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2. Phylogenetic analysis of the Belgian HIV-1 epidemic reveals that local transmission is almost exclusively driven by men having sex with men despite presence of large African migrant communities

Author

Verhofstede, Chris, Dauwe, Kenny, Fransen, Katrien, Van Laethem, Kristel, Van den Wijngaert, Sigi, Ruelle, Jean, Delforge, Marie-Luce, Vancutsem, Ellen, Vaira, Dolores, Stoffels, Karolien, Ribas, Sergio Garcia, Dessilly, Géraldine, Debaisieux, Laurent, Pierard, Denis, Van Ranst, Marc, Hayette, Marie-Pierre, Deblonde, Jessica, Sasse, Andre, Van Beckhoven, Dominique, and Mortier, Virginie

Published
2018
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6. Prevalence and evolution of transmitted HIV drug resistance in Belgium between 2013 and 2019

Author

Mortier, Virginie, Debaisieux, Laurent, Dessilly, Géraldine, Stoffels, Karolien, Vaira, Dolores, Vancutsem, Ellen, Van Laethem, Kristel, Vanroye, Fien, Verhofstede, Chris, Supporting clinical sciences, Microbiology and Infection Control, and Clinical Biology

Abstract

Background: To assess the prevalence and evolution of transmitted drug resistance (TDR) in Belgium, a total of 3708 baseline human immunodeficiency virus (HIV)-1 polymerase sequences from patients diagnosed between 2013 and 2019 were analyzed. Methods: Protease and reverse-transcriptase HIV-1 sequences were collected from the 7 national Aids Reference Laboratories. Subtype determination and drug resistance scoring were performed using the Stanford HIV Drug Resistance Database. Trends over time were assessed using linear regression, and the maximum likelihood approach was used for phylogenetic analysis. Results: A total of 17.9% of the patients showed evidence of TDR resulting in at least low-level resistance to 1 drug (Stanford score ≥15). If only the high-level mutations (Stanford score ≥60) were considered, TDR prevalence dropped to 6.3%. The majority of observed resistance mutations impacted the sensitivity for nonnucleoside reverse-transcriptase inhibitors (NNRTIs) (11.4%), followed by nucleoside reverse-transcriptase inhibitors (6.2%) and protease inhibitors (2.4%). Multiclass resistance was observed in 2.4%. Clustered onward transmission was evidenced for 257 of 635 patients (40.5%), spread over 25 phylogenetic clusters. Conclusions: The TDR prevalence remained stable between 2013 and 2019 and is comparable to the prevalence in other Western European countries. The high frequency of NNRTI mutations requires special attention and follow-up. Phylogenetic analysis provided evidence for local clustered onward transmission of some frequently detected mutations.

Published
2022

7. Prevalence and Evolution of Transmitted Human Immunodeficiency Virus Drug Resistance in Belgium between 2013 and 2019

Author

Mortier, Virginie, Debaisieux, Laurent, Dessilly, Géraldine, Stoffels, Karolien, Vaira, Dolores, Vancutsem, Ellen, Van Laethem, Kristel, Vanroye, Fien, Verhofstede, Chris, Mortier, Virginie, Debaisieux, Laurent, Dessilly, Géraldine, Stoffels, Karolien, Vaira, Dolores, Vancutsem, Ellen, Van Laethem, Kristel, Vanroye, Fien, and Verhofstede, Chris

Abstract

Background: To assess the prevalence and evolution of transmitted drug resistance (TDR) in Belgium, a total of 3708 baseline human immunodeficiency virus (HIV)-1 polymerase sequences from patients diagnosed between 2013 and 2019 were analyzed. Methods: Protease and reverse-transcriptase HIV-1 sequences were collected from the 7 national Aids Reference Laboratories. Subtype determination and drug resistance scoring were performed using the Stanford HIV Drug Resistance Database. Trends over time were assessed using linear regression, and the maximum likelihood approach was used for phylogenetic analysis. Results: A total of 17.9% of the patients showed evidence of TDR resulting in at least low-level resistance to 1 drug (Stanford score ≥15). If only the high-level mutations (Stanford score ≥60) were considered, TDR prevalence dropped to 6.3%. The majority of observed resistance mutations impacted the sensitivity for nonnucleoside reverse-transcriptase inhibitors (NNRTIs) (11.4%), followed by nucleoside reverse-transcriptase inhibitors (6.2%) and protease inhibitors (2.4%). Multiclass resistance was observed in 2.4%. Clustered onward transmission was evidenced for 257 of 635 patients (40.5%), spread over 25 phylogenetic clusters. Conclusions: The TDR prevalence remained stable between 2013 and 2019 and is comparable to the prevalence in other Western European countries. The high frequency of NNRTI mutations requires special attention and follow-up. Phylogenetic analysis provided evidence for local clustered onward transmission of some frequently detected mutations., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2022

9. Chronic and Early Antiretroviral Therapy Impact Human Immunodeficiency Virus (HIV) Serological Assay Sensitivity, Leading to More False-Negative Test Results in HIV Diagnosis

Author

Stoffels, Karolien, primary, Vanroye, Fien, additional, Mortier, Virginie, additional, Debaisieux, Laurent, additional, Delforge, Marie-Luce, additional, Depypere, Melissa, additional, Dessilly, Géraldine, additional, Vaira, Dolores, additional, Vancutsem, Ellen, additional, Van den Wijngaert, Sigi, additional, Van Laethem, Kristel, additional, Vercauteren, Koen O A, additional, Verhofstede, Chris, additional, and Fransen, Katrien, additional

Published
2020
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10. Chronic and early antiretroviral therapy impact HIV serological assay sensitivity leading to more false negative test results in HIV diagnosis

Author

Stoffels, Karolien, Vanroye, Fien, Mortier, Virginie, Debaisieux, Laurent, Delforge, Marie-Luce, Depypere, Melissa, Dessilly, Géraldine, Vaira, Dolores, Vancutsem, Ellen, Van den Wijngaert, Sigi, Van Laethem, Kristel, Vercauteren, Koen O A, Verhofstede, Chris, Fransen, Katrien, and UCL - SSS/IREC/MBLG - Pôle de Microbiologie médicale

