, de Wit, S, Costagliola, D, Raben, D, Chene, G, Ceccherini-Silberstein, F, Judd, A, Barger, D, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Brandt, R, Berenguer, J, Bohlius, J, Bouteloup, V, Davies, M, Dorrucci, M, Egger, M, Furrer, H, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Schomaker, M, Smit, C, Sterne, J, Thiebaut, R, van der Valk, M, Wyss, N, Aubert, V, Bernasconi, E, Boni, J, Burton-Jeangros, C, Calmy, A, Cavassini, M, Dollenmaier, G, Elzi, L, Fehr, J, Fellay, J, Fux, C, Gorgievski, M, Hasse, B, Hirsch, H, Hoffmann, M, Hosli, I, Kahlert, C, Kaiser, L, Keiser, O, Klimkait, T, Kovari, H, Ledergerber, B, Martinetti, G, Martinez de Tejada, B, Metzner, K, Muller, N, Nadal, D, Nicca, D, Pantaleo, G, Rauch, A, Regenass, S, Rickenbach, M, Rudin, C, Schoni-Affolter, F, Schmid, P, Schupbach, J, Speck, R, Tarr, P, Telenti, A, Trkola, A, Vernazza, P, Weber, R, Yerly, S, De Luca A., Flandre P., Dunn D., Zazzi M., Wensing A., Santoro M. M., Gunthard H. F., Wittkop L., Kordossis T., Garcia F., Castagna A., Cozzi-Lepri A., Churchill D., De Wit S., Brockmeyer N. H., Imaz A., Mussini C., Obel N., Perno C. F., Roca B., Reiss P., Schulter E., Torti C., van Sighem A., Zangerle R., Descamps D., Mocroft A., Kirk O., Sabin C., Casadi W., Casabona J., Miro J. M., Touloumi G., Garrido M., Teira R., Wit F., Warszawski J., Meyer L., Dabis F., Krause M. M., Ghosn J., Leport C., Prins M., Bucher H., Gibb D., Fatkenheuer G., del Amo J., Thorne C., Stephan C., Perez-Hoyos S., Hamouda O., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Antinori A., d'Arminio Monforte A., Prieto L., Conejo P. R., Soriano-Arandes A., Battegay M., Kouyos R., Tookey P., Konopnick D., Goetghebuer T., Sonnerborg A., Haerry D., de Wit S., Costagliola D., Raben D., Chene G., Ceccherini-Silberstein F., Gunthard H., Judd A., Barger D., Schwimmer C., Termote M., Campbell M., Frederiksen C. M., Friis-Moller N., Kjaer J., Brandt R. S., Berenguer J., Bohlius J., Bouteloup V., Davies M. -A., Dorrucci M., Egger M., Furrer H., Guiguet M., Grabar S., Lambotte O., Leroy V., Lodi S., Matheron S., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Schomaker M., Smit C., Sterne J., Thiebaut R., van der Valk M., Wyss N., Aubert V., Bernasconi E., Boni J., Burton-Jeangros C., Calmy A., Cavassini M., Dollenmaier G., Elzi L., Fehr J., Fellay J., Fux C. A., Gorgievski M., Hasse B., Hirsch H. H., Hoffmann M., Hosli I., Kahlert C., Kaiser L., Keiser O., Klimkait T., Kovari H., Ledergerber B., Martinetti G., Martinez de Tejada B., Metzner K., Muller N., Nadal D., Nicca D., Pantaleo G., Rauch A., Regenass S., Rickenbach M., Rudin C., Schoni-Affolter F., Schmid P., Schupbach J., Speck R., Tarr P., Telenti A., Trkola A., Vernazza P., Weber R., and Yerly S.

Abstract

Objectives: The objective of this studywas to improve the prediction of the impact of HIV-1 protease mutations in different viral subtypes on virological response to darunavir. Methods: Darunavir-containing treatment change episodes (TCEs) in patients previously failing PIs were selected from large European databases. HIV-1 subtype B-infected patients were used as the derivation dataset and HIV- 1 non-B-infected patients were used as the validation dataset. The adjusted association of each mutation with week 8 HIV RNA change from baseline was analysed by linear regression. A prediction model was derived based on best subset least squares estimation with mutational weights corresponding to regression coefficients. Virological outcome prediction accuracy was compared with that from existing genotypic resistance interpretation systems (GISs) (ANRS 2013, Rega 9.1.0 and HIVdb 7.0). Results: TCEs were selected from 681 subtype B-infected and 199 non-B-infected adults. Accompanying drugs were NRTIs in 87%, NNRTIs in 27%and raltegravir ormaraviroc or enfuvirtide in 53%. The predictionmodel included weighted protease mutations, HIV RNA, CD4 and activity of accompanying drugs. The model's association with week 8 HIV RNA change in the subtype B (derivation) set was R2=0.47 [average squared error (ASE)=0.67, P>10-6]; in the non-B (validation) set, ASE was 0.91. Accuracy investigated by means of area under the receiver operating characteristic curves with a binary response (above the threshold value of HIV RNA reduction) showed that our finalmodel outperformed models with existing interpretation systems in both training and validation sets. Conclusions: A model with a new darunavir-weighted mutation score outperformed existing GISs in both B and non-B subtypes in predicting virological response to darunavir.

Published

2016

19. Predictors of CD4 cell recovery following initiation of antiretroviral therapy among HIV-1 positive patients with well-estimated dates of seroconversion

Author

Stirrup, O.T. Copas, A.J. Phillips, A.N. Gill, M.J. Geskus, R.B. Touloumi, G. Young, J. Bucher, H.C. Babiker, A.G. Kelleher, T. Cooper, D. Grey, P. Finlayson, R. Bloch, M. Ramacciotti, T. Gelgor, L. Smith, D. Zangerle, R. Gill, J. Lutsar, I. Chêne, G. Dabis, F. Thiebaut, R. Costagliola, D. Guiguet, M. Vanhems, P. Chaix, M.-L. Ghosn, J. Meyer, L. Boufassa, F. Hamouda, O. Meixenberger, K. Bannert, N. Bartmeyer, B. Antoniadou, A. Chrysos, G. Daikos, G.L. Pantazis, N. Katsarou, O. Rezza, G. Dorrucci, M. Monforte, A. Luca, A. Prins, M. Geskus, R. Helm, J. Schuitemaker, H. Sannes, M. Brubakk, O. Kran, A.-M. Rosinska, M. Muga, R. Tor, J. Olalla, P. Cayla, J. Moreno, S. Monge, S. Amo, J. Romero, J. Pérez-Hoyos, S. Sönnerborg, A. Bucher, C. Günthard, H. Scherrer, A. Malyuta, R. Murphy, G. Porter, K. Johnson, A. Babiker, A. Pillay, D. Morrison, C. Salata, R. Mugerwa, R. Chipato, T. Price, M.A. Gilmour, J. Kamali, A. Karita, E. CASCADE Collaboration in EuroCoord

Abstract

Objectives: To investigate factors that predict speed of recovery and long-term CD4 cell count in HIV-1 seroconverters initiating combination antiretroviral therapy (cART), and to quantify the influence of very early treatment initiation. We make use of all pre-treatment CD4 counts, because analyses using only a single observation at initiation may be subject to biases. Methods: We used data from the CASCADE (Concerted Action on SeroConversion to AIDS and Death in Europe) multinational cohort collaboration of HIV-1 seroconverters. We analysed pre- and post-treatment data of patients with seroconversion dates estimated January 2003–March 2014 (n = 7600 for primary analysis) using a statistical model in which the characteristics of recovery in CD4 counts are determined by multiple predictive factors. Secondary analyses were performed incorporating uncertainty in the exact timing of seroconversion to allow more precise estimation of the benefit of very early treatment initiation. Results: ‘True’ CD4 count at cART initiation was the strongest predictor of CD4 count beyond 3 years on cART. Allowing for lack of complete certainty in the date of seroconversion, CD4 recovery was more rapid for patients in whom treatment was initiated within 4 months. For a given CD4 count, higher viral load (VL) at initiation was strongly associated with higher post-treatment CD4 recovery. For other patient and drug characteristics, associations with recovery were statistically significant but small in magnitude. Conclusions: CD4 count at cART initiation is the most important factor in predicting post-treatment recovery, but VL provides substantial additional information. If cART is initiated in the first 4 months following seroconversion, recovery of CD4 counts appears to be more rapid. © 2017 The Authors. HIV Medicine published by John Wiley & Sons Ltd on behalf of British HIV Association

Published

2018

20. Improved darunavir genotypic mutation score predicting treatment response for patients infected with HIRaben-1 subtype B and non-subtype B receiving a salvage regimen

Author

De Luca A., Flandre P., Dunn D., Zazzi M., Wensing A., Santoro M. M., Gunthard H. F., Wittkop L., Kordossis T., Garcia F., Castagna A., Cozzi-Lepri A., Churchill D., De Wit S., Brockmeyer N. H., Imaz A., Mussini C., Obel N., Perno C. F., Roca B., Reiss P., Schulter E., Torti C., van Sighem A., Zangerle R., Descamps D., Mocroft A., Kirk O., Sabin C., Casadi W., Casabona J., Miro J. M., Touloumi G., Garrido M., Teira R., Wit F., Warszawski J., Meyer L., Dabis F., Krause M. M., Ghosn J., Leport C., Prins M., Bucher H., Gibb D., Fatkenheuer G., del Amo J., Thorne C., Stephan C., Perez-Hoyos S., Hamouda O., Bartmeyer B., Chkhartishvili N., Noguera-Julian A., Antinori A., d'Arminio Monforte A., Prieto L., Conejo P. R., Soriano-Arandes A., Battegay M., Kouyos R., Tookey P., Konopnick D., Goetghebuer T., Sonnerborg A., Haerry D., de Wit S., Costagliola D., Raben D., Chene G., Ceccherini-Silberstein F., Gunthard H., Judd A., Barger D., Schwimmer C., Termote M., Campbell M., Frederiksen C. M., Friis-Moller N., Kjaer J., Brandt R. S., Berenguer J., Bohlius J., Bouteloup V., Davies M. -A., Dorrucci M., Egger M., Furrer H., Guiguet M., Grabar S., Lambotte O., Leroy V., Lodi S., Matheron S., Monge S., Nakagawa F., Paredes R., Phillips A., Puoti M., Schomaker M., Smit C., Sterne J., Thiebaut R., van der Valk M., Wyss N., Aubert V., Bernasconi E., Boni J., Burton-Jeangros C., Calmy A., Cavassini M., Dollenmaier G., Elzi L., Fehr J., Fellay J., Fux C. A., Gorgievski M., Hasse B., Hirsch H. H., Hoffmann M., Hosli I., Kahlert C., Kaiser L., Keiser O., Klimkait T., Kovari H., Ledergerber B., Martinetti G., Martinez de Tejada B., Metzner K., Muller N., Nadal D., Nicca D., Pantaleo G., Rauch A., Regenass S., Rickenbach M., Rudin C., Schoni-Affolter F., Schmid P., Schupbach J., Speck R., Tarr P., Telenti A., Trkola A., Vernazza P., Weber R., Yerly S., De Luca, A, Flandre, P, Dunn, D, Zazzi, M, Wensing, A, Santoro, M, Gunthard, H, Wittkop, L, Kordossis, T, Garcia, F, Castagna, A, Cozzi-Lepri, A, Churchill, D, De Wit, S, Brockmeyer, N, Imaz, A, Mussini, C, Obel, N, Perno, C, Roca, B, Reiss, P, Schulter, E, Torti, C, van Sighem, A, Zangerle, R, Descamps, D, Mocroft, A, Kirk, O, Sabin, C, Casadi, W, Casabona, J, Miro, J, Touloumi, G, Garrido, M, Teira, R, Wit, F, Warszawski, J, Meyer, L, Dabis, F, Krause, M, Ghosn, J, Leport, C, Prins, M, Bucher, H, Gibb, D, Fatkenheuer, G, del Amo, J, Thorne, C, Stephan, C, Perez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, d'Arminio Monforte, A, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Tookey, P, Konopnick, D, Goetghebuer, T, Sonnerborg, A, Haerry, D, de Wit, S, Costagliola, D, Raben, D, Chene, G, Ceccherini-Silberstein, F, Judd, A, Barger, D, Schwimmer, C, Termote, M, Campbell, M, Frederiksen, C, Friis-Moller, N, Kjaer, J, Brandt, R, Berenguer, J, Bohlius, J, Bouteloup, V, Davies, M, Dorrucci, M, Egger, M, Furrer, H, Guiguet, M, Grabar, S, Lambotte, O, Leroy, V, Lodi, S, Matheron, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Schomaker, M, Smit, C, Sterne, J, Thiebaut, R, van der Valk, M, Wyss, N, Aubert, V, Bernasconi, E, Boni, J, Burton-Jeangros, C, Calmy, A, Cavassini, M, Dollenmaier, G, Elzi, L, Fehr, J, Fellay, J, Fux, C, Gorgievski, M, Hasse, B, Hirsch, H, Hoffmann, M, Hosli, I, Kahlert, C, Kaiser, L, Keiser, O, Klimkait, T, Kovari, H, Ledergerber, B, Martinetti, G, Martinez de Tejada, B, Metzner, K, Muller, N, Nadal, D, Nicca, D, Pantaleo, G, Rauch, A, Regenass, S, Rickenbach, M, Rudin, C, Schoni-Affolter, F, Schmid, P, Schupbach, J, Speck, R, Tarr, P, Telenti, A, Trkola, A, Vernazza, P, Weber, R, Yerly, S, University of Zurich, De Luca, Andrea, Santoro, Mm, Günthard, Hf, Brockmeyer, Nh, Perno, Cf, Schülter, E, on behalf of CHAIN and COHERE in, Eurocoord, AII - Amsterdam institute for Infection and Immunity, APH - Amsterdam Public Health, Global Health, Infectious diseases, and Medical Microbiology and Infection Prevention

