Your search keyword '"Velyvyte, Daiva"' showing total 16 results

1. The socio-demographic, clinical characteristics and outcomes of tuberculosis among HIV infected adults in Lithuania: A thirteen-year analysis

Author

Matulyte, Elzbieta, primary, Davidaviciene, Edita, additional, Kancauskiene, Zavinta, additional, Diktanas, Saulius, additional, Kausas, Aidas, additional, Velyvyte, Daiva, additional, Urboniene, Jurgita, additional, Lipnickiene, Vilnele, additional, Laurencikaite, Megan, additional, Danila, Edvardas, additional, Costagliola, Dominique, additional, and Matulionyte, Raimonda, additional

Published

2023

2. Seasonal influenza vaccine effectiveness against influenza in 2012–2013: A hospital-based case-control study in Lithuania

Author

Gefenaite, Giedre, Rahamat-Langendoen, Janette, Ambrozaitis, Arvydas, Mickiene, Aukse, Jancoriene, Ligita, Kuliese, Monika, Velyvyte, Daiva, Niesters, Hubert, Stolk, Ronald P., Zagminas, Kestutis, and Hak, Eelko

Published

2014

3. Impact of neuraminidase inhibitors on influenza A(H1N1)pdm09-related pneumonia: an individual participant data meta-analysis

Author

Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P., Araújo, Wildo N., Azziz Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M., Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T., Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov Raz, Gal, Echavarria, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L., Hoeger, Peter H., Hoffmann, Matthias, Xiaoyun, Hu, Islam, Quazi T., Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo Montero, Elga, Mcgeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P., Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skrȩt Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, Nguyen Van Tam, Jonathan S, de Lourdes Aguiar Oliveira, Maria, Al Khuwaitir, Tarig S. A., Al Masri, Malakita, Amin, Robed, Ballester Orcal, Elena, Bao, Jing, Basher, Ariful, Bautista, Edgar, Bertisch, Barbara, Bettinger, Julie, Booy, Robert, Bouza, Emilio, Bozkurt, Ilkay, Burgmann, Heinz, Čeljuska Tošev, Elvira, Chan, Kenny K. C., Chen, Yusheng, Chinbayar, Tserendorj, Cilloniz, Catia, Cox, Rebecca J., Sarrouf, Elena B., Cui, Wei, Dashti Khavidaki, Simin, Bin, Du, El Rhaffouli, Hicham, Escobar, Hernan, Florek Michalska, Agnieszka, Gerrard, John, Gormley, Stuart, Götberg, Sandra, Honarvar, Behnam, Jianming, Hu, Kemen, Christoph, Koay, Evelyn S. C., Kojic, Miroslav, Kudo, Koichiro, Kyaw, Win M., Leibovici, Leonard, Xiao li, Li, Hongru, Li, Libster, Romina, Loh, Tze P., Macbeth, Deborough, Maltezos, Efstratios, Marcone, Debora N., Marczynska, Magdalena, Mastalir, Fabiane P., Mickiene, Aukse, Moghadami, Mohsen, Moriconi, Lilian, Oliva, Maria E., Pečavar, Blaž, Poliquin, Philippe G., Rahman, Mahmudur, Rascon Pacheco, Alberto, Refaey, Samir, Schweiger, Brunhilde, Seale, Anna C., Sertogullarindan, Bunyamin, Smith, Fang G., Somer, Ayper, Souza, Thiago M. L., Stephan, Frank, Tabarsi, Payam, Tripathi, C. B., Viasus, Diego, Qin, Yu, Zhang, Wei, Zuo, Wei, Universitat de Barcelona, Ospedale 'Santa Maria della Misericordia' = University Hospital 'Santa Maria della Misericordia', Institut de Veille Sanitaire (INVS), Beijing Chao-Yang Hospital, Beijing Institute of Respiratory Diseases, Department of physics, engineering physics and astronomy, Queen's University [Kingston, Canada], Peking University People's Hospital, Processus Infectieux en Milieu Insulaire Tropical (PIMIT), Centre National de la Recherche Scientifique (CNRS)-IRD-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de La Réunion (UR), National Perinatal Epidemiology Unit, University of Oxford [Oxford], Instituto Nacional de Enfermedades Respiratorias Dr. Emilio Coni [Santa Fe, Argentina] (INER), State Key Laboratory of Advanced Electromagnetic Engineering and Technology, Huazhong University of Science and Technology [Wuhan] (HUST), People's Hospital of Peking University (PKUPH), Université de La Réunion (UR)-Institut National de la Santé et de la Recherche Médicale (INSERM)-IRD-Centre National de la Recherche Scientifique (CNRS), University of Oxford, Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P., Araújo, Wildo N., Azziz Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlo, Barhoush, Mazen M., Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T., Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov Raz, Gal, Echavarria, Marcela, Fanella, Sergio, Fraser, Jame, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L., Hoeger, Peter H., Hoffmann, Matthia, Xiaoyun, Hu, Islam, Quazi T., Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idri, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee Sin, Linko, Rita, Liu, Pei, Madanat, Fari, Manabe, Toshie, Mayo Montero, Elga, Mcgeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P., Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skrȩt Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelie, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, Nguyen Van Tam, Jonathan S, de Lourdes Aguiar Oliveira, Maria, Al Khuwaitir, Tarig S. A., Al Masri, Malakita, Amin, Robed, Ballester Orcal, Elena, Bao, Jing, Basher, Ariful, Bautista, Edgar, Bertisch, Barbara, Bettinger, Julie, Booy, Robert, Bouza, Emilio, Bozkurt, Ilkay, Burgmann, Heinz, Čeljuska Tošev, Elvira, Chan, Kenny K. C., Chen, Yusheng, Chinbayar, Tserendorj, Cilloniz, Catia, Cox, Rebecca J., Sarrouf, Elena B., Cui, Wei, Dashti Khavidaki, Simin, Bin, Du, El Rhaffouli, Hicham, Escobar, Hernan, Florek Michalska, Agnieszka, Gerrard, John, Gormley, Stuart, Götberg, Sandra, Honarvar, Behnam, Jianming, Hu, Kemen, Christoph, Koay, Evelyn S. C., Kojic, Miroslav, Kudo, Koichiro, Kyaw, Win M., Leibovici, Leonard, Xiao li, Li, Hongru, Li, Libster, Romina, Loh, Tze P., Macbeth, Deborough, Maltezos, Efstratio, Marcone, Debora N., Marczynska, Magdalena, Mastalir, Fabiane P., Mickiene, Aukse, Moghadami, Mohsen, Moriconi, Lilian, Oliva, Maria E., Pečavar, Blaž, Poliquin, Philippe G., Rahman, Mahmudur, Rascon Pacheco, Alberto, Refaey, Samir, Schweiger, Brunhilde, Seale, Anna C., Sertogullarindan, Bunyamin, Smith, Fang G., Somer, Ayper, Souza, Thiago M. L., Stephan, Frank, Tabarsi, Payam, Tripathi, C. B., Viasus, Diego, Qin, Yu, Zhang, Wei, Zuo, Wei, Pediatric surgery, and ICaR - Circulation and metabolism