Subjects
HIV-diagnosis, HIV, HIV rapid tests, HIV confirmatory assays
Abstract

This retrospective study evaluated the reactivity of three HIV confirmatory assays (INNO-LIA®, GeeniusTM and MP) and seven HIV rapid tests, on samples from two different study populations in Belgium. For the early-treated cohort (83 HIV-1 adult patients treated within 3 months after infection), HIV-1 diagnosis was not obtained in at least one confirmatory assay in 12.0% (10/83) and in an HIV rapid test in 31.3% (26/83). Confirmation assay sensitivities ranged 87.5-95.2%, whereas rapid test assay sensitivities ranged 75.9-100%. The time to treatment initiation or the length of time on treatment did not have a statistical influence on the probability to obtain a false negative test result. The fastest reversion was demonstrated after 4 months of treatment. Among the long-term treated cohort (390 HIV-1 patients with ≥9 years of undetectable viral load), false-negative test results were found in at least one HIV confirmatory assay for 2.1% (8/390) of the patients and in a HIV rapid tests for 4.9% (19/390). Confirmation assay sensitivities ranged 98.1-99.5%, whereas rapid test sensitivities ranged 96.2-100%. Longer treatment increased non-reactivity of the HIV rapid tests (p=0.033). Undetectable viral load decreases the sensitivities of HIV diagnostic tests and further monitoring of the performance of serological assays is advised.

Published
2020

11. High frequency of new recombinant forms in HIV-1 transmission networks demonstrated by full genome sequencing.

Author

UCL - SSS/IREC/MBLG - Pôle de Microbiologie médicale, Hebberecht, Laura, Mortier, Virginie, Dauwe, Kenny, Schauvliege, Marlies, Staelens, Delfien, Demecheleer, Els, Stoffels, Karolien, Vanroye, Fien, Delforge, Marie-Luce, Vancutsem, Ellen, Dessilly, Géraldine, Vaira, Dolorès, Van Laethem, Kristel, Verhofstede, Chris, UCL - SSS/IREC/MBLG - Pôle de Microbiologie médicale, Hebberecht, Laura, Mortier, Virginie, Dauwe, Kenny, Schauvliege, Marlies, Staelens, Delfien, Demecheleer, Els, Stoffels, Karolien, Vanroye, Fien, Delforge, Marie-Luce, Vancutsem, Ellen, Dessilly, Géraldine, Vaira, Dolorès, Van Laethem, Kristel, and Verhofstede, Chris

Abstract

The HIV-1 epidemic in Belgium is primarily driven by MSM. In this patient population subtype B predominates but an increasing presence of non-B subtypes has been reported. We aimed to define to what extent the increasing subtype heterogeneity in a high at risk population induces the formation and spread of new recombinant forms. The study focused on transmission networks that reflect the local transmission to an important extent. One hundred and five HIV-1 transmission clusters were identified after phylogenetic analysis of 2849 HIV-1 pol sequences generated for the purpose of baseline drug resistance testing between 2013 and 2017. Of these 105 clusters, 62 extended in size during the last two years and were therefore considered as representing ongoing transmission. These 62 clusters included 774 patients in total. From each cluster between 1 and 3 representative patients were selected for near full-length viral genome sequencing. In total, the full genome sequence of 101 patients was generated. Indications for the presence of a new recombinant form were found for 10 clusters. These 10 clusters represented 105 patients or 13.6% of the patients covered by the study. The findings clearly show that new recombinant strains highly contribute to local transmission, even in an epidemic that is largely MSM and subtype B driven. This is an evolution that needs to be monitored as reshuffling of genome fragments through recombination may influence the transmissibility of the virus and the pathology of the infection. In addition, important changes in the sequence of the viral genome may challenge the performance of tests used for diagnosis, patient monitoring and drug resistance analysis.

Published
2020

12. Development and Potential Usefulness of the COVID-19 Ag Respi-Strip Diagnostic Assay in a Pandemic Context

Author

Mertens, Pascal, De Vos, Nathalie, Martiny, Delphine, Jassoy, Christian, Mirazimi, Ali, Cuypers, Lize, Van den Wijngaert, Sigi, Monteil, Vanessa, Melin, Pierrette, Stoffels, Karolien, Yin, Nicolas, Mileto, Davide, Delaunoy, Sabrina, Magein, Henri, Lagrou, Katrien, Bouzet, Justine, Serrano, Gabriela, Wautier, Magali, Leclipteux, Thierry, Van Ranst, Marc, Vandenberg, Olivier, working diagnostic group, LHUB-ULB SARS-CoV-2, Mertens, Pascal, De Vos, Nathalie, Martiny, Delphine, Jassoy, Christian, Mirazimi, Ali, Cuypers, Lize, Van den Wijngaert, Sigi, Monteil, Vanessa, Melin, Pierrette, Stoffels, Karolien, Yin, Nicolas, Mileto, Davide, Delaunoy, Sabrina, Magein, Henri, Lagrou, Katrien, Bouzet, Justine, Serrano, Gabriela, Wautier, Magali, Leclipteux, Thierry, Van Ranst, Marc, Vandenberg, Olivier, and working diagnostic group, LHUB-ULB SARS-CoV-2

Abstract

Introduction: COVID-19 Ag Respi-Strip, an immunochromatographic (ICT) assay for the rapid detection of SARS-CoV-2 antigen on nasopharyngeal specimen, has been developed to identify positive COVID-19 patients allowing prompt clinical and quarantine decisions. In this original research article, we describe the conception, the analytical and clinical performances as well as the risk management of implementing the COVID-19 Ag Respi-Strip in a diagnostic decision algorithm. Materials and Methods: Development of the COVID-19 Ag Respi-Strip resulted in a ready-to-use ICT assay based on a membrane technology with colloidal gold nanoparticles using monoclonal antibodies directed against the SARS-CoV and SARS-CoV-2 highly conserved nucleoprotein antigen. Four hundred observations were recorded for the analytical performance study and thirty tests were analyzed for the crossreactivity study. The clinical performance study was performed in a retrospective multicentric evaluation on aliquots of 328 nasopharyngeal samples. COVID-19 Ag Respi-Strip results were compared with qRT-PCR as golden standard for COVID-19 diagnostics. Results: In the analytical performance study, the reproducibility showed a between-observer disagreement of 1.7%, a robustness of 98%, an overall satisfying user friendliness and no cross-reactivity with other virus-infected nasopharyngeal samples. In the clinical performance study performed in three different clinical laboratories during the ascendant phase of the epidemiological curve, we found an overall sensitivity and specificity of 57.6 and 99.5%, respectively with an accuracy of 82.6%. The cut-off of the ICT was found at CT < 22. User-friendliness analysis and risk management assessment through Ishikawa diagram demonstrate that COVID-19 Ag Respi-Strip may be implemented in clinical laboratories according to biosafety recommendations. Conclusion: The COVID-19 Ag Respi-Strip represents a promising rapid SARS-CoV-2 antigen assay for the first-line diagnos

