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17. HIV testing history and access to treatment among migrants living with HIV in Europe

Author

Fakoya, Ibidun, Arco, Débora Álvarez?Del, Monge, Susana, Copas, Andrew J., Gennotte, Anne?Francoise, Volny?Anne, Alain, Wengenroth, Claudia, Touloumi, Giota, Prins, Maria, Barros, Henrique, Darling, Katharine Ea, Prestileo, Tullio, Del Amo, Julia, Burns, Fiona M., Aerssens, A, Aguado, M, Alimi, B, Anagnostou, O, Anderson, J, Antoniadou, A, Arando, M, Barberà, Mj, Barthélemy, A, Belda?Ibáñez, J, Bertisch, B, Bil, J, Blanco, Jr, Block, K, Boesecke, C, Boura, M, Burgos, J, Cabo, J, Calabuig, E, Campbell, L, Cardoso, O, Claudia, W, Clumeck, N, Colucci, A, Corrao, S, Cuellar, S, Cunha, J, Daikos, G, Darling, K, Romero, J, Dellot, P, Domingo, P, Dronda, F, Ebeling, F, Engelhardt, A, Engler, B, Farrell, J, Fehr, J, Feijó, M, Fernández, E, García, E Fernández, Fernandez, T, Fortes, Al, Fox, J, De Olalla, P Garcia, García, F, Gargalianos?Kakolyris, P, Germano, I, Gilleran, G, Gilson, R, Goepel, S, Gogos, Ha, Sirvent, Jl Gómez, Gountas, I, Gregg, A, Gutiérrez, F, Gutierrez, Mm, Hermans, I, Iribarren, Ja, Knobel, H, Koulai, L, Kourkounti, S, La Morté, C, Lecompte, T, Ledergerber, B, Leonidou, L, Ligero, Mc, Lindergard, G, Lino, S, Lopes, Mj, Lirola, A Lopez, Louhenapessy, M, Lourida, G, Luzi, Am, Maltez, F, Manirankunda, L, Martín?Pérez, A, Martins, L, Masía, M, Mateu, Mg, Meireles, P, Mendes, A, Metallidis, S, Mguni, S, Milinkovic, A, Miró, Jm, Mohrmann, K, Montero, M, Mouhebati, T, Moutschen, M, Müller, M, Murphy, C, Nöstlinger, C, Ocaña, I, Okumu?Fransche, S, Onwuchekwa, G, Ospina, Je, Otiko, D, Pacheco, P, Palacios, R, Paparizos, V, Papastamopoulos, V, Paredes, V, Patel, N, Pellicer, T, Peña, A, Petrosillo, N, Pinheiro, A, Poças, J, Portillo, A, Post, F, Prestileo, F, Prins, P, Protopapas, K, Psichogiou, M, Pulido, F, Rebollo, J, Ribeirinho, A, Río, I, Robau, M, Rockstroh, Jk, Rodrigues, E, Rodríguez, M, Sajani, C, Salavert, M, Salman, R, Sanz, N, Schuettfort, G, Schüttfort, G, Zander, C Schwarze?, Serrão, R, Silva, D, Silva, V, Silverio, P, Skoutelis, A, Staehelin, C, Stephan, C, Stretton, C, Styles, F, Sutre, Af, Taylor, S, Teixeira, B, Thierfelder, C, Tsachouridou, O, Tudor, K, Valadas, E, Frankenhuijsen, M, Vázquez, M, Arribas, M Velasco, Vera, M, Vinciana, P, Voudouri, N, Wasmuth, Jc, Wilkins, E, Young, L, Yurdakul, S, Espinosa, T Zafra, Zuilhof, W, and Zuure, F

Subjects
HIV testing -- Surveys, Immigrants -- Surveys -- Care and treatment, HIV infection -- Surveys -- Diagnosis -- Care and treatment, Health
Abstract

: Introduction: Migrants are overrepresented in the European HIV epidemic. We aimed to understand the barriers and facilitators to HIV testing and current treatment and healthcare needs of migrants living with HIV in Europe. Methods: A cross‐sectional study was conducted in 57 HIV clinics in nine countries (Belgium, Germany, Greece, Italy, The Netherlands, Portugal, Spain, Switzerland and United Kingdom), July 2013 to July 2015. HIV‐positive patients were eligible for inclusion if they were as follows: 18 years or older; foreign‐born residents and diagnosed within five years of recruitment. Questionnaires were completed electronically in one of 15 languages and linked to clinical records. Primary outcomes were access to primary care and previous negative HIV test. Data were analysed using random effects logistic regression. Outcomes of interest are presented for women, heterosexual men and gay/bisexual men. Results: A total of 2093 respondents (658 women, 446 heterosexual men and 989 gay/bisexual men) were included. The prevalence of a previous negative HIV test was 46.7%, 43.4% and 82.0% for women, heterosexual and gay/bisexual men respectively. In multivariable analysis previous testing was positively associated with: receipt of post‐migration antenatal care among women, permanent residency among heterosexual men and identifying as gay rather than bisexual among gay/bisexual men. Access to primary care was found to be high (>83%) in all groups and was strongly associated with country of residence. Late diagnosis was common for women and heterosexual men (60.8% and 67.1%, respectively) despite utilization of health services prior to diagnosis. Across all groups almost three‐quarters of people on antiretrovirals had an HIV viral load Conclusions: Migrants access healthcare in Europe and while many migrants had previously tested for HIV, that they went on to test positive at a later date suggests that opportunities for HIV prevention are being missed. Expansion of testing beyond sexual health and antenatal settings is still required and testing opportunities should be linked with combination prevention measures such as access to PrEP and treatment as prevention., Introduction The HIV epidemic in Europe is characterized by a disproportionate number of infections among migrants. Although foreign citizens only made up 7% of the population of the European Union [...]

Published
2018
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18. Economic evaluation of the hepatitis C elimination strategy in Greece in the era of affordable direct-acting antivirals

Author

Gountas, I. Sypsa, V. Hatzakis, A. Gountas, I. Hatzakis, A. Papatheodoridis, G. Souliotis, K. Athanasakis, K. Razavi, H.

Subjects
health care economics and organizations
Abstract

BACKGROUND Hepatitis C virus (HCV) is a leading cause of worldwide liver-related morbidity and mortality. The World Health Organization released an integrated strategy targeting HCV-elimination by 2030. This study aims to estimate the required interventions to achieve elimination using updated information for direct-acting antiviral (DAA) treatment coverage, to compute the total costs (including indirect/societal costs) of the strategy and to identify whether the elimination strategy is cost-effective/cost-saving in Greece. AIM To estimate the required interventions and subsequent costs to achieve HCV elimination in Greece. METHODS A previously validated mathematical model was adapted to the Greek HCVinfected population to compare the outcomes of DAA treatment without the additional implementation of awareness or screening campaigns versus an HCV elimination strategy, which includes a sufficient number of treated patients. We estimated the total costs (direct and indirect costs), the disability-adjusted life years and the incremental cost-effectiveness ratio using two different price scenarios. RESULTS Without the implementation of awareness or screening campaigns, approximately 20000 patients would be diagnosed and treated with DAAs by 2030. This strategy would result in a 19.6% increase in HCV-related mortality in 2030 compared to 2015. To achieve the elimination goal, 90000 patients need to be treated by 2030. Under the elimination scenario, viremic cases would decrease by 78.8% in 2030 compared to 2015. The cumulative direct costs to eliminate the disease would range from 2.1-2.3 billion euros (€) by 2030, while the indirect costs would be €1.1 billion. The total elimination cost in Greece would range from €3.2- 3.4 billion by 2030. The cost per averted disability-adjusted life year is estimated between €10100 and €13380, indicating that the elimination strategy is very costeffective. Furthermore, HCV elimination strategy would save €560-895 million by 2035. CONCLUSION Without large screening programs, elimination of HCV cannot be achieved. The HCV elimination strategy is feasible and cost-saving despite the uncertainty of the future cost of DAAs in Greece. © The Author(s) 2019.

Published
2019

19. High-risk behaviors and their association with awareness of HIV status among participants of a large-scale prevention intervention in Athens, Greece

Author

Pavlopoulou, I.D. Dikalioti, S.K. Gountas, I. Sypsa, V. Malliori, M. Pantavou, K. Jarlais, D.D. Nikolopoulos, G.K. Hatzakis, A.

Abstract

Background: Aristotle was a seek-test-treat intervention during an outbreak of human immunodeficiency virus (HIV) infection among people who inject drugs (PWID) in Athens, Greece that started in 2011. The aims of this analysis were: (1) to study changes of drug injection-related and sexual behaviors over the course of Aristotle; and (2) to compare the likelihood of risky behaviors among PWID who were aware and unaware of their HIV status. Methods: Aristotle (2012-2013) involved five successive respondent-driven sampling rounds of approximately 1400 PWID each; eligible PWID could participate in multiple rounds. Participants were interviewed using a questionnaire, were tested for HIV, and were classified as HIV-positive aware of their status (AHS), HIV-positive unaware of their status (UHS), and HIV-negative. Piecewise linear generalized estimating equation models were used to regress repeatedly measured binary outcomes (high-risk behaviors) against covariates. Results: Aristotle recruited 3320 PWID (84.5% males, median age 34.2 years). Overall, 7110 interviews and blood samples were collected. The proportion of HIV-positive first-time participants who were aware of their HIV infection increased from 21.8% in round A to 36.4% in the last round. The odds of dividing drugs at least half of the time in the past 12 months with a syringe someone else had already used fell from round A to B by 90% [Odds Ratio (OR) (95% Confidence Interval-CI): 0.10 (0.04, 0.23)] among AHS and by 63% among UHS [OR (95% CI): 0.37 (0.19, 0.72)]. This drop was significantly larger (p = 0.02) among AHS. There were also decreases in frequency of injection and in receptive syringe sharing in the past 12 months but they were not significantly different between AHS (66 and 47%, respectively) and UHS (63 and 33%, respectively). Condom use increased only among male AHS from round B to the last round [OR (95% CI): 1.24 (1.01, 1.52)]. Conclusions: The prevalence of risky behaviors related to drug injection decreased in the context of Aristotle. Knowledge of HIV infection was associated with safer drug injection-related behaviors among PWID. This highlights the need for comprehensive interventions that scale-up HIV testing and help PWID become aware of their HIV status. © 2020 The Author(s).

Published
2020

20. A hepatitis C outbreak preceded the HIV outbreak among persons who inject drugs in Athens, Greece: Insights from a mathematical modelling study

Author

Gountas, I. Sypsa, V. Papatheodoridis, G. Paraskevis, D. Kalamitsis, G. Anagnostou, O. Antaraki, A. Fotiou, A. Hatzakis, A.

Subjects
virus diseases, digestive system diseases
Abstract

People who inject drugs (PWID) comprise one of the major transmission risk groups for human immunodeficiency virus (HIV) and hepatitis C virus (HCV). In 2011, Athens experienced a large HIV outbreak among PWID. Significant public health interventions were implemented in response to the HIV outbreak. The aims of this study were to estimate the indirect effects of the HIV interventions on HCV infection and to evaluate the concept of the association between HCV and HIV infections in the case of Athens. A dynamic, stochastic, individual-based model was developed to simulate HCV transmission among PWID. We calibrated the model to reproduce the observed HCV prevalence among PWID in Greece. Two years prior to the HIV outbreak, an undetected HCV outbreak has occurred. In 2009, the incidence of HCV infection increased from 640 (495, 842) cases in 2008 to 1260 (1060, 1500). The mean time from initiation of injecting drug use to HCV acquisition decreased from 29 months in 2008 to 13 months in 2009. After HIV interventions, HCV incidence declined by 64.8% in 2012, compared to 2009. The averted HCV incidence cases attributed to the HIV-implemented interventions were 2200 (1950, 2480), during 2012-2015. The cumulative number incident HCV cases in Athens during 2002-2015 was about 9900 (7800, 12 100). Our results highlight that before the 2011 HIV outbreak in Athens, an HCV outbreak occurred in 2009. Prevention measures for HIV that took place in the Athens metropolitan area in 2012 reduced significantly the incidence of HCV. © 2019 John Wiley & Sons Ltd

Published
2019

21. P1503Decrement of vortex formation time during dobutamine stress echo

Author

Dimitroglou, Y, primary, Aggeli, C, additional, Maragiannis, D, additional, Patsourakos, D, additional, Gountas, I, additional, Polytarchou, K, additional, Verveniotis, A, additional, Angelis, A, additional, Savvalas, D, additional, Zisimos, K, additional, Raftopoulos, L, additional, and Tousoulis, D, additional

Published
2019
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23. Global prevalence, treatment, and prevention of hepatitis B virus infection in 2016: a modelling study