Subjects

Hospitalisation, Individual participant data meta-analyses, Influenza-related pneumonia, Neuraminidase inhibitors, Adolescent, Adrenal Cortex Hormones, Adult, Anti-Bacterial Agents, Antiviral Agents, Child, Child, Preschool, Enzyme Inhibitors, Female, Humans, Influenza, Human, Male, Middle Aged, Neuraminidase, Odds Ratio, Pneumonia, Viral, Treatment Outcome, Young Adult, Influenza A Virus, H1N1 Subtype, 0301 basic medicine, Epidemiology, [SDV]Life Sciences [q-bio], viruses, Meta-análises de dados de participantes individuais, Antibiotics, Pneumònia, Adrenal Cortex Hormone, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit, influenza-related pneumonia, neuraminidase inhibitors, 0302 clinical medicine, individual participant data meta‐analyses, Influenza A Virus, Enzyme Inhibitor, 030212 general & internal medicine, Viral, Incidence (epidemiology), Inibidores da neuraminidase, virus diseases, 3. Good health, Hospitalization, Infectious Diseases, Meta-analysis, Original Article, Individual participant data meta-analyse, Public Health, Human, Pulmonary and Respiratory Medicine, medicine.medical_specialty, Antagonists & inhibitors, medicine.drug_class, influenza-related pneumonia, 030106 microbiology, influenza‐related pneumonia, Neuraminidase inhibitor, Ingressos i altes en els hospitals, Public Health, Environmental and Occupational Health, 03 medical and health sciences, Open Access, Pneumonia relacionada à gripe, Pharmacotherapy, Internal medicine, Anti-Bacterial Agent, medicine, H1N1 Subtype, Preschool, Antiviral Agent, Hospitalização, Hospital admission and discharge, business.industry, Environmental and Occupational Health, individual participant data meta-analyses, Original Articles, Odds ratio, Pneumonia, medicine.disease, Influenza, respiratory tract diseases, El Niño, Immunology, business