Published
2020

13. Chronic and Early Antiretroviral Therapy Impact Human Immunodeficiency Virus (HIV) Serological Assay Sensitivity, Leading to More False-Negative Test Results in HIV Diagnosis

Author

Stoffels, Karolien, Vanroye, Fien, Mortier, Virginie, Debaisieux, Laurent, Delforge, Marie-Luce, Depypere, Melissa, Dessilly, Géraldine, Vaira, Dolores, Vancutsem, Ellen, Van den Wijngaert, Sigi, Van Laethem, Kristel, Vercauteren, Koen K.O.A., Verhofstede, Chris, Fransen, Katrien, Stoffels, Karolien, Vanroye, Fien, Mortier, Virginie, Debaisieux, Laurent, Delforge, Marie-Luce, Depypere, Melissa, Dessilly, Géraldine, Vaira, Dolores, Vancutsem, Ellen, Van den Wijngaert, Sigi, Van Laethem, Kristel, Vercauteren, Koen K.O.A., Verhofstede, Chris, and Fransen, Katrien

Abstract

This retrospective study evaluated the reactivity of 3 human immunodeficiency virus (HIV) confirmatory assays (INNO-LIA, Geenius, and MP) and 7 HIV rapid tests on samples from 2 different study populations in Belgium. For the early-treated cohort (83 HIV-1 adult patients treated within 3 months after infection), HIV-1 diagnosis was not obtained in at least 1 confirmatory assay in 12.0% (10/83) and in an HIV rapid test in 31.3% (26/83). Confirmation assay sensitivities ranged from 87.5% to 95.2%, whereas rapid test assay sensitivities ranged from 75.9% to 100%. The time to treatment initiation or the length of time on treatment did not have a statistical influence on the probability to obtain a false-negative test result. The fastest reversion was demonstrated after 4 months of treatment. Among the long-term treated cohort (390 HIV-1 patients with ≥ 9 years of undetectable viral load), false-negative test results were found in at least 1 HIV confirmatory assay for 2.1% (8/390) of the patients and in a HIV rapid test for 4.9% (19/390). Confirmation assay sensitivities ranged from 98.1% to 99.5%, whereas rapid test sensitivities ranged from 96.2% to 100%. Longer treatment increased nonreactivity of the HIV rapid tests (P = .033). Undetectable viral load decreases the sensitivities of HIV diagnostic tests, and further monitoring of the performance of serological assays is advised., SCOPUS: ar.j, DecretOANoAutActif, info:eu-repo/semantics/published

Published
2020

14. Exploring HIV-1 Transmission Dynamics by Combining Phylogenetic Analysis and Infection Timing

Author

Verhofstede, Chris, primary, Mortier, Virginie, additional, Dauwe, Kenny, additional, Callens, Steven, additional, Deblonde, Jessika, additional, Dessilly, Géraldine, additional, Delforge, Marie-Luce, additional, Fransen, Katrien, additional, Sasse, André, additional, Stoffels, Karolien, additional, Van Beckhoven, Dominique, additional, Vanroye, Fien, additional, Vaira, Dolores, additional, Vancutsem, Ellen, additional, and Van Laethem, Kristel, additional

Published
2019
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15. The use of microbead-based spoligotyping for Mycobacterium tuberculosis complex to evaluate the quality of the conventional method: Providing guidelines for Quality Assurance when working on membranes

Author

Garzelli Carlo, Rastogi Nalin, Al-Hajoj Sahal, Herranz Marta, de Viedma Darío, Rasolofo-Razanamparany Voahangy, Stoffels Karolien, Fauville-Dufaux Maryse, Elias Atiná, Gomes Harrison, Rigouts Leen, Ruimy Raymond, Kremer Kristin, Ritacco Viviana, Zhang Jian, Abadia Edgar, Tortoli Enrico, Suffys Philip N, van Soolingen Dick, Refrégier Guislaine, and Sola Christophe

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background The classical spoligotyping technique, relying on membrane reverse line-blot hybridization of the spacers of the Mycobacterium tuberculosis CRISPR locus, is used world-wide (598 references in Pubmed on April 8th, 2011). However, until now no inter-laboratory quality control study had been undertaken to validate this technique. We analyzed the quality of membrane-based spoligotyping by comparing it to the recently introduced and highly robust microbead-based spoligotyping. Nine hundred and twenty-seven isolates were analyzed totaling 39,861 data points. Samples were received from 11 international laboratories with a worldwide distribution. Methods The high-throughput microbead-based Spoligotyping was performed on CTAB and thermolyzate DNA extracted from isolated Mycobacterium tuberculosis complex (MTC) strains coming from the genotyping participating centers. Information regarding how the classical Spoligotyping method was performed by center was available. Genotype discriminatory analyses were carried out by comparing the spoligotypes obtained by both methods. The non parametric U-Mann Whitney homogeneity test and the Spearman rank correlation test were performed to validate the observed results. Results Seven out of the 11 laboratories (63 %), perfectly typed more than 90% of isolates, 3 scored between 80-90% and a single center was under 80% reaching 51% concordance only. However, this was mainly due to discordance in a single spacer, likely having a non-functional probe on the membrane used. The centers using thermolyzate DNA performed as well as centers using the more extended CTAB extraction procedure. Few centers shared the same problematic spacers and these problematic spacers were scattered over the whole CRISPR locus (Mostly spacers 15, 14, 18, 37, 39, 40). Conclusions We confirm that classical spoligotyping is a robust method with generally a high reliability in most centers. The applied DNA extraction procedure (CTAB or thermolyzate) did not affect the results in this study. However performance was center-dependent, suggesting that training is a key component in quality assurance of spoligotyping. Overall, no particular spacer yielded a higher degree of deviating results, suggesting that errors occur randomly either in the process of re-using membranes, or during the reading of the results and transferring of data from the film to a digital file. Last, the performance of the microbead-based method was excellent as previously shown by Cowan et al. (J. Clin. Microbiol. 2004) and Zhang et al. (J. Med. Microbiol. 2009) and demonstrated the proper detection of spacer 15 that is known to occasionally give weak signals in the classical spoligotyping.