Author

Razavi-Shearer, D. Gamkrelidze, I. Nguyen, M.H. Chen, D.-S. Van Damme, P. Abbas, Z. Abdulla, M. Abou Rached, A. Adda, D. Aho, I. Akarca, U. Al Ali, F.H. Lawati, F.A.L. Naamani, K.A.L. Alashgar, H.I. Alavian, S.M. Alawadhi, S. Albillos, A. Al-Busafi, S.A. Aleman, S. Alfaleh, F.Z. Aljumah, A.A. Anand, A.C. Anh, N.T. Arends, J.E. Arkkila, P. Athanasakis, K. Bane, A. Ben-Ari, Z. Berg, T. Bizri, A.R. Blach, S. Brandão Mello, C.E. Brandon, S.M. Bright, B. Bruggmann, P. Brunetto, M. Buti, M. Chan, H.L.Y. Chaudhry, A. Chien, R.-N. Choi, M.S. Christensen, P.B. Chuang, W.-L. Chulanov, V. Clausen, M.R. Colombo, M. Cornberg, M. Cowie, B. Craxi, A. Croes, E.A. Cuellar, D.A. Cunningham, C. Desalegn, H. Drazilova, S. Duberg, A.-S. Egeonu, S.S. El-Sayed, M.H. Estes, C. Falconer, K. Ferraz, M.L.G. Ferreira, P.R. Flisiak, R. Frankova, S. Gaeta, G.B. García-Samaniego, J. Genov, J. Gerstoft, J. Goldis, A. Gountas, I. Gray, R. Guimarães Pessôa, M. Hajarizadeh, B. Hatzakis, A. Hézode, C. Himatt, S.M. Hoepelman, A. Hrstic, I. Hui, Y.-T.T. Husa, P. Jahis, R. Janjua, N.Z. Jarcuška, P. Jaroszewicz, J. Kaymakoglu, S. Kershenobich, D. Kondili, L.A. Konysbekova, A. Krajden, M. Kristian, P. Laleman, W. Lao, W.-C.C. Layden, J. Lazarus, J.V. Lee, M.-H. Liakina, V. Lim, Y.-S.S. Loo, C.-K.K. Lukšic, B. Malekzadeh, R. Malu, A.O. Mamatkulov, A. Manns, M. Marinho, R.T. Maticic, M. Mauss, S. Memon, M.S. Mendes Correa, M.C. Mendez-Sanchez, N. Merat, S. Metwally, A.M. Mohamed, R. Mokhbat, J.E. Moreno, C. Mossong, J. Mourad, F.H. Müllhaupt, B. Murphy, K. Musabaev, E. Nawaz, A. Nde, H.M. Negro, F. Nersesov, A. Nguyen, V.T.T. Njouom, R. Ntagirabiri, R. Nurmatov, Z. Obekpa, S. Ocama, P. Oguche, S. Omede, O. Omuemu, C. Opare-Sem, O. Opio, C.K. Örmeci, N. Papatheodoridis, G. Pasini, K. Pimenov, N. Poustchi, H. Quang, T.D. Qureshi, H. Ramji, A. Razavi-Shearer, K. Redae, B. Reesink, H.W. Rios, C.Y. Rjaskova, G. Robbins, S. Roberts, L.R. Roberts, S.K. Ryder, S.D. Safadi, R. Sagalova, O. Salupere, R. Sanai, F.M. Sanchez-Avila, J.F. Saraswat, V. Sarrazin, C. Schmelzer, J.D. Schréter, I. Scott, J. Seguin-Devaux, C. Shah, S.R. Sharara, A.I. Sharma, M. Shiha, G.E. Shin, T. Sievert, W. Sperl, J. Stärkel, P. Stedman, C. Sypsa, V. Tacke, F. Tan, S.S. Tanaka, J. Tomasiewicz, K. Urbanek, P. van der Meer, A.J. Van Vlierberghe, H. Vella, S. Vince, A. Waheed, Y. Waked, I. Walsh, N. Weis, N. Wong, V.W. Woodring, J. Yaghi, C. Yang, H.-I. Yang, C.-L. Yesmembetov, K. Yosry, A. Yuen, M.-F. Yusuf, M.A.M. Zeuzem, S. Razavi, H. The Polaris Observatory Collaborators

Abstract

Background: The 69th World Health Assembly approved the Global Health Sector Strategy to eliminate viral hepatitis by 2030. Although no virological cure exists for hepatitis B virus (HBV) infection, existing therapies to control viral replication and prophylaxis to minimise mother-to-child transmission make elimination of HBV feasible. We aimed to estimate the national, regional, and global prevalence of HBsAg in the general population and in the population aged 5 years in 2016, as well as coverage of prophylaxis, diagnosis, and treatment. Methods: In this modelling study, we used a Delphi process that included a literature review in PubMed and Embase, followed by interviews with experts, to quantify the historical epidemiology of HBV infection. We then used a dynamic HBV transmission and progression model to estimate the country-level and regional-level prevalence of HBsAg in 2016 and the effect of prophylaxis and treatment on disease burden. Findings: We developed models for 120 countries, 78 of which were populated with data approved by experts. Using these models, we estimated that the global prevalence of HBsAg in 2016 was 3·9% (95% uncertainty interval [UI] 3·4–4·6), corresponding to 291 992 000 (251 513 000–341 114 000) infections. Of these infections, around 29 million (10%) were diagnosed, and only 4·8 million (5%) of 94 million individuals eligible for treatment actually received antiviral therapy. Around 1·8 (1·6–2·2) million infections were in children aged 5 years, with a prevalence of 1·4% (1·2–1·6). We estimated that 87% of infants had received the three-dose HBV vaccination in the first year of life, 46% had received timely birth-dose vaccination, and 13% had received hepatitis B immunoglobulin along with the full vaccination regimen. Less than 1% of mothers with a high viral load had received antiviral therapy to reduce mother-to-child transmission. Interpretation: Our estimate of HBV prevalence in 2016 differs from previous studies, potentially because we took into account the effect of infant prophylaxis and early childhood vaccination, as well as changing prevalence over time. Although some regions are well on their way to meeting prophylaxis and prevalence targets, all regions must substantially scale-up access to diagnosis and treatment to meet the global targets. Funding: John C Martin Foundation. © 2018 Elsevier Ltd

Published
2018

24. HIV testing history and access to treatment among migrants living with HIV in Europe

Author

Fakoya, I. Álvarez-Del Arco, D. Monge, S. Copas, A.J. Gennotte, A.-F. Volny-Anne, A. Wengenroth, C. Touloumi, G. Prins, M. Barros, H. Darling, K.E.A. Prestileo, T. Del Amo, J. Burns, F.M. Aerssens, A. Aguado, M. Alimi, B. Anagnostou, O. Anderson, J. Antoniadou, A. Arando, M. Barberà, M.J. Barthélemy, A. Belda-Ibáñez, J. Bertisch, B. Bil, J. Blanco, J.R. Block, K. Boesecke, C. Boura, M. Burgos, J. Cabo, J. Calabuig, E. Campbell, L. Cardoso, O. Claudia, W. Clumeck, N. Colucci, A. Corrao, S. Cuellar, S. Cunha, J. Daikos, G. Darling, K. del Romero, J. Dellot, P. Domingo, P. Dronda, F. Ebeling, F. Engelhardt, A. Engler, B. Farrell, J. Fehr, J. Feijó, M. Fernández, E. Fernández García, E. Fernandez, T. Fortes, A.L. Fox, J. Garcia de Olalla, P. García, F. Gargalianos-Kakolyris, P. Germano, I. Gilleran, G. Gilson, R. Goepel, S. Gogos, H.A. Gómez Sirvent, J.L. Gountas, I. Gregg, A. Gutiérrez, F. Gutierrez, M.M. Hermans, I. Iribarren, J.A. Knobel, H. Koulai, L. Kourkounti, S. La Morté, C. LeCompte, T. Ledergerber, B. Leonidou, L. Ligero, M.C. Lindergard, G. Lino, S. Lopes, M.J. Lopez Lirola, A. Louhenapessy, M. Lourida, G. Luzi, A.M. Maltez, F. Manirankunda, L. Martín-Pérez, A. Martins, L. Masía, M. Mateu, M.G. Meireles, P. Mendes, A. Metallidis, S. Mguni, S. Milinkovic, A. Miró, J.M. Mohrmann, K. Montero, M. Mouhebati, T. Moutschen, M. Müller, M. Murphy, C. Nöstlinger, C. Ocaña, I. Okumu-Fransche, S. Onwuchekwa, G. Ospina, J.E. Otiko, D. Pacheco, P. Palacios, R. Paparizos, V. Papastamopoulos, V. Paredes, V. Patel, N. Pellicer, T. Peña, A. Petrosillo, N. Pinheiro, A. Poças, J. Portillo, A. Post, F. Prestileo, F. Prins, P. Protopapas, K. Psichogiou, M. Pulido, F. Rebollo, J. Ribeirinho, A. Río, I. Robau, M. Rockstroh, J.K. Rodrigues, E. Rodríguez, M. Sajani, C. Salavert, M. Salman, R. Sanz, N. Schuettfort, G. Schüttfort, G. Schwarze- Zander, C. Serrão, R. Silva, D. Silva, V. Silverio, P. Skoutelis, A. Staehelin, C. Stephan, C. Stretton, C. Styles, F. Sutre, A.F. Taylor, S. Teixeira, B. Thierfelder, C. Tsachouridou, O. Tudor, K. Valadas, E. van Frankenhuijsen, M. Vázquez, M. Velasco Arribas, M. Vera, M. Vinciana, P. Voudouri, N. Wasmuth, J.C. Wilkins, E. Young, L. Yurdakul, S. Zafra Espinosa, T. Zuilhof, W. Zuure, F. the aMASE Study Team

Subjects
virus diseases
Abstract

Introduction: Migrants are overrepresented in the European HIV epidemic. We aimed to understand the barriers and facilitators to HIV testing and current treatment and healthcare needs of migrants living with HIV in Europe. Methods: A cross-sectional study was conducted in 57 HIV clinics in nine countries (Belgium, Germany, Greece, Italy, The Netherlands, Portugal, Spain, Switzerland and United Kingdom), July 2013 to July 2015. HIV-positive patients were eligible for inclusion if they were as follows: 18 years or older; foreign-born residents and diagnosed within five years of recruitment. Questionnaires were completed electronically in one of 15 languages and linked to clinical records. Primary outcomes were access to primary care and previous negative HIV test. Data were analysed using random effects logistic regression. Outcomes of interest are presented for women, heterosexual men and gay/bisexual men. Results: A total of 2093 respondents (658 women, 446 heterosexual men and 989 gay/bisexual men) were included. The prevalence of a previous negative HIV test was 46.7%, 43.4% and 82.0% for women, heterosexual and gay/bisexual men respectively. In multivariable analysis previous testing was positively associated with: receipt of post-migration antenatal care among women, permanent residency among heterosexual men and identifying as gay rather than bisexual among gay/bisexual men. Access to primary care was found to be high (>83%) in all groups and was strongly associated with country of residence. Late diagnosis was common for women and heterosexual men (60.8% and 67.1%, respectively) despite utilization of health services prior to diagnosis. Across all groups almost three-quarters of people on antiretrovirals had an HIV viral load

Published
2018

26. Global prevalence, treatment, and prevention of hepatitis B virus infection in 2016: a modelling study.

Author

Falconer K., Ormeci N., Papatheodoridis G., Pasini K., Pimenov N., Poustchi H., Quang T.D., Qureshi H., Ramji A., Razavi-Shearer K., Redae B., Reesink H.W., Rios C.Y., Rjaskova G., Robbins S., Roberts L.R., Roberts S.K., Ryder S.D., Safadi R., Sagalova O., Salupere R., Sanai F.M., Sanchez-Avila J.F., Saraswat V., Sarrazin C., Schmelzer J.D., Schreter I., Scott J., Seguin-Devaux C., Shah S.R., Sharara A.I., Sharma M., Shiha G.E., Shin T., Sperl J., Starkel P., Stedman C., Sypsa V., Tacke F., Tan S.S., Tanaka J., Tomasiewicz K., Urbanek P., van der Meer A.J., Van Vlierberghe H., Vella S., Vince A., Waheed Y., Waked I., Walsh N., Weis N., Wong V.W., Woodring J., Yaghi C., Yang H.-I., Yang C.-L., Yesmembetov K., Yosry A., Yuen M.-F., Yusuf M.A.M., Zeuzem S., Razavi H., Sievert W., Razavi-Shearer D., Gamkrelidze I., Nguyen M.H., Chen D.-S., Van Damme P., Abbas Z., Abdulla M., Abou Rached A., Adda D., Aho I., Akarca U., Al Ali F.H., Lawati F.A.L., Naamani K.A.L., Alashgar H.I., Alavian S.M., Alawadhi S., Albillos A., Al-Busafi S.A., Aleman S., Alfaleh F.Z., Aljumah A.A., Anand A.C., Anh N.T., Arends J.E., Arkkila P., Athanasakis K., Bane A., Ben-Ari Z., Berg T., Bizri A.R., Blach S., Brandao Mello C.E., Brandon S.M., Bright B., Bruggmann P., Brunetto M., Buti M., Chan H.L.Y., Chaudhry A., Chien R.-N., Choi M.S., Christensen P.B., Chuang W.-L., Chulanov V., Clausen M.R., Colombo M., Cornberg M., Cowie B., Craxi A., Croes E.A., Cuellar D.A., Cunningham C., Desalegn H., Drazilova S., Duberg A.-S., Egeonu S.S., El-Sayed M.H., Estes C., Ferraz M.L.G., Ferreira P.R., Flisiak R., Frankova S., Gaeta G.B., Garcia-Samaniego J., Genov J., Gerstoft J., Goldis A., Gountas I., Gray R., Guimaraes Pessoa M., Hajarizadeh B., Hatzakis A., Hezode C., Himatt S.M., Hoepelman A., Hrstic I., Hui Y.-T.T., Husa P., Jahis R., Janjua N.Z., Jarcuka P., Jaroszewicz J., Kaymakoglu S., Kershenobich D., Kondili L.A., Konysbekova A., Krajden M., Kristian P., Laleman W., Lao W.-C.C., Layden J., Lazarus J.V., Lee M.-H., Liakina V., Lim Y.-S.S., Loo C.-K.K., Lukic B., Malekzadeh R., Malu A.O., Mamatkulov A., Manns M., Marinho R.T., Maticic M., Mauss S., Memon M.S., Mendes Correa M.C., Mendez-Sanchez N., Merat S., Metwally A.M., Mohamed R., Mokhbat J.E., Moreno C., Mossong J., Mourad F.H., Mullhaupt B., Murphy K., Musabaev E., Nawaz A., Nde H.M., Negro F., Nersesov A., Nguyen V.T.T., Njouom R., Ntagirabiri R., Nurmatov Z., Obekpa S., Ocama P., Oguche S., Omede O., Omuemu C., Opare-Sem O., Opio C.K., Falconer K., Ormeci N., Papatheodoridis G., Pasini K., Pimenov N., Poustchi H., Quang T.D., Qureshi H., Ramji A., Razavi-Shearer K., Redae B., Reesink H.W., Rios C.Y., Rjaskova G., Robbins S., Roberts L.R., Roberts S.K., Ryder S.D., Safadi R., Sagalova O., Salupere R., Sanai F.M., Sanchez-Avila J.F., Saraswat V., Sarrazin C., Schmelzer J.D., Schreter I., Scott J., Seguin-Devaux C., Shah S.R., Sharara A.I., Sharma M., Shiha G.E., Shin T., Sperl J., Starkel P., Stedman C., Sypsa V., Tacke F., Tan S.S., Tanaka J., Tomasiewicz K., Urbanek P., van der Meer A.J., Van Vlierberghe H., Vella S., Vince A., Waheed Y., Waked I., Walsh N., Weis N., Wong V.W., Woodring J., Yaghi C., Yang H.-I., Yang C.-L., Yesmembetov K., Yosry A., Yuen M.-F., Yusuf M.A.M., Zeuzem S., Razavi H., Sievert W., Razavi-Shearer D., Gamkrelidze I., Nguyen M.H., Chen D.-S., Van Damme P., Abbas Z., Abdulla M., Abou Rached A., Adda D., Aho I., Akarca U., Al Ali F.H., Lawati F.A.L., Naamani K.A.L., Alashgar H.I., Alavian S.M., Alawadhi S., Albillos A., Al-Busafi S.A., Aleman S., Alfaleh F.Z., Aljumah A.A., Anand A.C., Anh N.T., Arends J.E., Arkkila P., Athanasakis K., Bane A., Ben-Ari Z., Berg T., Bizri A.R., Blach S., Brandao Mello C.E., Brandon S.M., Bright B., Bruggmann P., Brunetto M., Buti M., Chan H.L.Y., Chaudhry A., Chien R.-N., Choi M.S., Christensen P.B., Chuang W.-L., Chulanov V., Clausen M.R., Colombo M., Cornberg M., Cowie B., Craxi A., Croes E.A., Cuellar D.A., Cunningham C., Desalegn H., Drazilova S., Duberg A.-S., Egeonu S.S., El-Sayed M.H., Estes C., Ferraz M.L.G., Ferreira P.R., Flisiak R., Frankova S., Gaeta G.B., Garcia-Samaniego J., Genov J., Gerstoft J., Goldis A., Gountas I., Gray R., Guimaraes Pessoa M., Hajarizadeh B., Hatzakis A., Hezode C., Himatt S.M., Hoepelman A., Hrstic I., Hui Y.-T.T., Husa P., Jahis R., Janjua N.Z., Jarcuka P., Jaroszewicz J., Kaymakoglu S., Kershenobich D., Kondili L.A., Konysbekova A., Krajden M., Kristian P., Laleman W., Lao W.-C.C., Layden J., Lazarus J.V., Lee M.-H., Liakina V., Lim Y.-S.S., Loo C.-K.K., Lukic B., Malekzadeh R., Malu A.O., Mamatkulov A., Manns M., Marinho R.T., Maticic M., Mauss S., Memon M.S., Mendes Correa M.C., Mendez-Sanchez N., Merat S., Metwally A.M., Mohamed R., Mokhbat J.E., Moreno C., Mossong J., Mourad F.H., Mullhaupt B., Murphy K., Musabaev E., Nawaz A., Nde H.M., Negro F., Nersesov A., Nguyen V.T.T., Njouom R., Ntagirabiri R., Nurmatov Z., Obekpa S., Ocama P., Oguche S., Omede O., Omuemu C., Opare-Sem O., and Opio C.K.