Subjects

0301 basic medicine, Oncology, Male, Enfuvirtide, Genotyping Techniques, HIV Infections, 2726 Microbiology (medical), 10234 Clinic for Infectious Diseases, 0302 clinical medicine, HIV Protease, Genotype, 2736 Pharmacology (medical), Medicine, HIV Infection, Pharmacology (medical), 030212 general & internal medicine, Non-U.S. Gov't, Darunavir, Aged, 80 and over, Microbial Sensitivity Test, Medicine (all), Research Support, Non-U.S. Gov't, Proteolytic enzymes, Middle Aged, Settore MED/07 - Microbiologia e Microbiologia Clinica, Prognosis, Europe, 3004 Pharmacology, Treatment Outcome, Infectious Diseases, Mutation (genetic algorithm), Female, Human, medicine.drug, Microbiology (medical), Adult, medicine.medical_specialty, Adolescent, Pharmacology, Prognosi, Anti-HIV Agents, 610 Medicine & health, Microbial Sensitivity Tests, Settore MED/17 - MALATTIE INFETTIVE, Research Support, Article, 03 medical and health sciences, Young Adult, Internal medicine, Linear regression, Drug Resistance, Viral, Journal Article, Humans, Aged, Receiver operating characteristic, business.industry, Anti-HIV Agent, 2725 Infectious Diseases, Raltegravir, 030112 virology, Virology, HIV Darunavir, Mutation, HIV-1, genotypic, Genotyping Technique, business

Abstract

Objectives: The objective of this studywas to improve the prediction of the impact of HIV-1 protease mutations in different viral subtypes on virological response to darunavir. Methods: Darunavir-containing treatment change episodes (TCEs) in patients previously failing PIs were selected from large European databases. HIV-1 subtype B-infected patients were used as the derivation dataset and HIV- 1 non-B-infected patients were used as the validation dataset. The adjusted association of each mutation with week 8 HIV RNA change from baseline was analysed by linear regression. A prediction model was derived based on best subset least squares estimation with mutational weights corresponding to regression coefficients. Virological outcome prediction accuracy was compared with that from existing genotypic resistance interpretation systems (GISs) (ANRS 2013, Rega 9.1.0 and HIVdb 7.0). Results: TCEs were selected from 681 subtype B-infected and 199 non-B-infected adults. Accompanying drugs were NRTIs in 87%, NNRTIs in 27%and raltegravir ormaraviroc or enfuvirtide in 53%. The predictionmodel included weighted protease mutations, HIV RNA, CD4 and activity of accompanying drugs. The model's association with week 8 HIV RNA change in the subtype B (derivation) set was R2=0.47 [average squared error (ASE)=0.67, P>10-6]; in the non-B (validation) set, ASE was 0.91. Accuracy investigated by means of area under the receiver operating characteristic curves with a binary response (above the threshold value of HIV RNA reduction) showed that our finalmodel outperformed models with existing interpretation systems in both training and validation sets. Conclusions: A model with a new darunavir-weighted mutation score outperformed existing GISs in both B and non-B subtypes in predicting virological response to darunavir.

Published

2016

21. Chronic hepatitis B and C virus infection and risk for non-hodgkin lymphoma in HIV-infected patients: A cohort study

Author

Wang, Q. De Luca, A. Smith, C. Zangerle, R. Sambatakou, H. Bonnet, F. Smit, C. Schommers, P. Thornton, A. Berenguer, J. Peters, L. Spagnuolo, V. Ammassari, A. Antinori, A. Roldan, E.Q. Mussini, C. Miro, J.M. Konopnicki, D. Fehr, J. Campbell, M.A. Termote, M. Bucher, H.C. De Wit, S. Costagliola, D. D'Arminio-Monforte, A. Castagna, A. Del Amo, J. Mocroft, A. Raben, D. Chêne, G. Touloumi, G. Warszawski, J. Meyer, L. Dabis, F. Krause, M.M. Ghosn, J. Leport, C. Wittkop, L. Reiss, P. Wit, F. Prins, M. Sabin, C. Gibb, D. Fätkenheuer, G. Obel, N. Thorne, C. Kirk, O. Stephan, C. Pérez-Hoyos, S. Hamouda, O. Bartmeyer, B. Chkhartishvili, N. Noguera-Julian, A. Brockmeyer, N. Prieto, L. Conejo, P.R. Soriano-Arandes, A. Battegay, M. Rauch, A. Tookey, P. Casabona, J. Goetghebuer, T. Sönnerborg, A. Torti, C. Teira, R. Garrido, M. Haerry, D. Bohlius, J. Bouteloup, V. Cozzi-Lepri, A. Davies, M.-A. Dorrucci, M. Dunn, D. Egger, M. Furrer, H. Guiguet, M. Grabar, S. Judd, A. Lambotte, O. Leroy, V. Lodi, S. Matheron, S. Monge, S. Nakagawa, F. Paredes, R. Phillips, A. Puoti, M. Schomaker, M. Sterne, J. Thiebaut, R. Van Der Valk, M. Wyss, N. Barger, D. Schwimmer, C. Friis-Møller, N. Kjaer, J. Brandt, R.S. The Hepatitis Coinfection Non Hodgkin Lymphoma project team for the Collaboration of Observational HIV Epidemiological Research Europe (COHERE) in EuroCoord

Subjects

virus diseases, digestive system diseases

Abstract

Background: Non-Hodgkin lymphoma (NHL) is the most common AIDS-defining condition in the era of antiretroviral therapy (ART). Whether chronic hepatitis B virus (HBV) and hepatitis C virus (HCV) infection promote NHL in HIV-infected patients is unclear. Objective: To investigate whether chronic HBV and HCV infection are associated with increased incidence of NHL in HIVinfected patients. Design: Cohort study. Setting: 18 of 33 cohorts from the Collaboration of Observational HIV Epidemiological Research Europe (COHERE). Patients: HIV-infected patients with information on HBV surface antigen measurements and detectable HCV RNA, or a positive HCV antibody test result if HCV RNA measurements were not available. Measurements: Time-dependent Cox models to assess risk for NHL in treatment-naive patients and those initiating ART, with inverse probability weighting to control for informative censoring. Results: A total of 52 479 treatment-naive patients (1339 [2.6%] with chronic HBV infection and 7506 [14.3%] with HCV infection) were included, of whom 40 219 (77%) later started ART. The median follow-up was 13 months for treatment-naive patients and 50 months for those receiving ART. A total of 252 treatmentnaive patients and 310 treated patients developed NHL, with incidence rates of 219 and 168 cases per 100 000 person-years, respectively. The hazard ratios for NHL with HBV and HCV infection were 1.33 (95% CI, 0.69 to 2.56) and 0.67 (CI, 0.40 to 1.12), respectively, in treatment-naive patients and 1.74 (CI, 1.08 to 2.82) and 1.73 (CI, 1.21 to 2.46), respectively, in treated patients. Limitation: Many treatment-naive patients later initiated ART, which limited the study of the associations of chronic HBV and HCV infection with NHL in this patient group. Conclusion: In HIV-infected patients receiving ART, chronic coinfection with HBV and HCV is associated with an increased risk for NHL. © 2017 American College of Physicians.

Published

2017

22. CD4 cell count response to first-line combination ART in HIV-2+ patients compared with HIV-1+ patients: A multinational, multicohort European study

Author

Wittkop, L. Arsandaux, J. Trevino, A. van der Loeff, M.S. Anderson, J. van Sighem, A. Böni, J. Brun-Vezinet, F. Soriano, V. Boufassa, F. Brockmeyer, N. Calmy, A. Dabis, F. Jarrin, I. Dorrucci, M. Duque, V. Fätkenheuer, G. Zangerle, R. Ferrer, E. Porter, K. Judd, A. Sipsas, N.V. Lambotte, O. Shepherd, L. Leport, C. Morrison, C. Mussini, C. Obel, N. Ruelle, J. Schwarze-Zander, C. Sonnerborg, A. Teira, R. Torti, C. Valadas, E. Colin, C. Friis-Møller, N. Costagliola, D. Thiebaut, R. Chene, G. Matheron, S. Touloumi, G. Warszawski, J. Meyer, L. Krause, M.M. Ghosn, J. Reiss, P. Wit, F. Prins, M. Bucher, H. Gibb, D. Del Amo, J. Thorne, C. Mocroft, A. Kirk, O. Stephan, C. Pérez-Hoyos, S. Hamouda, O. Bartmeyer, B. Chkhartishvili, N. Noguera-Julian, A. Antinori, A. Monforte, A. Prieto, L. Conejo, P.R. Soriano-Arandes, A. Battegay, M. Kouyos, R. Tookey, P. Casabona, J. Mirò, J.M. Castagna, A. Konopnick, D. Goetghebuer, T. Sönnerborg, A. Sabin, C. Garrido, M. Haerry, D. Berenguer, J. Bohlius, J. Bouteloup, V. Cozzi-Lepri, A. Monforte, A.A. Davies, M.-A. Amo, J. Dunn, D. Egger, M. Furrer, H. Guiguet, M. Grabar, S. Leroy, V. Lodi, S. Monge, S. Nakagawa, F. Paredes, R. Phillips, A. Puoti, M. Schomaker, M. Smit, C. Sterne, J. van der Valk, M. Wyss, N. n behalf of the COHERE in EuroCoord ACHIeV2e Study Group

Subjects

virus diseases

Abstract

Background: CD4 cell recovery following first-line combination ART (cART) is poorer in HIV-2+ than in HIV-1+ patients. Only large comparisons may allow adjustments for demographic and pretreatment plasma viral load (pVL). Methods: ART-naive HIV+ adults from two European multicohort collaborations, COHERE (HIV-1 alone) and ACHIeV2e (HIV-2 alone), were included, if they started first-line cART (without NNRTIs or fusion inhibitors) between 1997 and 2011. Patients without at least one CD4 cell count before start of cART, without a pretreatment pVL and with missing a priori-defined covariables were excluded. Evolution of CD4 cell count was studied using adjusted linear mixed models. Results: We included 185 HIV-2+ and 30321 HIV-1+ patients with median age of 46 years (IQR 36-52) and 37 years (IQR 31-44), respectively. Median observed pretreatment CD4 cell counts/mm3 were 203 (95% CI 100-290) in HIV-2+ patients and 223 (95% CI 100-353) in HIV-1+ patients. Mean observed CD4 cell count changes from start of cART to 12months were +105 (95% CI 77-134) in HIV-2+ patients and +202 (95% CI 199-205) in HIV-1+ patients, an observed difference of 97 cells/mm3 in 1 year. In adjusted analysis, the mean CD4 cell increase was overall 25 CD4 cells/mm3/year lower (95% CI 5-44; P=0.0127) in HIV-2+ patients compared with HIV-1+ patients. Conclusions: A poorer CD4 cell increase during first-line cART was observed in HIV-2+patients, even after adjusting for pretreatment pVL and other potential confounders. Our results underline the need to identify more potent therapeutic regimens or strategies against HIV-2.

Published

2017

23. Reference curves for CD4 T-cell count response to combination antiretroviral therapy in HIV-1-infected treatment-naive patients

Author

Bouteloup, V. Sabin, C. Mocroft, A. Gras, L. Pantazis, N. Le Moing, V. d'Arminio Monforte, A. Mary-Krause, M. and Roca, B. Miro, J. M. Battegay, M. Brockmeyer, N. and Berenguer, J. Morlat, P. Obel, N. De Wit, S. and Faetkenheuer, G. Zangerle, R. Ghosn, J. Perez-Hoyos, S. and Campbell, M. Prins, M. Chene, G. Meyer, L. Dorrucci, M. and Torti, C. Thiebaut, R. Stand Reference Distribution CD4 R

Abstract

ObjectivesThe aim of this work was to provide a reference for the CD4 T-cell count response in the early months after the initiation of combination antiretroviral therapy (cART) in HIV-1-infected patients. MethodsAll patients in the Collaboration of Observational HIV Epidemiological Research Europe (COHERE) cohort who were aged 18 years and started cART for the first time between 1 January 2005 and 1 January 2010 and who had at least one available measurement of CD4 count and a viral load 50 HIV-1 RNA copies/mL at 6 months ( 3 months) after cART initiation were included in the study. Unadjusted and adjusted references curves and predictions were obtained using quantile regressions. ResultsA total of 28 992 patients were included in the study. The median CD4 T-cell count at treatment initiation was 249 [interquartile range (IQR) 150, 336] cells/L. The median observed CD4 counts at 6, 9 and 12 months were 382 (IQR 256, 515), 402 (IQR 274, 543) and 420 (IQR 293, 565) cells/L. The two main factors explaining the variation of CD4 count at 6 months were AIDS stage and CD4 count at cART initiation. A CD4 count increase of 100 cells/mL is generally required in order that patients stay on track’ (i.e. with a CD4 count at the same percentile as when they started), with slightly higher gains required for those starting with CD4 counts in the higher percentiles. Individual predictions adjusted for factors influencing CD4 count were more precise. ConclusionsReference curves aid the evaluation of the immune response early after antiretroviral therapy initiation that leads to viral control.

Published

2017

24. Temporal Trend in the Level of 90K Glycoprotein after HIV Seroconversion among Persons Coinfected with Hepatitis C Virus

Author

Dorrucci, M., Ciccozzi, M., Iacobelli, S., and Rezza, G.