Published
2011
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16. Exploring HIV-1 Transmission Dynamics by Combining Phylogenetic Analysis and Infection Timing

Author

UCL - SSS/IREC/MBLG - Pôle de Microbiologie médicale, Verhofstede, Chris, Mortier, Virginie, Dauwe, Kenny, Callens, Steven, Deblonde, Jessica, Dessilly, Géraldine, Delforge, Marie-Luce, Fransen,Katrien, Sasse, André, Stoffels, Karolien, Van Beckhoven, Dominique, Vanroye, Fien, Vaira, Dolores, Vancutsem, Ellen, Van Laethem, Kristel, UCL - SSS/IREC/MBLG - Pôle de Microbiologie médicale, Verhofstede, Chris, Mortier, Virginie, Dauwe, Kenny, Callens, Steven, Deblonde, Jessica, Dessilly, Géraldine, Delforge, Marie-Luce, Fransen,Katrien, Sasse, André, Stoffels, Karolien, Van Beckhoven, Dominique, Vanroye, Fien, Vaira, Dolores, Vancutsem, Ellen, and Van Laethem, Kristel

Published
2019

17. Exploring HIV-1 transmission dynamics by combining phylogenetic analysis and infection timing

Author

Verhofstede, Chris, Mortier, Virginie, Dauwe, Kenny, Callens, Steven, Deblonde, Jessika, Dessilly, Géraldine, Delforge, Marie-Luce, Fransen, Katrien, Sasse, André, Stoffels, Karolien, Van Beckhoven, Dominique, Vanroye, Fien, Vaira, Dolores, Vancutsem, Ellen, Van Laethem, Kristel, Verhofstede, Chris, Mortier, Virginie, Dauwe, Kenny, Callens, Steven, Deblonde, Jessika, Dessilly, Géraldine, Delforge, Marie-Luce, Fransen, Katrien, Sasse, André, Stoffels, Karolien, Van Beckhoven, Dominique, Vanroye, Fien, Vaira, Dolores, Vancutsem, Ellen, and Van Laethem, Kristel

Abstract

HIV-1 pol sequences obtained through baseline drug resistance testing of patients newly diagnosed between 2013 and 2017 were analyzed for genetic similarity. For 927 patients the information on genetic similarity was combined with demographic data and with information on the recency of infection. Overall, 48.3% of the patients were genetically linked with 11.4% belonging to a pair and 36.9% involved in a cluster of ≥3 members. The percentage of early diagnosed (≤4 months after infection) was 28.6%. Patients of Belgian origin were more frequently involved in transmission clusters (49.7% compared to 15.3%) and diagnosed earlier (37.4% compared to 12.2%) than patients of Sub-Saharan African origin. Of the infections reported to be locally acquired, 69.5% were linked (14.1% paired and 55.4% in a cluster). Equal parts of early and late diagnosed individuals (59.9% and 52.4%, respectively) were involved in clusters. The identification of a genetically linked individual for the majority of locally infected patients suggests a high rate of diagnosis in this population. Diagnosis however is often delayed for >4 months after infection increasing the opportunities for onward transmission. Prevention of local infection should focus on earlier diagnosis and protection of the still uninfected members of sexual networks with human immunodeficiency virus (HIV)-infected members., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2019

18. Phylogenetic analysis of the Belgian HIV-1 epidemic reveals that local transmission is almost exclusively driven by men having sex with men despite presence of large African migrant communities.

Author

UCL - SSS/IREC/MBLG - Pôle de Microbiologie médicale, UCL - (SLuc) Service de microbiologie, Verhofstede, Chris, Dauwe, Kenny, Fransen, Katrien, Van Laethem, Kristel, Van den Wijngaert, Sigi, Ruelle, Jean, Delforge, Marie-Luce, Vancutsem, Ellen, Vaira, Dolores, Stoffels, Karolien, Ribas, Sergio Garcia, Dessilly, Géraldine, Debaisieux, Laurent, Pierard, Denis, Van Ranst, Marc, Hayette, Marie-Pierre, Deblonde, Jessica, Sasse, Andre, Van Beckhoven, Dominique, Mortier, Virginie, UCL - SSS/IREC/MBLG - Pôle de Microbiologie médicale, UCL - (SLuc) Service de microbiologie, Verhofstede, Chris, Dauwe, Kenny, Fransen, Katrien, Van Laethem, Kristel, Van den Wijngaert, Sigi, Ruelle, Jean, Delforge, Marie-Luce, Vancutsem, Ellen, Vaira, Dolores, Stoffels, Karolien, Ribas, Sergio Garcia, Dessilly, Géraldine, Debaisieux, Laurent, Pierard, Denis, Van Ranst, Marc, Hayette, Marie-Pierre, Deblonde, Jessica, Sasse, Andre, Van Beckhoven, Dominique, and Mortier, Virginie

Abstract

To improve insight in the drivers of local HIV-1 transmission in Belgium, phylogenetic, demographic, epidemiological and laboratory data from patients newly diagnosed between 2013 and 2015 were combined and analyzed. Characteristics of clustered patients, paired patients and patients on isolated branches in the phylogenetic tree were compared. The results revealed an overall high level of clustering despite the short time frame of sampling, with 47.6% of all patients having at least one close genetic counterpart and 36.6% belonging to a cluster of 3 or more individuals. Compared to patients on isolated branches, patients in clusters more frequently reported being infected in Belgium (95.1% vs. 47.6%; p < 0.001), were more frequently men having sex with men (MSM) (77.9% vs. 42.8%; p < 0.001), of Belgian origin (68.2% vs. 32.9%; p < 0.001), male gender (92.6% vs. 65.8%; p < 0.001), infected with subtype B or F (87.8% vs. 43.4%; p < 0.001) and diagnosed early after infection (55.4% vs. 29.0%; p < 0.001). Strikingly, Sub-Saharan Africans (SSA), overall representing 27.1% of the population were significantly less frequently found in clusters than on individual branches (6.0% vs. 41.8%; p < 0.001). Of the SSA that participated in clustered transmission, 66.7% were MSM and this contrasts sharply with the overall 12.0% of SSA reporting MSM. Transmission clusters with SSA were more frequently non-B clusters than transmission clusters without SSA (44.4% versus 18.2%). MSM-driven clusters with patients of mixed origin may account, at least in part, for the increasing spread of non-B subtypes to the native MSM population, a cross-over that has been particularly successful for subtype F and CRF02_AG. The main conclusions from this study are that clustered transmission in Belgium remains almost exclusively MSM-driven with very limited contribution of SSA. There were no indications for local ongoing clustered transmission of HIV-1 among SSA.