Abstract

Stella G. Muthuri,1 Sudhir Venkatesan,1 Puja R. Myles,1 Jo Leonardi-Bee,1 Wei Shen Lim,2 Abdullah Al Mamun,3 Ashish P. Anovadiya,4 Wildo N. Ara ujo,5 Eduardo Azziz-Baumgartner,6 Clarisa B aez,7 Carlos Bantar,8 Mazen M. Barhoush,9 Matteo Bassetti,10 Bojana Beovic,11 Roland Bingisser,12 Isabelle Bonmarin,13 Victor H. Borja-Aburto,14 Bin Cao,15 Jordi Carratala,16 Mar ıa R. Cuezzo,17 Justin T. Denholm,18 Samuel R. Dominguez,19 Pericles A. D. Duarte,20 Gal Dubnov-Raz,21 Marcela Echavarria,22 Sergio Fanella,23 James Fraser,24 Zhancheng Gao,25 Patrick G erardin,26,27,28,29 Maddalena Giannella,30 Sophie Gubbels,31 Jethro Herberg,32 Anjarath L. Higuera Iglesias,33 Peter H. Hoeger,34 Matthias Hoffmann,35 Xiaoyun Hu,36 Quazi T. Islam,37 Mirela F. Jim enez,38 Amr Kandeel,39 Gerben Keijzers,40 Hossein Khalili,41 Gulam Khandaker,42 Marian Knight,43 Gabriela Kusznierz,44 Ilija Kuzman,45 Arthur M. C. Kwan,46 Idriss Lahlou Amine,47 Eduard Langenegger,48 Kamran B. Lankarani,49 Yee-Sin Leo,50 Rita Linko,51 Pei Liu,52 Faris Madanat,53 Toshie Manabe,54 Elga Mayo-Montero,55 Allison McGeer,56 Ziad A. Memish,57,58 Gokhan Metan,59 Dragan Miki c,60 Kristin G. I. Mohn,61,62 Ahmadreza Moradi,63,64 Pagbajabyn Nymadawa,65 Bulent Ozbay,66 Mehpare Ozkan,67 Dhruv Parekh,68 Mical Paul,69 Wolfgang Poeppl,70 Fernando P. Polack,71,72 Barbara A. Rath,73 Alejandro H. Rodr ıguez,74 Marilda M. Siqueira,75 Joanna Skre zt-Magierło,76 Ewa Talarek,77 Julian W. Tang,78,79,80 Antoni Torres,81 Selda H. T€ or€un,82 Dat Tran,83 Timothy M. Uyeki,84 Annelies van Zwol,85 Wendy Vaudry,86 Daiva Velyvyte,87 Tjasa Vidmar,88 Paul Zarogoulidis,89 PRIDE Consortium Investigators* Jonathan S. Nguyen-Van-Tam1 1Division of Epidemiology and Public Health, University of Nottingham, Nottingham, UK. 2Respiratory Medicine, Nottingham University Hospitals NHS Trust, Nottingham, UK. 3International Centre for Diarrhoeal Diseases, Research Bangladesh (ICDDRB), Dhaka, Bangladesh. 4Department of Pharmacology, Government Medical College and Sir Takhtsinhji General Hospital, Bhavnagar, Gujarat, India. 5University of Bras ılia, Bras ılia, DF, Brazil. 6Centers for Disease Control and Prevention, Atlanta, GA, USA. 7Ministerio de Salud de la Provincia de Buenos Aires, Buenos Aires, Argentina. 8Department of Infection Control, Hospital San Mart ın de Paran a, Entre R ıos, Argentina. 9Department of Medicine, King Saud Medical City, Riyadh, Saudi Arabia. 10Santa Maria Misericordia Hospital, Udine, Italy. 11Department of Infectious Diseases, University Medical Centre, Ljubljana, Slovenia. 12Department of Emergency Medicine, University Hospital Basel, Basel, Switzerland. 13Institut de Veille Sanitaire, Saint-Maurice, France. 14Instituto Mexicano del Seguro Social (IMSS), Mexico City, Mexico. 15Beijing Chao-Yang Hospital, Capital Medical University, Beijing, China. 16Department of Infectious Diseases, Hospital Universitari de Bellvitge, Bellvitge Institute for Biomedical Research, L’Hospitalet de Llobregat, Red Espa~nola de Investigaci on en Patolog ıa Infecciosa, University of Barcelona, Barcelona, Spain. 17Ministerio de Salud de Tucum an, Tucum an, Argentina. 18Victorian Infectious Diseases Service and Department of Microbiology and Immunology, Peter Doherty Institute for Infection and Immunity, Parkville, Vic., Australia. 19Department of Pediatric Infectious Diseases, Children’s Hospital Colorado, University of Colorado School of Medicine, Aurora, CO, USA. 20Universidade Estadual do Oeste do Parana ´, UNIOESTE, Cascavel, PR, Brazil. 21The Edmond and Lily Safra Children’s Hospital, Sheba Medical Center, Tel-Hashomer, Israel. 22Clinical Virology Laboratory, CEMIC University Hospital, Buenos Aires, Argentina. 23Section of Pediatric Infectious Diseases, University of Manitoba, Winnipeg, MB, Canada. 24Paediatric Intensive Care Unit, Bristol Children’s Hospital, Bristol, UK. 25Department of Respiratory & Critical Care Medicine, Peking University People’s Hospital, Beijing, China. 26NICU/PICU, PFME, CHU Saint Pierre, Saint Pierre, La R eunion, France. 27CIC 1410 (CHU/Inserm/University of La Re ´union/URML-OI), CHU Saint Pierre, Saint Pierre, La Réunion, France. 28UMR PIMIT (CHU/Inserm/University of La Re ´union/IRD/CNRS), CYROI, Saint Denis – Reunion Island, Saint Denis, France. 29NICU/PICU CHU of La Re ´union, Groupe Hospitalier Sud Re ´union, Saint Pierre, La Re ´union, France. 30Department of Clinical Microbiology and Infectious Diseases, Hospital General Universitario Gregorio Maran ˜o ´n, Madrid, Spain. 31Department of Infectious Disease Epidemiology, Sector for National Health Documentation and Research, Statens Serum Institut, Copenhagen, Denmark. 32Section of Paediatrics, Division of Infectious Disease, Imperial College, London, UK. 33Epidemiology Research Unit, Instituto Nacional de Enfermedades Respiratorias, Ismael Cosı ´o Villegas, Mexico City, Mexico. 34Cath. Children’s Hospital Wilhelmstift, Hamburg, Germany. 35Division of Infectious Diseases and Hospital Epidemiology, Kantonsspital St. Gallen, St. Gallen, Switzerland. 36Peking Union Medical College Hospital, Beijing, China. 37Dhaka Medical College Hospital, Dhaka, Bangladesh. 38Departamento de Ginecologia e Obstetrı ´cia – UFCSPA, Preceptora da Reside ˆncia Me ´dica do Hospital Fe ˆmina, Porto Alegre, Brazil. 39Ministry of Health in Egypt, Cairo, Egypt. 40Gold Coast Hospital, Gold Coast, Qld, Australia. 41Department of Clinical Pharmacy, Faculty of Pharmacy, Tehran University of Medical Sciences, Tehran, Iran. 42National Centre for Immunisation Research and Surveillance (NCIRS), The Children’s Hospital at Westmead, University of Sydney, Sydney, NSW, Australia. 43National Perinatal Epidemiology Unit, Nuffield Department of Population Health, University of Oxford, Oxford, UK. 44National Institute of Respiratory Diseases ‘Emilio Coni’ ANLIS “C. Malbran”, Santa Fe, Argentina. 45School of Medicine, University Hospital for Infectious Diseases, University of Zagreb, Zagreb, Croatia. 46Department of Intensive Care, Pamela Youde Nethersole Eastern Hospital, Chai Wan, Hong Kong. 47Faculty of Medicine and Pharmacy, Mohammed V Military Teaching Hospital, Biosafety Level 3 and Research Laboratory, University Mohammed V-Souissi, Rabat, Morocco. 48Department of Obstetrics and Gynaecology, Stellenbosch University and Tygerberg, Stellenbosch, South Africa. 49Health Policy Research Center, Shiraz University of Medical Sciences, Shiraz, Iran. 50Department of Infectious Diseases, Tan Tock Seng Hospital, Singapore, Singapore. 51Helsinki University Hospital, Helsinki, Finland. 52Department of Infectious Diseases, The First Affiliated Hospital, China Medical University, Shenyang, China. 53Department of Pediatrics, King Hussein Cancer Center, Amman, Jordan. 54Graduate School of Comprehensive Human Sciences, University of Tsukuba, Tsukuba, Ibaraki, Japan. 55Instituto de Medicina Preventiva de la Defensa, Capitan Medico Ramon y Cajal (IMPDEF), Ministerio de Defensa, Madrid, Spain. 56Toronto Invasive Bacterial Diseases Network, University of Toronto, Toronto, ON, Canada. 57Ministry of Health, Riyadh, Saudi Arabia. 58College of Medicine, Alfaisal University, Riyadh, Saudi Arabia. 59Department of Infectious Diseases and Clinical Microbiology, Erciyes University Faculty of Medicine, Kayseri, Turkey. 60Military Medical Academy, Clinic for Infectious and Tropical Diseases, Belgrade, Serbia. 61Section for Infectious Diseases, Medical Department, and Department of Research and Development, Haukeland University Hospital, Bergen, Norway. 62Department of Clinical Science, The Influenza Centre, University of Bergen, Bergen, Norway. 63The Division of Ocular Immunology, Department of Ophthalmology, Johns Hopkins University School of Medicine, Baltimore, MD, USA. 64National Research Institute for Tuberculosis and Lung Disease, Massih Daneshvari Hospital, Shahid Beheshti University of Medical Sciences, Tehran, Iran. 65National Influenza Center, National Center of Communicable Diseases, Ministry of Health, Ulaanbaatar, Mongolia. 66Department of Pulmonary and Critical Care, Yuzuncu Yil University Medical Faculty, Van, Turkey. 67Clinic of Pediatric Neurology, Dr. Sami Ulus Research and Training Hospital of Women’s and Children’s Health and Diseases, Ankara, Turkey. 68Critical Care and Pain Perioperative, Critical Care and Trauma Trials Group, School of Clinical and Experimental Medicine, University of Birmingham, Birmingham, UK. 69Division of Infectious Diseases, Rambam Health Care Campus, Haifa, Israel. 70Medical University of Vienna, Vienna, Austria. 71Department of Pediatrics, Vanderbilt Vaccine Center, Vanderbilt University, Nashville, TN, USA. 72Fundacion INFANT, Buenos Aires, Argentina. 73Division of Pneumonology-Immunology, Department of Pediatrics, Charite ´ University Medical Center, Berlin, Germany. 74Critical Care Department, Hospital Joan XXIII, IISPV, URV, CIBERES, Tarragona, Spain. 75Laboratory of Respiratory Viruses, Oswaldo Cruz Institute/Fiocruz, Rio de Janeiro, Brazil. 76Uniwersytet Rzeszowski, Rzeszo ´w, Poland. 77Department of Children’s Infectious Diseases, Medical University of Warsaw, Warsaw, Poland. 78Division of Microbiology/Molecular Diagnostic Centre, Department of Laboratory Medicine, National University Hospital, Singapore, Singapore. 79Alberta Provincial Laboratory for Public Health, University of Alberta Hospital, Edmonton, Canada. 80Department of Medical Microbiology and Immunology, University of Alberta, Edmonton, AB, Canada. 81Hospital Clinic, University of Barcelona, IDIBAPS, CIBERES, Barcelona, Spain. 82Department of Pediatric Infectious Diseases, Istanbul Medical Faculty, Istanbul, Turkey. 83Division of Infectious Diseases, Department of Paediatrics, The Hospital for Sick Children, University of Toronto, Canada. 84Influenza Division, National Center for Immunization and Respiratory Diseases, Centers for Disease Control and Prevention, Atlanta, GA, USA. 85Department of Pediatric Intensive Care, VU University Medical Center, Amsterdam, The Netherlands. 86Division of Infectious Diseases, Department of Pediatrics, Stollery Children’s Hospital, University of Alberta, Edmonton, AB, Canada. 87Lithuanian University of Health Sciences, Kaunas, Lithuania. 88General Hospital, Slovenj Gradec, Slovenia. 89Unit of Infectious Diseases, University General Hospital of Alexandroupolis, Democritus University Thrace, Dragana, Greece. Correspondence: Jonathan S. Nguyen-Van-Tam, University of Nottingham, City Hospital, DM, Room A28b, Clinical Sciences Building, Nottingham NG5 1PB, UK. E-mail: jvt@nottingham.ac.uk *List of PRIDE Consortium Investigators are in Appendix 1. For affiliations, please see Table S1. Múltipla - ver em notas Background The impact of neuraminidase inhibitors (NAIs) on influenza-related pneumonia (IRP) is not established. Our objective was to investigate the association between NAI treatment and IRP incidence and outcomes in patients hospitalised with A(H1N1) pdm09 virus infection. Methods A worldwide meta-analysis of individual participant data from 20 634 hospitalised patients with laboratory-confirmed A (H1N1)pdm09 (n = 20 021) or clinically diagnosed (n = 613) ‘pandemic influenza’. The primary outcome was radiologically confirmed IRP. Odds ratios (OR) were estimated using generalised linear mixed modelling, adjusting for NAI treatment propensity, antibiotics and corticosteroids. Results Of 20 634 included participants, 5978 (29 0%) had IRP; conversely, 3349 (16 2%) had confirmed the absence of radiographic pneumonia (the comparator). Early NAI treatment (within 2 days of symptom onset) versus no NAI was not significantly associated with IRP [adj. OR 0 83 (95% CI 0 64–1 06; P = 0 136)]. Among the 5978 patients with IRP, early NAI treatment versus none did not impact on mortality [adj. OR = 0 72 (0 44–1 17; P = 0 180)] or likelihood of requiring ventilatory support [adj. OR = 1 17 (0 71– 1 92; P = 0 537)], but early treatment versus later significantly reduced mortality [adj. OR = 0 70 (0 55–0 88; P = 0 003)] and likelihood of requiring ventilatory support [adj. OR = 0 68 (0 54– 0 85; P = 0 001)]. Conclusions Early NAI treatment of patients hospitalised with A (H1N1)pdm09 virus infection versus no treatment did not reduce the likelihood of IRP. However, in patients who developed IRP, early NAI treatment versus later reduced the likelihood of mortality and needing ventilatory support.