Abstract

Background: The 69th World Health Assembly approved the Global Health Sector Strategy to eliminate viral hepatitis by 2030. Although no virological cure exists for hepatitis B virus (HBV) infection, existing therapies to control viral replication and prophylaxis to minimise mother-to-child transmission make elimination of HBV feasible. We aimed to estimate the national, regional, and global prevalence of HBsAg in the general population and in the population aged 5 years in 2016, as well as coverage of prophylaxis, diagnosis, and treatment. Method(s): In this modelling study, we used a Delphi process that included a literature review in PubMed and Embase, followed by interviews with experts, to quantify the historical epidemiology of HBV infection. We then used a dynamic HBV transmission and progression model to estimate the country-level and regional-level prevalence of HBsAg in 2016 and the effect of prophylaxis and treatment on disease burden. Finding(s): We developed models for 120 countries, 78 of which were populated with data approved by experts. Using these models, we estimated that the global prevalence of HBsAg in 2016 was 3.9% (95% uncertainty interval [UI] 3.4-4.6), corresponding to 291 992 000 (251 513 000-341 114 000) infections. Of these infections, around 29 million (10%) were diagnosed, and only 4.8 million (5%) of 94 million individuals eligible for treatment actually received antiviral therapy. Around 1.8 (1.6-2.2) million infections were in children aged 5 years, with a prevalence of 1.4% (1.2-1.6). We estimated that 87% of infants had received the three-dose HBV vaccination in the first year of life, 46% had received timely birth-dose vaccination, and 13% had received hepatitis B immunoglobulin along with the full vaccination regimen. Less than 1% of mothers with a high viral load had received antiviral therapy to reduce mother-to-child transmission. Interpretation(s): Our estimate of HBV prevalence in 2016 differs from previous studies, potentia

Published
2018

27. Global prevalence and genotype distribution of hepatitis C virus infection in 2015: A modelling study

Author

Blach, S. Zeuzem, S. Manns, M. Altraif, I. Duberg, A.-S. Muljono, D.H. Waked, I. Alavian, S.M. Lee, M.-H. Negro, F. Abaalkhail, F. Abdou, A. Abdulla, M. Abou Rached, A. Aho, I. Akarca, U. Al Ghazzawi, I. Al Kaabi, S. Al Lawati, F. Al Namaani, K. Al Serkal, Y. Al-Busafi, S.A. Al-Dabal, L. Aleman, S. Alghamdi, A.S. Aljumah, A.A. Al-Romaihi, H.E. Andersson, M.I. Arendt, V. Arkkila, P. Assiri, A.M. Baatarkhuu, O. Bane, A. Ben-Ari, Z. Bergin, C. Bessone, F. Bihl, F. Bizri, A.R. Blachier, M. Blasco, A.J. Brandao Mello, C.E. Bruggmann, P. Brunton, C.R. Calinas, F. Chan, H.L.Y. Chaudhry, A. Cheinquer, H. Chen, C.-J. Chien, R.-N. Choi, M.S. Christensen, P.B. Chuang, W.-L. Chulanov, V. Cisneros, L. Clausen, M.R. Cramp, M.E. Craxi, A. Croes, E.A. Dalgard, O. Daruich, J.R. De Ledinghen, V. Dore, G.J. El-Sayed, M.H. Ergor, G. Esmat, G. Estes, C. Falconer, K. Farag, E. Ferraz, M.L.G. Ferreira, P.R. Flisiak, R. Frankova, S. Gamkrelidze, I. Gane, E. Garcia-Samaniego, J. Khan, A.G. Gountas, I. Goldis, A. Gottfredsson, M. Grebely, J. Gschwantler, M. Guimaraes Pessoa, M. Gunter, J. Hajarizadeh, B. Hajelssedig, O. Hamid, S. Hamoudi, W. Hatzakis, A. Himatt, S.M. Hofer, H. Hrstic, I. Hui, Y.-T. Hunyady, B. Idilman, R. Jafri, W. Jahis, R. Janjua, N.Z. Jarčuška, P. Jeruma, A. Jonasson, J.G. Kamel, Y. Kao, J.-H. Kaymakoglu, S. Kershenobich, D. Khamis, J. Kim, Y.S. Kondili, L. Koutoubi, Z. Krajden, M. Krarup, H. Lai, M.-S. Laleman, W. Lao, W.-C. Lavanchy, D. Lazaro, P. Leleu, H. Lesi, O. Lesmana, L.A. Li, M. Liakina, V. Lim, Y.-S. Luksic, B. Mahomed, A. Maimets, M. Makara, M. Malu, A.O. Marinho, R.T. Marotta, P. Mauss, S. Memon, M.S. Mendes Correa, M.C. Mendez-Sanchez, N. Merat, S. Metwally, A.M. Mohamed, R. Moreno, C. Mourad, F.H. Mullhaupt, B. Murphy, K. Nde, H. Njouom, R. Nonkovic, D. Norris, S. Obekpa, S. Oguche, S. Olafsson, S. Oltman, M. Omede, O. Omuemu, C. Opare-Sem, O. Ovrehus, A.L.H. Owusu-Ofori, S. Oyunsuren, T.S. Papatheodoridis, G. Pasini, K. Peltekian, K.M. Phillips, R.O. Pimenov, N. Poustchi, H. Prabdial-Sing, N. Qureshi, H. Ramji, A. Razavi-Shearer, D. Razavi-Shearer, K. Redae, B. Reesink, H.W. Ridruejo, E. Robbins, S. Roberts, L.R. Roberts, S.K. Rosenberg, W.M. Roudot-Thoraval, F. Ryder, S.D. Safadi, R. Sagalova, O. Salupere, R. Sanai, F.M. Sanchez Avila, J.F. Saraswat, V. Sarmento-Castro, R. Sarrazin, C. Schmelzer, J.D. Schreter, I. Seguin-Devaux, C. Shah, S.R. Sharara, A.I. Sharma, M. Shevaldin, A. Shiha, G.E. Sievert, W. Sonderup, M. Souliotis, K. Speiciene, D. Sperl, J. Starkel, P. Stauber, R.E. Stedman, C. Struck, D. Su, T.-H. Sypsa, V. Tan, S.-S. Tanaka, J. Thompson, A.J. Tolmane, I. Tomasiewicz, K. Valantinas, J. Van Damme, P. Van Der Meer, A.J. Van Thiel, I. Van Vlierberghe, H. Vince, A. Vogel, W. Wedemeyer, H. Weis, N. Wong, V.W.S. Yaghi, C. Yosry, A. Yuen, M.-F. Yunihastuti, E. Yusuf, A. Zuckerman, E. Razavi, H. The Polaris Observatory HCV Collaborators

Abstract

Background The 69th World Health Assembly approved the Global Health Sector Strategy to eliminate hepatitis C virus (HCV) infection by 2030, which can become a reality with the recent launch of direct acting antiviral therapies. Reliable disease burden estimates are required for national strategies. This analysis estimates the global prevalence of viraemic HCV at the end of 2015, an update of—and expansion on—the 2014 analysis, which reported 80 million (95% CI 64–103) viraemic infections in 2013. Methods We developed country-level disease burden models following a systematic review of HCV prevalence (number of studies, n=6754) and genotype (n=11 342) studies published after 2013. A Delphi process was used to gain country expert consensus and validate inputs. Published estimates alone were used for countries where expert panel meetings could not be scheduled. Global prevalence was estimated using regional averages for countries without data. Findings Models were built for 100 countries, 59 of which were approved by country experts, with the remaining 41 estimated using published data alone. The remaining countries had insufficient data to create a model. The global prevalence of viraemic HCV is estimated to be 1·0% (95% uncertainty interval 0·8–1·1) in 2015, corresponding to 71·1 million (62·5–79·4) viraemic infections. Genotypes 1 and 3 were the most common cause of infections (44% and 25%, respectively). Interpretation The global estimate of viraemic infections is lower than previous estimates, largely due to more recent (lower) prevalence estimates in Africa. Additionally, increased mortality due to liver-related causes and an ageing population may have contributed to a reduction in infections. Funding John C Martin Foundation. © 2017 Elsevier Ltd

Published
2017

29. High levels of postmigration HIV acquisition within nine European countries

Author

Alvarez-Del Arco, D. Fakoya, I. Thomadakis, C. Pantazis, N. Touloumi, G. Gennotte, A.-F. Zuure, F. Barros, H. Staehelin, C. Göpel, S. Boesecke, C. Prestileo, T. Volny-Anne, A. Burns, F. Del Amo, J. Aerssens, A. Aguado, M. Alimi, B. Álvarez-Del Arco, D. Anagnostou, O. Anderson, J. Antoniadou, A. Arando, M. Barberà, M.J. Barthélemy, A. Belda-Ibáñez, J. Bertisch, B. Bil, J. Blanco, J.R. Block, K. Boesecke, C. Boura, M. Burgos, J. Burns, F.M. Cabo, J. Calabuig, E. Campbell, L. Cardoso, O. Claudia, W. Clumeck, N. Colucci, A. Corrao, S. Cuellar, S. Cunha, J. Daikos, G. Darling, K. Del Amo, J. Del Romero, J. Dellot, P. Dixneuf, M. Domingo, P. Dronda, F. Ebeling, F. Engelhardt, A. Engler, B. Fakoya, I. Farrell, J. Fehr, J. Feijó, M. Fernández, E. Fernández García, E. Fernandez, T. Fortes, A.L. Fox, J. Garcia De Olalla, P. García, F. Gargalianos-Kakolyris, P. Gennotte, A.F. Germano, I. Gilleran, G. Gilson, R. Goepel, S. Gogos, H.A. Gómez Sirvent, J.L. Gountas, I. Gregg, A. Gutiérrez, F. Gutierrez, M.M. Hermans, I. Iribarren, J.A. Knobel, H. Koulai, L. Kourkounti, S. La Morté, C. LeCompte, T. Ledergerber, B. Leonidou, L. Ligero, M.C. Lindergard, G. Lino, S. Lopes, M.J. Lopez Lirola, A. Louhenapessy, M. Lourida, G. Luzi, A.M. Maltez, F. Manirankunda, L. Martín-Pérez, A. Martins, L. Masía, M. Mateu, M.G. Meireles, P. Mendes, A. Metallidis, S. Mguni, S. Milinkovic, A. Miró, J.M. Mohrmann, K. Monge, S. Montero, M. Mouhebati, T. Moutschen, M. Müller, M. Murphy, C. Nöstlinger, C. Ocaña, I. Okumu-Fransche, S. Onwuchekwa, G. Ospina, J.E. Otiko, D. Pacheco, P. Palacios, R. Paparizos, V. Papastamopoulos, V. Paredes, V. Patel, N. Pellicer, T. Peña, A. Petrosillo, N. Pinheiro, A. Poças, J. Portillo, A. Post, F. Prestileo, F. Prestileo, T. Prins, M. Prins, P. Protopapas, K. Psichogiou, M. Pulido, F. Rebollo, J. Ribeirinho, A. Río, I. Robau, M. Rockstroh, J.K. Rodrigues, E. Rodríguez, M. Sajani, C. Salavert, M. Salman, R. Sanz, N. Schuettfort, G. Schüttfort, G. Schwarze-Zander, C. Serrão, R. Silva, D. Silva, V. Silverio, P. Skoutelis, A. Staehelin, C. Stephan, C. Stretton, C. Styles, F. Sutre, A.F. Taylor, S. Teixeira, B. Thierfelder, C. Touloumi, G. Tsachouridou, O. Tudor, K. Valadas, E. Van Frankenhuijsen, M. Vázquez, M. Velasco Arribas, M. Vera, M. Vinciana, P. Volny-Anne, A. Voudouri, N. Wasmuth, J.C. Wengenroth, C. Wilkins, E. Young, L. Yurdakul, S. Zafra Espinosa, T. Zuilhof, W. Zuure, F. Advancing Migrant Access to Health Services in Europe (aMASE) study team

Subjects
virus diseases
Abstract

Objective: We aimed to estimate the proportion of postmigration HIV acquisition among HIV-positive migrants in Europe. Design: To reach HIV-positive migrants, we designed a cross-sectional study performed in HIV clinics. Methods: The study was conducted from July 2013 to July 2015 in 57 clinics (nine European countries), targeting individuals over 18 years diagnosed in the preceding 5 years and born abroad. Electronic questionnaires supplemented with clinical data were completed in any of 15 languages. Postmigration HIV acquisition was estimated through Bayesian approaches combining extensive information on migration and patients' characteristics. CD4+ cell counts and HIV-RNA trajectories from seroconversion were estimated by bivariate linear mixed models fitted to natural history data. Postmigration acquisition risk factors were investigated with weighted logistic regression. Results: Of 2009 participants, 46% were MSM and a third originated from sub-Saharan Africa and Latin America & Caribbean, respectively. Median time in host countries was 8 years. Postmigration HIV acquisition was 63% (95% confidence interval: 57-67%); 72% among MSM, 58 and 51% in heterosexual men and women, respectively. Postmigration HIV acquisition was 71% for Latin America and Caribbean migrants and 45% for people from sub-Saharan Africa. Factors associated with postmigration HIV acquisition among heterosexual women and MSM were age at migration, length of stay in host country and HIV diagnosis year and among heterosexual men, length of stay in host country and HIV diagnosis year. Conclusion: A substantial proportion of HIV-positive migrants living in Europe acquired HIV postmigration. This has important implications for European public health policies. Copyright © 2017 Wolters Kluwer Health, Inc. All rights reserved.