Published
2018

19. Decision tree for accurate infection timing in individuals newly diagnosed with HIV-1 infection

Author

Verhofstede, Chris, primary, Fransen, Katrien, additional, Van Den Heuvel, Annelies, additional, Van Laethem, Kristel, additional, Ruelle, Jean, additional, Vancutsem, Ellen, additional, Stoffels, Karolien, additional, Van den Wijngaert, Sigi, additional, Delforge, Marie-Luce, additional, Vaira, Dolores, additional, Hebberecht, Laura, additional, Schauvliege, Marlies, additional, Mortier, Virginie, additional, Dauwe, Kenny, additional, and Callens, Steven, additional

Published
2017
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20. Decision tree for accurate infection timing in individuals newly diagnosed with HIV-1 infection

Author

Verhofstede, Chris, Vaira, Dolores, Hebberecht, Laura, Schauvliege, Marlies, Mortier, Virginie, Dauwe, Kenny, Callens, Steven, Fransen, Katrien, Van Den Heuvel, Annelies, Van Laethem, Kristel, Ruelle, Jean-Louis, Vancutsem, Ellen, Stoffels, Karolien, Van den Wijngaert, Sigi, Delforge, Marie-Luce, Verhofstede, Chris, Vaira, Dolores, Hebberecht, Laura, Schauvliege, Marlies, Mortier, Virginie, Dauwe, Kenny, Callens, Steven, Fransen, Katrien, Van Den Heuvel, Annelies, Van Laethem, Kristel, Ruelle, Jean-Louis, Vancutsem, Ellen, Stoffels, Karolien, Van den Wijngaert, Sigi, and Delforge, Marie-Luce

Abstract

Background: There is today no gold standard method to accurately define the time passed since infection at HIV diagnosis. Infection timing and incidence measurement is however essential to better monitor the dynamics of local epidemics and the effect of prevention initiatives. Methods: Three methods for infection timing were evaluated using 237 serial samples from documented seroconversions and 566 cross sectional samples from newly diagnosed patients: identification of antibodies against the HIV p31 protein in INNO-LIA, SediaTM BED CEIA and SediaTM LAg-Avidity EIA. A multi-assay decision tree for infection timing was developed. Results: Clear differences in recency window between BED CEIA, LAg-Avidity EIA and p31 antibody presence were observed with a switch from recent to long term infection a median of 169.5, 108.0 and 64.5days after collection of the pre-seroconversion sample respectively. BED showed high reliability for identification of long term infections while LAg-Avidity is highly accurate for identification of recent infections. Using BED as initial assay to identify the long term infections and LAg-Avidity as a confirmatory assay for those classified as recent infection by BED, explores the strengths of both while reduces the workload. The short recency window of p31 antibodies allows to discriminate very early from early infections based on this marker. BED recent infection results not confirmed by LAg-Avidity are considered to reflect a period more distant from the infection time. False recency predictions in this group can be minimized by elimination of patients with a CD4 count of less than 100 cells/mm3 or without no p31 antibodies. For 566 cross sectional sample the outcome of the decision tree confirmed the infection timing based on the results of all 3 markers but reduced the overall cost from 13.2 USD to 5.2 USD per sample. Conclusions: A step-wise multi assay decision tree allows accurate timing of the HIV infection at diagnosis at affordable e, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2017

21. Contribution à la recherche sur Mycobacterium tuberculosis résistante aux agents anti-tuberculeux

Author

Stoffels, Karolien, Fauville, Maryse, Fontaine, Véronique, Dehaye, Jean-Paul, Boussard, Paule, Baulard, Alain, De Jong, Bouke, and Vandenberg, Olivier

Subjects
drug resistance, Résistance aux médicaments, tuberculosis, MDR-TB, Sciences pharmaceutiques, Mycobacterium tuberculosis, résistance, mycobacterium
Abstract