Published

2005

25. Predictors of CD4(+) T-cell counts of HIV type 1-infected persons after virologic failure of all 3 original antiretroviral drug classes

Author

Audelin, A., Castagna, A., Costagliola, D., Cozzi-Lepri, A., De Luca, A., De Wit, S., de Wolf, F., Dorrucci, M., Duval, X., Fatkenheuer, G., Garcia, F., Ghosn, J., Gunthard, H., Jansen, K., Judd, A., Ledergerber, B., Lo Caputo, S., Lodwick, R., Masquelier, B., Meyer, L., Mocroft, A., Mussini, C., Noguera-Julian, A., Obel, N., Paraskevis, D., Paredes, R., Perez-Hoyos, S., Phillips, A., Pillay, D., Podzamczer, D., Ramos, J. T., Stephan, C., Tookey, P. A., Torti, C., Touloumi, G., van Sighem, A., Warsawski, J., Zangerle, R., Warszawski, J., Dabis, F., Krause, M. M., Leport, C., Reiss, P., Prins, M., Bucher, H., Sabin, C., Gibb, D., Del Amo, J., Thorne, C., Kirk, O., Antinori, A., d'Arminio Monforte, A., Brockmeyer, N., Ramos, J., Battegay, M., Rauch, A., Tookey, P., Casabona, J., Miro, J. M., de Wit, S., Goetghebuer, T., Teira, R., Garrido, M., Haerry, D., Weller, I., d'Arminio-Monforte, A., Grarup, J., Chene, G., Bohlius, J., Bouteloup, V., Egger, M., Engsig, F., Furrer, H., Lambotte, O., Lewden, C., Matheron, S., Miro, J., Puoti, M., Reekie, J., Scherrer, A., Smit, C., Sterne, J., Thiebaut, R., von Wyl, V., Wittkop, L., Ledergerber, Bruno, Cohere, Cohort, Castagna, Antonella, Other departments, Amsterdam institute for Infection and Immunity, Amsterdam Public Health, Global Health, and Infectious diseases

Subjects

Adult, Male, medicine.medical_specialty, Efavirenz, Infectious Disease, HIV Infections, Settore MED/17 - MALATTIE INFETTIVE, Gastroenterology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, antiretroviral agent, Internal medicine, Medicine, Immunology and Allergy, Humans, Protease inhibitor (pharmacology), HIV Infection, 030212 general & internal medicine, Anti-Retroviral Agents, CD4 Lymphocyte Count, Female, Middle Aged, Treatment Failure, Viral Load, Generalized estimating equation, HIV cohort study, business.industry, CD4 lymphocyte count, Raltegravir, Confidence interval, 3. Good health, VIROLOGIC FAILURE, Infectious Diseases, chemistry, 030220 oncology & carcinogenesis, Immunology, Cohort, triple-class virologic failure, HIV-1, Anti-Retroviral Agent, business, Viral load, medicine.drug, Human

Abstract

Background. Low CD4+ T-cell counts are the main factor leading to clinical progression in human immunodeficiency virus type 1 (HIV-1) infection. We aimed to investigate factors affecting CD4+ T-cell counts after triple-class virological failure.Methods. We included individuals from the COHERE database who started antiretroviral therapy from 1998 onward and who experienced triple-class virological failure. CD4+ T-cell counts obtained after triple-class virologic failure were analyzed using generalized estimating equations.Results. The analyses included 2424 individuals with a total of 23 922 CD4+ T-cell count measurements. In adjusted models (excluding current viral load and year), CD4+ T-cell counts were higher with regimens that included boosted protease inhibitors (increase, 22 cells/μL [95% confidence interval CI, 3.9-41]; P =. 017) or drugs from the new classes (increase, 39 cells/μL [95% CI, 15-62]; P =. 001), compared with nonnucleoside reverse-transcriptase inhibitor-based regimens. These associations disappeared when current viral load and/or calendar year were included. Compared with viral levels of 5.5 log10 copies/mL were associated with CD4+ T-cell count decreases of 51, 84, 137, and 186 cells/μL, respectively (P

Published

2013

26. Reference curves for CD4 T-cell count response to combination antiretroviral therapy in HIV-1-infected treatment-naive patients

Author

Bouteloup, V., Sabin, C., Mocroft, A., Gras, L., Pantazis, N., Le Moing, V., d'Arminio Monforte, A., Mary-Krause, M., Roca, B., Miro, J. M., Battegay, M., Brockmeyer, N., Berenguer, J., Morlat, P., Obel, N., De Wit, S., Faetkenheuer, G., Zangerle, R., Ghosn, J., Perez-Hoyos, S., Campbell, M., Prins, M., Chene, G., Meyer, L., Dorrucci, M., Torti, C., Thiebaut, R., Bouteloup, V., Sabin, C., Mocroft, A., Gras, L., Pantazis, N., Le Moing, V., d'Arminio Monforte, A., Mary-Krause, M., Roca, B., Miro, J. M., Battegay, M., Brockmeyer, N., Berenguer, J., Morlat, P., Obel, N., De Wit, S., Faetkenheuer, G., Zangerle, R., Ghosn, J., Perez-Hoyos, S., Campbell, M., Prins, M., Chene, G., Meyer, L., Dorrucci, M., Torti, C., and Thiebaut, R.

Abstract

ObjectivesThe aim of this work was to provide a reference for the CD4 T-cell count response in the early months after the initiation of combination antiretroviral therapy (cART) in HIV-1-infected patients. MethodsAll patients in the Collaboration of Observational HIV Epidemiological Research Europe (COHERE) cohort who were aged 18 years and started cART for the first time between 1 January 2005 and 1 January 2010 and who had at least one available measurement of CD4 count and a viral load 50 HIV-1 RNA copies/mL at 6 months ( 3 months) after cART initiation were included in the study. Unadjusted and adjusted references curves and predictions were obtained using quantile regressions. ResultsA total of 28 992 patients were included in the study. The median CD4 T-cell count at treatment initiation was 249 [interquartile range (IQR) 150, 336] cells/L. The median observed CD4 counts at 6, 9 and 12 months were 382 (IQR 256, 515), 402 (IQR 274, 543) and 420 (IQR 293, 565) cells/L. The two main factors explaining the variation of CD4 count at 6 months were AIDS stage and CD4 count at cART initiation. A CD4 count increase of 100 cells/mL is generally required in order that patients stay on track' (i.e. with a CD4 count at the same percentile as when they started), with slightly higher gains required for those starting with CD4 counts in the higher percentiles. Individual predictions adjusted for factors influencing CD4 count were more precise. ConclusionsReference curves aid the evaluation of the immune response early after antiretroviral therapy initiation that leads to viral control.

Published

2017

27. Higher rates of triple-class virological failure in perinatally HIV-infected teenagers compared with heterosexually infected young adults in Europe

Author

Judd, A., Lodwick, R., Noguera-Julian, A., Gibb, D. M., Butler, K., Costagliola, D., Sabin, C., van Sighem, A., Ledergerber, B., Torti, C., Mocroft, A., Podzamczer, D., Dorrucci, M., De Wit, S., Obel, N., Dabis, F., Cozzi-Lepri, A., Garcia, F., Brockmeyer, N. H., Warszawski, J., Gonzalez-Tome, M. I., Mussini, C., Touloumi, G., Zangerle, R., Ghosn, J., Castagna, A., Faetkenheuer, G., Stephan, C., Meyer, L., Campbell, M. A., Chene, G., Phillips, A., Judd, A., Lodwick, R., Noguera-Julian, A., Gibb, D. M., Butler, K., Costagliola, D., Sabin, C., van Sighem, A., Ledergerber, B., Torti, C., Mocroft, A., Podzamczer, D., Dorrucci, M., De Wit, S., Obel, N., Dabis, F., Cozzi-Lepri, A., Garcia, F., Brockmeyer, N. H., Warszawski, J., Gonzalez-Tome, M. I., Mussini, C., Touloumi, G., Zangerle, R., Ghosn, J., Castagna, A., Faetkenheuer, G., Stephan, C., Meyer, L., Campbell, M. A., Chene, G., and Phillips, A.

Abstract

Objectives The aim of the study was to determine the time to, and risk factors for, triple-class virological failure (TCVF) across age groups for children and adolescents with perinatally acquired HIV infection and older adolescents and adults with heterosexually acquired HIV infection. Methods We analysed individual patient data from cohorts in the Collaboration of Observational HIV Epidemiological Research Europe (COHERE). A total of 5972 participants starting antiretroviral therapy (ART) from 1998, aged < 20 years at the start of ART for those with perinatal infection and 15-29 years for those with heterosexual infection, with ART containing at least two nucleoside reverse transcriptase inhibitors (NRTIs) and a nonnucleoside reverse transcriptase inhibitor (NNRTI) or a boosted protease inhibitor (bPI), were followed from ART initiation until the most recent viral load (VL) measurement. Virological failure of a drug was defined as VL > 500 HIV-1 RNA copies/mL despite >= 4 months of use. TCVF was defined as cumulative failure of two NRTIs, an NNRTI and a bPI. Results The median number of weeks between diagnosis and the start of ART was higher in participants with perinatal HIV infection compared with participants with heterosexually acquired HIV infection overall [17 (interquartile range (IQR) 4-111) vs. 8 (IQR 2-38) weeks, respectively], and highest in perinatally infected participants aged 10-14 years [49 (IQR 9-267) weeks]. The cumulative proportion with TCVF 5 years after starting ART was 9.6% [95% confidence interval (CI) 7.0-12.3%] in participants with perinatally acquired infection and 4.7% (95% CI 3.9-5.5%) in participants with heterosexually acquired infection, and highest in perinatally infected participants aged 10-14 years when starting ART (27.7%; 95% CI 13.2-42.1%). Across all participants, significant predictors of TCVF were those with perinatal HIV aged 10-14 years, African origin, pre-ART AIDS, NNRTI-based initial regimens, higher pre-ART viral loa

Published

2017

28. CD4 cell count response to first-line combination ART in HIV-2+ patients compared with HIV-1+ patients: A multinational, multicohort European study

Author

Wittkop, L, Arsandaux, J, Trevino, A, van der Loeff, M, Anderson, J, van Sighem, A, Böni, J, Brun-Vezinet, F, Soriano, V, Boufassa, F, Brockmeyer, N, Calmy, A, Dabis, F, Jarrin, I, Dorrucci, M, Duque, V, Fätkenheuer, G, Zangerle, R, Ferrer, E, Porter, K, Judd, A, Sipsas, N, Lambotte, O, Shepherd, L, Leport, C, Morrison, C, Mussini, C, Obel, N, Ruelle, J, Schwarze-Zander, C, Sonnerborg, A, Teira, R, Torti, C, Valadas, E, Colin, C, Friis-Møller, N, Costagliola, D, Thiebaut, R, Chene, G, Matheron, S, Touloumi, G, Warszawski, J, Meyer, L, Krause, M, Ghosn, J, Reiss, P, Wit, F, Prins, M, Bucher, H, Gibb, D, Del Amo, J, Thorne, C, Mocroft, A, Kirk, O, Stephan, C, Pérez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, Monforte, A, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Tookey, P, Casabona, J, Mirò, J, Castagna, A, Konopnick, D, Goetghebuer, T, Sönnerborg, A, Sabin, C, Garrido, M, Haerry, D, Berenguer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Davies, M, Amo, J, Dunn, D, Egger, M, Furrer, H, Guiguet, M, Grabar, S, Leroy, V, Lodi, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Schomaker, M, Smit, C, Sterne, J, van der Valk, M, Wyss, N, van der Loeff, MS, Sipsas, NV, Krause, MM, Conejo, PR, Mirò, JM, Monforte, AA, Davies, MA, Wittkop, L, Arsandaux, J, Trevino, A, van der Loeff, M, Anderson, J, van Sighem, A, Böni, J, Brun-Vezinet, F, Soriano, V, Boufassa, F, Brockmeyer, N, Calmy, A, Dabis, F, Jarrin, I, Dorrucci, M, Duque, V, Fätkenheuer, G, Zangerle, R, Ferrer, E, Porter, K, Judd, A, Sipsas, N, Lambotte, O, Shepherd, L, Leport, C, Morrison, C, Mussini, C, Obel, N, Ruelle, J, Schwarze-Zander, C, Sonnerborg, A, Teira, R, Torti, C, Valadas, E, Colin, C, Friis-Møller, N, Costagliola, D, Thiebaut, R, Chene, G, Matheron, S, Touloumi, G, Warszawski, J, Meyer, L, Krause, M, Ghosn, J, Reiss, P, Wit, F, Prins, M, Bucher, H, Gibb, D, Del Amo, J, Thorne, C, Mocroft, A, Kirk, O, Stephan, C, Pérez-Hoyos, S, Hamouda, O, Bartmeyer, B, Chkhartishvili, N, Noguera-Julian, A, Antinori, A, Monforte, A, Prieto, L, Conejo, P, Soriano-Arandes, A, Battegay, M, Kouyos, R, Tookey, P, Casabona, J, Mirò, J, Castagna, A, Konopnick, D, Goetghebuer, T, Sönnerborg, A, Sabin, C, Garrido, M, Haerry, D, Berenguer, J, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Davies, M, Amo, J, Dunn, D, Egger, M, Furrer, H, Guiguet, M, Grabar, S, Leroy, V, Lodi, S, Monge, S, Nakagawa, F, Paredes, R, Phillips, A, Puoti, M, Schomaker, M, Smit, C, Sterne, J, van der Valk, M, Wyss, N, van der Loeff, MS, Sipsas, NV, Krause, MM, Conejo, PR, Mirò, JM, Monforte, AA, and Davies, MA

Abstract

Background: CD4 cell recovery following first-line combination ART (cART) is poorer in HIV-2+ than in HIV-1+ patients. Only large comparisons may allow adjustments for demographic and pretreatment plasma viral load (pVL). Methods: ART-naive HIV+ adults from two European multicohort collaborations, COHERE (HIV-1 alone) and ACHIeV2e (HIV-2 alone), were included, if they started first-line cART (without NNRTIs or fusion inhibitors) between 1997 and 2011. Patients without at least one CD4 cell count before start of cART, without a pretreatment pVL and with missing a priori-defined covariables were excluded. Evolution of CD4 cell count was studied using adjusted linear mixed models. Results: We included 185 HIV-2+ and 30321 HIV-1+ patients with median age of 46 years (IQR 36-52) and 37 years (IQR 31-44), respectively. Median observed pretreatment CD4 cell counts/mm3 were 203 (95% CI 100-290) in HIV-2+ patients and 223 (95% CI 100-353) in HIV-1+ patients. Mean observed CD4 cell count changes from start of cART to 12months were +105 (95% CI 77-134) in HIV-2+ patients and +202 (95% CI 199-205) in HIV-1+ patients, an observed difference of 97 cells/mm3 in 1 year. In adjusted analysis, the mean CD4 cell increase was overall 25 CD4 cells/mm3/year lower (95% CI 5-44; P=0.0127) in HIV-2+ patients compared with HIV-1+ patients. Conclusions: A poorer CD4 cell increase during first-line cART was observed in HIV-2+patients, even after adjusting for pretreatment pVL and other potential confounders. Our results underline the need to identify more potent therapeutic regimens or strategies against HIV-2.