Published
2017

31. Hepatitis C virus prevalence and level of intervention required to achieve the WHO targets for elimination in the European Union by 2030: a modelling study

Author

Razavi, H. Robbins, S. Zeuzem, S. Negro, F. Buti, M. Duberg, A. Roudot-Thoraval, F. Craxi, A. Manns, M. Marinho, R.T. Hunyady, B. Colombo, M. Aleman, S. Antonov, K. Arkkila, P. Athanasakis, K. Blach, S. Blachier, M. Blasco, A.J. Calinas, F. Calleja, J.L. Christensen, P.B. Cramp, M.E. Croes, E. de Knegt, R.J. de Ledinghen, V. Delile, J.-M. Estes, C. Falconer, K. Färkkilä, M. Flisiak, R. Frankova, S. Gamkrelidze, I. García-Samaniego, J. Genov, J. Gerstoft, J. Gheorghe, L. Goldis, A. Gountas, I. Gregorčič, S. Gschwantler, M. Gunter, J. Halota, W. Harcouet, L. Hézode, C. Hoffmann, P. Horvath, G. Hrstic, I. Jarčuška, P. Jelev, D. Jeruma, A. Kåberg, M. Kieran, J. Kondili, L.A. Kotzev, I. Krarup, H. Kristian, P. Lagging, M. Laleman, W. Lázaro, P. Liakina, V. Lukšić, B. Maimets, M. Makara, M. Mateva, L. Maticic, M. Mennini, F.S. Mitova, R. Moreno, C. Mossong, J. Murphy, K. Nde, H. Nemecek, V. Nonkovic, D. Norris, S. Oltman, M. Øvrehus, A.L.H. Papatheodoridis, G. Pasini, K. Razavi-Shearer, D. Razavi-Shearer, K. Reesink, H.W. Reic, T. Rozentale, B. Ryder, S.D. Salupere, R. Sarmento-Castro, R. Sarrazin, C. Schmelzer, J.D. Schréter, I. Seguin-Devaux, C. Simojoki, K. Simonova, M. Smit, P.J. Souliotis, K. Speiciene, D. Sperl, J. Stärkel, P. Struck, D. Sypsa, V. Thornton, L. Tolmane, I. Tomasiewicz, K. Valantinas, J. Van Damme, P. van de Vijver, D. van der Meer, A.J. van Santen, D. Van Vlierberghe, H. Vandijck, D. Vella, S. Videčnik-Zorman, J. Vogel, W. Weis, N. Hatzakis, A. The European Union HCV Collaborators

Abstract

Background Hepatitis C virus (HCV) is a leading cause of liver-related morbidity and mortality worldwide. In the European Union (EU), treatment and cure of HCV with direct-acting antiviral therapies began in 2014. WHO targets are to achieve a 65% reduction in liver-related deaths, a 90% reduction of new viral hepatitis infections, and 90% of patients with viral hepatitis infections being diagnosed by 2030. This study assessed the prevalence of HCV in the EU and the level of intervention required to achieve WHO targets for HCV elimination. Methods We populated country Markov models for the 28 EU countries through a literature search of PubMed and Embase between Jan 1, 2000, and March 31, 2016, and a Delphi process to gain expert consensus and validate inputs. We aggregated country models to create a regional EU model. We used the EU model to forecast HCV disease progression (considering the effect of immigration) and developed a strategy to acehive WHO targets. We used weighted average sustained viral response rates and fibrosis restrictions to model the effect of current therapeutic guidelines. We used the EU model to forecast HCV disease progression (considering the effect of immigration) under current screening and therapeutic guidelines. Additionally, we back-calculated the total number of patients needing to be screened and treated to achieve WHO targets. Findings We estimated the number of viraemic HCV infections in 2015 to be 3 238 000 (95% uncertainty interval [UI] 2 106 000–3 795 000) of a total population of 509 868 000 in the EU, equating to a prevalence of viraemic HCV of 0·64% (95% UI 0·41–0·74). We estimated that 1 180 000 (95% UI 1 003 000–1 357 000) people were diagnosed with viraemia (36·4%), 150 000 (12 000–180 000) were treated (4·6% of the total infected population or 12·7% of the diagnosed population), 133 000 (106 000–160 000) were cured (4·1%), and 57 900 (43 900–67 300) were newly infected (1·8%) in 2015. Additionally, 30 400 (26 600–42 500) HCV-positive immigrants entered the EU. To achieve WHO targets, unrestricted treatment needs to increase from 150 000 patients in 2015 to 187 000 patients in 2025 and diagnosis needs to increase from 88 800 new cases annually in 2015 to 180 000 in 2025. Interpretation Given its advanced health-care infrastructure, the EU is uniquely poised to eliminate HCV; however, expansion of screening programmes is essential to increase treatment to achieve the WHO targets. A united effort, grounded in sound epidemiological evidence, will also be necessary. Funding Gilead Sciences. © 2017 Elsevier Ltd

Published
2017

33. Global prevalence and genotype distribution of hepatitis C virus infection in 2015: A modelling study.

Author

Farag E., De Ledinghen V., Dore G.J., Papatheodoridis G., Pasini K., Peltekian K.M., Phillips R.O., Pimenov N., Poustchi H., Prabdial-Sing N., Qureshi H., Ramji A., Razavi-Shearer D., Razavi-Shearer K., Redae B., Reesink H.W., Ridruejo E., Robbins S., Roberts L.R., Roberts S.K., Rosenberg W.M., Roudot-Thoraval F., Ryder S.D., Safadi R., Sagalova O., Salupere R., Sanai F.M., Sanchez Avila J.F., Saraswat V., Sarmento-Castro R., Sarrazin C., Schmelzer J.D., Schreter I., Seguin-Devaux C., Shah S.R., Sharara A.I., Sharma M., Shevaldin A., Shiha G.E., Sonderup M., Souliotis K., Speiciene D., Sperl J., Starkel P., Stauber R.E., Stedman C., Struck D., Su T.-H., Sypsa V., Tan S.-S., Tanaka J., Thompson A.J., Tolmane I., Tomasiewicz K., Valantinas J., Van Damme P., Van Der Meer A.J., Van Thiel I., Van Vlierberghe H., Vince A., Vogel W., Wedemeyer H., Weis N., Wong V.W.S., Yaghi C., Yosry A., Yuen M.-F., Yunihastuti E., Yusuf A., Zuckerman E., Razavi H., Sievert W., Blach S., Zeuzem S., Manns M., Altraif I., Duberg A.-S., Muljono D.H., Waked I., Alavian S.M., Lee M.-H., Negro F., Abaalkhail F., Abdou A., Abdulla M., Abou Rached A., Aho I., Akarca U., Al Ghazzawi I., Al Kaabi S., Al Lawati F., Al Namaani K., Al Serkal Y., Al-Busafi S.A., Al-Dabal L., Aleman S., Alghamdi A.S., Aljumah A.A., Al-Romaihi H.E., Andersson M.I., Arendt V., Arkkila P., Assiri A.M., Baatarkhuu O., Bane A., Ben-Ari Z., Bergin C., Bessone F., Bihl F., Bizri A.R., Blachier M., Blasco A.J., Brandao Mello C.E., Bruggmann P., Brunton C.R., Calinas F., Chan H.L.Y., Chaudhry A., Cheinquer H., Chen C.-J., Chien R.-N., Choi M.S., Christensen P.B., Chuang W.-L., Chulanov V., Cisneros L., Clausen M.R., Cramp M.E., Craxi A., Croes E.A., Dalgard O., Daruich J.R., El-Sayed M.H., Ergor G., Esmat G., Estes C., Falconer K., Ferraz M.L.G., Ferreira P.R., Flisiak R., Frankova S., Gamkrelidze I., Gane E., Garcia-Samaniego J., Khan A.G., Gountas I., Goldis A., Gottfredsson M., Grebely J., Gschwantler M., Guimaraes Pessoa M., Gunter J., Hajarizadeh B., Hajelssedig O., Hamid S., Hamoudi W., Hatzakis A., Himatt S.M., Hofer H., Hrstic I., Hui Y.-T., Hunyady B., Idilman R., Jafri W., Jahis R., Janjua N.Z., Jarcuska P., Jeruma A., Jonasson J.G., Kamel Y., Kao J.-H., Kaymakoglu S., Kershenobich D., Khamis J., Kim Y.S., Kondili L., Koutoubi Z., Krajden M., Krarup H., Lai M.-S., Laleman W., Lao W.-C., Lavanchy D., Lazaro P., Leleu H., Lesi O., Lesmana L.A., Li M., Liakina V., Lim Y.-S., Luksic B., Mahomed A., Maimets M., Makara M., Malu A.O., Marinho R.T., Marotta P., Mauss S., Memon M.S., Mendes Correa M.C., Mendez-Sanchez N., Merat S., Metwally A.M., Mohamed R., Moreno C., Mourad F.H., Mullhaupt B., Murphy K., Nde H., Njouom R., Nonkovic D., Norris S., Obekpa S., Oguche S., Olafsson S., Oltman M., Omede O., Omuemu C., Opare-Sem O., Ovrehus A.L.H., Owusu-Ofori S., Oyunsuren T.S., Farag E., De Ledinghen V., Dore G.J., Papatheodoridis G., Pasini K., Peltekian K.M., Phillips R.O., Pimenov N., Poustchi H., Prabdial-Sing N., Qureshi H., Ramji A., Razavi-Shearer D., Razavi-Shearer K., Redae B., Reesink H.W., Ridruejo E., Robbins S., Roberts L.R., Roberts S.K., Rosenberg W.M., Roudot-Thoraval F., Ryder S.D., Safadi R., Sagalova O., Salupere R., Sanai F.M., Sanchez Avila J.F., Saraswat V., Sarmento-Castro R., Sarrazin C., Schmelzer J.D., Schreter I., Seguin-Devaux C., Shah S.R., Sharara A.I., Sharma M., Shevaldin A., Shiha G.E., Sonderup M., Souliotis K., Speiciene D., Sperl J., Starkel P., Stauber R.E., Stedman C., Struck D., Su T.-H., Sypsa V., Tan S.-S., Tanaka J., Thompson A.J., Tolmane I., Tomasiewicz K., Valantinas J., Van Damme P., Van Der Meer A.J., Van Thiel I., Van Vlierberghe H., Vince A., Vogel W., Wedemeyer H., Weis N., Wong V.W.S., Yaghi C., Yosry A., Yuen M.-F., Yunihastuti E., Yusuf A., Zuckerman E., Razavi H., Sievert W., Blach S., Zeuzem S., Manns M., Altraif I., Duberg A.-S., Muljono D.H., Waked I., Alavian S.M., Lee M.-H., Negro F., Abaalkhail F., Abdou A., Abdulla M., Abou Rached A., Aho I., Akarca U., Al Ghazzawi I., Al Kaabi S., Al Lawati F., Al Namaani K., Al Serkal Y., Al-Busafi S.A., Al-Dabal L., Aleman S., Alghamdi A.S., Aljumah A.A., Al-Romaihi H.E., Andersson M.I., Arendt V., Arkkila P., Assiri A.M., Baatarkhuu O., Bane A., Ben-Ari Z., Bergin C., Bessone F., Bihl F., Bizri A.R., Blachier M., Blasco A.J., Brandao Mello C.E., Bruggmann P., Brunton C.R., Calinas F., Chan H.L.Y., Chaudhry A., Cheinquer H., Chen C.-J., Chien R.-N., Choi M.S., Christensen P.B., Chuang W.-L., Chulanov V., Cisneros L., Clausen M.R., Cramp M.E., Craxi A., Croes E.A., Dalgard O., Daruich J.R., El-Sayed M.H., Ergor G., Esmat G., Estes C., Falconer K., Ferraz M.L.G., Ferreira P.R., Flisiak R., Frankova S., Gamkrelidze I., Gane E., Garcia-Samaniego J., Khan A.G., Gountas I., Goldis A., Gottfredsson M., Grebely J., Gschwantler M., Guimaraes Pessoa M., Gunter J., Hajarizadeh B., Hajelssedig O., Hamid S., Hamoudi W., Hatzakis A., Himatt S.M., Hofer H., Hrstic I., Hui Y.-T., Hunyady B., Idilman R., Jafri W., Jahis R., Janjua N.Z., Jarcuska P., Jeruma A., Jonasson J.G., Kamel Y., Kao J.-H., Kaymakoglu S., Kershenobich D., Khamis J., Kim Y.S., Kondili L., Koutoubi Z., Krajden M., Krarup H., Lai M.-S., Laleman W., Lao W.-C., Lavanchy D., Lazaro P., Leleu H., Lesi O., Lesmana L.A., Li M., Liakina V., Lim Y.-S., Luksic B., Mahomed A., Maimets M., Makara M., Malu A.O., Marinho R.T., Marotta P., Mauss S., Memon M.S., Mendes Correa M.C., Mendez-Sanchez N., Merat S., Metwally A.M., Mohamed R., Moreno C., Mourad F.H., Mullhaupt B., Murphy K., Nde H., Njouom R., Nonkovic D., Norris S., Obekpa S., Oguche S., Olafsson S., Oltman M., Omede O., Omuemu C., Opare-Sem O., Ovrehus A.L.H., Owusu-Ofori S., and Oyunsuren T.S.