Tuberculosis (TB) is a potentially fatal contagious disease that can affect almost any part of the body but is mainly an infection of the lungs. It is caused by micro-organisms of the Mycobacterium tuberculosis complex. It is the second greatest killer worldwide due to a single infectious agent, after the Human Immunodeficiency Virus (HIV). Without treatment, fatality is 50% in immune competent persons. TB remains the leading cause of death among HIV positive persons, causing one fifth of the deaths. The World Health Organization estimates that one third of the world population is infected by this micro-organism but only 5 to 10% develop TB disease. Nevertheless, this enormous reservoir leads to around 1.4 millions deaths annually. Standard curative treatment lasts at least 6 months and includes 4 different drugs. Toxicity of the drugs leading to (severe) adverse events and the long duration of the daily administration challenges patient’s compliance. Subinhibitory concentration of the drugs (due to poor adherence) can induce resistance of the mycobacteria to the provided drugs. Unlike most bacteria where resistance is acquired by plasmids, drug resistance of mycobacteria is obtained by genomic mutations. “Multi drug-resistant tuberculosis (MDR-TB)” is strictly defined as TB resistant to specifically isoniazid and rifampicin, the two main first line drugs. “Extensively drug resistance (XDR)” is defined as MDR-TB with additional resistance to any of the fluoroquinolones (such as ofloxacin or moxifloxacin) and to at least one of three injectable second-line drugs (amikacin, capreomycin or kanamycin). The increase of MDR-TB represents an enormous challenge to Public Health globally. This research examined different aspects of tuberculosis resistance performed in the Belgian National Reference Center, a clinical laboratory setting. First of all, a profound analysis of the MDR-TB situation in Belgium was conducted. It is the first retrospective population-based survey of MDR-TB in Belgium, covering a 15-year period (1994-2008). It comprises 174 patients representing more than 80% of the culture positive MDR-TB patients reported to the Belgian register, thus this study is considered of national relevance. It includes bacteriological and molecular data on the isolates as well as clinical aspects of the patients and treatment results. Considering only the patient’s first MDR-TB isolate, an increase over time was observed in the number of isolates resistant to a second-line drug as well as the total number of drugs each isolate was resistant to. XDR-TB was detected since 2002 and panresistant TB (resistant to every available antituberculosis drug) since 2009. Overall, a successful treatment outcome was obtained for 67.8% of the MDR-TB cases. Drug susceptibility testing (DST) of Mycobacterium tuberculosis to first line drugs (isoniazid, rifampicin, ethambutol and pyrazinamide) in liquid culture medium has a turn around time of at least two weeks, after identification of the positive culture (obtained after 2 to 4 weeks) from the patient’s clinical isolate. In order to provide the clinician with valuable information about the isolated mycobacteria leading to patient adapted therapy before bacteriological DST results are available, resistance is predicted by detection of mutations in certain genes of the mycobacteria. It is common practice for rifampicin (rpoB gene) and isoniazid (katG gene and/or inhA promoter region). In this MDR-TB collection, rifampicin resistant related mutations were found in 97.1% (168/173) of the clinical isolates and isoniazid resistant related mutations in 94.1% (160/170). The pncA, embB and gyrA genes have been sequenced to identify possible mutations because of their possible involvement with resistance to pyrazinamide, ethambutol and the fluoroquinolones respectively. However, little is known about the resistance prediction value of the mutations in these genes.The study is also the first study on the molecular epidemiology of MDR-TB in the country. DNA fingerprinting showed a large diversity of strains (67% of the patients were infected by a strain with a unique pattern) and further epidemiological examination revealed limited local transmission of MDR-TB in Belgium.The second part investigated the pncA gene and its association with pyrazinamide resistance in MDR-TB isolates from Belgium and in vitro cultured spontaneous mutants. The genetic analysis showed that 98.3% (59/60) of the Belgian clinical MDR pyrazinamide resistant (PZAR) isolates present a mutation in the pncA gene. We found 1.7% (1/60) of the PZAR MDR-isolates encoding wild type pncA and flank. A total (PZAR and PZAS) of 41 different amino acid changes, 3 protein truncations and 5 frameshifts were observed including eight novel mutations: 8Asp>Ala, 13Phe>Leu, 64Tyr>Ser, 107Glu>stop, 143Ala>Pro, 172Leu>Arg and frameshifts starting in codon 55 and 82. Analysis of all observed mutations (i.e. in clinical isolates as well as spontaneous mutants) revealed that they are not always associated with drug resistance and that they are not scattered randomly throughout the gene, but occur rather at preferential sites such as in codons with amino acids associated with either iron or substrate binding and catalytic active sites. The frequency of in vitro mutagenesis to pyrazinamide at pH 6.0 was determined and found to be relatively high at 10-5 CFU/ml.Finally, the in vitro activity of tobramycin and clarithromycin (with unclear efficacy against M. tuberculosis) was evaluated on 25 M. tuberculosis clinical isolates with various resistance profiles. The effect of the drugs administered together was examined for possible synergistic effect. The median minimum inhibitory concentration (MIC) of 8 µg/ml obtained for both drugs in this study is rather high but are beyond the concentrations obtained in lung tissues. This suggests that both drugs should be investigated further as potential adjuncts to the treatment of resistant TB when other alternatives have failed; in particularly through new drug delivery systems such as the Dry Power Inhaler which allows local drug deposition with high drug concentrations in the lungs but low toxicity due to limited systemic absorption. In addition, for 36% of the tested isolates a decrease of the MIC of clarithromycin by a single or twofold dilution was observed in the presence of a subinhibitory concentration of tobramycin and no antagonistic effect was seen for the remaining isolates.This research illustrates different (laboratory) aspects in the fight against drug resistant TB, all using the Belgian TB collection: characterisation of the Belgian MDR-TB situation on bacteriological, molecular and epidemiological level; profound analysis of genomic mutations and their possible association with drug resistance; and investigation of synergistic activity of drugs with low efficacy against M. tuberculosis., Doctorat en Sciences biomédicales et pharmaceutiques, info:eu-repo/semantics/nonPublished

Published
2014

22. Contribution to the research on drug resistant Mycobacterium tuberculosis/Contribution à la recherche sur Mycobacterium tuberculosis résistante aux agents anti-tuberculeux

Author

Stoffels, Karolien, Boussard, Paule, Fauville-Dufaux, Maryse, Dehaye, Jean-Paul, Fontaine, Véronique, Baulard, Alain, De Jong, Bouke, and Vandenberg, Olivier

Subjects
drug resistance, tuberculosis, MDR-TB, résistance, mycobacterium
Abstract