Published

2017

29. Changes in the incidence and predictors of human immunodeficiency virus-associated dementia in the era of highly active antiretroviral therapy

Author

Bhaskaran, K, Mussini, Cristina, Antinori, A, Walker, As, Dorrucci, M, Sabin, C, Phillips, A, Porter, K, and Cascade, Collaboration

Subjects

Adult, Male, medicine.medical_specialty, AIDS Dementia Complex, Time Factors, HAART, Sexual Behavior, HIV Infections, Severity of Illness Index, Risk-Taking, Acquired immunodeficiency syndrome (AIDS), Risk Factors, Antiretroviral Therapy, Highly Active, Internal medicine, HIV Seropositivity, Humans, Medicine, HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 (HIV-1), DEMENTIA, Age of Onset, Homosexuality, Male, Seroconversion, Survival analysis, Proportional Hazards Models, business.industry, Proportional hazards model, Incidence, Age Factors, Middle Aged, Viral Load, Prognosis, medicine.disease, Survival Analysis, Confidence interval, CD4 Lymphocyte Count, Europe, Neurology, Relative risk, Immunology, Disease Progression, Female, Neurology (clinical), Age of onset, business, Viral load

Abstract

OBJECTIVE: Though effective anti-human immunodeficiency virus (HIV) therapies are now available, they have variable penetration into the brain. We therefore aimed to assess changes over calendar time in the risk for HIV-associated dementia (HIV-D), and factors associated with HIV-D risk. METHODS: Using Concerted Action on Seroconversion to AIDS and Death in Europe (CASCADE) data, we analyzed factors associated with time from HIV seroconversion to HIV-D using Cox models with time-updated covariates. The effect of duration of infection was explored using flexible parametric survival models. RESULTS: 222 of 15,380 seroconverters developed HIV-D. The incidence per 1,000 person-years was 6.49 pre-1997 (before highly active antiretroviral therapy was available), declining to 0.66 by 2003 to 2006. Compared with most recent CD4 count > or = 350 cells/mm3, the adjusted relative risk (95% confidence interval) of HIV-D was 3.47 (1.91-6.28), 10.19 (5.72-18.15), and 39.03 (22.96-66.36) at 200 to 349, 100 to 199, and 0 to 99 cells/mm3, respectively. In 2003 to 2006, older age at seroconversion (relative risk = 3.24 per 10-year increase [95% confidence interval, 2.00-5.24]) and previous acquired immune deficiency syndrome diagnosis (relative risk = 4.92 [95% confidence interval, 1.43-16.92]) were associated with HIV-D risk, independently of current CD4 count. HIV-D risk appeared to increase during chronic infection, by 48% at 10 years after seroconversion compared with the lowest risk at 1.8 years. INTERPRETATION: HIV-D incidence has reduced markedly since 1997. However, patients with low (

Published

2016

30. Improved darunavir genotypic mutation score predicting treatment response for patients infected with HIRaben-1 subtype B and non-subtype B receiving a salvage regimen

Author

De Luca, A. Flandre, P. Dunn, D. Zazzi, M. Wensing, A. Santoro, M.M. Günthard, H.F. Wittkop, L. Kordossis, T. Garcia, F. Castagna, A. Cozzi-Lepri, A. Churchill, D. De Wit, S. Brockmeyer, N.H. Imaz, A. Mussini, C. Obel, N. Perno, C.F. Roca, B. Reiss, P. Schülter, E. Torti, C. van Sighem, A. Zangerle, R. Descamps, D. Mocroft, A. Kirk, O. Sabin, C. Casadi, W. Casabona, J. Miró, J.M. Touloumi, G. Garrido, M. Teira, R. Wit, F. Warszawski, J. Meyer, L. Dabis, F. Krause, M.M. Ghosn, J. Leport, C. Prins, M. Bucher, H. Gibb, D. Fätkenheuer, G. del Amo, J. Thorne, C. Stephan, C. Pérez-Hoyos, S. Hamouda, O. Bartmeyer, B. Chkhartishvili, N. Noguera-Julian, A. Antinori, A. d'Arminio Monforte, A. Prieto, L. Conejo, P.R. Soriano-Arandes, A. Battegay, M. Kouyos, R. Tookey, P. Konopnick, D. Goetghebuer, T. Sönnerborg, A. Haerry, D. Costagliola, D. Raben, D. Chêne, G. Ceccherini-Silberstein, F. Günthard, H. Judd, A. Barger, D. Schwimmer, C. Termote, M. Campbell, M. Frederiksen, C.M. Friis-Møller, N. Kjaer, J. Brandt, R.S. Berenguer, J. Bohlius, J. Bouteloup, V. Davies, M.-A. Dorrucci, M. Egger, M. Furrer, H. Guiguet, M. Grabar, S. Lambotte, O. Leroy, V. Lodi, S. Matheron, S. Monge, S. Nakagawa, F. Paredes, R. Phillips, A. Puoti, M. Schomaker, M. Smit, C. Sterne, J. Thiebaut, R. van der Valk, M. Wyss, N. Aubert, V. Battegay, M. Bernasconi, E. Böni, J. Burton-Jeangros, C. Calmy, A. Cavassini, M. Dollenmaier, G. Egger, M. Elzi, L. Fehr, J. Fellay, J. Furrer, H. Fux, C.A. Gorgievski, M. Günthard, H. Haerry, D. Hasse, B. Hirsch, H.H. Hoffmann, M. Hösli, I. Kahlert, C. Kaiser, L. Keiser, O. Klimkait, T. Kouyos, R. Kovari, H. Ledergerber, B. Martinetti, G. Martinez de Tejada, B. Metzner, K. Müller, N. Nadal, D. Nicca, D. Pantaleo, G. Rauch, A. Regenass, S. Rickenbach, M. Rudin, C. Schöni-Affolter, F. Schmid, P. Schüpbach, J. Speck, R. Tarr, P. Telenti, A. Trkola, A. Vernazza, P. Weber, R. Yerly, S. CHAIN COHERE in EuroCoord

Abstract

Objectives: The objective of this studywas to improve the prediction of the impact of HIV-1 protease mutations in different viral subtypes on virological response to darunavir. Methods: Darunavir-containing treatment change episodes (TCEs) in patients previously failing PIs were selected from large European databases. HIV-1 subtype B-infected patients were used as the derivation dataset and HIV- 1 non-B-infected patients were used as the validation dataset. The adjusted association of each mutation with week 8 HIV RNA change from baseline was analysed by linear regression. A prediction model was derived based on best subset least squares estimation with mutational weights corresponding to regression coefficients. Virological outcome prediction accuracy was compared with that from existing genotypic resistance interpretation systems (GISs) (ANRS 2013, Rega 9.1.0 and HIVdb 7.0). Results: TCEs were selected from 681 subtype B-infected and 199 non-B-infected adults. Accompanying drugs were NRTIs in 87%, NNRTIs in 27%and raltegravir ormaraviroc or enfuvirtide in 53%. The predictionmodel included weighted protease mutations, HIV RNA, CD4 and activity of accompanying drugs. The model's association with week 8 HIV RNA change in the subtype B (derivation) set was R2=0.47 [average squared error (ASE)=0.67, P>10-6]; in the non-B (validation) set, ASE was 0.91. Accuracy investigated by means of area under the receiver operating characteristic curves with a binary response (above the threshold value of HIV RNA reduction) showed that our finalmodel outperformed models with existing interpretation systems in both training and validation sets. Conclusions: A model with a new darunavir-weighted mutation score outperformed existing GISs in both B and non-B subtypes in predicting virological response to darunavir. © The Author 2016.

Published

2016

31. Does rapid HIV disease progression prior to combination antiretroviral therapy hinder optimal CD4 + T-cell recovery once HIV-1 suppression is achieved?

Author

Jarrin, I. Pantazis, N. Dalmau, J. Phillips, A.N. Olson, A. Mussini, C. Boufassa, F. Costagliola, D. Porter, K. Blanco, J. Del Amo, J. Martinez-Picado, J. Chene, G. Sabin, C. Walker, S. Fisher, M. Kelleher, T. Cooper, D. Finlayson, R. Bloch, M. Ramacciotti, T. Gelgor, L. Smith, D. Zangerle, R. Gill, J. Lutsar, I. Dabis, F. Thiebaut, R. Guiguet, M. Vanhems, P. Chaix, M.-L. Ghosn, J. Meyer, L. Hamouda, O. Kucherer, C. Bartmeyer, B. Antoniadou, A. Chrysos, G. Daikos, G.L. Touloumi, G. Katsarou, O. Rezza, G. Dorrucci, M. Monforte, A.D. De Luca, A. Prins, M. Geskus, R. Van Der Helm, J. Schuitemaker, H. Sannes, M. Brubakk, O. Kran, A.-M.B. Rosinska, M. Muga, R. Tor, J. De Olalla, P.G. Cayla, J. Moreno, S. Monge, S. Del Romero, J. Perez-Hoyos, S. Sonnerborg, A. Bucher, H.C. Gunthard, H. Rickenbach, M. Malyuta, R. Murphy, G. Johnson, A. Babiker, A. Pillay, D. Morrison, C. Salata, R. Mugerwa, R. Chipato, T. Amornkul, P.N. Gilmour, J. Kamali, A. Karita, E. Burns, F. Giaquinto, C. Grarup, J. Kirk, O. Bailey, H. Anne, A.V. Panteleev, A. Thorne, C. Aboulker, J.-P. Albert, J. Asandi, S. De Wit, S. Reiss, P. Gatell, J. Karpov, I. Ledergerber, B. Lundgren, J. Møller, C. Rakhmanova, A. Rockstroh, J. Sandhu, M. Dedes, N. Fenton, K. Pizzuti, D. Vitoria, M. Faggion, S. Fradette, L. Frost, R. Cartier, A. Raben, D. Schwimmer, C. Scott, M.

Abstract

Objective: This article compares trends in CD4 + T-cell recovery and proportions achieving optimal restoration (≥500cells/μl) after viral suppression following combination antiretroviral therapy (cART) initiation between rapid and nonrapid progressors. Methods: We included HIV-1 seroconverters achieving viral suppression within 6 months of cART. Rapid progressors were individuals experiencing at least one CD4 + less than 200cells/μl within 12 months of seroconverters before cART. We used piecewise linear mixed models and logistic regression for optimal restoration. Results: Of 4024 individuals, 294 (7.3%) were classified as rapid progressors. At the same CD4 + T-cell count at cART start (baseline), rapid progressors experienced faster CD4 + T-cell increases than nonrapid progressors in first month [difference (95% confidence interval) in mean increase/month (square root scale): 1.82 (1.61; 2.04)], which reversed to slightly slower increases in months 1-18 [-0.05 (-0.06; -0.03)] and no significant differences in 18-60 months [-0.003 (-0.01; 0.01)]. Percentage achieving optimal restoration was significantly lower for rapid progressors than nonrapid progressors at months 12 (29.2 vs. 62.5%) and 36 (47.1 vs. 72.4%) but not at month 60 (70.4 vs. 71.8%). These differences disappeared after adjusting for baseline CD4 + T-cell count: odds ratio (95% confidence interval) 0.86 (0.61; 1.20), 0.90 (0.38; 2.17) and 1.56 (0.55; 4.46) at months 12, 36 and 60, respectively. Conclusion: Among people on suppressive antiretroviral therapy, rapid progressors experience faster initial increases of CD4 + T-cell counts than nonrapid progressors, but are less likely to achieve optimal restoration during the first 36 months after cART, mainly because of lower CD4 + T-cell counts at cART initiation. Copyright © 2015 Wolters Kluwer Health, Inc. All rights reserved.

Published

2015

32. Does rapid HIV disease progression prior to combination antiretroviral therapy hinder optimal CD4 + T-cell recovery once HIV-1 suppression is achieved?

Author

Jarrin, I., Pantazis, N., Dalmau, J., Phillips, A. N., Olson, A., Mussini, C., Boufassa, F., Costagliola, D., Porter, K., Blanco, J., Del Amo, J., Martinez-Picado, J., Chene, G., Sabin, C., Walker, S., Fisher, M., Kelleher, T., Cooper, D., Finlayson, R., Bloch, M., Ramacciotti, T., Gelgor, L., Smith, D., Zangerle, R., Gill, J., Lutsar, I., Dabis, F., Thiebaut, R., Guiguet, M., Vanhems, P., Chaix, M. -L., Ghosn, J., Meyer, L., Hamouda, O., Kucherer, C., Bartmeyer, B., Antoniadou, A., Chrysos, G., Daikos, G. L., Touloumi, G., Katsarou, O., Rezza, G., Dorrucci, M., Monforte, A. D., De Luca, A., Prins, M., Geskus, R., Van Der Helm, J., Schuitemaker, H., Sannes, M., Brubakk, O., Kran, A. -M. B., Rosinska, M., Muga, R., Tor, J., De Olalla, P. G., Cayla, J., Moreno, S., Monge, S., Del Romero, J., Perez-Hoyos, S., Sonnerborg, A., Bucher, H. C., Gunthard, H., Rickenbach, M., Malyuta, R., Murphy, G., Johnson, A., Babiker, A., Pillay, D., Morrison, C., Salata, R., Mugerwa, R., Chipato, T., Amornkul, P. N., Gilmour, J., Kamali, A., Karita, E., Burns, F., Giaquinto, C., Grarup, J., Kirk, O., Bailey, H., Anne, A. V., Panteleev, A., Thorne, C., Aboulker, J. -P., Albert, J., Asandi, S., De Wit, S., Reiss, P., Gatell, J., Karpov, I., Ledergerber, B., Lundgren, J., Moller, C., Rakhmanova, A., Rockstroh, J., Sandhu, M., Dedes, N., Fenton, K., Pizzuti, D., Vitoria, M., Faggion, S., Fradette, L., Frost, R., Cartier, A., Raben, D., Schwimmer, C., Scott, M., and Unión Europea. Comisión Europea. 7 Programa Marco