Published

2016

4. Seasonal influenza vaccine effectiveness against laboratory-confirmed influenza in 2015–2016: a hospital-based test-negative case–control study in Lithuania

Author

Kuliese, Monika, primary, Jancoriene, Ligita, additional, Grimalauskaite, Rita, additional, Zablockiene, Birute, additional, Damuleviciene, Gyte, additional, Velyvyte, Daiva, additional, Lesauskaite, Vita, additional, Ambrozaitis, Arvydas, additional, Mickiene, Aukse, additional, and Gefenaite, Giedre, additional

Published

2017

5. Impact of neuraminidase inhibitors on influenza A(H1N1)pdm09-related pneumonia: an IPD meta-analysis

Author

Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Lim, Wei Shen, Mamun, Abdullah Al, Anovadiya, Ashish P., Araújo, Wildo N., Azziz-Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M., Bassetti, Matteo, Beović, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja-Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T., Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov-Raz, Gal, Echavarria, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L., Hoeger, Peter H., Hoffmann, Matthias, Hu, Xiaoyun, Islam, Quazi T., Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee-Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo-Montero, Elga, McGeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P., Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skręt-Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, and Nguyen-Van-Tam, Jonathan S.

Abstract

BACKGROUND: The impact of neuraminidase inhibitors (NAIs) on Influenza-related pneumonia (IRP) is not established. Our objective was to investigate the association between NAI treatment and IRP incidence and outcomes in patients hospitalised with A(H1N1)pdm09 virus infection. ----- METHODS: A worldwide meta-analysis of individual participant data (IPD) from 20,634 hospitalised patients with laboratory confirmed A(H1N1)pdm09 (n=20,021) or clinically diagnosed (n=613) 'pandemic influenza'. The primary outcome was radiologically confirmed influenza-related pneumonia (IRP). Odds ratios (OR) were estimated using generalized linear mixed modelling, adjusting for NAI treatment propensity, antibiotics and corticosteroids. ----- RESULTS: Among 20,634 included participants, 5,978 (29.0%) had IRP; conversely, 3,349 (16.2%) had confirmed absence of radiographic pneumonia (the comparator). Early NAI treatment (within 2 days of symptom onset) versus no NAI was not significantly associated with IRP [adj. OR 0.83 (95%CI 0.64 - 1.06; p=0.136)]. Among the 5,978 patients with IRP, early NAI treatment versus none did not impact on mortality [adj. OR=0.72 (0.44-1.17; p=0.180)] or likelihood of requiring ventilatory support [adj. OR=1.17 (0.71-1.92; p=0.537)]; but early treatment versus later significantly reduced mortality [adj. OR=0.70 (0.55-0.88; p=0.003)] and likelihood of requiring ventilatory support [adj. OR=0.68 (0.54-0.85; p=0.001)]. ----- CONCLUSIONS: Early NAI treatment of patients hospitalised with A(H1N1)pdm09 virus infection versus no treatment did not reduce the likelihood of IRP. However, in patients who developed IRP early NAI treatment versus later reduced the likelihood of mortality and needing ventilatory support.

Published

2015

6. Seasonal influenza vaccine effectiveness against laboratory-confirmed influenza in 2015-2016: a hospital-based testnegative case-control study in Lithuania.

Author

Kuliese, Monika, Jancoriene, Ligita, Grimalauskaite, Rita, Zablockiene, Birute, Damuleviciene, Gyte, Velyvyte, Daiva, Lesauskaite, Vita, Ambrozaitis, Arvydas, Mickiene, Aukse, and Gefenaite, Giedre

Abstract

Objective A case-control study was conducted to assess seasonal influenza vaccine effectiveness (SIVE) during the 2015-2016 influenza season. Methods A study was performed in three departments in Lithuania between 1 December 2015 and 1 May 2016. Data on demographic and clinical characteristics including influenza vaccination status were collected from the patients recommended to receive the seasonal influenza vaccine. Influenza virus infection was confirmed by multiplex reverse transcription polymerase chain reaction (RT-PCR) . Results Ninety-one (56.4%) of the 163 included subjects were =65 years old. Fifteen (9.2%) subjects were vaccinated against influenza at least 2 weeks before the onset of influenza symptoms, 12 of them were =65 years old. Of the 72 (44.2%) influenza virus positive cases, 65 (39.9%) were confirmed with influenza A (including 50 cases of influenza A(H1N1)pdm09), eight (4.9%) were confirmed with influenza B and one was a co-infection. Unadjusted SIVE against any influenza, influenza type A and influenza A(H1N1)pdm09 was 57% (95% CI -41% to 87%), 52% (95% CI -57% to 85%) and 70% (95% CI -43% to 94%) respectively. Conclusion Although SIVE estimates were not statistically significant the point estimates suggest moderate effectiveness against influenza type A. [ABSTRACT FROM AUTHOR]

Published

2017

7. Microsurgical management of laryngeal papillomas and prevalence of human papilloma virus infection

Author

Uloza, Virgilijus, primary, Velyvyte, Daiva, additional, and Gozdzicka-Jozefiak, Anna, additional

Published

2003

8. Impact of neuraminidase inhibitors on influenza A(H1N1)pdm09‐related pneumonia: an individual participant data meta‐analysis

Author

Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P, Araújo, Wildo N, Azziz‐Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M, Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja‐Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T, Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov‐Raz, Gal, Echavarria,, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L, Hoeger, Peter H, Hoffmann, Matthias, Hu, Xiaoyun, Islam, Quazi T, Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili,, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee‐Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo‐Montero, Elga, McGeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P, Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skręt‐Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, Nguyen-Van-Tam, Jonathan S., Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P, Araújo, Wildo N, Azziz‐Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M, Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja‐Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T, Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov‐Raz, Gal, Echavarria,, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L, Hoeger, Peter H, Hoffmann, Matthias, Hu, Xiaoyun, Islam, Quazi T, Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili,, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee‐Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo‐Montero, Elga, McGeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P, Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skręt‐Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, and Nguyen-Van-Tam, Jonathan S.

Abstract

BACKGROUND: The impact of neuraminidase inhibitors (NAIs) on influenza‐related pneumonia (IRP) is not established. Our objective was to investigate the association between NAI treatment and IRP incidence and outcomes in patients hospitalised with A(H1N1)pdm09 virus infection. METHODS: A worldwide meta‐analysis of individual participant data from 20 634 hospitalised patients with laboratory‐confirmed A(H1N1)pdm09 (n = 20 021) or clinically diagnosed (n = 613) ‘pandemic influenza’. The primary outcome was radiologically confirmed IRP. Odds ratios (OR) were estimated using generalised linear mixed modelling, adjusting for NAI treatment propensity, antibiotics and corticosteroids. RESULTS: Of 20 634 included participants, 5978 (29·0%) had IRP; conversely, 3349 (16·2%) had confirmed the absence of radiographic pneumonia (the comparator). Early NAI treatment (within 2 days of symptom onset) versus no NAI was not significantly associated with IRP [adj. OR 0·83 (95% CI 0·64–1·06; P = 0·136)]. Among the 5978 patients with IRP, early NAI treatment versus none did not impact on mortality [adj. OR = 0·72 (0·44–1·17; P = 0·180)] or likelihood of requiring ventilatory support [adj. OR = 1·17 (0·71–1·92; P = 0·537)], but early treatment versus later significantly reduced mortality [adj. OR = 0·70 (0·55–0·88; P = 0·003)] and likelihood of requiring ventilatory support [adj. OR = 0·68 (0·54–0·85; P = 0·001)]. CONCLUSIONS: Early NAI treatment of patients hospitalised with A(H1N1)pdm09 virus infection versus no treatment did not reduce the likelihood of IRP. However, in patients who developed IRP, early NAI treatment versus later reduced the likelihood of mortality and needing ventilatory support.