Tuberculosis (TB) is a potentially fatal contagious disease that can affect almost any part of the body but is mainly an infection of the lungs. It is caused by micro-organisms of the Mycobacterium tuberculosis complex. It is the second greatest killer worldwide due to a single infectious agent, after the Human Immunodeficiency Virus (HIV). Without treatment, fatality is 50% in immune competent persons. TB remains the leading cause of death among HIV positive persons, causing one fifth of the deaths. The World Health Organization estimates that one third of the world population is infected by this micro-organism but only 5 to 10% develop TB disease. Nevertheless, this enormous reservoir leads to around 1.4 millions deaths annually. Standard curative treatment lasts at least 6 months and includes 4 different drugs. Toxicity of the drugs leading to (severe) adverse events and the long duration of the daily administration challenges patient’s compliance. Subinhibitory concentration of the drugs (due to poor adherence) can induce resistance of the mycobacteria to the provided drugs. Unlike most bacteria where resistance is acquired by plasmids, drug resistance of mycobacteria is obtained by genomic mutations. “Multi drug-resistant tuberculosis (MDR-TB)” is strictly defined as TB resistant to specifically isoniazid and rifampicin, the two main first line drugs. “Extensively drug resistance (XDR)” is defined as MDR-TB with additional resistance to any of the fluoroquinolones (such as ofloxacin or moxifloxacin) and to at least one of three injectable second-line drugs (amikacin, capreomycin or kanamycin). The increase of MDR-TB represents an enormous challenge to Public Health globally. This research examined different aspects of tuberculosis resistance performed in the Belgian National Reference Center, a clinical laboratory setting. First of all, a profound analysis of the MDR-TB situation in Belgium was conducted. It is the first retrospective population-based survey of MDR-TB in Belgium, covering a 15-year period (1994-2008). It comprises 174 patients representing more than 80% of the culture positive MDR-TB patients reported to the Belgian register, thus this study is considered of national relevance. It includes bacteriological and molecular data on the isolates as well as clinical aspects of the patients and treatment results. Considering only the patient’s first MDR-TB isolate, an increase over time was observed in the number of isolates resistant to a second-line drug as well as the total number of drugs each isolate was resistant to. XDR-TB was detected since 2002 and panresistant TB (resistant to every available antituberculosis drug) since 2009. Overall, a successful treatment outcome was obtained for 67.8% of the MDR-TB cases. Drug susceptibility testing (DST) of Mycobacterium tuberculosis to first line drugs (isoniazid, rifampicin, ethambutol and pyrazinamide) in liquid culture medium has a turn around time of at least two weeks, after identification of the positive culture (obtained after 2 to 4 weeks) from the patient’s clinical isolate. In order to provide the clinician with valuable information about the isolated mycobacteria leading to patient adapted therapy before bacteriological DST results are available, resistance is predicted by detection of mutations in certain genes of the mycobacteria. It is common practice for rifampicin (rpoB gene) and isoniazid (katG gene and/or inhA promoter region). In this MDR-TB collection, rifampicin resistant related mutations were found in 97.1% (168/173) of the clinical isolates and isoniazid resistant related mutations in 94.1% (160/170). The pncA, embB and gyrA genes have been sequenced to identify possible mutations because of their possible involvement with resistance to pyrazinamide, ethambutol and the fluoroquinolones respectively. However, little is known about the resistance prediction value of the mutations in these genes. The study is also the first study on the molecular epidemiology of MDR-TB in the country. DNA fingerprinting showed a large diversity of strains (67% of the patients were infected by a strain with a unique pattern) and further epidemiological examination revealed limited local transmission of MDR-TB in Belgium. The second part investigated the pncA gene and its association with pyrazinamide resistance in MDR-TB isolates from Belgium and in vitro cultured spontaneous mutants. The genetic analysis showed that 98.3% (59/60) of the Belgian clinical MDR pyrazinamide resistant (PZAR) isolates present a mutation in the pncA gene. We found 1.7% (1/60) of the PZAR MDR-isolates encoding wild type pncA and flank. A total (PZAR and PZAS) of 41 different amino acid changes, 3 protein truncations and 5 frameshifts were observed including eight novel mutations: 8Asp>Ala, 13Phe>Leu, 64Tyr>Ser, 107Glu>stop, 143Ala>Pro, 172Leu>Arg and frameshifts starting in codon 55 and 82. Analysis of all observed mutations (i.e. in clinical isolates as well as spontaneous mutants) revealed that they are not always associated with drug resistance and that they are not scattered randomly throughout the gene, but occur rather at preferential sites such as in codons with amino acids associated with either iron or substrate binding and catalytic active sites. The frequency of in vitro mutagenesis to pyrazinamide at pH 6.0 was determined and found to be relatively high at 10-5 CFU/ml. Finally, the in vitro activity of tobramycin and clarithromycin (with unclear efficacy against M. tuberculosis) was evaluated on 25 M. tuberculosis clinical isolates with various resistance profiles. The effect of the drugs administered together was examined for possible synergistic effect. The median minimum inhibitory concentration (MIC) of 8 µg/ml obtained for both drugs in this study is rather high but are beyond the concentrations obtained in lung tissues. This suggests that both drugs should be investigated further as potential adjuncts to the treatment of resistant TB when other alternatives have failed; in particularly through new drug delivery systems such as the Dry Power Inhaler which allows local drug deposition with high drug concentrations in the lungs but low toxicity due to limited systemic absorption. In addition, for 36% of the tested isolates a decrease of the MIC of clarithromycin by a single or twofold dilution was observed in the presence of a subinhibitory concentration of tobramycin and no antagonistic effect was seen for the remaining isolates. This research illustrates different (laboratory) aspects in the fight against drug resistant TB, all using the Belgian TB collection: characterisation of the Belgian MDR-TB situation on bacteriological, molecular and epidemiological level; profound analysis of genomic mutations and their possible association with drug resistance; and investigation of synergistic activity of drugs with low efficacy against M. tuberculosis., Doctorat en Sciences biomédicales et pharmaceutiques, info:eu-repo/semantics/published

Published
2014

23. Contribution to the research on drug resistant Mycobacterium tuberculosis

Author

Fauville, Maryse, Fontaine, Véronique, Dehaye, Jean-Paul, Boussard, Paule, Baulard, Alain, De Jong, Bouke, Vandenberg, Olivier, Stoffels, Karolien, Fauville, Maryse, Fontaine, Véronique, Dehaye, Jean-Paul, Boussard, Paule, Baulard, Alain, De Jong, Bouke, Vandenberg, Olivier, and Stoffels, Karolien

Abstract

Tuberculosis (TB) is a potentially fatal contagious disease that can affect almost any part of the body but is mainly an infection of the lungs. It is caused by micro-organisms of the Mycobacterium tuberculosis complex. It is the second greatest killer worldwide due to a single infectious agent, after the Human Immunodeficiency Virus (HIV). Without treatment, fatality is 50% in immune competent persons. TB remains the leading cause of death among HIV positive persons, causing one fifth of the deaths. The World Health Organization estimates that one third of the world population is infected by this micro-organism but only 5 to 10% develop TB disease. Nevertheless, this enormous reservoir leads to around 1.4 millions deaths annually. Standard curative treatment lasts at least 6 months and includes 4 different drugs. Toxicity of the drugs leading to (severe) adverse events and the long duration of the daily administration challenges patient’s compliance. Subinhibitory concentration of the drugs (due to poor adherence) can induce resistance of the mycobacteria to the provided drugs. Unlike most bacteria where resistance is acquired by plasmids, drug resistance of mycobacteria is obtained by genomic mutations. “Multi drug-resistant tuberculosis (MDR-TB)” is strictly defined as TB resistant to specifically isoniazid and rifampicin, the two main first line drugs. “Extensively drug resistance (XDR)” is defined as MDR-TB with additional resistance to any of the fluoroquinolones (such as ofloxacin or moxifloxacin) and to at least one of three injectable second-line drugs (amikacin, capreomycin or kanamycin). The increase of MDR-TB represents an enormous challenge to Public Health globally. This research examined different aspects of tuberculosis resistance performed in the Belgian National Reference Center, a clinical laboratory setting. First of all, a profound analysis of the MDR-TB situation in Belgium was conducted. It is the first retrospective population-based sur, Doctorat en Sciences biomédicales et pharmaceutiques, info:eu-repo/semantics/nonPublished