Subjects

Cart, Adult, CD4-Positive T-Lymphocytes, Male, CD4 responses, HIV-viral suppression, rapid progression, Anti-Retroviral Agents, CD4 Lymphocyte Count, Cohort Studies, Disease Progression, Female, HIV Infections, HIV-1, Humans, Middle Aged, Time Factors, Young Adult, Antiretroviral Therapy, Highly Active, Viral Load, Epidemiology and Social, Immunology, Human immunodeficiency virus (HIV), Antiretroviral Therapy, medicine.disease_cause, 17 Psychology And Cognitive Sciences, Acquired immunodeficiency syndrome (AIDS), Virology, medicine, Immunology and Allergy, Highly Active, Young adult, Cd4 t cell, business.industry, 11 Medical And Health Sciences, 06 Biological Sciences, medicine.disease, Antiretroviral therapy, 3. Good health, Infectious Diseases, business, Viral load, Hiv disease

Abstract

Objective: This article compares trends in CD4þ T-cell recovery and proportions achieving optimal restoration ( 500 cells/ml) after viral suppression following combination antiretroviral therapy (cART) initiation between rapid and nonrapid progressors. Methods: We included HIV-1 seroconverters achieving viral suppression within 6 months of cART. Rapid progressors were individuals experiencing at least one CD4þ less than 200 cells/ml within 12 months of seroconverters before cART. We used piecewise linear mixed models and logistic regression for optimal restoration. Results: Of 4024 individuals, 294 (7.3%) were classified as rapid progressors. At the same CD4þ T-cell count at cART start (baseline), rapid progressors experienced faster CD4þ T-cell increases than nonrapid progressors in first month [difference (95% confidence interval) in mean increase/month (square root scale): 1.82 (1.61; 2.04)], which reversed to slightly slower increases in months 1–18 [0.05 (0.06; 0.03)] and no significant differences in 18–60 months [0.003 (0.01; 0.01)]. Percentage achieving optimal restoration was significantly lower for rapid progressors than nonrapid progressors at months 12 (29.2 vs. 62.5%) and 36 (47.1 vs. 72.4%) but not at month 60 (70.4 vs. 71.8%). These differences disappeared after adjusting for baseline CD4þ T-cell count: odds ratio (95% confidence interval) 0.86 (0.61; 1.20), 0.90 (0.38; 2.17) and 1.56 (0.55; 4.46) at months 12, 36 and 60, respectively. Conclusion: Among people on suppressive antiretroviral therapy, rapid progressors experience faster initial increases of CD4þ T-cell counts than nonrapid progressors, but are less likely to achieve optimal restoration during the first 36 months after cART, mainly because of lower CD4þ T-cell counts at cART initiation. This work was supported by the European Union Seventh Framework Programme (FP7/2007–2013) under EuroCoord grant agreement n° 260694. Sí

Published

2015

33. Long-term mortality in HIV-positive individuals virally suppressed for >3 years with incomplete CD4 recovery

Author

Engsig, F. N., Zangerle, R., Katsarou, O., Dabis, F., Reiss, P., Gill, J., Porter, K., Sabin, C., Riordan, A., Fatkenheuer, G., Gutierrez, F., Raffi, F., Kirk, O., Mary-Krause, M., Stephan, C., de Olalla, P. G., Guest, J., Samji, H., Castagna, A., d'Arminio Monforte, A., Skaletz-Rorowski, A., Ramos, J., Lapadula, G., Mussini, C., Force, L., Meyer, L., Lampe, F., Boufassa, F., Bucher, H. C., De Wit, S., Burkholder, G. A., Teira, R., Justice, A. C., Sterling, T. R., M. Crane, H., Gerstoft, J., Grarup, J., May, M., Chene, G., Ingle, S. M., Sterne, J., Obel, N., Burkholder, G., Justice, A., R Sterling, T., Crane, H. M., Boulle, A., Brodt, H.-R., Casabona, J., Cavassini, M., Costagliola, D., D'Arminio Monforte, A., del Amo, J., Van Sighem, A., Hans-Ulrich Haerry, D., Hogg, R., Mocroft, A., Kitahata, M., Saag, M., Williams, M., Ingle, S., Touloumi, G., Warszawski, J., Krause, M. M., Ghosn, J., Leport, C., Wit, F., Prins, M., Gibb, D., Del Amo, J., Thorne, C., Perez-Hoyos, S., Hamouda, O., Gussenheimer-Bartmeyer, B., Noguera-Julian, A., Antinori, A., Brockmeyer, N., Battegay, M., Rauch, A., Tookey, P., Miro, J. M., de Wit, S., Goetghebuer, T., Torti, C., Garrido, M., Judd, A., Conejo, P. R., Haerry, D., Weller, I., d'Arminio-Monforte, A., Colin, C., Schwimmer, C., Termote, M., Kjaer, J., Campbell, M., Raben, D., Bohlius, J., Bouteloup, V., Bucher, H., Cozzi-Lepri, A., Dorrucci, M., Egger, M., Engsig, F., Furrer, H., Lambotte, O., Lewden, C., Lodi, S., Lodwick, R., Matheron, S., Miro, J., Monge, S., Nakagawa, F., Paredes, R., Phillips, A., Puoti, M., Reekie, J., Scherrer, A., Smit, C., Thiebaut, R., Wittkop, L., 2nd Blood Transfusion Center and Hemophilia Center, 'Laiko' General Hospital, Epidémiologie et Biostatistique [Bordeaux], Université Bordeaux Segalen - Bordeaux 2-Institut de Santé Publique, d'Épidémiologie et de Développement (ISPED)-Institut National de la Santé et de la Recherche Médicale (INSERM), Structures et propriétés d'architectures moléculaire (SPRAM - UMR 5819), Institut Nanosciences et Cryogénie (INAC), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Grenoble Alpes (UGA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Grenoble Alpes (UGA)-Centre National de la Recherche Scientifique (CNRS), Observatoire des Micro et Nano Technologies (OMNT - UMS 2920), Laboratoire d'Electronique et des Technologies de l'Information (CEA-LETI), Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Grenoble Alpes (UGA)-Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Grenoble Alpes (UGA)-Centre National de la Recherche Scientifique (CNRS), Southern Alberta Clinic, Research Department of Infection and Population Health [London], University College of London [London] (UCL), Equipe Perception et design sonores, Sciences et Technologies de la Musique et du Son (STMS), Université Pierre et Marie Curie - Paris 6 (UPMC)-IRCAM-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-IRCAM-Centre National de la Recherche Scientifique (CNRS), Equipe Interactions musicales temps-réel, Maladies infectieuses et tropicales, Université Pierre et Marie Curie - Paris 6 (UPMC), Institute of Biology, Neuchatel, Université de Neuchâtel (UNINE), School of Psychology, St Andrews, University of St Andrews [Scotland], Infectious Diseases, San Raffaele Scientific Institute, EA 4100, Histoire culturelle et sociale de l'art (HiCSA), Université Panthéon-Sorbonne (UP1)-Université Panthéon-Sorbonne (UP1), Laboratory of Inorganic Chemistry, Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology in Zürich [Zürich] (ETH Zürich), Princeton University, Immuno-Rhumatologie Moléculaire, Université de Strasbourg (UNISTRA)-Institut National de la Santé et de la Recherche Médicale (INSERM), Population Sciences, Centre de recherche en épidémiologie et santé des populations (CESP), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Université Paris-Sud - Paris 11 (UP11)-Assistance publique - Hôpitaux de Paris (AP-HP) (APHP)-Hôpital Paul Brousse-Institut National de la Santé et de la Recherche Médicale (INSERM), Paläontologisches Institut und Museum, Universität Zürich [Zürich] (UZH), Laboratory, GD Deventer, Rigshospitalet [Copenhagen], Department of Social Medicine, University of Bristol [Bristol], Department of Infectious Diseases, Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019])-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019])-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Commissariat à l'énergie atomique et aux énergies alternatives - Laboratoire d'Electronique et de Technologie de l'Information (CEA-LETI), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Centre National de la Recherche Scientifique (CNRS), Institut de Recherche et Coordination Acoustique/Musique (IRCAM)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche et Coordination Acoustique/Musique (IRCAM)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS), School of Psychology and Neuroscience [University of St. Andrews], Université Paris 1 Panthéon-Sorbonne (UP1)-Université Paris 1 Panthéon-Sorbonne (UP1), Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology [Zürich] (ETH Zürich), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Université Paris-Sud - Paris 11 (UP11)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Paul Brousse-Institut National de la Santé et de la Recherche Médicale (INSERM), Universität Zürich [Zürich] = University of Zurich (UZH), Royal GD [Deventer], Copenhagen University Hospital, Copenhagen University Hospital-Copenhagen University Hospital, Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Université Paris-Sud - Paris 11 (UP11)-Hôpital Paul Brousse-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Engsig, F. N., Zangerle, R., Katsarou, O., Dabis, F., Reiss, P., Gill, J., Porter, K., Sabin, C., Riordan, A., Fatkenheuer, G., Gutierrez, F., Raffi, F., Kirk, O., Mary-Krause, M., Stephan, C., De Olalla, P. G., Guest, J., Samji, H., Castagna, A., D'arminio Monforte, A., Skaletz-Rorowski, A., Ramos, J., Lapadula, G., Mussini, C., Force, L., Meyer, L., Lampe, F., Boufassa, F., Bucher, H. C., De Wit, S., Burkholder, G. A., Teira, R., Justice, A. C., Sterling, T. R., M. Crane, H., Gerstoft, J., Grarup, J., May, M., Chene, G., Ingle, S. M., Sterne, J., Obel, N., Engsig, F, Zangerle, R, Katsarou, O, Dabis, F, Reiss, P, Gill, J, Porter, K, Sabin, C, Riordan, A, Fatkenheuer, G, Gutierrez, F, Raffi, F, Kirk, O, Mary-Krause, M, Stephan, C, De Olalla, P, Guest, J, Samji, H, Castagna, A, D'arminio Monforte, A, Skaletz-Rorowski, A, Ramos, J, Lapadula, G, Mussini, C, Force, L, Meyer, L, Lampe, F, Boufassa, F, Bucher, H, De Wit, S, Burkholder, G, Teira, R, Justice, A, Sterling, T, M. Crane, H, Gerstoft, J, Grarup, J, May, M, Chene, G, Ingle, S, Sterne, J, Obel, N, AII - Amsterdam institute for Infection and Immunity, APH - Amsterdam Public Health, Global Health, and Infectious diseases

Subjects

Male, Oncology, MESH: CD4 Lymphocyte Count, [SDV]Life Sciences [q-bio], HIV Infections, MESH: Logistic Models, Cohort Studies, MESH: Cause of Death, 0302 clinical medicine, Risk Factors, MESH: Risk Factors, Cause of Death, Medicine, HIV Infection, 030212 general & internal medicine, MESH: Anti-HIV Agents, MESH: Cohort Studies, Immunodeficiency, Cause of death, 0303 health sciences, MESH: Middle Aged, Hazard ratio, MESH: HIV Infections, Middle Aged, Viral Load, 3. Good health, Infectious Diseases, MESH: Substance-Related Disorders, HIV/AIDS, Female, MESH: Viral Load, Viral load, MESH: Heterosexuality, Human, Adult, Microbiology (medical), Cart, medicine.medical_specialty, Logistic Model, Anti-HIV Agents, Substance-Related Disorders, 03 medical and health sciences, Acquired immunodeficiency syndrome (AIDS), Internal medicine, Humans, sustained viral suppression, Heterosexuality, 030304 developmental biology, MESH: Humans, business.industry, Proportional hazards model, Risk Factor, Anti-HIV Agent, HIV, MESH: Adult, Substance-Related Disorder, medicine.disease, mortality, CD4 cell recovery, Confidence interval, MESH: Male, CD4 Lymphocyte Count, Logistic Models, Immunology, [SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie, Cohort Studie, business, MESH: Female

Abstract

Background. Some human immunodeficiency virus (HIV)-infected individuals initiating combination antiretroviral therapy (cART) with low CD4 counts achieve viral suppression but not CD4 cell recovery. We aimed to identify (1) risk factors for failure to achieve CD4 count >200 cells/μL after 3 years of sustained viral suppression and (2) the association of the achieved CD4 count with subsequent mortality.Methods. We included treated HIV-infected adults from 2 large international HIV cohorts, who had viral suppression (≤500 HIV type 1 RNA copies/mL) for >3 years with CD4 count ≤200 cells/μL at start of the suppressed period. Logistic regression was used to identify risk factors for incomplete CD4 recovery (≤200 cells/μL) and Cox regression to identify associations with mortality.Results. Of 5550 eligible individuals, 835 (15%) did not reach a CD4 count >200 cells/μL after 3 years of suppression. Increasing age, lower initial CD4 count, male heterosexual and injection drug use transmission, cART initiation after 1998, and longer time from initiation of cART to start of the virally suppressed period were risk factors for not achieving a CD4 count >200 cells/μL. Individuals with CD4 ≤200 cells/μL after 3 years of viral suppression had substantially increased mortality (adjusted hazard ratio, 2.60; 95% confidence interval, 1.86-3.61) compared with those who achieved CD4 count >200 cells/μL. The increased mortality was seen across different patient groups and for all causes of death.Conclusions. Virally suppressed HIV-positive individuals on cART who do not achieve a CD4 count >200 cells/μL have substantially increased long-term mortality. © The Author 2014.