Abstract

Background The 69th World Health Assembly approved the Global Health Sector Strategy to eliminate hepatitis C virus (HCV) infection by 2030, which can become a reality with the recent launch of direct acting antiviral therapies. Reliable disease burden estimates are required for national strategies. This analysis estimates the global prevalence of viraemic HCV at the end of 2015, an update of-and expansion on-the 2014 analysis, which reported 80 million (95% CI 64-103) viraemic infections in 2013. Methods We developed country-level disease burden models following a systematic review of HCV prevalence (number of studies, n=6754) and genotype (n=11 342) studies published after 2013. A Delphi process was used to gain country expert consensus and validate inputs. Published estimates alone were used for countries where expert panel meetings could not be scheduled. Global prevalence was estimated using regional averages for countries without data. Findings Models were built for 100 countries, 59 of which were approved by country experts, with the remaining 41 estimated using published data alone. The remaining countries had insufficient data to create a model. The global prevalence of viraemic HCV is estimated to be 1.0% (95% uncertainty interval 0.8-1.1) in 2015, corresponding to 71.1 million (62.5-79.4) viraemic infections. Genotypes 1 and 3 were the most common cause of infections (44% and 25%, respectively). Interpretation The global estimate of viraemic infections is lower than previous estimates, largely due to more recent (lower) prevalence estimates in Africa. Additionally, increased mortality due to liver-related causes and an ageing population may have contributed to a reduction in infections. Funding John C Martin Foundation.Copyright © 2017 Elsevier Ltd

Published
2017

34. Global prevalence and genotype distribution of hepatitis C virus infection in 2015: A modelling study

Author

Blach, S, Zeuzem, S, Manns, M, Altraif, I, Duberg, AS, Muljono, DH, Waked, I, Alavian, SM, Lee, MH, Negro, F, Abaalkhail, F, Abdou, A, Abdulla, M, Abou Rached, A, Aho, I, Akarca, U, Al Ghazzawi, I, Al Kaabi, S, Al Lawati, F, Al Namaani, K, Al Serkal, Y, Al-Busafi, SA, Al-Dabal, L, Aleman, S, Alghamdi, AS, Aljumah, AA, Al-Romaihi, HE, Andersson, MI, Arendt, V, Arkkila, P, Assiri, AM, Baatarkhuu, O, Bane, A, Ben-Ari, Z, Bergin, C, Bessone, F, Bihl, F, Bizri, AR, Blachier, M, Blasco, AJ, Brandao Mello, CE, Bruggmann, P, Brunton, CR, Calinas, F, Chan, HLY, Chaudhry, A, Cheinquer, H, Chen, CJ, Chien, RN, Choi, MS, Christensen, PB, Chuang, WL, Chulanov, V, Cisneros, L, Clausen, MR, Cramp, ME, Craxi, A, Croes, EA, Dalgard, O, Daruich, JR, De Ledinghen, V, Dore, GJ, El-Sayed, MH, Ergor, G, Esmat, G, Estes, C, Falconer, K, Farag, E, Ferraz, MLG, Ferreira, PR, Flisiak, R, Frankova, S, Gamkrelidze, I, Gane, E, Garcia-Samaniego, J, Khan, AG, Gountas, I, Goldis, A, Gottfredsson, M, Grebely, J, Gschwantler, M, Guimaraes Pessoa, M, Gunter, J, Hajarizadeh, B, Hajelssedig, O, Hamid, S, Hamoudi, W, Hatzakis, A, Himatt, SM, Hofer, H, Hrstic, I, Hui, YT, Hunyady, B, Idilman, R, Jafri, W, Jahis, R, Janjua, NZ, Jarčuška, P, Jeruma, A, Jonasson, JG, Blach, S, Zeuzem, S, Manns, M, Altraif, I, Duberg, AS, Muljono, DH, Waked, I, Alavian, SM, Lee, MH, Negro, F, Abaalkhail, F, Abdou, A, Abdulla, M, Abou Rached, A, Aho, I, Akarca, U, Al Ghazzawi, I, Al Kaabi, S, Al Lawati, F, Al Namaani, K, Al Serkal, Y, Al-Busafi, SA, Al-Dabal, L, Aleman, S, Alghamdi, AS, Aljumah, AA, Al-Romaihi, HE, Andersson, MI, Arendt, V, Arkkila, P, Assiri, AM, Baatarkhuu, O, Bane, A, Ben-Ari, Z, Bergin, C, Bessone, F, Bihl, F, Bizri, AR, Blachier, M, Blasco, AJ, Brandao Mello, CE, Bruggmann, P, Brunton, CR, Calinas, F, Chan, HLY, Chaudhry, A, Cheinquer, H, Chen, CJ, Chien, RN, Choi, MS, Christensen, PB, Chuang, WL, Chulanov, V, Cisneros, L, Clausen, MR, Cramp, ME, Craxi, A, Croes, EA, Dalgard, O, Daruich, JR, De Ledinghen, V, Dore, GJ, El-Sayed, MH, Ergor, G, Esmat, G, Estes, C, Falconer, K, Farag, E, Ferraz, MLG, Ferreira, PR, Flisiak, R, Frankova, S, Gamkrelidze, I, Gane, E, Garcia-Samaniego, J, Khan, AG, Gountas, I, Goldis, A, Gottfredsson, M, Grebely, J, Gschwantler, M, Guimaraes Pessoa, M, Gunter, J, Hajarizadeh, B, Hajelssedig, O, Hamid, S, Hamoudi, W, Hatzakis, A, Himatt, SM, Hofer, H, Hrstic, I, Hui, YT, Hunyady, B, Idilman, R, Jafri, W, Jahis, R, Janjua, NZ, Jarčuška, P, Jeruma, A, and Jonasson, JG

Abstract

Background The 69th World Health Assembly approved the Global Health Sector Strategy to eliminate hepatitis C virus (HCV) infection by 2030, which can become a reality with the recent launch of direct acting antiviral therapies. Reliable disease burden estimates are required for national strategies. This analysis estimates the global prevalence of viraemic HCV at the end of 2015, an update of—and expansion on—the 2014 analysis, which reported 80 million (95% CI 64–103) viraemic infections in 2013. Methods We developed country-level disease burden models following a systematic review of HCV prevalence (number of studies, n=6754) and genotype (n=11 342) studies published after 2013. A Delphi process was used to gain country expert consensus and validate inputs. Published estimates alone were used for countries where expert panel meetings could not be scheduled. Global prevalence was estimated using regional averages for countries without data. Findings Models were built for 100 countries, 59 of which were approved by country experts, with the remaining 41 estimated using published data alone. The remaining countries had insufficient data to create a model. The global prevalence of viraemic HCV is estimated to be 1·0% (95% uncertainty interval 0·8–1·1) in 2015, corresponding to 71·1 million (62·5–79·4) viraemic infections. Genotypes 1 and 3 were the most common cause of infections (44% and 25%, respectively). Interpretation The global estimate of viraemic infections is lower than previous estimates, largely due to more recent (lower) prevalence estimates in Africa. Additionally, increased mortality due to liver-related causes and an ageing population may have contributed to a reduction in infections. Funding John C Martin Foundation.

Published
2017

38. Are ALOX5AP gene SNPs a risk or protective factor for stroke?

Author

Papapostolou, A. Spengos, K. Fylaktou, I. Poulou, M. Gountas, I. Kitsiou-Tzeli, S. Kanavakis, E. Tzetis, M.

Abstract

ALOX5AP (5-lipoxygenase) has been recognized as a susceptibility gene for stroke. Using a case-control design, the whole coding and adjoining intronic regions of ALOX5AP were sequenced to study the role of SNPs and their interplay with other risk factors in Greek patients with stroke. Patients (n = 213) were classified by the Trial of Org 10172 in Acute Stroke Treatment (TOAST). Their mean age of was 58.9 ± 14.64, comprising 145 males. The control group consisted of 210 subjects, ethnicity, sex and age matched, with no stroke history. Risk factors (hyperlipidemia, hypertension, atrial fibrillation, migraine, CAD, diabetes, smoking and alcohol consumption) were assessed as confounding factors and comparisons were done using logistic regression analysis. SNPs rs4769055, rs202068154 and rs3803277 located in intronic regions of the gene and according to in silico programs EX_SKIP and HSF possibly affecting splicing of exons 1 and 2 of ALOX5AP, showed significantly different frequencies between patients and controls. The genotype frequencies of rs4769055: AA, of rs202068154: AC and of rs3803277: CA were significantly higher (p. < 0.001, 0.058) in controls than in patients. The results were indicative of a protective role of the three SNPs either in homozygosity or heterozygosity for MAF and more specifically rs3803277: CA/AA genotypes were protective against SVO stroke subtype. © 2014.