9. Impact of neuraminidase inhibitors on influenza A(H1N1)pdm09‐related pneumonia: an individual participant data meta‐analysis

Author

Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P, Araújo, Wildo N, Azziz‐Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M, Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja‐Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T, Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov‐Raz, Gal, Echavarria,, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L, Hoeger, Peter H, Hoffmann, Matthias, Hu, Xiaoyun, Islam, Quazi T, Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili,, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee‐Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo‐Montero, Elga, McGeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P, Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skręt‐Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, Nguyen-Van-Tam, Jonathan S., Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P, Araújo, Wildo N, Azziz‐Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M, Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja‐Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T, Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov‐Raz, Gal, Echavarria,, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L, Hoeger, Peter H, Hoffmann, Matthias, Hu, Xiaoyun, Islam, Quazi T, Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili,, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee‐Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo‐Montero, Elga, McGeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P, Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skręt‐Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, and Nguyen-Van-Tam, Jonathan S.

Abstract

BACKGROUND: The impact of neuraminidase inhibitors (NAIs) on influenza‐related pneumonia (IRP) is not established. Our objective was to investigate the association between NAI treatment and IRP incidence and outcomes in patients hospitalised with A(H1N1)pdm09 virus infection. METHODS: A worldwide meta‐analysis of individual participant data from 20 634 hospitalised patients with laboratory‐confirmed A(H1N1)pdm09 (n = 20 021) or clinically diagnosed (n = 613) ‘pandemic influenza’. The primary outcome was radiologically confirmed IRP. Odds ratios (OR) were estimated using generalised linear mixed modelling, adjusting for NAI treatment propensity, antibiotics and corticosteroids. RESULTS: Of 20 634 included participants, 5978 (29·0%) had IRP; conversely, 3349 (16·2%) had confirmed the absence of radiographic pneumonia (the comparator). Early NAI treatment (within 2 days of symptom onset) versus no NAI was not significantly associated with IRP [adj. OR 0·83 (95% CI 0·64–1·06; P = 0·136)]. Among the 5978 patients with IRP, early NAI treatment versus none did not impact on mortality [adj. OR = 0·72 (0·44–1·17; P = 0·180)] or likelihood of requiring ventilatory support [adj. OR = 1·17 (0·71–1·92; P = 0·537)], but early treatment versus later significantly reduced mortality [adj. OR = 0·70 (0·55–0·88; P = 0·003)] and likelihood of requiring ventilatory support [adj. OR = 0·68 (0·54–0·85; P = 0·001)]. CONCLUSIONS: Early NAI treatment of patients hospitalised with A(H1N1)pdm09 virus infection versus no treatment did not reduce the likelihood of IRP. However, in patients who developed IRP, early NAI treatment versus later reduced the likelihood of mortality and needing ventilatory support.

10. Impact of neuraminidase inhibitors on influenza A(H1N1)pdm09‐related pneumonia: an individual participant data meta‐analysis

Author

Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P, Araújo, Wildo N, Azziz‐Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M, Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja‐Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T, Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov‐Raz, Gal, Echavarria,, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L, Hoeger, Peter H, Hoffmann, Matthias, Hu, Xiaoyun, Islam, Quazi T, Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili,, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee‐Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo‐Montero, Elga, McGeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P, Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skręt‐Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, Nguyen-Van-Tam, Jonathan S., Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P, Araújo, Wildo N, Azziz‐Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M, Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja‐Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T, Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov‐Raz, Gal, Echavarria,, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L, Hoeger, Peter H, Hoffmann, Matthias, Hu, Xiaoyun, Islam, Quazi T, Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili,, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee‐Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo‐Montero, Elga, McGeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P, Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skręt‐Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, and Nguyen-Van-Tam, Jonathan S.

Abstract

BACKGROUND: The impact of neuraminidase inhibitors (NAIs) on influenza‐related pneumonia (IRP) is not established. Our objective was to investigate the association between NAI treatment and IRP incidence and outcomes in patients hospitalised with A(H1N1)pdm09 virus infection. METHODS: A worldwide meta‐analysis of individual participant data from 20 634 hospitalised patients with laboratory‐confirmed A(H1N1)pdm09 (n = 20 021) or clinically diagnosed (n = 613) ‘pandemic influenza’. The primary outcome was radiologically confirmed IRP. Odds ratios (OR) were estimated using generalised linear mixed modelling, adjusting for NAI treatment propensity, antibiotics and corticosteroids. RESULTS: Of 20 634 included participants, 5978 (29·0%) had IRP; conversely, 3349 (16·2%) had confirmed the absence of radiographic pneumonia (the comparator). Early NAI treatment (within 2 days of symptom onset) versus no NAI was not significantly associated with IRP [adj. OR 0·83 (95% CI 0·64–1·06; P = 0·136)]. Among the 5978 patients with IRP, early NAI treatment versus none did not impact on mortality [adj. OR = 0·72 (0·44–1·17; P = 0·180)] or likelihood of requiring ventilatory support [adj. OR = 1·17 (0·71–1·92; P = 0·537)], but early treatment versus later significantly reduced mortality [adj. OR = 0·70 (0·55–0·88; P = 0·003)] and likelihood of requiring ventilatory support [adj. OR = 0·68 (0·54–0·85; P = 0·001)]. CONCLUSIONS: Early NAI treatment of patients hospitalised with A(H1N1)pdm09 virus infection versus no treatment did not reduce the likelihood of IRP. However, in patients who developed IRP, early NAI treatment versus later reduced the likelihood of mortality and needing ventilatory support.

11. Impact of neuraminidase inhibitors on influenza A(H1N1)pdm09‐related pneumonia: an individual participant data meta‐analysis

Author

Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P, Araújo, Wildo N, Azziz‐Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M, Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja‐Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T, Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov‐Raz, Gal, Echavarria,, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L, Hoeger, Peter H, Hoffmann, Matthias, Hu, Xiaoyun, Islam, Quazi T, Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili,, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee‐Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo‐Montero, Elga, McGeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P, Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skręt‐Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, Nguyen-Van-Tam, Jonathan S., Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P, Araújo, Wildo N, Azziz‐Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M, Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja‐Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T, Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov‐Raz, Gal, Echavarria,, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L, Hoeger, Peter H, Hoffmann, Matthias, Hu, Xiaoyun, Islam, Quazi T, Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili,, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee‐Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo‐Montero, Elga, McGeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P, Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skręt‐Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, and Nguyen-Van-Tam, Jonathan S.

Abstract

BACKGROUND: The impact of neuraminidase inhibitors (NAIs) on influenza‐related pneumonia (IRP) is not established. Our objective was to investigate the association between NAI treatment and IRP incidence and outcomes in patients hospitalised with A(H1N1)pdm09 virus infection. METHODS: A worldwide meta‐analysis of individual participant data from 20 634 hospitalised patients with laboratory‐confirmed A(H1N1)pdm09 (n = 20 021) or clinically diagnosed (n = 613) ‘pandemic influenza’. The primary outcome was radiologically confirmed IRP. Odds ratios (OR) were estimated using generalised linear mixed modelling, adjusting for NAI treatment propensity, antibiotics and corticosteroids. RESULTS: Of 20 634 included participants, 5978 (29·0%) had IRP; conversely, 3349 (16·2%) had confirmed the absence of radiographic pneumonia (the comparator). Early NAI treatment (within 2 days of symptom onset) versus no NAI was not significantly associated with IRP [adj. OR 0·83 (95% CI 0·64–1·06; P = 0·136)]. Among the 5978 patients with IRP, early NAI treatment versus none did not impact on mortality [adj. OR = 0·72 (0·44–1·17; P = 0·180)] or likelihood of requiring ventilatory support [adj. OR = 1·17 (0·71–1·92; P = 0·537)], but early treatment versus later significantly reduced mortality [adj. OR = 0·70 (0·55–0·88; P = 0·003)] and likelihood of requiring ventilatory support [adj. OR = 0·68 (0·54–0·85; P = 0·001)]. CONCLUSIONS: Early NAI treatment of patients hospitalised with A(H1N1)pdm09 virus infection versus no treatment did not reduce the likelihood of IRP. However, in patients who developed IRP, early NAI treatment versus later reduced the likelihood of mortality and needing ventilatory support.