Published

2014

34. Effect of HCV Infection on Cause-Specific Mortality After HIV Seroconversion, Before and After 1997

Author

van der Helm, J, Geskus, R, Sabin, C, Meyer, L, del Amo, J, Chene, G, Dorrucci, M, Muga, R, Porter, K, Prins, M, Garcia-de-Olalla, P, and CASCADE Collaboration EuroCoord

Subjects

Immune Deficiency, Epidemiology, Disease Progression, cART

Abstract

BACKGROUND & AIMS: Individuals with human immunodeficiency virus (HIV) infection frequently also are infected with hepatitis C virus (HCV) (co-infection), but little is known about its effects on the progression of HIV-associated disease. We aimed to determine the effects of co-infection on mortality from HIV and/or acquired immune deficiency syndrome (AIDS), and hepatitis or liver disease, adjusting for the duration of HIV infection. METHODS: We analyzed data from the 16 cohorts of the Concerted Action on Seroconversion to AIDS and Death in Europe (CASCADE) collaboration, which included information on HCV infection and cause of death. A competing-risks proportional subdistribution hazards model was used to evaluate the effect of HCV infection on the following causes of death: HIV- and/or AIDS-related, hepatitis- or liver-related, natural, and non-natural. RESULTS: Of 9164 individuals with HIV infection and a known date of seroconversion, 2015 (22.0%) also were infected with HCV. Of 718 deaths, 395 (55.0%) were caused by HIV infection and/or AIDS, and 39 (5.4%) were caused by hepatitis or liver-related disease. Among individuals infected with only HIV or with co-infection, the mortality from HIV infection and/or AIDS-related causes and hepatitis or liver disease decreased significantly after 1997, when combination antiretroviral therapy became widely available. However, after 1997, HIV and/or AIDS-related mortality was higher among co-infected individuals than those with only HIV infection in each risk group: injection drug use (adjusted hazard ratio [aHR], 2.43; 95% confidence interval [CI], 1.14-5.20), sex between men and women or hemophilia (aHR, 3.43; 95% CI, 1.70-6.93), and sex between men (aHR, 3.11; 95% CI, 1.49-6.48). Compared with individuals infected with only HIV, co-infected individuals had a higher risk of death from hepatitis or liver disease. CONCLUSIONS: Based on analysis of data from the CASCADE collaboration, since 1997, when combination antiretroviral therapy became widely available, individuals co-infected with HIV and HCV have had a higher risk of death from HIV and/or AIDS, and from hepatitis or liver disease, than patients infected with only HIV. It is necessary to evaluate the effects of HCV therapy on HIV progression.

Published

2013

35. Impact of HIV-1 subtype on CD4 count at HIV seroconversion, rate of decline, and viral load set point in European seroconverter cohorts

Author

Touloumi, G., Pantazis, N., Pillay, D., Paraskevis, D., Chaix, M.-L., Bucher, H. C., Kucherer, C., Zangerle, R., Kran, A.-M. B., Porter, K., Kelleher, A. D., Cooper, D. A., Grey, P., Finlayson, R., Bloch, M., Kelleher, T., Ramacciotti, T., Gelgor, L., Cooper, D., Smith, D., Gill, J., Jorgensen, L. B., Lutsar, I., Chene, G., Dabis, F., Thiebaut, R., Masquelier, B., Costagliola, D., Guiguet, M., Vanhems, P., Ghosn, J., Goujard, C., Meyer, L., Boufassa, F., Hamouda, O., Bartmeyer, B., Katsarou, O., Paparizos, V., Gargalianos-Kakolyris, P., Lazanas, M., Rezza, G., Dorrucci, M., Monforte, A. d., De Luca, A., Prins, M., Geskus, R., van der Helm, J., Schuitemaker, H., Sannes, M., Brubakk, O., Bakken Kran, A.-M., Rosinska, M., Muga, R., Tor, J., Garcia de Olalla, P., Cayla, J., del Amo, J., Moreno, S., Monge, S., Del Amo, J., del Romero, J., Perez-Hoyos, S., Rickenbach, M., Francioli, P., Malyuta, R., Brettle, R., Murphy, G., Sabin, C., Johnson, A., Phillips, A., Babiker, A., and Delpech, V.

Subjects

Microbiology (medical), Adult, Male, Genotype, Anti-HIV Agents, Human immunodeficiency virus (HIV), HIV Infections, Drug resistance, medicine.disease_cause, 03 medical and health sciences, 0302 clinical medicine, Acquired immunodeficiency syndrome (AIDS), HIV Seropositivity, medicine, Humans, 030212 general & internal medicine, Seroconversion, 030304 developmental biology, HIV-1 subtype, 0303 health sciences, Molecular Epidemiology, Molecular epidemiology, business.industry, Middle Aged, Viral Load, medicine.disease, CD4 decline, Set point, 3. Good health, CD4 Lymphocyte Count, Europe, Infectious Diseases, Treatment Outcome, natural history, Immunology, HIV-1, Female, business, set point, Viral load

Abstract

Background. Human immunodeficiency virus type 1 (HIV-1) subtype may influence disease progression. We compared CD4 lymphocyte cell count levels at seroconversion, decline rates and viral load set point in individuals infected with different HIV-1 subtypes. Methods. We used data from the Concerted Action on SeroConversion to AIDS and Death in Europe (CASCADE) collaboration, restricted to those infected since 1996, aged >= 15 years, and applied mixed effects models for CD4 cell count decline and median regression for viral load set point (mean level 6-24 months from seroconversion). Results. The analysis included 3364 seroconverters with known HIV-1 subtypes. Compared with subtype B, CD4 at seroconversion was significantly higher for subtype CRF01 and lower for subtype C. Subsequent CD4 decline was significantly slower for subtypes A and CRF02 and marginally slower for subtype C compared with B. Mean CD4 loss at 2 years of seroconversion for white men exposed through sex between men, aged 30-39 years, having seroconverted since 2006, enrolled within 6 months of seroconversion, and without acute infection was 88, 142, 100, 130, 103, and 167 cells/mu L for subtypes A, B, C, CRF01_AE, CRF02_AG, and G, respectively. In adjusted analysis, median viral load set point and time to clinical AIDS/death did not differ significantly by subtype, although all subtypes, except C, tended to have lower levels compared with B. Conclusions. HIV-1 subtype significantly influences seroconversion CD4 cell levels and decline rates but not viral load set point. These findings may be helpful to HIV-positive individuals and their attending physicians in understanding disease progression.

Published

2013

36. Predictors of CD4+ T-Cell Counts of HIV Type 1-Infected Persons After Virologic Failure of All 3 Original Antiretroviral Drug Classes

Author

Ledergerber, B, Costagliola, D, Lodwick, R, Torti, C, van Sighem, A, Podzamczer, D, Mocroft, A, Dorrucci, M, Masquelier, B, Günthard, H F, de Luca, A, Michalik, C, University of Zurich, and Ledergerber, B

Subjects

10234 Clinic for Infectious Diseases, 2723 Immunology and Allergy, 610 Medicine & health, 2725 Infectious Diseases

Published

2013

37. The incidence of AIDS-defining illnesses at a current CD4 count ≥200 cells/μL in the post-combination antiretroviral therapy era

Author

Mocroft, A., Furrer, H. J., Miro, J. M., Reiss, P., Mussini, C., Kirk, O., Abgrall, S., Ayayi, S., Bartmeyer, B., Braun, D., Castagna, A., d'Arminio Monforte, A., Gazzard, B., Gutierrez, F., Hurtado, I., Jansen, K., Meyer, L., Munoz, P., Obel, N., Soler Palacin, P., Papadopoulos, A., Raffi, F., Ramos, J. T., Rockstroh, J. K., Salmon, D., Torti, Carlo, Warszawski, J., de Wit, S., Zangerle, R., Fabre Colin, C., Kjaer, J., Chene, G., Grarup, J., Lundgren, J. D., Furrer, H., Rockstroh, J., Lundgren, J., Miiro, J., Palacin, P. S., Torti, C., Ramos, J., Judd, A., Haerry, D., Weller, I., Casabona, J., Costagliola, D., Battegay, M., Prins, M., de Wolf, F., Colin, C., Schwimmer, C., Touzeau, G., Campbell, M., Bohlius, J., Bouteloup, V., Bucher, H., Cozzi Lepri, A., Dabis, F., Dorrucci, M., Egger, M., Engsig, F., Lambotte, O., Lewden, C., Lodwick, R., Matheron, S., Miro, J., Paredes, R., Phillips, A., Puoti, M., Reekie, J., Sabin, C., Scherrer, A., Smit, C., Sterne, J., Thiebaut, R., Thorne, C., von Wyl, V., Wittkop, L., Young, J., Mocroft, A., Furrer, H. J., Miro, J. M., Reiss, P., Mussini, C., Kirk, O., Abgrall, S., Ayayi, S., Bartmeyer, B., Braun, D., Castagna, A., D'Arminio Monforte, A., Gazzard, B., Gutierrez, F., Hurtado, I., Jansen, K., Meyer, L., Munoz, P., Obel, N., Soler-Palacin, P., Papadopoulos, A., Raffi, F., Ramos, J. T., Rockstroh, J. K., Salmon, D., Torti, C., Warszawski, J., De Wit, S., Zangerle, R., Fabre-Colin, C., Kjaer, J., Chene, G., Grarup, J., Lundgren, J. D., AII - Amsterdam institute for Infection and Immunity, APH - Amsterdam Public Health, Global Health, Other departments, Infectious diseases, University of Zurich, and Mocroft, A

Subjects

Microbiology (medical), Adult, CD4-Positive T-Lymphocytes, Male, medicine.medical_specialty, Virologic suppression, AIDS defining illnesses, Human immunodeficiency virus (HIV), 610 Medicine & health, HIV Infections, Rate ratio, medicine.disease_cause, 2726 Microbiology (medical), 10234 Clinic for Infectious Diseases, Cohort Studies, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Acquired immunodeficiency syndrome (AIDS), 360 Social problems & social services, Internal medicine, medicine, CART, Humans, 030212 general & internal medicine, Poisson regression, Poisson Distribution, 0303 health sciences, 030306 microbiology, business.industry, Incidence (epidemiology), Incidence, CD4, cART, immune reconstitution, virologic suppression, Anti-Retroviral Agents, CD4 Lymphocyte Count, Europe, Female, 2725 Infectious Diseases, Immune reconstitution, medicine.disease, Antiretroviral therapy, Confidence interval, 3. Good health, Infectious Diseases, Immunology, symbols, business, Viral load

Abstract

Background. Few studies consider the incidence of individual AIDS-defining illnesses (ADIs) at higher CD4 counts, relevant on a population level for monitoring and resource allocation. Methods. Individuals from the Collaboration of Observational HIV Epidemiological Research Europe (COHERE) aged ≥14 years with ≥1 CD4 count of ≥200 μL between 1998 and 2010 were included. Incidence rates (per 1000 personyears of follow-up [PYFU]) were calculated for each ADI within different CD4 strata; Poisson regression, using generalized estimating equations and robust standard errors, was used to model rates of ADIs with current CD4 ≥500/μL. Results. A total of 12 135 ADIs occurred at a CD4 count of ≥200 cells/μL among 207 539 persons with 1 154 803 PYFU. Incidence rates declined from 20.5 per 1000 PYFU (95% confidence interval [CI], 20.0-21.1 per 1000 PYFU) with current CD4 200-349 cells/μL to 4.1 per 1000 PYFU (95% CI, 3.6-4.6 per 1000 PYFU) with current CD4 ≥ 1000 cells/μL. Persons with a current CD4 of 500-749 cells/μL had a significantly higher rate of ADIs (adjusted incidence rate ratio [aIRR], 1.20; 95% CI, 1.10-1.32), whereas those with a current CD4 of ≥1000 cells/μL had a similar rate (aIRR, 0.92; 95% CI, .79-1.07), compared to a current CD4 of 750-999 cells/μL. Results were consistent in persons with high or low viral load. Findings were stronger for malignant ADIs (aIRR, 1.52; 95% CI, 1.25-1.86) than for nonmalignant ADIs (aIRR, 1.12; 95% CI, 1.01-1.25), comparing persons with a current CD4 of 500-749 cells/μL to 750-999 cells/μL. Discussion. The incidence of ADIs was higher in individuals with a current CD4 count of 500-749 cells/μL compared to those with a CD4 count of 750-999 cells/μL, but did not decrease further at higher CD4 counts. Results were similar in patients virologically suppressed on combination antiretroviral therapy, suggesting that immune reconstitution is not complete until the CD4 increases to >750 cells/μL. © The Author 2013. Published by Oxford University Press on behalf of the Infectious Diseases Society of America. All rights reserved.

Published

2013

38. Trends in virological and clinical outcomes in individuals with HIV-1 infection and virological failure of drugs from three antiretroviral drug classes: a cohort study

Author

Castagliola, D, Ledergerber, B, Torti, Carlo, van Sighem, A, Podzamczer, D, Mocroft, A, Dorrucci, M, Masquelier, B, de Luca, A, Jansen, K, De Wit, S, Obel, N, Fätkenheuer, G, Touloumi, G, Mussini, C, Castagna, A, Stephan, C, Garcia, F, Zangerle, R, Duval, X, Pérez Hoyos, S, Meyer, L, Ghosn, J, Fabre Colin, C, Kjaer, J, Chene, G, Grarup, J, Costagliola, D, Lodwick, R, Phillips, A, Pursuing Later Treatment Option II project team, Observational HIV Epidemiological Research Europe Group, Costagliola, D, Lodwick, R, Ledergerber, B, Collaboration Of Observational Hiv Epidemiological Research Europe (COHERE) Grp, Castagna, Antonella, Other departments, AII - Amsterdam institute for Infection and Immunity, APH - Amsterdam Public Health, Global Health, and Infectious diseases

Subjects

Adult, Male, medicine.medical_specialty, Adolescent, Anti-HIV Agents, HIV-1, CD4 Lymphocyte Count, Cohort Studies, Female, HIV Infections, Humans, Middle Aged, RNA, Viral, Regression Analysis, Retrospective Studies, Young Adult, Settore MED/17 - MALATTIE INFETTIVE, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Acquired immunodeficiency syndrome (AIDS), RNA, Viral -- blood, Internal medicine, medicine, HIV, AIDS, viral load, Protease inhibitor (pharmacology), 030212 general & internal medicine, Poisson regression, Young adult, Pathologie maladies infectieuses, HIV Infections -- blood -- drug therapy -- virology, 0303 health sciences, 030306 microbiology, business.industry, Incidence (epidemiology), Retrospective cohort study, Sciences bio-médicales et agricoles, medicine.disease, 3. Good health, Infectious Diseases, Immunology, symbols, RNA, Viral, Anti-HIV Agents -- therapeutic use, business, Viral load, Cohort study

Abstract

Limited treatment options have been available for people with HIV who have had virological failure of the three original classes of HIV antiretroviral drugs-so-called triple-class virological failure (TCVF). However, introduction of new drugs and drug classes might have improved outcomes. We aimed to assess trends in virological and clinical outcomes for individuals with TCVF in 2000-09., info:eu-repo/semantics/published

Published

2012

39. CD4 cell count and the risk of AIDS or death in HIV-Infected adults oncombination antiretroviral therapy with a suppressed viral load: a longitudinalcohort study from COHERE

Author

Collaborators: Young J, Opportunistic Infections Project Team of the Collaboration of Observational HIV Epidemiological Research in Europe in E. u. r. o. C. o. o. r. d., Psichogiou, M, Meyer, L, Ayayi, S, Grabar, S, Raffi, F, Reiss, P, Gazzard, B, Sharland, M, Gutierrez, F, Obel, N, Kirk, O, Miro, Jm, Furrer, H, Castagna, A, De Wit, S, Muñoz, J, Kjær, J, Colin, C, Grarup, J, Chêne, G, Bucher, H, Miro, J, Zangerle, R, Antoniadou, A, Ghosn, J, Morlat, P, Le Moing, V, Fisher, M, Mocroft, A, Stephan, C, Girardi, E, Torti, Carlo, Mussini, C, Galli, L, Ledergerber, B, Teira, R, Touloumi, G, Warszawski, J, Dabis, F, Krause, Mm, Leport, C, de Wolf, F, Prins, M, Bücher, H, Sabin, C, Gibb, D, Fätkenheuer, G, Del Amo, J, Thorne, C, Pérez Hoyos, S, Noguera Julian, A, Antinori, A, d'Arminio Monforte, A, Brockmeyer, N, Ramos, J, Battegay, M, Rauch, A, Tookey, P, Casabona, J, de Wit, S, Goetghebuer, T, Torti, C, Garrido, M, Haerry, D, Weller, I, Costagliola, D, Schwimmer, C, Touzeau, G, Paulsen, M, Bohlius, J, Bouteloup, V, Cozzi Lepri, A, Dorrucci, M, Egger, M, Engsig, F, Lambotte, O, Lewden, C, Lodwick, R, Matheron, S, Paredes, R, Phillips, A, Puoti, M, Reekie, J, Scherrer, A, Smit, C, Sterne, J, Thiebaut, R, von Wyl, V, Wittkop, L, and Young, J.