Published
2014

44. Global prevalence, treatment, and prevention of hepatitis B virus infection in 2016: a modelling study

Author

Mei Hsuan Lee, Maurizia Rossana Brunetto, Stefan Mauss, Sabahattin Kaymakoglu, CE Omuemu, Danjuma Adda, Philip Bruggmann, Beat Müllhaupt, Trân D Quang, Peter Jarcuska, Man-Fung Yuen, George V. Papatheodoridis, Rohani Jahis, Ding-Shinn Chen, Necati Örmeci, Christophe Moreno, Angelos Hatzakis, Antoine Abou Rached, Boris Lukšić, Thomas Berg, Renovat Ntagirabiri, Kathryn Razavi-Shearer, Sarah Blach, Gabriela Rjaskova, Samantha M Brandon, Jen Layden, Ohene Opare-Sem, Maria C Mendes Correa, Stefano Vella, Jan Sperl, Vincent Wai-Sun Wong, Hwai I. Yang, Stephen Oguche, Richard Njouom, Cielo Yaneth Rios, Yee Tak Hui, Behzad Hajarizadeh, Andy I. M. Hoepelman, Javier García-Samaniego, Ammal M. Metwally, Ivane Gamkrelidze, Julia A. Scott, Said A. Al-Busafi, Valentina Liakina, Zaigham Abbas, Olga Sagalova, Rifaat Safadi, Michael Manns, William Sievert, Seyed M Alavian, Kakharman Yesmembetov, Manal H El-Sayed, Juan Francisco Sánchez-Ávila, Wan-Long Chuang, Peter Stärkel, Ziv Ben-Ari, Chris Cunningham, Homie Razavi, Erkin Musabaev, Ulus Salih Akarca, Petr Urbánek, Gamal Shiha, Muhammed Aasim M Yusuf, Nina Weis, Hossein Poustchi, Ilias Gountas, E. A. Croes, Ayman Yosry, Reza Malekzadeh, Kostas Athanasakis, Agustín Albillos, Faleh Z. Al-Faleh, Christoph Sarrazin, Maria Buti, Arif Nawaz, Chung-Lin Yang, Kimberly Murphy, Adriana Vince, Aliya Konysbekova, Soek Siam Tan, Loreta A. Kondili, Mojca Matičič, Karolin Falconer, Hailemichael Desalegn, Alexander Nersesov, Ogu Omede, N. N. Pimenov, Nahum Méndez-Sánchez, Benjamin C Cowie, Helen Nde, Wai-cheung C Lao, Jordan Genov, Imam Waked, Joël Mossong, Ala I. Sharara, Henry Lik-Yuen Chan, Vivek A. Saraswat, Diego Alberto Cuellar, Devin Razavi-Shearer, Abraham O. Malu, Rui Tato Marinho, Huma Qureshi, Markus Cornberg, Faisal M. Sanai, Ching-kong K Loo, David Kershenobich, Pavol Kristian, Paulo R. Ferreira, Mel Krajden, Moon Seok Choi, Junko Tanaka, Faryal Al Lawati, Jonathan Schmelzer, Ann-Sofi Duberg, Jan Gerstoft, Lewis R. Roberts, Francesco Negro, Khalid Al Naamani, Wim Laleman, Solomon Obekpa, Henk W. Reesink, Tesia Shin, Richard Gray, Alnoor Ramji, Fadi H. Mourad, Abdul Rahman Bizri, Joop E. Arends, Shahin Merat, Krzysztof Tomasiewicz, Adkhamjon Mamatkulov, Jerzy Jaroszewicz, Peer Brehm Christensen, Adriaan J. van der Meer, Maheeba Abdulla, Frank Tacke, Cesar Yaghi, Pierre Van Damme, Christopher K Opio, Yasir Waheed, Joseph Woodring, Ponsiano Ocama, Zuridin Nurmatov, Bisi Bright, Van Thi Thuy Nguyen, Perttu Arkkila, Nick Walsh, Catherine A.M. Stedman, Mette Rye Clausen, Vladimir Chulanov, Antonio Craxì, Christophe Hézode, Abdulrahman Aljumah, Jeffrey V. Lazarus, Fuad Hasan, Sarah Robbins, Sona Frankova, Adrian Goldis, Rong-Nan Chien, Chris Estes, Stephen D. Ryder, Nguyen Thu Anh, Abate Bane, Muhammad S. Memon, Ken Pasini, Ivan Schréter, Sameer Alawadhi, Stuart K. Roberts, Steve S Egeonu, Anil C. Anand, Riina Salupere, Massimo Colombo, Giovanni Battista Gaeta, Maria Lucia Gomes Ferraz, Rosmawati Mohamed, Sylvia Drazilova, Hans Van Vlierberghe, Soo Aleman, Naveed Z. Janjua, Irena Hrstić, Manik Sharma, Carlos E Brandão Mello, Mario G. Pessoa, Berhane Redae, Mindie H. Nguyen, Petr Husa, Vana Sypsa, Samir Shah, Jacques E Mokhbat, Robert Flisiak, Carole Seguin-Devaux, Asad Chaudhry, Inka Aho, Sayed Himatt, Hamad I. Al-Ashgar, Young-Suk Lim, Stefan Zeuzem, University of Zurich, Polaris Observatory Collaborators, Polaris Observ Collaborators, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, Experimental Immunology, Gastroenterology & Hepatology, Razavi-Shearer D, Gamkrelidze I, Nguyen MH, Chen DS, Van Damme P, Abbas Z, Abdulla M, Abou Rached A, Adda D, Aho I, Akarca U, Hasan F, Al Lawati F, Al Naamani K, Al-Ashgar HI, Alavian SM, Alawadhi S, Albillos A, Al-Busafi SA, Aleman S, Alfaleh FZ, Aljumah AA, Anand AC, Anh NT, Arends JE, Arkkila P, Athanasakis K, Bane A, Ben-Ari Z, Berg T, Bizri AR, Blach S, Brandão Mello CE, Brandon SM, Bright B, Bruggmann P, Brunetto M, Buti M, Chan HLY, Chaudhry A, Chien RN, Choi MS, Christensen PB, Chuang WL, Chulanov V, Clausen MR, Colombo M, Cornberg M, Cowie B, Craxi A, Croes EA, Cuellar DA, Cunningham C, Desalegn H, Drazilova S, Duberg AS, Egeonu SS, El-Sayed MH, Estes C, Falconer K, Ferraz MLG, Ferreira PR, Flisiak R, Frankova S, Gaeta GB, García-Samaniego J, Genov J, Gerstoft J, Goldis A, Gountas I, Gray R, Guimarães Pessôa M, Hajarizadeh B, Hatzakis A, Hézode C, Himatt SM, Hoepelman A, Hrstic I, Hui YT, Husa P, Jahis R, Janjua NZ, Jarčuška P, Jaroszewicz J, Kaymakoglu S, Kershenobich D, Kondili LA, Konysbekova A, Krajden M, Kristian P, Laleman W, Lao WC, Layden J, Lazarus JV, Lee MH, Liakina V, Lim YS, Loo CK, Lukšić B, Malekzadeh R, Malu AO, Mamatkulov A, Manns M, Marinho RT, Maticic M, Mauss S, Memon MS, Mendes Correa MC, Mendez-Sanchez N, Merat S, Metwally AM, Mohamed R, Mokhbat JE, Moreno C, Mossong J, Mourad FH, Müllhaupt B, Murphy K, Musabaev E, Nawaz A, Nde HM, Negro F, Nersesov A, Nguyen VTT, Njouom R, Ntagirabiri R, Nurmatov Z, Obekpa S, Ocama P, Oguche S, Omede O, Omuemu C, Opare-Sem O, Opio CK, Örmeci N, Papatheodoridis G, Pasini K, Pimenov N, Poustchi H, Quang TD, Qureshi H, Ramji A, Razavi-Shearer K, Redae B, Reesink HW, Rios CY, Rjaskova G, Robbins S, Roberts LR, Roberts SK, Ryder SD, Safadi R, Sagalova O, Salupere R, Sanai FM, Sanchez-Avila JF, Saraswat V, Sarrazin C, Schmelzer JD, Schréter I, Scott J, Seguin-Devaux C, Shah SR, Sharara AI, Sharma M, Shiha GE, Shin T, Sievert W, Sperl J, Stärkel P, Stedman C, Sypsa V, Tacke F, Tan SS, Tanaka J, Tomasiewicz K, Urbanek P, van der Meer AJ, Van Vlierberghe H, Vella S, Vince A, Waheed Y, Waked I, Walsh N, Weis N, Wong VW, Woodring J, Yaghi C, Yang HI, Yang CL, Yesmembetov K, Yosry A, Yuen MF, Yusuf MAM, Zeuzem S, Razavi H., Negro, Francesco, Razavi-Shearer, Devin, Gamkrelidze, Ivane, Nguyen, Mindie H, Chen, Ding-Shinn, Van Damme, Pierre, Abbas, Zaigham, Abdulla, Maheeba, Abou Rached, Antoine, Adda, Danjuma, Aho, Inka, Akarca, Ulu, Hasan, Fuad, Al Lawati, Faryal, Al Naamani, Khalid, Al-Ashgar, Hamad Ibrahim, Alavian, Seyed M, Alawadhi, Sameer, Albillos, Agustin, Al-Busafi, Said A, Aleman, Soo, Alfaleh, Faleh Z, Aljumah, Abdulrahman A, Anand, Anil C, Anh, Nguyen Thu, Arends, Joop E, Arkkila, Perttu, Athanasakis, Kosta, Bane, Abate, Ben-Ari, Ziv, Berg, Thoma, Bizri, Abdul R, Blach, Sarah, Brandão Mello, Carlos E, Brandon, Samantha M, Bright, Bisi, Bruggmann, Philip, Brunetto, Maurizia, Buti, Maria, Chan, Henry L Y, Chaudhry, Asad, Chien, Rong-Nan, Choi, Moon S, Christensen, Peer B, Chuang, Wan-Long, Chulanov, Vladimir, Clausen, Mette R, Colombo, Massimo, Cornberg, Marku, Cowie, Benjamin, Craxi, Antonio, Croes, Esther A, Cuellar, Diego Alberto, Cunningham, Chri, Desalegn, Hailemichael, Drazilova, Sylvia, Duberg, Ann-Sofi, Egeonu, Steve S, El-Sayed, Manal H, Estes, Chri, Falconer, Karolin, Ferraz, Maria L G, Ferreira, Paulo R, Flisiak, Robert, Frankova, Sona, Gaeta, Giovanni B, García-Samaniego, Javier, Genov, Jordan, Gerstoft, Jan, Goldis, Adrian, Gountas, Ilia, Gray, Richard, Guimarães Pessôa, Mário, Hajarizadeh, Behzad, Hatzakis, Angelo, Hézode, Christophe, Himatt, Sayed M, Hoepelman, Andy, Hrstic, Irena, Hui, Yee-Tak T, Husa, Petr, Jahis, Rohani, Janjua, Naveed Z, Jarčuška, Peter, Jaroszewicz, Jerzy, Kaymakoglu, Sabahattin, Kershenobich, David, Kondili, Loreta A, Konysbekova, Aliya, Krajden, Mel, Kristian, Pavol, Laleman, Wim, Lao, Wai-cheung C, Layden, Jen, Lazarus, Jeffrey V, Lee, Mei-Hsuan, Liakina, Valentina, Lim, Young-Suk S, Loo, Ching-kong K, Lukšić, Bori, Malekzadeh, Reza, Malu, Abraham O, Mamatkulov, Adkhamjon, Manns, Michael, Marinho, Rui T, Maticic, Mojca, Mauss, Stefan, Memon, Muhammad S, Mendes Correa, Maria C, Mendez-Sanchez, Nahum, Merat, Shahin, Metwally, Ammal M, Mohamed, Rosmawati, Mokhbat, Jacques E, Moreno, Christophe, Mossong, Joel, Mourad, Fadi H, Müllhaupt, Beat, Murphy, Kimberly, Musabaev, Erkin, Nawaz, Arif, Nde, Helen M, Nersesov, Alexander, Nguyen, Van Thi Thuy, Njouom, Richard, Ntagirabiri, Renovat, Nurmatov, Zuridin, Obekpa, Solomon, Ocama, Ponsiano, Oguche, Stephen, Omede, Ogu, Omuemu, Casimir, Opare-Sem, Ohene, Opio, Christopher K, Örmeci, Necati, Papatheodoridis, George, Pasini, Ken, Pimenov, Nikolay, Poustchi, Hossein, Quang, Trân D, Qureshi, Huma, Ramji, Alnoor, Razavi-Shearer, Kathryn, Redae, Berhane, Reesink, Henk W, Rios, Cielo Yaneth, Rjaskova, Gabriela, Robbins, Sarah, Roberts, Lewis R, Roberts, Stuart K, Ryder, Stephen D, Safadi, Rifaat, Sagalova, Olga, Salupere, Riina, Sanai, Faisal M, Sanchez-Avila, Juan F, Saraswat, Vivek, Sarrazin, Christoph, Schmelzer, Jonathan D, Schréter, Ivan, Scott, Julia, Seguin-Devaux, Carole, Shah, Samir R, Sharara, Ala I, Sharma, Manik, Shiha, Gamal E, Shin, Tesia, Sievert, William, Sperl, Jan, Stärkel, Peter, Stedman, Catherine, Sypsa, Vana, Tacke, Frank, Tan, Soek S, Tanaka, Junko, Tomasiewicz, Krzysztof, Urbanek, Petr, van der Meer, Adriaan J, Van Vlierberghe, Han, Vella, Stefano, Vince, Adriana, Waheed, Yasir, Waked, Imam, Walsh, Nichola, Weis, Nina, Wong, Vincent W, Woodring, Joseph, Yaghi, Cesar, Yang, Hwai-I, Yang, Chung-Lin, Yesmembetov, Kakharman, Yosry, Ayman, Yuen, Man-Fung, Yusuf, Muhammed Aasim M, Zeuzem, Stefan, and Razavi, Homie

Subjects
0301 basic medicine, BIOMEDICINE AND HEALTHCARE. Clinical Medical Sciences, HBsAg, Pediatrics, Delphi Technique, Infectious Disease Transmission, CHRONIC HBV INFECTION, NATURAL-HISTORY, FOLLOW-UP, HBSAG, CARRIERS, AGE, COUNTRIES, DISEASE, ANTIGEN, COHORT, ddc:616.07, Global Health, medicine.disease_cause, 0302 clinical medicine, Prevalence, HBV, Child, ddc:616, Antiviral Agents/therapeutic use, education.field_of_study, BIOMEDICINA I ZDRAVSTVO. Kliničke medicinske znanosti, Chronic/drug therapy/epidemiology/prevention & control/transmission, Gastroenterology, Hepatitis B Surface Antigens/blood, Hepatitis B, 10219 Clinic for Gastroenterology and Hepatology, Child, Preschool, 030211 gastroenterology & hepatology, Viral hepatitis, Viral load, Adult, medicine.medical_specialty, Hepatitis B vaccine, Population, 610 Medicine & health, Antiviral Agents, Mass Vaccination, Hepatology, 03 medical and health sciences, Hepatitis B, Chronic, SDG 3 - Good Health and Well-being, medicine, Humans, 2715 Gastroenterology, Preschool, education, Disease burden, Hepatitis B virus, Hepatitis B Surface Antigens, business.industry, Viral Vaccines, medicine.disease, Infectious Disease Transmission, Vertical, Vertical/prevention & control, 030104 developmental biology, 2721 Hepatology, Human medicine, business
Abstract