12. Impact of neuraminidase inhibitors on influenza A(H1N1)pdm09‐related pneumonia: an individual participant data meta‐analysis

Author

Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P, Araújo, Wildo N, Azziz‐Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M, Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja‐Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T, Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov‐Raz, Gal, Echavarria,, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L, Hoeger, Peter H, Hoffmann, Matthias, Hu, Xiaoyun, Islam, Quazi T, Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili,, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee‐Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo‐Montero, Elga, McGeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P, Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skręt‐Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, Nguyen-Van-Tam, Jonathan S., Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Lim, Wei Shen, Al Mamun, Abdullah, Anovadiya, Ashish P, Araújo, Wildo N, Azziz‐Baumgartner, Eduardo, Báez, Clarisa, Bantar, Carlos, Barhoush, Mazen M, Bassetti, Matteo, Beovic, Bojana, Bingisser, Roland, Bonmarin, Isabelle, Borja‐Aburto, Victor H., Cao, Bin, Carratala, Jordi, Cuezzo, María R., Denholm, Justin T, Dominguez, Samuel R., Duarte, Pericles A. D., Dubnov‐Raz, Gal, Echavarria,, Marcela, Fanella, Sergio, Fraser, James, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L, Hoeger, Peter H, Hoffmann, Matthias, Hu, Xiaoyun, Islam, Quazi T, Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili,, Hossein, Khandaker, Gulam, Knight, Marian, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Lahlou Amine, Idriss, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee‐Sin, Linko, Rita, Liu, Pei, Madanat, Faris, Manabe, Toshie, Mayo‐Montero, Elga, McGeer, Allison, Memish, Ziad A., Metan, Gokhan, Mikić, Dragan, Mohn, Kristin G. I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Ozbay, Bulent, Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Poeppl, Wolfgang, Polack, Fernando P, Rath, Barbara A., Rodríguez, Alejandro H., Siqueira, Marilda M., Skręt‐Magierło, Joanna, Talarek, Ewa, Tang, Julian W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelies, Vaudry, Wendy, Velyvyte, Daiva, Vidmar, Tjasa, Zarogoulidis, Paul, and Nguyen-Van-Tam, Jonathan S.

Abstract

BACKGROUND: The impact of neuraminidase inhibitors (NAIs) on influenza‐related pneumonia (IRP) is not established. Our objective was to investigate the association between NAI treatment and IRP incidence and outcomes in patients hospitalised with A(H1N1)pdm09 virus infection. METHODS: A worldwide meta‐analysis of individual participant data from 20 634 hospitalised patients with laboratory‐confirmed A(H1N1)pdm09 (n = 20 021) or clinically diagnosed (n = 613) ‘pandemic influenza’. The primary outcome was radiologically confirmed IRP. Odds ratios (OR) were estimated using generalised linear mixed modelling, adjusting for NAI treatment propensity, antibiotics and corticosteroids. RESULTS: Of 20 634 included participants, 5978 (29·0%) had IRP; conversely, 3349 (16·2%) had confirmed the absence of radiographic pneumonia (the comparator). Early NAI treatment (within 2 days of symptom onset) versus no NAI was not significantly associated with IRP [adj. OR 0·83 (95% CI 0·64–1·06; P = 0·136)]. Among the 5978 patients with IRP, early NAI treatment versus none did not impact on mortality [adj. OR = 0·72 (0·44–1·17; P = 0·180)] or likelihood of requiring ventilatory support [adj. OR = 1·17 (0·71–1·92; P = 0·537)], but early treatment versus later significantly reduced mortality [adj. OR = 0·70 (0·55–0·88; P = 0·003)] and likelihood of requiring ventilatory support [adj. OR = 0·68 (0·54–0·85; P = 0·001)]. CONCLUSIONS: Early NAI treatment of patients hospitalised with A(H1N1)pdm09 virus infection versus no treatment did not reduce the likelihood of IRP. However, in patients who developed IRP, early NAI treatment versus later reduced the likelihood of mortality and needing ventilatory support.

13. Effectiveness of neuraminidase inhibitors in reducing mortality in patients admitted to hospital with influenza A H1N1pdm09 virus infection: a meta-analysis of individual participant data