Published

2012

40. Calendar time trends in the incidence and prevalence of triple-class virologic failure in antiretroviral drug-experienced people with HIV in Europe

Author

Pursuing Later Treatment Options II project team, Collaboration of Observational HIV Epidemiological Research Europe Group, Nakagawa, F, Lodwick, R, Costagliola, D, van Sighem, A, Torti, Carlo, Podzamczer, D, Mocroft, A, Ledergerber, B, Dorrucci, M, Cozzi Lepri, A, Jansen, K, Masquelier, B, García, F, De Wit, S, Stephan, C, Obel, N, Fätkenhaeuer, G, Castagna, A, Sambatakou, H, Mussini, C, Ghosn, J, Zangerle, R, Duval, X, Meyer, L, Perez Hoyos, S, Fabre Colin, C, Kjaer, J, Chene, G, Grarup, J, Collaborators: Castagna A, Phillips A., De Luca, A, de Wolf, F, Fätkenheuer, G, Günthard, H, Jørgensen, L, Judd, A, Lo Caputo, S, Noguera Julian, A, Paraskevis, D, Paredes, R, Pérez Hoyos, S, Phillips, A, Pillay, D, Ramos, Jt, Tookey, Pa, Torti, C, Touloumi, G, Warsawski, J, Warszawski, J, Dabis, F, Krause, Mm, Leport, C, Reiss, P, Prins, M, Bücher, H, Sabin, C, Gibb, D, Del Amo, J, Thorne, C, Kirk, O, Antinori, A, Monforte, Ad, Brockmeyer, N, Ramos, J, Battegay, M, Rauch, A, Tookey, P, Casabona, J, Miró, Jm, de Wit, S, Goetghebuer, T, Teira, R, Garrido, M, Haerry, D, Weller, I, d'Arminio Monforte, A, Colin, C, Schwimmer, C, Touzeau, G, Paulsen, M, Bohlius, J, Bouteloup, V, Bucher, H, Egger, M, Engsig, F, Furrer, H, Lambotte, O, Lewden, C, Matheron, S, Miro, J, Puoti, M, Reekie, J, Scherrer, A, Smit, C, Sterne, J, Thiebaut, R, von Wyl, V, Wittkop, L, and Youn, J.

Published

2012

41. Caratteristiche delle persone che vivono con l' HIV e con l'AIDS in Italia

Author

Raimondo, M., Camoni, L., Regine, V., Salfa, M. C., Dorrucci, M., Pugliese, L., Boros, S., Suligoi, B., Ajassa, Camilla, and referenti dei Centri clinici regionali, e. i.

Published

2012

42. Risk of triple-class virological failure in children with HIV: a retrospective cohort study

Author

Pursuing Later Treatment Options II project team for the Collaboration of Observational HIV Epidemiological Research Europe, Castro, H, Judd, A, Gibb, Dm, Butler, K, Lodwick, Rk, van Sighem, A, Ramos, Jt, Warsawski, J, Thorne, C, Noguera Julian, A, Obel, N, Costagliola, D, Tookey, Pa, Colin, C, Kjaer, J, Grarup, J, Chene, G, Collaborators: Antinori A, Phillips A., Castagna, A, Cozzi Lepri, A, De Luca, A, De Wit, S, Dorrucci, M, Duval, X, García, F, Ghosn, J, Günthard, H, Ledergerber, B, Lo Caputo, S, Lodwick, R, Masquelier, B, Meyer, L, Mocroft, A, Mussini, C, Paraskevis, D, Paredes, R, Pérez Hoyos, S, Phillips, A, Pillay, D, Podzamczer, D, Reiss, P, Stephan, C, Teira, R, Torti, Carlo, Touloumi, G, Zangerle, R, Warszawski, J, Dabis, F, Krause, Mm, Leport, C, de Wolf, F, Prins, M, Bücher, Hc, Sabin, C, Gibb, D, Fätkenheuer, G, Del Amo, J, Kirk, O, Antinori, A, Monforte, Ad, Tovo, Pa, de Martino, M, Brockmeyer, Nh, Battegay, M, Francioli, P, Carnicer Pont, D, Casabona, J, Miró, Jm, de Wit, S, Goetghebuer, T, Torti, C, Garrido, M, Dedes, N, Weller, I, d'Arminio Monforte, A, Collin Filleul, F, Schwimmer, C, Ellefson, M, Paulsen, M, Bohlius, J, Bouteloup, V, Bucher, Hc, Egger, M, Furrer, H, Lambotte, O, Lewden, C, Matheron, S, Miro, J, Puoti, M, Reekie, J, Smit, C, Sterne, J, Thiebaut, R, and Wittkop, L.

Published

2011

43. Is it safe to discontinue primary Pneumocystis jiroveci pneumonia prophylaxis in patients with virologically suppressed HIV infection and a CD4 cell count <200 cells/microL?

Author

Opportunistic Infections Project Team of the Collaboration of Observational HIV Epidemiological Research in Europe, Mocroft, A, Reiss, P, Kirk, O, Mussini, C, Girardi, E, Morlat, P, Stephan, C, De Wit, S, Doerholt, K, Ghosn, J, Bucher, Hc, Lundgren, Jd, Chene, G, Miro, Jm, Collaborators: Weller I, Furrer H., Costagliola, D, Ledergerber, B, Lundgren, J, Grarup, J, Touloumi, G, Warszawski, J, Meyer, L, Dabis, F, Krause, Mm, Leport, C, de Wolf, F, Porter, K, Dorrucci, M, Sabin, C, Gibb, D, Fätkenheuer, G, Del Amo, J, Obel, N, Thorne, C, Pérez Hoyos, S, Antinori, A, d'Arminio Monforte, A, Tovo, Pa, de Martino, M, Brockmeyer, Nh, Ramos, J, Battegay, M, Carnicer, D, Tookey, P, Casbona, J, Miró, Jm, Castagna, A, de Wit, S, Torti, Carlo, Teira, R, Garrido, M, Bucher, H, Egger, M, Furer, H, Lewden, C, Newell, Ml, Phillips, A, Stearne, J, Telenti, A, Collin Filleul, F, Ellefson, M, Fabre Colin, C, Kjaer, J, Schwimmer, C, Paulsen, M, and Dedes, N.

Published

2010

44. Cancer cohort consortium approach: cancer epidemiology in immunosuppressed groups

Author

Longo, B., Dorrucci, M., Rezza, G., Carrieri, M.P., Pradier, C., Arbustini, A., Dal Bello, B., Grasso, M., Citterio, F., Pozzetto, U., Buda, A., Burra, P., Baccarrani, U., Busnach, G., and De Juli, E.

Published

2009

45. Incidence and risk factors of HIV-related non-Hodgkin's lymphoma in the era of combination antiretroviral therapy: a European multicohort study

Author

Collaboration of Observational HIV Epidemiological Research Europe Study Group, Bohlius, J, Schmidlin, K, Costagliola, D, Fätkenheuer, G, May, M, Caro Murillo AM, Mocroft, A, Bonnet, F, Clifford, G, Karafoulidou, A, Miro, Jm, Lundgren, J, Chene, G, Collaborators: Antinori A, Egger M., Boué, F, Brockmeyer, N, Casabona, J, Dronda, F, Obel, N, Fisher, M, Franceschi, S, Gibb, D, Le Moing, V, Nadal, D, Touloumi, G, Prins, M, Raffi, F, Roca, B, Verbon, A, Wolf, T, Fortuny, C, Chakraborty, R, Egger, M, Minder, C, Sterne, J, Zwahlen, M, Ellefson, M, Kjaer, J, Collin, F, Colin, C, Weller, I, Ledergerber, B, Warszawski, J, Meyer, L, Dabis, F, Krause, Mm, Goujard, C, Leport, C, de Wolf, F, Reiss, P, Porter, K, Dorrucci, M, Sabin, C, Del Amo, J, Thorne, C, Kirk, O, Staszewski, S, Perez Hoyos, S, Almeda, J, Antinori, A, Monforte, A, de Martino, M, Ramos, J, Battegay, M, Mussini, C, Tookey, P, Castagna, A, de Wit, S, Torti, Carlo, Teira, R, Garrido, M, Dedes, N, Phillips, A, Furrer, H, Newell, M, Telenti, A, Pantazis, N, Lechenadec, J, Jérôme, F, Tran, L, Balestre, E, Lanoy, E, Couturier, F, Rispens, T, Gras, La, Bhaskaran, K, Hill, T, Judd, A, Duong, T, Sobrino, P, Jennings, B, Pérez Hoyos, S, Bonfigli, S, Cozzi Lepri, A, Corvasce, S, Adorni, F, Ridolfo, Al, Paraninfo, G, Ramos, Jt, Keiser, O, Borghi, V, Masters, J, Ortiga, B, Salpietro, S, Rickenbach, M, Poll, B, and Garrido, M.

Published

2009

46. Response to combination antiretroviral therapy: Variation by age

Author

Collaboration of Observational HIV Epidemiological Research Europe Study Group, Sabin, Ca, Smith, Cj, d'Arminio Monforte, A, Battegay, M, Gabiano, C, Galli, L, Geelen, S, Gibb, D, Guiguet, M, Judd, A, Leport, C, Dabis, F, Pantazis, N, Porter, K, Raffi, F, Thorne, C, Torti, C, Walker, S, Warszawski, J, Wintergerst, U, Chene, G, Lundgren, J., Collaborators: Weller, I, Costagliola, D, Ledergerber, B, Lundgren, J, Touloumi, G, Meyer, L, Krause, Mm, Goujard, C, de Wolf, F, Reiss, P, Dorrucci, M, Sabin, C, Del Amo, J, Obel, N, Mocroft, A, Kirk, O, Staszewski, S, Perez Hoyos, S, Almeda, J, Antinori, A, Monforte, Ad, Tovo, Pier Angelo, Salzberger, B, Fatkenheuer, G, Ramos, J, Mussini, C, Tookey, P, Casabona, J, Miro, Jm, Castagna, A, de Wit, S, Teira, R, Garrido, M, Dedes, N, Phillips, A, Furrer, H, Egger, M, Newell, Ml, Sterne, J, Telentie, A., Sabin Caroline, A., Smith Colette, J., Monforte A., D'Arminio, Battegay, Manuel, Gabiano, Clara, Galli, Luisa, Geelen, Sibyl, Gibb, Diana, Guiguet, Marguerite, Judd, Ali, Leport, Catherine, Dabis, Francoi, Pantazis, Niko, Porter, Kholoud, Raffi, Francoi, Thorne, Claire, Torti, Carlo, Walker, Sarah, Warszawski, Josiane, Wintergerst, Uwe, Chene, Genevieve, Lundgren, Jen, Weller, Ian, Costagliola, Dominique, Ledergerber, Bruno, Touloumi, Giota, Meyer, Laurence, Krause Murielle, Mary, Goujard, Cecile, de Wolf, Frank, Reiss, Peter, Dorrucci, Maria, Sabin, Caroline, Del Amo, Julia, Obel, Niel, Mocroft, Amanda, Kirk, Ole, Staszewski, Schlomo, Perez Hoyos, Santiago, Almeda, Jesu, Antinori, Andrea, Tovo Pier, Angelo, Salzberger, Bernd, Fatkenheuer, Gerd, Ramos, Jose, Mussini, Cristina, Tookey, Pat, Casabona, Jordi, Miro Jose, M., Castagna, Antonella, de Wit, Stephane, Teira, Ramon, Garrido, Myriam, Dedes, Niko, Phillips, Andrew, Furrer, Hansjakob, Egger, Matthia, Newell Marie, Louise, Sterne, Jonathan, Telenti, Amalio, Other departments, AII - Amsterdam institute for Infection and Immunity, APH - Amsterdam Public Health, and Infectious diseases