PubMed: 29599078, 2-s2.0-85044540918, Background: The 69th World Health Assembly approved the Global Health Sector Strategy to eliminate viral hepatitis by 2030. Although no virological cure exists for hepatitis B virus (HBV) infection, existing therapies to control viral replication and prophylaxis to minimise mother-to-child transmission make elimination of HBV feasible. We aimed to estimate the national, regional, and global prevalence of HBsAg in the general population and in the population aged 5 years in 2016, as well as coverage of prophylaxis, diagnosis, and treatment. Methods: In this modelling study, we used a Delphi process that included a literature review in PubMed and Embase, followed by interviews with experts, to quantify the historical epidemiology of HBV infection. We then used a dynamic HBV transmission and progression model to estimate the country-level and regional-level prevalence of HBsAg in 2016 and the effect of prophylaxis and treatment on disease burden. Findings: We developed models for 120 countries, 78 of which were populated with data approved by experts. Using these models, we estimated that the global prevalence of HBsAg in 2016 was 3·9% (95% uncertainty interval [UI] 3·4–4·6), corresponding to 291 992 000 (251 513 000–341 114 000) infections. Of these infections, around 29 million (10%) were diagnosed, and only 4·8 million (5%) of 94 million individuals eligible for treatment actually received antiviral therapy. Around 1·8 (1·6–2·2) million infections were in children aged 5 years, with a prevalence of 1·4% (1·2–1·6). We estimated that 87% of infants had received the three-dose HBV vaccination in the first year of life, 46% had received timely birth-dose vaccination, and 13% had received hepatitis B immunoglobulin along with the full vaccination regimen. Less than 1% of mothers with a high viral load had received antiviral therapy to reduce mother-to-child transmission. Interpretation: Our estimate of HBV prevalence in 2016 differs from previous studies, potentially because we took into account the effect of infant prophylaxis and early childhood vaccination, as well as changing prevalence over time. Although some regions are well on their way to meeting prophylaxis and prevalence targets, all regions must substantially scale-up access to diagnosis and treatment to meet the global targets. Funding: John C Martin Foundation. © 2018 Elsevier Ltd, H28-kansei-ippan-001 National Academy of Sciences, NAS Novartis Roche World Health Organization, WHO Gilead Sciences Alnylam Pharmaceuticals AbbVie Meso Scale Diagnostics, MSD British Microcirculation Society, BMS Japan Society for the Promotion of Science, JSPS: 17H03589 Ministry of Health, Labour and Welfare, MHLW Vetenskapsrådet, VR Siemens Universiteit Antwerpen OLL-683801, DR-S, IGa, SB, SMB, CE, KM, HMN, KP, KR-S, SR, JDS, and HR report grants from John C Martin Foundation, during the conduct of the study, and grants from Gilead Sciences, AbbVie, WHO, National Academy of Sciences, Intercept Pharmaceuticals, and Boehringer Ingelheim, outside the submitted work. MHN reports grants and personal fees from Bristol-Myers Squibb (BMS), Gilead Sciences, and Janssen, and personal fees from Novartis, Anylam, and Dynavax, outside the submitted work. PVD acts as chief and principal investigator for vaccine trials done on behalf of the University of Antwerp, Belgium, for which the University obtains research grants from vaccine manufacturers; speaker's fees for presentations on vaccines are paid directly to an educational fund held by the University of Antwerp, and PVD receives no personal remuneration for this work. ACA reports personal fees from Mylan Pharmaceuticals, outside the submitted work. JEA reports fees paid to his hospital for participation on the advisory boards of Gilead Sciences, ViiV Healthcare, BMS, Janssen, and AbbVie, and grants from BMS, Merck Sharp & Dohme (MSD), AbbVie, and ViiV Healthcare, outside the submitted work. TB reports grants, personal fees, and non-financial support from AbbVie and Gilead Sciences; grants and personal fees from BMS, Janssen, Roche, MSD, and Sequana Medical; and personal fees from Bayer, Vertex, Tibotec, Intercept, Sirtex, and Alexion, outside the submitted work. PB reports grants and personal fees from AbbVie, Gilead Sciences, and MSD, outside the submitted work. MBr reports personal fees from BMS, Gilead Sciences, and Janssen, and grants from BMS, outside the submitted work. HLYC reports personal fees from Gilead Sciences, BMS, AbbVie, Roche, MedImmune, and Intellia, outside the submitted work. PBC reports grants from AbbVie, Gilead Sciences, and MSD, outside the submitted work. VC reports personal fees from AbbVie, BMS, Gilead Sciences, and MSD, and grants from BMS, outside the submitted work. MCor reports personal fees from AbbVie, BMS, Boehringer Ingelheim, Biogen Idec, Falk Foundation, Gilead Sciences, Janssen, MSD, Roche Diagnostics, Roche Pharma, and Siemens, outside the submitted work. SD and PJ report personal fees and non-financial support from AbbVie and Gilead Sciences, and personal fees from MSD, outside the submitted work. MHE-S is an advisory board member for Perspectum Diagnostics, and reports grants and non-financial support from Gilead Sciences, and non-financial support from AbbVie and Quadri Pharma, outside the submitted work. RF reports grants, personal fees, and non-financial support from Roche and Gilead Sciences, and personal fees and non-financial support from BMS, outside the submitted work. GBG reports grants and personal fees from Gilead Sciences, outside the submitted work. JG-S reports grants and personal fees from Gilead Sciences, and personal fees from MSD, Abbvie, Janssen, and BMS, outside the submitted work. JGer reports grants and personal fees from AbbVie, Gilead Sciences, Janssen, MSD, BMS, and ViiV Healthcare, outside the submitted work. RG reports grants from New South Wales Ministry of Health and provided project advice regarding viral hepatitis treatment to Gilead Sciences, outside the submitted work. AHa reports unrestricted grants from AbbVie, MSD, Gilead Sciences, BMS, and Novartis, and non-financial support from Gilead Sciences, outside the submitted work; he was also on advisory boards for AbbVie, Gilead Sciences, and BMS. CH reports personal fees from AbbVie, BMS, Gilead Sciences, Janssen, and MSD, outside the submitted work. JJ reports personal fees and non-financial support from Gilead Sciences and AbbVie, and personal fees from Roche and BMS, outside the submitted work. MK reports grants from Roche, Siemens, Hologic, and Boerhinger Ingleheim, outside the submitted work. JVL reports grants and personal fees from Gilead Sciences and personal fees from Cepheid, outside the submitted work. MMan reports personal fees from Roche, BMS, GlaxoSmithKline, Aevi Genomic Medicine, ENYO Pharma, and CureVac, and grants and personal fees from Gilead Sciences and Novartis, outside the submitted work. SMau reports personal fees and non-financial support from Gilead Sciences and BMS, outside the submitted work. CM reports grants and personal fees from AbbVie, Gilead Sciences, and BMS; personal fees from MSD; and grants from Roche, outside the submitted work. BM reports grants and personal fees from Gilead Sciences and personal fees from AbbVie, MSD, BMS, Bayer, Intercept, and Sigma-Tau, during the conduct of the study. FN reports personal fees and non-financial support from Gilead Sciences, during the conduct of the study. AR reports grants and personal fees from AbbVie, Gilead, and MSD, and personal fees form BMS, Celgene, Janssen, Intercept, and Lupin, outside the submitted work. HWR reports grants and personal fees from AbbVie, BMS, Boehringer Ingelheim, ENYO Pharma, Gilead Sciences, Janssen, MSD, PRA Health Sciences, Regulus, and Roche; personal fees from Alnylam and R-Pharm; and grants from Replicor, outside the submitted work. LRR reports grants from the Center for Clinical and Translational Science and the Swedish Research Council (Ghana), during the conduct of the study. LRR also reports grants from Gilead Sciences, BTG, Ariad, and Wako, outside the submitted work, and was a consultant and advisory board member for Wako, Medscape, Axis, OncLive, Bayer, Tavec, and Grail. SDR has served as an advisory board member and speaker for Gilead Sciences, AbbVie, and MSD. OS has served as a consultant and on advisory boards for MSD; received research grants from AbbVie, BMS, MSD, Boehringer Ingelheim, R-Pharm, and Hepatera; and served as a speaker for Abbott, AbbVie, BMS, Gilead Sciences, Janssen, MSD, and R-Pharm. JFS-A reports personal fees from AbbVie and grants from Gilead Sciences and Janssen, outside the submitted work. CSa reports personal fees from Gilead Sciences and BMS, outside the submitted work. PS reports grants and personal fees from Gilead Sciences, AbbVie, and BMS, and personal fees from Intercept, outside the submitted work. CSt has consulted with and served on advisory boards for Gilead Sciences, AbbVie, and MSD. VSy reports grants and personal fees from Gilead Sciences, personal fees and non-financial support from AbbVie, and personal fees from Janssen, outside the submitted work. KT reports grants and personal fees from AbbVie, Gilead Sciences, and BMS; personal fees from MSD and Alfa Wasserman; and grants from Janssen, outside the submitted work. AJvdM reports grants and personal fees from Gilead Sciences and personal fees from AbbVie, outside the submitted work. IW reports personal fees from AbbVie, Gilead Sciences, Janssen, Marcyrl, Mylan, Onxio, and Pharco, outside the submitted work. NW reports personal fees paid to her department from AbbVie, BMS, Gilead Sciences, and MSD, outside the submitted work. VWW reports personal fees from Gilead Sciences, BMS, and MSD, outside the submitted work. M-FY was a speaker or advisory board member for AbbVie, BMS, Gilead Sciences, Roche, GlaxoSmithKline, Fujirebio, Biocartis, and MSD, outside the submitted work. SZ reports consultancy and lecture fees from AbbVie, Gilead Sciences, and MSD, and consultancy fees from Intercept, outside the submitted work. All other authors declare no competing interests., This study was funded by the John C Martin Foundation through the Polaris Observatory. We thank the Research on Hepatitis group (H28-kansei-ippan-001 and H25-kanen-ippan-010; led by JT), funded by the Ministry of Health, Labour and Welfare of Japan, for their provision of country-level data for Japan, and Örebro County Council for providing ALF grants (OLL-683801) to A-SD, which allowed collection of country-level data for Sweden.

Published
2018
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45. Global prevalence and genotype distribution of hepatitis C virus infection in 2015:a modelling study

Author

Hans Van Vlierberghe, Soo Aleman, Naveed Z. Janjua, Henry Lik-Yuen Chan, Olufunmilayo A. Lesi, Irena Hrstić, Abdullah M. Assiri, William Rosenberg, Moon sing Lai, Vladimir Chulanov, Jan Sperl, Beat Müllhaupt, Michael Manns, William Sievert, Sabahattin Kaymakoglu, Cesar Yaghi, Evy Yunihastuti, Pierre Van Damme, Jon G. Jonasson, Antonio Javier Blasco, Young Sik Kim, S. Olafsson, Rohani Jahis, Christoph Sarrazin, Manik Sharma, Aasim Yusuf, Omer Hajelssedig, Javier García-Samaniego, Boris Lukšić, Peter Stärkel, Stefan Zeuzem, Stephen Oguche, E. A. Croes, Abdullah S. Alghamdi, Richard Njouom, CE Omuemu, Carlos E Brandão Mello, Adam Mahomed, Behzad Hajarizadeh, Ogu Omede, Said A. Al-Busafi, Sarah Robbins, Peer Brehm Christensen, Ammal M. Metwally, Béla Hunyady, Gamal Esmat, Ivane Gamkrelidze, Maheeba Abdulla, Suzanne Norris, Sarah Blach, Harald Hofer, Maria C Mendes Correa, Devin Razavi-Shearer, Matti Maimets, Chien-Jen Chen, Peter Jarcuska, Marian Oltman, Francesco Negro, Ilias Gountas, Ayman Yosry, Sona Frankova, Adrian Goldis, Laurentius A. Lesmana, Ivan Schréter, Danute Speiciene, Kevork M. Peltekian, Berhane Redae, Stuart K. Roberts, Valentina Liakina, Seyed M Alavian, Wai-cheung C Lao, Ziv Ben-Ari, Imad Al Ghazzawi, Cheryl Brunton, Rudolf E. Stauber, Akram Khan, Tung-Hung Su, Manal H El-Sayed, Kimberly Murphy, Kyriakos Souliotis, Adriana Vince, Ramazan Idilman, Christophe Moreno, Angelos Hatzakis, Lewis R. Roberts, Richard Phillips, Jason Grebely, Michael Gschwantler, Hugo Cheinquer, Vana Sypsa, Samir Shah, Wolfgang Vogel, M. Blachier, Abate Bane, Henri Leleu, Saeed Hamid, Ohene Opare-Sem, Hamad Al-Romaihi, Wan-Long Chuang, Alexander J. Thompson, Agita Jeruma, Robert Flisiak, Catherine A.M. Stedman, Ingo van Thiel, Carole Seguin-Devaux, Jonathan Schmelzer, Juan F.Sanchez Avila, Rui Tato Marinho, Muhammad S. Memon, Nina Weis, Rosmawati Mohamed, Florian Bihl, Moon Seok Choi, David Kershenobich, Vic Arendt, Yee Tak Hui, Mei Hsuan Lee, N. N. Pimenov, Saad Al Kaabi, Ken Pasini, Henrik Krarup, Stefan Mauss, Shahin Merat, Khalid Al Namaani, Rong-Nan Chien, Perttu Arkkila, Henk W. Reesink, Françoise Roudot-Thoraval, Paul Marotta, Shirley Owusu-Ofori, Fadi H. Mourad, Abdul Rahman Bizri, Chris Estes, Heiner Wedemeyer, Faisal M. Sanai, Mihály Makara, Stephen D. Ryder, Mel Krajden, Laura Cisneros, Adriaan J. van der Meer, Eli Zuckerman, Matthew E. Cramp, Rui Sarmento-Castro, Magnus Gottfredsson, Gregory J. Dore, Huma Qureshi, Yasser Kamel, Olga Sagalova, Rifaat Safadi, Wim Laleman, Solomon Obekpa, Karolin Falconer, Edward Gane, Philip Bruggmann, Fernando Bessone, Jia-Horng Kao, Daniel Lavanchy, Riina Salupere, Anne Øvrehus, Ulus Salih Akarca, Monique Andersson, Man-Fung Yuen, Ala I. Sharara, Olav Dalgard, Homie Razavi, Gamal Shiha, Paulo R. Ferreira, George V. Papatheodoridis, Anatoly Shevaldin, Jawad Khamis, Waseem Hamoudi, Kathryn Razavi-Shearer, Vincent Ws Wong, Loreta A. Kondili, Maria Lucia Gomes Ferraz, Wasim Jafri, Pablo Lázaro, Faisal Abaalkhail, David H. Muljono, Youssif Al Serkal, Imam Waked, Zaher Koutoubi, Oidov Baatarkhuu, Nahum Méndez-Sánchez, Abraham O. Malu, Daniel Struck, Helen Nde, Alnoor Ramji, Ahmed Abdou, Antoine Abou Rached, Michael Li, Diana Nonković, Jorge Daruich, Ezequiel Ridruejo, Gül Ergör, Ann-Sofi Duberg, Krzysztof Tomasiewicz, Filipe Calinas, Hossein Poustchi, Layla Al-Dabal, Jessie Gunter, Mark W. Sonderup, Colm Bergin, Mario G. Pessoa, Jonas Valantinas, Asad Chaudhry, Junko Tanaka, Tsendsuren S. Oyunsuren, Soek Siam Tan, Vivek A. Saraswat, Young-Suk Lim, Ibrahim Altraif, Victor de Ledinghen, Faryal Al Lawati, Mette Rye Clausen, Ieva Tolmane, Antonio Craxì, Abdulrahman Aljumah, Elmoubashar Farag, Inka Aho, Sayed Himatt, Nishi Prabdial-Sing, Blach S., Zeuzem S., Manns M., Altraif I., Duberg A.-S., Muljono D.H., Waked I., Alavian S.M., Lee M.-H., Negro F., Abaalkhail F., Abdou A., Abdulla M., Abou Rached A., Aho I., Akarca U., Al Ghazzawi I., Al Kaabi S., Al Lawati F., Al Namaani K., Al Serkal Y., Al-Busafi S.A., Al-Dabal L., Aleman S., Alghamdi A.S., Aljumah A.A., Al-Romaihi H.E., Andersson M.I., Arendt V., Arkkila P., Assiri A.M., Baatarkhuu O., Bane A., Ben-Ari Z., Bergin C., Bessone F., Bihl F., Bizri A.R., Blachier M., Blasco A.J., Brandao Mello C.E., Bruggmann P., Brunton C.R., Calinas F., Chan H.L.Y., Chaudhry A., Cheinquer H., Chen C.-J., Chien R.-N., Choi M.S., Christensen P.B., Chuang W.-L., Chulanov V., Cisneros L., Clausen M.R., Cramp M.E., Craxi A., Croes E.A., Dalgard O., Daruich J.R., De Ledinghen V., Dore G.J., El-Sayed M.H., Ergor G., Esmat G., Estes C., Falconer K., Farag E., Ferraz M.L.G., Ferreira P.R., Flisiak R., Frankova S., Gamkrelidze I., Gane E., Garcia-Samaniego J., Khan A.G., Gountas I., Goldis A., Gottfredsson M., Grebely J., Gschwantler M., Guimaraes Pessoa M., Gunter J., Hajarizadeh B., Hajelssedig O., Hamid S., Hamoudi W., Hatzakis A., Himatt S.M., Hofer H., Hrstic I., Hui Y.-T., Hunyady B., Idilman R., Jafri W., Jahis R., Janjua N.Z., Jarcuska P., Jeruma A., Jonasson J.G., Kamel Y., Kao J.-H., Kaymakoglu S., Kershenobich D., Khamis J., Kim Y.S., Kondili L., Koutoubi Z., Krajden M., Krarup H., Lai M.-S., Laleman W., Lao W.-C., Lavanchy D., Lazaro P., Leleu H., Lesi O., Lesmana L.A., Li M., Liakina V., Lim Y.-S., Luksic B., Mahomed A., Maimets M., Makara M., Malu A.O., Marinho R.T., Marotta P., Mauss S., Memon M.S., Mendes Correa M.C., Mendez-Sanchez N., Merat S., Metwally A.M., Mohamed R., Moreno C., Mourad F.H., Mullhaupt B., Murphy K., Nde H., Njouom R., Nonkovic D., Norris S., Obekpa S., Oguche S., Olafsson S., Oltman M., Omede O., Omuemu C., Opare-Sem O., Ovrehus A.L.H., Owusu-Ofori S., Oyunsuren T.S., Papatheodoridis G., Pasini K., Peltekian K.M., Phillips R.O., Pimenov N., Poustchi H., Prabdial-Sing N., Qureshi H., Ramji A., Razavi-Shearer D., Razavi-Shearer K., Redae B., Reesink H.W., Ridruejo E., Robbins S., Roberts L.R., Roberts S.K., Rosenberg W.M., Roudot-Thoraval F., Ryder S.D., Safadi R., Sagalova O., Salupere R., Sanai F.M., Sanchez Avila J.F., Saraswat V., Sarmento-Castro R., Sarrazin C., Schmelzer J.D., Schreter I., Seguin-Devaux C., Shah S.R., Sharara A.I., Sharma M., Shevaldin A., Shiha G.E., Sievert W., Sonderup M., Souliotis K., Speiciene D., Sperl J., Starkel P., Stauber R.E., Stedman C., Struck D., Su T.-H., Sypsa V., Tan S.-S., Tanaka J., Thompson A.J., Tolmane I., Tomasiewicz K., Valantinas J., Van Damme P., Van Der Meer A.J., Van Thiel I., Van Vlierberghe H., Vince A., Vogel W., Wedemeyer H., Weis N., Wong V.W.S., Yaghi C., Yosry A., Yuen M.-F., Yunihastuti E., Yusuf A., Zuckerman E., Razavi H., Polaris Observ HCV Collaborators, Negro, Francesco, and Ege Üniversitesi