Author

Muthuri, SG, Venkatesan, S, Myles, PR, Leonardi-Bee, J, Al Khuwaitir, TSA, Al Mamun, A, Anovadiya, AP, Azziz-Baumgartner, E, Báez, C, Bassetti, M, Beovic, B, Bertisch, B, Bonmarin, I, Booy, R, Borja-Aburto, VH, Burgmann, H, Cao, B, Carratala, J, Denholm, JT, Dominguez, SR, Duarte, PAD, Dubnov-Raz, G, Echavarria, M, Fanella, S, Gao, Z, Gérardin, P, Giannella, M, Gubbels, S, Herberg, J, Higuera Iglesias, AL, Hoger, PH, Hu, X, Islam, QT, Jiménez, MF, Kandeel, A, Keijzers, G, Khalili, H, Knight, M, Kudo, K, Kusznierz, G, Kuzman, I, Kwan, AMC, Amine, IL, Langenegger, E, Lankarani, KB, Leo, Y-S, Linko, R, Liu, P, Madanat, F, Mayo-Montero, E, McGeer, A, Memish, Z, Metan, G, Mickiene, A, Mikic, D, Mohn, KGI, Moradi, A, Nymadawa, P, Oliva, ME, Ozkan, M, Parekh, D, Paul, M, Polack, FP, Rath, BA, Rodríguez, AH, Sarrouf, EB, Seale, AC, Sertogullarindan, B, Siqueira, MM, Skret-Magierlo, J, Stephan, F, Talarek, E, Tang, JW, To, KKW, Torres, A, Törün, SH, Tran, D, Uyeki, TM, van Zwol, A, Vaudry, W, Vidmar, T, Yokota, RTC, Zarogoulidis, P, Nguyen-van-Tam, JS, Aguiar-Oliveira, ML, Al Masri, M, Amin, R, Araújo, WN, Ballester-Orcal, E, Bantar, C, Bao, J, Barhoush, MM, Basher, A, Bautista, E, Bettinger, J, Bingisser, R, Bouza, E, Bozkurt, I, Celjuska-Tošev, E, Chan, KKC, Chen, Y, Chinbayar, T, Cilloniz, C, Cox, RJ, Cuezzo, MR, Cui, W, Dashti-Khavidaki, S, du, B, El Rhaffouli, H, Escobar, H, Florek-Michalska, A, Fraser, J, Gerrard, J, Gormley, S, Götberg, S, Hoffmann, M, Honarvar, B, Hu, J, Kemen, C, Khandaker, G, Koay, KSC, Kojic, M, Kyaw, WM, Leibovici, L, Li, H, Li, X-L, Libster, R, Loh, TP, Macbeth, D, Maltezos, E, Manabe, T, Marcone, DN, Marczynska, M, Mastalir, FP, Moghadami, M, Moriconi, L, Ozbay, B, Pečavar, B, Poeppl, W, Poliquin, PG, Rahman, M, Rascon-Pacheco, A, Refaey, S, Schweiger, B, Smith, FG, Somer, A, Souza, TML, Tabarsi, P, Tripathi, CB, Velyvyte, D, Viasus, D, Yu, Q, Yuen, K-Y, Zhang, W, Zuo, W, Pediatric surgery, CCA - Innovative therapy, Muthuri, Stella G., Venkatesan, Sudhir, Myles, Puja R., Leonardi-Bee, Jo, Al Khuwaitir, Tarig S. A., Al Mamun, Adbullah, Anovadiya, Ashish P., Azziz-Baumgartner, Eduardo, Báez, Clarisa, Bassetti, Matteo, Beovic, Bojana, Bertisch, Barbara, Bonmarin, Isabelle, Booy, Robert, Borja-Aburto, Victor H., Burgmann, Heinz, Cao, Bin, Carratala, Jordi, Denholm, Justin T., Dominguez, Samuel R., Duarte, Pericles A.D., Dubnov-Raz, Gal, Echavarria, Marcela, Fanella, Sergio, Gao, Zhancheng, Gérardin, Patrick, Giannella, Maddalena, Gubbels, Sophie, Herberg, Jethro, Higuera Iglesias, Anjarath L., Hoger, Peter H., Hu, Xiaoyun, Islam, Quazi T., Jiménez, Mirela F., Kandeel, Amr, Keijzers, Gerben, Khalili, Hossein, Knight, Marian, Kudo, Koichiro, Kusznierz, Gabriela, Kuzman, Ilija, Kwan, Arthur M. C., Amine, Idriss Lahlou, Langenegger, Eduard, Lankarani, Kamran B., Leo, Yee-Sin, Linko, Rita, Liu, Pei, Madanat, Fari, Mayo-Montero, Elga, Mcgeer, Allison, Memish, Ziad, Metan, Gokhan, Mickiene, Aukse, Mikic, Dragan, Mohn, Kristin G.I., Moradi, Ahmadreza, Nymadawa, Pagbajabyn, Oliva, Maria E., Ozkan, Mehpare, Parekh, Dhruv, Paul, Mical, Polack, Fernando P., Rath, Barbara A., Rodríguez, Alejandro H., Sarrouf, Elena B., Seale, Anna C., Sertogullarindan, Bunyamin, Siqueira, Marilda M., Skret-Magierlo, Joanna, Stephan, Frank, Talarek, Ewa, Tang, Julian W., To, Kelvin K.W., Torres, Antoni, Törün, Selda H., Tran, Dat, Uyeki, Timothy M., van Zwol, Annelie, Vaudry, Wendy, Vidmar, Tjasa, Yokota, Renata T.C., Zarogoulidis, Paul, Nguyen-van-Tam, Jonathan S, Aguiar-Oliveira, Maria de Lourde, Al Masri, Malakita, Amin, Robed, Araújo, Wildo N., Ballester-Orcal, Elena, Bantar, Carlo, Bao, Jing, Barhoush, Mazen M., Basher, Ariful, Bautista, Edgar, Bettinger, Julie, Bingisser, Roland, Bouza, Emilio, Bozkurt, Ilkay, Celjuska-Tošev, Elvira, Chan, Kenny K.C., Chen, Yusheng, Chinbayar, Tserendorj, Cilloniz, Catia, Cox, Rebecca J., Cuezzo, María R., Cui, Wei, Dashti-Khavidaki, Simin, Du, Bin, El Rhaffouli, Hicham, Escobar, Hernan, Florek-Michalska, Agnieszka, Fraser, Jame, Gerrard, John, Gormley, Stuart, Götberg, Sandra, Hoffmann, Matthia, Honarvar, Behnam, Hu, Jianmin, Kemen, Christoph, Khandaker, Gulam, Koay, Evelyn S. C., Kojic, Miroslav, Kyaw, Win M., Leibovici, Leonard, Li, Hongru, Li, Xiao-Li, Libster, Romina, Loh, Tze P., Macbeth, Deborough, Maltezos, Efstratio, Manabe, Toshie, Marcone, Débora N., Marczynska, Magdalena, Mastalir, Fabiane P., Moghadami, Mohsen, Moriconi, Lilian, Ozbay, Bulent, Pečavar, Blaž, Poeppl, Wolfgang, Poliquin, Philippe G., Rahman, Mahmudur, Rascon-Pacheco, Alberto, Refaey, Samir, Schweiger, Brunhilde, Smith, Fang G., Somer, Ayper, Souza, Thiago M. L., Tabarsi, Payam, Tripathi, Chandrabhanu B., Velyvyte, Daiva, Viasus, Diego, Yu, Qin, Yuen, Kwok-Yung, Zhang, Wei, and Zuo, Wei

Subjects

Male, ANTIVIRAL TREATMENT, IMPACT, Respiratory System, CHILDREN, Neuraminidase inhibitors, Pandemic influenza, Mortality, Meta-analysis, medicine.disease_cause, THERAPY, chemistry.chemical_compound, Influenza A Virus, H1N1 Subtype, 0302 clinical medicine, Pandemic, Influenza A Virus, Influenza A virus, Zanamivir, 030212 general & internal medicine, Enzyme Inhibitors, Child, OUTCOMES, 0303 health sciences, biology, Neuraminidase inhibitor, Medicine (all), virus diseases, Middle Aged, 3. Good health, Hospitalization, Treatment Outcome, Female, Life Sciences & Biomedicine, Adolescent, Adult, Antiviral Agents, Humans, Influenza, Human, Neuraminidase, Oseltamivir, Proportional Hazards Models, Young Adult, Pandemics, Pulmonary and Respiratory Medicine, Human, medicine.drug, medicine.medical_specialty, medicine.drug_class, PANDEMIC INFLUENZA, Article, PRIDE Consortium Investigators, 03 medical and health sciences, Critical Care Medicine, General & Internal Medicine, Internal medicine, medicine, H1N1 Subtype, Intensive care medicine, Science & Technology, 030306 microbiology, business.industry, STEM-CELL TRANSPLANTATION, ADULTS, Odds ratio, Influenza, chemistry, RISK-FACTORS, biology.protein, business

Abstract

Background: Neuraminidase inhibitors were widely used during the 2009-10 influenza A H1N1 pandemic, but evidence for their effectiveness in reducing mortality is uncertain. We did a meta-analysis of individual participant data to investigate the association between use of neuraminidase inhibitors and mortality in patients admitted to hospital with pandemic influenza A H1N1pdm09 virus infection. Methods: We assembled data for patients (all ages) admitted to hospital worldwide with laboratory confirmed or clinically diagnosed pandemic influenza A H1N1pdm09 virus infection. We identified potential data contributors from an earlier systematic review of reported studies addressing the same research question. In our systematic review, eligible studies were done between March 1, 2009 (Mexico), or April 1, 2009 (rest of the world), until the WHO declaration of the end of the pandemic (Aug 10, 2010); however, we continued to receive data up to March 14, 2011, from ongoing studies. We did a meta-analysis of individual participant data to assess the association between neuraminidase inhibitor treatment and mortality (primary outcome), adjusting for both treatment propensity and potential confounders, using generalised linear mixed modelling. We assessed the association with time to treatment using time-dependent Cox regression shared frailty modelling. Findings: We included data for 29234 patients from 78 studies of patients admitted to hospital between Jan 2, 2009, and March 14, 2011. Compared with no treatment, neuraminidase inhibitor treatment (irrespective of timing) was associated with a reduction in mortality risk (adjusted odds ratio [OR] 0·81; 95% CI 0·70-0·93; p=0·0024). Compared with later treatment, early treatment (within 2 days of symptom onset) was associated with a reduction in mortality risk (adjusted OR 0·48; 95% CI 0·41-0·56; p

Published

2014

14. Impact of neuraminidase inhibitors on influenza A(H1N1)pdm09-related pneumonia: an individual participant data meta-analysis.