Subjects

Pediatrics, clinical outcome, HIV Infections, Virological response, Cohort Studies, Antiretroviral Therapy, Highly Active, Immunology and Allergy, Immunological response, Age Factor, HIV Infection, Child, Aged, 80 and over, immunological response, Clinical outcome, Medicine (all), Hazard ratio, Age Factors, Middle Aged, Viral Load, Europe, Infectious Diseases, Treatment Outcome, Child, Preschool, combination antiretroviral therapy, RNA, Viral, Survival Analysi, Viral load, Cohort study, Human, Combination antiretroviral therapy, Adult, medicine.medical_specialty, Adolescent, Anti-HIV Agents, Immunology, virological response, Infectious Disease, Age, Age Distribution, Acquired immunodeficiency syndrome (AIDS), medicine, Humans, Survival analysis, Aged, business.industry, Infant, Newborn, Anti-HIV Agent, Infant, medicine.disease, HIV infection, Antiretroviral therapy, Survival Analysis, Confidence interval, CD4 Lymphocyte Count, age, Cohort Studie, business

Abstract

Objective: To provide information on responses to combination antiretroviral therapy in children, adolescents and older HIV-infected persons. Design and setting: Multicohort collaboration of 33 European cohorts. Subjects: Forty-nine thousand nine hundred and twenty-one anti retroviral-naive individuals starting combination antiretroviral therapy from 1998 to 2006. Outcome measures: Time from combination antiretroviral therapy initiation to HIV RNA less than 50copies/ml (virological response), CD4 increase of more than 100cells/mu l (immunological response) and new AIDS/death were analysed using survival methods. Ten age strata were chosen: less than 2, 2-5, 6-12, 13-17, 18-29, 30-39 (reference group), 40-49, 50-54, 55-59 and 60 years or older; those aged 6 years or more were included in multivariable analyses. Results: The four youngest age groups had 223, 184, 219 and 201 individuals and the three oldest age groups had 2693, 1656 and 1613 individuals. Precombination antiretroviral therapy CD4 cell counts were highest in young children and declined with age. By 12 months, 53.7% (95% confidence interval: 53.2-54.1%) and 59.2% (58.7-59.6%) had experienced a virological and immunological response. The probability of virological response was lower in those aged 6-12 (adjusted hazard ratio: 0.87) and 13-17 (0.78) years, but was higher in those aged 50-54 (1.24), 55-59 (1.24) and at least 60 (1.18) years. The probability of immunological response was higher in children and younger adults and reduced in those 60 years or older. Those aged 55-59 and 60 years or older had poorer clinical outcomes after adjusting for the latest CD4 cell count. Conclusion: Better virological responses but poorer immunological responses in older individuals, together with low precombination antiretroviral therapy CD4 cell counts, may place this group at increased clinical risk. The poorer virological responses in children may increase the likelihood of emergence of resistance. (C) 2008 Wolters Kluwer Health vertical bar Lippincott Williams & Wilkins. Objective: To provide information on responses to combination antiretroviral therapy in children, adolescents and older HIV-infected persons. Design and Setting: Multicohort collaboration of 33 European cohorts. Subjects: Forty-nine thousand nine hundred and twenty-one antiretroviral-naive individuals starting combination antiretroviral therapy from 1998 to 2006. Outcome Measures: Time from combination antiretroviral therapy initiation to HIV RNA less than 50 copies/ml (virological response), CD4 increase of more than 100 cells/μl (immunological response) and new AIDS/death were analysed using survival methods. Ten age strata were chosen: less than 2, 2-5, 6-12, 13-17, 18-29, 30-39 (reference group), 40-49, 50-54, 55-59 and 60 years or older; those aged 6 years or more were included in multivariable analyses. Results: The four youngest age groups had 223, 184, 219 and 201 individuals and the three oldest age groups had 2693, 1656 and 1613 individuals. Precombination antiretroviral therapy CD4 cell counts were highest in young children and declined with age. By 12 months, 53.7% (95% confidence interval: 53.2-54.1%) and 59.2% (58.7-59.6%) had experienced a virological and immunological response. The probability of virological response was lower in those aged 6-12 (adjusted hazard ratio: 0.87) and 13-17 (0.78) years, but was higher in those aged 50-54 (1.24), 55-59 (1.24) and at least 60 (1.18) years. The probability of immunological response was higher in children and younger adults and reduced in those 60 years or older. Those aged 55-59 and 60 years or older had poorer clinical outcomes after adjusting for the latest CD4 cell count. Conclusion: Better virological responses but poorer immunological responses in older individuals, together with low precombination antiretroviral therapy CD4 cell counts, may place this group at increased clinical risk. The poorer virological responses in children may increase the likelihood of emergence of resistance. © 2008 Wolters Kluwer Health / Lippincott Williams & Wilkins.

Published

2008

47. [Survival, progression to AIDS and immunosuppression in HIV-positive individuals before and after the introduction of the highly active antiretroviral therapy (HAART)]

Author

Pezzotti, P, Dorrucci, M, Donisi, A, Cusini, M, Mazzarello, G, De Luca, Andrea, Salassa, B, Ursitti, Ma, Giuliani, M, and Rezza, G.

Subjects

Adult, CD4-Positive T-Lymphocytes, Immunosuppression Therapy, Male, Acquired Immunodeficiency Syndrome, Time Factors, Age Factors, Antiretroviral Therapy, Middle Aged, Settore MED/17 - MALATTIE INFETTIVE, Survival Analysis, Cohort Studies, Risk Factors, Antiretroviral Therapy, Highly Active, HIV Seropositivity, Disease Progression, Humans, Highly Active, Female, Controlled Clinical Trials as Topic, Prospective Studies, Immunosuppression, Follow-Up Studies, Proportional Hazards Models

Abstract

We evaluated the changes in the progression to death and AIDS and in the mean level of CD4 lymphocytes by calendar period in HIV-positive individuals before and after the introduction of HAART. Through data collected in a prospective cohort study (Italian Seroconversion Study) of 1899 HIV-infected persons with well estimated date of seroconversion, considered as time-zero of analysis, we calculated Kaplan-Meier curves and Cox models, allowing for staggered entries, to estimate the cumulative probability of survival and hazard-ratios (HR) for death and for AIDS by calendar period (1980-1996: pre-HAART era, 1997-1998: first HAART era, and 1999-2001: second HAART era), age at seroconversion, gender, and exposure category. During 17251 person-years, 660 HIV-positive patients developed AIDS and 510 died. Before 1997, the cumulative probability of survival, at twelve years from seroconversion, was 51.0%. In the period 1997-1998 the probability was 77.3% and in the period 1999-2001 it further increased at 91.2%. In the period 1980-1996 only older age at seroconversion was associated with more rapid progression to death. In the period 1987-2001 individuals infected through injecting drug use had a reduced increase of survival compared to those infected through sexual contact. Similar results were obtained for progression to AIDS. Finally we estimated an improved level of immunesuppression in the period 1987-2001. In fact, while in the period 1980-1996 we estimated a decrease of the CD4 lymphocites of -54.8 cells/mm3 (95% CI: -52.0; -57.6) per year; after 1996, we estimated an increase of CD4 of +39.6 (95% CI +34.1; +45.1)per year. This study provides strong evidence that the efficacy of the HAART estimated in the controlled clinical trials has resulted in a real reduction at the population level of morbidity and mortality.

Published

2004

48. Storia naturale dell’infezione da HIV: il contributo dell’Italian Seroconversion Study

Author

Longo, B, Pezzotti, P, Dorrucci, M, and Castelli, Francesco

Published

2004

49. Risk Factors and Outcomes for Late Presentation for HIV-Positive Persons in Europe: Results from the Collaboration of Observational HIV Epidemiological Research Europe Study (COHERE)

Author

Mocroft, A, Lundgren, JD, Sabin, ML, D'Arminio Monforte, A, Brockmeyer, N, Casabona, J, Castagna, A, Costagliola, D, Dabis, F, De Wit, S, Fätkenheuer, G, Furrer, H, Johnson, AM, Lazanas, MK, Leport, C, Moreno, S, Obel, N, Post, FA, Reekie, J, Reiss, P, Sabin, C, Skaletz-Rorowski, A, Suarez-Lozano, I, Torti, C, Warszawski, J, Zangerle, R, Fabre-Colin, C, Kjaer, J, Chene, G, Grarup, J, Kirk, O, Sabin, M, Suarez-Loano, I, Touloumi, G, Meyer, L, Krause, MM, Ghosn, J, de Wolf, F, Prins, M, Bucher, H, Gibb, D, Hamouda, O, Bartmeyer, B, Del Amo, J, Thorne, C, Stephan, C, Pérez-Hoyos, S, Noguera-Julian, A, Antinori, A, Ramos, J, Battegay, M, Rauch, A, Mussini, C, Tookey, P, Miró, JM, Goetghebuer, T, Teira, R, Garrido, M, Judd, A, Haerry, D, Weller, I, Schwimmer, C, Termote, M, Touzeau, G, Campbell, M, Friis-Møller, N, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Dorrucci, M, Egger, M, Engsig, F, Lambotte, O, Lewden, C, Lodwick, R, Matheron, S, Miro, J, Paredes, R, Phillips, A, Puoti, M, Scherrer, A, Smit, C, Sterne, J, Thiebaut, R, von Wyl, V, Wittkop, L, Mocroft, A, Lundgren, JD, Sabin, ML, D'Arminio Monforte, A, Brockmeyer, N, Casabona, J, Castagna, A, Costagliola, D, Dabis, F, De Wit, S, Fätkenheuer, G, Furrer, H, Johnson, AM, Lazanas, MK, Leport, C, Moreno, S, Obel, N, Post, FA, Reekie, J, Reiss, P, Sabin, C, Skaletz-Rorowski, A, Suarez-Lozano, I, Torti, C, Warszawski, J, Zangerle, R, Fabre-Colin, C, Kjaer, J, Chene, G, Grarup, J, Kirk, O, Sabin, M, Suarez-Loano, I, Touloumi, G, Meyer, L, Krause, MM, Ghosn, J, de Wolf, F, Prins, M, Bucher, H, Gibb, D, Hamouda, O, Bartmeyer, B, Del Amo, J, Thorne, C, Stephan, C, Pérez-Hoyos, S, Noguera-Julian, A, Antinori, A, Ramos, J, Battegay, M, Rauch, A, Mussini, C, Tookey, P, Miró, JM, Goetghebuer, T, Teira, R, Garrido, M, Judd, A, Haerry, D, Weller, I, Schwimmer, C, Termote, M, Touzeau, G, Campbell, M, Friis-Møller, N, Bohlius, J, Bouteloup, V, Cozzi-Lepri, A, Dorrucci, M, Egger, M, Engsig, F, Lambotte, O, Lewden, C, Lodwick, R, Matheron, S, Miro, J, Paredes, R, Phillips, A, Puoti, M, Scherrer, A, Smit, C, Sterne, J, Thiebaut, R, von Wyl, V, and Wittkop, L

Abstract

Background:Few studies have monitored late presentation (LP) of HIV infection over the European continent, including Eastern Europe. Study objectives were to explore the impact of LP on AIDS and mortality.Methods and Findings:LP was defined in Collaboration of Observational HIV Epidemiological Research Europe (COHERE) as HIV diagnosis with a CD4 count <350/mm3or an AIDS diagnosis within 6 months of HIV diagnosis among persons presenting for care between 1 January 2000 and 30 June 2011. Logistic regression was used to identify factors associated with LP and Poisson regression to explore the impact on AIDS/death. 84,524 individuals from 23 cohorts in 35 countries contributed data; 45,488 were LP (53.8%). LP was highest in heterosexual males (66.1%), Southern European countries (57.0%), and persons originating from Africa (65.1%). LP decreased from 57.3% in 2000 to 51.7% in 2010/2011 (adjusted odds ratio [aOR] 0.96; 95% CI 0.95-0.97). LP decreased over time in both Central and Northern Europe among homosexual men, and male and female heterosexuals, but increased over time for female heterosexuals and male intravenous drug users (IDUs) from Southern Europe and in male and female IDUs from Eastern Europe. 8,187 AIDS/deaths occurred during 327,003 person-years of follow-up. In the first year after HIV diagnosis, LP was associated with over a 13-fold increased incidence of AIDS/death in Southern Europe (adjusted incidence rate ratio [aIRR] 13.02; 95% CI 8.19-20.70) and over a 6-fold increased rate in Eastern Europe (aIRR 6.64; 95% CI 3.55-12.43).Conclusions:LP has decreased over time across Europe, but remains a significant issue in the region in all HIV exposure groups. LP increased in male IDUs and female heterosexuals from Southern Europe and IDUs in Eastern Europe. LP was associated with an increased rate of AIDS/deaths, particularly in the first year after HIV diagnosis, with significant variation across Europe. Earlier and more widespread testing, timely referrals af

Published

2013

50. Predictors of CD4(+) T-cell counts of HIV type 1-infected persons after virologic failure of all 3 original antiretroviral drug classes

Author

Costagliola, D, Ledergerber, B, Torti, C, Van Sighem, A, Podzamczer, D, Mocroft, A, Dorrucci, M, Masquelier, B, De Luca, Andrea, Jansen, K, De Wit, S, Obel, N, Fätkenheuer, G, Touloumi, G, Mussini, C, Castagna, A, Stephan, C, García, F, Zangerle, R, Duval, X, Perez Hoyos, S, Meyer, L, Ghosn, J, Fabre Colin, C, Kjaer, J, Chêne, G, Grarup, J, Phillips, A, Lodwick, R, Günthard, Hf, Michalik, C, Chrysos, G, Castagna, A., De Luca, Andrea (ORCID:0000-0002-8311-6935), Costagliola, D, Ledergerber, B, Torti, C, Van Sighem, A, Podzamczer, D, Mocroft, A, Dorrucci, M, Masquelier, B, De Luca, Andrea, Jansen, K, De Wit, S, Obel, N, Fätkenheuer, G, Touloumi, G, Mussini, C, Castagna, A, Stephan, C, García, F, Zangerle, R, Duval, X, Perez Hoyos, S, Meyer, L, Ghosn, J, Fabre Colin, C, Kjaer, J, Chêne, G, Grarup, J, Phillips, A, Lodwick, R, Günthard, Hf, Michalik, C, Chrysos, G, Castagna, A., and De Luca, Andrea (ORCID:0000-0002-8311-6935)

Abstract

Low CD4(+) T-cell counts are the main factor leading to clinical progression in human immunodeficiency virus type 1 (HIV-1) infection. We aimed to investigate factors affecting CD4(+) T-cell counts after triple-class virological failure.

Published

2013