Published
2014

24. Systematic analysis of pyrazinamide-resistant spontaneous mutants and clinical isolates of Mycobacterium tuberculosis.

Author

Stoffels, Karolien, Mathys, Vanessa, Fauville, Maryse, Wintjens, René, Bifani, Pablo, Stoffels, Karolien, Mathys, Vanessa, Fauville, Maryse, Wintjens, René, and Bifani, Pablo

Abstract

Pyrazinamide (PZA) is a first-line antitubercular drug known for its activity against persistent Mycobacterium tuberculosis bacilli. We set out to systematically determine the PZA susceptibility profiles and mutations in the pyrazinamidase (pncA) gene of a collection of multidrug-resistant tuberculosis (MDR-TB) clinical isolates and PZA-resistant (PZA(r)) spontaneous mutants. The frequency of acquired resistance to PZA was determined to be 10(-5) bacilli in vitro. Selection at a lower concentration of PZA yielded a significantly larger number of spontaneous mutants. The methodical approach employed allowed for determination of the frequency of the PZA(r) phenotype correlated with mutations in the pncA gene, which was 87.5% for the laboratory-selected spontaneous mutants examined in this study. As elucidated by structural analysis, most of the identified mutations were foreseen to affect protein activity through either alteration of an active site residue or destabilization of protein structure, indicating some preferential mutation site rather than random scattering. Twelve percent of the PZA(r) mutants did not have a pncA mutation, strongly indicating the presence of at least one other mechanism(s) of PZA(r)., Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2012

27. The use of microbead-based spoligotyping for Mycobacterium tuberculosis complex to evaluate the quality of the conventional method: Providing guidelines for Quality Assurance when working on membranes

Author

Abadia, Edgar, primary, Zhang, Jian, additional, Ritacco, Viviana, additional, Kremer, Kristin, additional, Ruimy, Raymond, additional, Rigouts, Leen, additional, Gomes, Harrison Magdinier, additional, Elias, Atiná Ribeiro, additional, Fauville-Dufaux, Maryse, additional, Stoffels, Karolien, additional, Rasolofo-Razanamparany, Voahangy, additional, de Viedma, Darío Garcia, additional, Herranz, Marta, additional, Al-Hajoj, Sahal, additional, Rastogi, Nalin, additional, Garzelli, Carlo, additional, Tortoli, Enrico, additional, Suffys, Philip N, additional, van Soolingen, Dick, additional, Refrégier, Guislaine, additional, and Sola, Christophe, additional

Published
2011
Full Text
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28. Development and Potential Usefulness of the COVID-19 Ag Respi-Strip Diagnostic Assay in a Pandemic Context.

Author

Mertens P, De Vos N, Martiny D, Jassoy C, Mirazimi A, Cuypers L, Van den Wijngaert S, Monteil V, Melin P, Stoffels K, Yin N, Mileto D, Delaunoy S, Magein H, Lagrou K, Bouzet J, Serrano G, Wautier M, Leclipteux T, Van Ranst M, and Vandenberg O

Abstract

Introduction: COVID-19 Ag Respi-Strip, an immunochromatographic (ICT) assay for the rapid detection of SARS-CoV-2 antigen on nasopharyngeal specimen, has been developed to identify positive COVID-19 patients allowing prompt clinical and quarantine decisions. In this original research article, we describe the conception, the analytical and clinical performances as well as the risk management of implementing the COVID-19 Ag Respi-Strip in a diagnostic decision algorithm. Materials and Methods: Development of the COVID-19 Ag Respi-Strip resulted in a ready-to-use ICT assay based on a membrane technology with colloidal gold nanoparticles using monoclonal antibodies directed against the SARS-CoV and SARS-CoV-2 highly conserved nucleoprotein antigen. Four hundred observations were recorded for the analytical performance study and thirty tests were analyzed for the cross-reactivity study. The clinical performance study was performed in a retrospective multi-centric evaluation on aliquots of 328 nasopharyngeal samples. COVID-19 Ag Respi-Strip results were compared with qRT-PCR as golden standard for COVID-19 diagnostics. Results: In the analytical performance study, the reproducibility showed a between-observer disagreement of 1.7%, a robustness of 98%, an overall satisfying user friendliness and no cross-reactivity with other virus-infected nasopharyngeal samples. In the clinical performance study performed in three different clinical laboratories during the ascendant phase of the epidemiological curve, we found an overall sensitivity and specificity of 57.6 and 99.5%, respectively with an accuracy of 82.6%. The cut-off of the ICT was found at CT <22. User-friendliness analysis and risk management assessment through Ishikawa diagram demonstrate that COVID-19 Ag Respi-Strip may be implemented in clinical laboratories according to biosafety recommendations. Conclusion: The COVID-19 Ag Respi-Strip represents a promising rapid SARS-CoV-2 antigen assay for the first-line diagnosis of COVID-19 in 15 min at the peak of the pandemic. Its role in the proposed diagnostic algorithm is complementary to the currently-used molecular techniques., (Copyright © 2020 Mertens, De Vos, Martiny, Jassoy, Mirazimi, Cuypers, Van den Wijngaert, Monteil, Melin, Stoffels, Yin, Mileto, Delaunoy, Magein, Lagrou, Bouzet, Serrano, Wautier, Leclipteux, Van Ranst, Vandenberg and LHUB-ULB SARS-CoV-2 working diagnostic group.)

Published
2020
Full Text
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