Author

Muthuri SG, Venkatesan S, Myles PR, Leonardi-Bee J, Lim WS, Al Mamun A, Anovadiya AP, Araújo WN, Azziz-Baumgartner E, Báez C, Bantar C, Barhoush MM, Bassetti M, Beovic B, Bingisser R, Bonmarin I, Borja-Aburto VH, Cao B, Carratala J, Cuezzo MR, Denholm JT, Dominguez SR, Duarte PA, Dubnov-Raz G, Echavarria M, Fanella S, Fraser J, Gao Z, Gérardin P, Giannella M, Gubbels S, Herberg J, Higuera Iglesias AL, Hoeger PH, Hoffmann M, Hu X, Islam QT, Jiménez MF, Kandeel A, Keijzers G, Khalili H, Khandaker G, Knight M, Kusznierz G, Kuzman I, Kwan AM, Lahlou Amine I, Langenegger E, Lankarani KB, Leo YS, Linko R, Liu P, Madanat F, Manabe T, Mayo-Montero E, McGeer A, Memish ZA, Metan G, Mikić D, Mohn KG, Moradi A, Nymadawa P, Ozbay B, Ozkan M, Parekh D, Paul M, Poeppl W, Polack FP, Rath BA, Rodríguez AH, Siqueira MM, Skręt-Magierło J, Talarek E, Tang JW, Torres A, Törün SH, Tran D, Uyeki TM, van Zwol A, Vaudry W, Velyvyte D, Vidmar T, Zarogoulidis P, and Nguyen-Van-Tam JS

Subjects

Adolescent, Adrenal Cortex Hormones therapeutic use, Adult, Anti-Bacterial Agents therapeutic use, Child, Child, Preschool, Enzyme Inhibitors therapeutic use, Female, Humans, Influenza, Human epidemiology, Influenza, Human mortality, Influenza, Human virology, Male, Middle Aged, Odds Ratio, Pneumonia, Viral diagnostic imaging, Pneumonia, Viral epidemiology, Treatment Outcome, Young Adult, Antiviral Agents therapeutic use, Influenza A Virus, H1N1 Subtype drug effects, Influenza A Virus, H1N1 Subtype enzymology, Influenza, Human drug therapy, Neuraminidase antagonists & inhibitors, Pneumonia, Viral drug therapy, Pneumonia, Viral virology

Abstract

Background: The impact of neuraminidase inhibitors (NAIs) on influenza-related pneumonia (IRP) is not established. Our objective was to investigate the association between NAI treatment and IRP incidence and outcomes in patients hospitalised with A(H1N1)pdm09 virus infection., Methods: A worldwide meta-analysis of individual participant data from 20 634 hospitalised patients with laboratory-confirmed A(H1N1)pdm09 (n = 20 021) or clinically diagnosed (n = 613) 'pandemic influenza'. The primary outcome was radiologically confirmed IRP. Odds ratios (OR) were estimated using generalised linear mixed modelling, adjusting for NAI treatment propensity, antibiotics and corticosteroids., Results: Of 20 634 included participants, 5978 (29·0%) had IRP; conversely, 3349 (16·2%) had confirmed the absence of radiographic pneumonia (the comparator). Early NAI treatment (within 2 days of symptom onset) versus no NAI was not significantly associated with IRP [adj. OR 0·83 (95% CI 0·64-1·06; P = 0·136)]. Among the 5978 patients with IRP, early NAI treatment versus none did not impact on mortality [adj. OR = 0·72 (0·44-1·17; P = 0·180)] or likelihood of requiring ventilatory support [adj. OR = 1·17 (0·71-1·92; P = 0·537)], but early treatment versus later significantly reduced mortality [adj. OR = 0·70 (0·55-0·88; P = 0·003)] and likelihood of requiring ventilatory support [adj. OR = 0·68 (0·54-0·85; P = 0·001)]., Conclusions: Early NAI treatment of patients hospitalised with A(H1N1)pdm09 virus infection versus no treatment did not reduce the likelihood of IRP. However, in patients who developed IRP, early NAI treatment versus later reduced the likelihood of mortality and needing ventilatory support., (© 2015 The Authors. Influenza and Other Respiratory Viruses Published by John Wiley & Sons Ltd.)

Published

2016

15. [Acquired Immunodeficiency Syndrome and opportunistic infections].

Author

Dvaranauskaite L, Velyvyte D, Kurklietyte V, Gumbelevicius A, Keleras E, Laiskonis A, and Mickiene A

Subjects

Adult, Cytomegalovirus Retinitis epidemiology, Female, Hospitalization, Humans, Uveitis epidemiology, Visual Acuity, AIDS-Related Opportunistic Infections epidemiology, AIDS-Related Opportunistic Infections mortality, Acquired Immunodeficiency Syndrome epidemiology, Acquired Immunodeficiency Syndrome mortality, Toxoplasmosis, Cerebral epidemiology

Abstract

This article presents a clinical case of late diagnosis of cerebral toxoplasmosis and cytomegalovirus retinitis of right eye in a 32-year-old patient who was unaware of her HIV status. In addition, this article reviews the literature reflecting clinical, diagnostic, and treatment issues of some opportunistic infections in AIDS.

Published

2009

16. [Prevalence of papillomavirus infection among patients with laryngeal papillomatosis and the effects of some risk factors on the persistence of papillomaviruses in the upper respiratory tract].

Author

Velyvyte D, Laiskonis A, Uloza V, and Gozdzicka-Jozefiak A

Subjects

Adolescent, Adult, Chi-Square Distribution, Child, Child, Preschool, DNA, Viral analysis, Female, Humans, Male, Middle Aged, Nasopharynx virology, Papillomavirus Infections virology, Polymerase Chain Reaction, Prevalence, Probability, Respiratory Tract Infections virology, Risk Factors, Smoking adverse effects, Socioeconomic Factors, Surveys and Questionnaires, Tobacco Smoke Pollution adverse effects, Tumor Virus Infections virology, Laryngeal Neoplasms complications, Papilloma complications, Papillomaviridae genetics, Papillomaviridae isolation & purification, Papillomavirus Infections epidemiology, Respiratory Tract Infections epidemiology, Tumor Virus Infections epidemiology

Abstract

Unlabelled: Infection with high-risk human papillomaviruses is a significant risk factor of various benign and malignant human lesions in the upper respiratory tract, skin and the genital tract. The identification of particular human papillomaviruses types is important for identifying patients with premalignant lesions who are at risk of progression to malignancy. Our aim was to establish the prevalence of human papillomaviruses infection in the upper respiratory tract of patients with laryngeal papillomatosis, to identify viral types, to evaluate the relationship between some risk factors and persistence of human papillomaviruses in the upper respiratory tract and to determine the pattern of human papillomaviruses infection., Material and Methods: The group of 36 patients with laryngeal papillomatosis and control group of 108 persons without any complains of respiratory system was examined. Epidemiologic characteristics and objective data were analyzed and routine laryngological examination was performed. Pharyngeal swabs of all persons and laryngeal biopsies of 17 patients were taken and analyzed for the presence of human papillomaviruses DNA. Viral typing using the polymerase chain reaction was performed., Results: Human papillomaviruses DNA was detected in all except one case of laryngeal papillomatosis; then only 23.15% of persons without complaints of respiratory system were found human papillomaviruses positive. Human papillomaviruses 6, 11 types were predominant (in 88.9% of patients and 19.4% of persons from control group). High-risk human papillomaviruses were detected in 52.78% of laryngeal papillomatosis cases and in 9.26% of control cases. Risk factors were noted statistically significantly more often in human papillomaviruses positive cases., Conclusions: The prevalence of human papillomaviruses infection in the upper respiratory tract of patients with laryngeal papillomatosis is high; human papillomaviruses 6, 11 types are predominant. High-risk human papillomaviruses were noted statistically significantly more often in the group of patients with laryngeal papillomatosis. Inclination to diseases of respiratory system, dental caries, smoking, low living standard are statistically significantly related to human papillomaviruses persistence in the upper respiratory tract.

Published

2002