Subjects
Viremia/epidemiology, Population ageing, medicine.medical_specialty, CIENCIAS MÉDICAS Y DE LA SALUD, Delphi Technique, Genotype, Voxilaprevir, Genotype, Global Health, Hepatitis C, Eradication, Modelling study, Medicina Clínica, ddc:616.07, Global Health, Bioinformatics, 03 medical and health sciences, 0302 clinical medicine, Cost of Illness, Epidemiology, Journal Article, medicine, Global health, Prevalence, Humans, Viremia, 030212 general & internal medicine, Disease Eradication, Disease burden, ddc:616, Hepatology, Hepatitis C, Chronic/epidemiology, business.industry, Gastroenterology, Hepatitis C, Glecaprevir, Hepatitis C, Chronic, medicine.disease, Viremia/epidemiology/genetics, Pibrentasvir, Global Health/statistics & numerical data, HCV, HEPATITIS C, 030211 gastroenterology & hepatology, Medicina Critica y de Emergencia, Human medicine, business, Chronic/epidemiology/genetics/prevention & control, Demography
Abstract

WOS: 000426979400014, PubMed ID: 28404132, Background The 69th World Health Assembly approved the Global Health Sector Strategy to eliminate hepatitis C virus (HCV) infection by 2030, which can become a reality with the recent launch of direct acting antiviral therapies. Reliable disease burden estimates are required for national strategies. This analysis estimates the global prevalence of viraemic HCV at the end of 2015, an update of-and expansion on-the 2014 analysis, which reported 80 million (95% CI 64-103) viraemic infections in 2013. Methods We developed country-level disease burden models following a systematic review of HCV prevalence (number of studies, n=6754) and genotype (n=11 342) studies published after 2013. A Delphi process was used to gain country expert consensus and validate inputs. Published estimates alone were used for countries where expert panel meetings could not be scheduled. Global prevalence was estimated using regional averages for countries without data. Findings Models were built for 100 countries, 59 of which were approved by country experts, with the remaining 41 estimated using published data alone. The remaining countries had insufficient data to create a model. The global prevalence of viraemic HCV is estimated to be 1.0% (95% uncertainty interval 0.8-1.1) in 2015, corresponding to 71.1 million (62.5-79.4) viraemic infections. Genotypes 1 and 3 were the most common cause of infections (44% and 25%, respectively). Interpretation The global estimate of viraemic infections is lower than previous estimates, largely due to more recent (lower) prevalence estimates in Africa. Additionally, increased mortality due to liver-related causes and an ageing population may have contributed to a reduction in infections., John C Martin Foundation, John C Martin Foundation.

Published
2017
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46. Modeling the HIV epidemic in MSM in Cyprus: reaching only the 95-95-95 cascade of care targets fails to reduce HIV incidence by 90% in 2030.

Author

Gountas I, Pantavou K, Siakallis G, Demetriou A, Demetriades I, and Nikolopoulos GK

Subjects
Humans, Male, Cyprus epidemiology, Incidence, Adult, Epidemics prevention & control, Anti-HIV Agents therapeutic use, Middle Aged, Young Adult, Homosexuality, Male statistics & numerical data, HIV Infections epidemiology, HIV Infections prevention & control, Pre-Exposure Prophylaxis
Abstract

National responses should be improved and accelerated to meet the target of ending the Acquired ImmunoDeficiency Syndrome (AIDS) epidemic by 2030. In the Republic of Cyprus, Men who have Sex with Men (MSM) are disproportionately affected by Human Immunodeficiency Virus (HIV), accounting approximately for half of all annual HIV diagnoses. This study assesses the evolution of HIV incidence in MSM in Cyprus until 2030 using a model calibrated to Cypriot epidemiological data. Four scenarios were examined: status quo, two scenarios focusing on introducing Pre-Exposure Prophylaxis (PrEP), and a 90% HIV incidence reduction scenario. Reaching only the 95-95-95 HIV cascade of care targets among MSM would reduce HIV incidence by 48.6% by 2030 compared to 2015. Initiating a PrEP intervention only for high risk MSM would cause a modest further reduction in HIV incidence. To meet the 90% reduction target, PrEP should be expanded to both high and medium risk MSM and, after 2025, behavioral interventions should be implemented so as high-risk MSM gradually move to the medium-risk category. Cyprus will not reach the HIV incidence reduction target by 2030 unless PrEP is gradually promoted and delivered to all high and medium risk MSM along with awareness and behavioral interventions.

Published
2024
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47. Estimating the time required to reach HPV vaccination targets across Europe.

Author

Gountas I, Aman M, Alexander D, Hughes R, Weston G, and Sabale U

Abstract

Background: Cervical cancer (CC) is one of the most common causes of cancer-related deaths in women. The World Health Organization (WHO) has called for the CC elimination as a public health priority and has urged countries to achieve a 90% vaccine coverage rate of human papilloma virus (HPV) vaccination among 15-year-old girls by 2030., Research Design and Methods: Regression models were fitted to the WHO HPV vaccine coverage rate data to estimate when the 90% vaccine coverage rate target would be achieved in 22 European countries., Results: The mean vaccine coverage rate of included countries was 62.2% (SD: 18.3). Nine countries (Iceland, Norway, Portugal, Ireland, Hungary, Spain, Sweden, Denmark, and Switzerland) are expected to achieve a 90% vaccine coverage rate by 2030. Six countries (Estonia, Cyprus, Netherlands, France, Germany, and Italy) are expected to reach a 90% vaccine coverage rate between 2030 and 2040 whereas seven countries (Belgium, Bulgaria, Finland, Latvia, Luxembourg, Malta, and Slovenia) are not expected to achieve the 90% vaccine coverage rate target by 2040., Conclusion: The majority of European countries are not on track to achieve 90% vaccine coverage rate by 2030. To achieve this, a significant increase in the annual vaccine coverage rate growth rate is required.

Published
2024
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48. Prevalence of chronic HCV infection in EU/EEA countries in 2019 using multiparameter evidence synthesis.

Author

Thomadakis C, Gountas I, Duffell E, Gountas K, Bluemel B, Seyler T, Pericoli FM, Kászoni-Rückerl I, El-Khatib Z, Busch M, Schmutterer I, Vanwolleghem T, Klamer S, Plettinckx E, Mortgat L, Van Beckhoven D, Varleva T, Kosanovic Licina ML, Nemeth Blazic T, Nonković D, Theophanous F, Nemecek V, Maly M, Christensen PB, Cowan S, Rüütel K, Brummer-Korvenkontio H, Brouard C, Steffen G, Krings A, Dudareva S, Zimmermann R, Nikolopoulou G, Molnár Z, Kozma E, Gottfredsson M, Murphy N, Kondili LA, Tosti ME, Ciccaglione AR, Suligoi B, Nikiforova R, Putnina R, Jancoriene L, Seguin-Devaux C, Melillo T, Boyd A, van der Valk M, Op de Coul E, Whittaker R, Kløvstad H, Stępień M, Rosińska M, Valente C, Marinho RT, Popovici O, Avdičová M, Kerlik J, Klavs I, Maticic M, Diaz A, Del Amo J, Lundberg Ederth J, Axelsson M, and Nikolopoulos G

Abstract

Background: Epidemiological data are crucial to monitoring progress towards the 2030 Hepatitis C Virus (HCV) elimination targets. Our aim was to estimate the prevalence of chronic HCV infection (cHCV) in the European Union (EU)/European Economic Area (EEA) countries in 2019., Methods: Multi-parameter evidence synthesis (MPES) was used to produce national estimates of cHCV defined as: π = π rec ρ rec  + π ex ρ ex  + π non ρ non ; π rec , π ex , and π non represent cHCV prevalence among recent people who inject drugs (PWID), ex-PWID, and non-PWID, respectively, while ρ rec , ρ ex , and ρ non represent the proportions of these groups in the population. Information sources included the European Centre for Disease Prevention and Control (ECDC) national operational contact points (NCPs) and prevalence database, the European Monitoring Centre for Drugs and Drug Addiction databases, and the published literature., Findings: The cHCV prevalence in 29 of 30 EU/EEA countries in 2019 was 0.50% [95% Credible Interval (CrI): 0.46%, 0.55%]. The highest cHCV prevalence was observed in the eastern EU/EEA (0.88%; 95% CrI: 0.81%, 0.94%). At least 35.76% (95% CrI: 33.07%, 38.60%) of the overall cHCV prevalence in EU/EEA countries was associated with injecting drugs., Interpretation: Using MPES and collaborating with ECDC NCPs, we estimated the prevalence of cHCV in the EU/EEA to be low. Some areas experience higher cHCV prevalence while a third of prevalent cHCV infections was attributed to PWID. Further efforts are needed to scale up prevention measures and the diagnosis and treatment of infected individuals, especially in the east of the EU/EEA and among PWID., Funding: ECDC., Competing Interests: IG: He is currently an employee of MSD Greece. He joined MSD after his post-doctoral work at the University of Cyprus. TV: He has received grants from Gilead Sciences and Bristol Myers Squibb; he has served as a consultant for Janssen Pharmaceuticals, Gilead Sciences, AbbVie, Bristol Myers Squibb; and he has served as a sponsored lecturer for Gilead Sciences and Abbvie. PBC: He has received unrestricted research grants for other studies from Abbvie, Gilead, and MSD. MG: He has received consultancy and speaker’s fees from Gilead Sciences. LAK: She has received personal lecturer fee from Abbvie and Gilead Sciences and an institutional grant from Gilead Italy Fellowship 2022. LJ: She has received honorarium for lectures from AbbVie and MSD; offered consultancy to AbbVie, MSD, Tamro; and received conference attending fee from AbbVie, MSD, Pfizer, Swixx Biopharma. CSD: She has received educational and research grants for other studies from Abbvie and Gilead Sciences. MV: He participated in advisory boards (ViiV, Gilead, and MSD–fees paid to his institution); he has received independent research grants from ViiV and Gilead (paid to his institution). CV: She has received honorarium for lectures and consultancy from AbbVie, Gilead, MSD, and ViiV Healthcare. AD: She has received a grant for another study and speaker fee at a conference about HIV from Gilead Sciences. AB: He has received speaker's fees from Gilead Sciences. GN: He has received an ASKLEPIOS grant (HIV-related competitive grant) from Gilead Sciences (Greece). All other authors declare no conflict of interest., (© 2023 The Author(s).)

Published
2023
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49. Impact of the COVID-19 Pandemic on HPV Vaccinations in Switzerland and Greece: Road to Recovery.

Author

Gountas I, Favre-Bulle A, Saxena K, Wilcock J, Collings H, Salomonsson S, Skroumpelos A, and Sabale U

Abstract

The COVID-19 pandemic has caused significant disruptions to healthcare, including reduced administration of routinely recommended HPV vaccines in a number of European countries. Because the extent and trends of accumulated vaccine dose deficits may vary by country, decision-makers need country-specific information regarding vaccine deficits to plan effective catch-up initiatives. To address this knowledge gap in Switzerland and Greece, this study used a previously published COVID-19 recovery calculator and historical vaccine sales data to quantify the cumulative number of missed doses and the catch-up rate required to clear the deficit in Switzerland and Greece. The resultant cumulative deficit in HPV doses for Switzerland and Greece were 24.4% and 21.7%, respectively, of the total number of doses disseminated in 2019. To clear the dose deficit by December 2025, monthly vaccination rates must be increased by 6.3% and 6.0% compared to 2019 rates in Switzerland and Greece, respectively. This study demonstrates that administration rates of routine HPV vaccines decreased significantly among Swiss and Greek adolescents during the COVID-19 pandemic and that a sustained increase in vaccination rates is necessary to recover the HPV dose deficits identified and to prevent long-term public health consequences.

Published
2023
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50. Effect of public health interventions during the first epidemic wave of COVID-19 in Cyprus: a modelling study.

Author

Gountas I, Quattrocchi A, Mamais I, Tsioutis C, Christaki E, Fokianos K, and Nikolopoulos G

Subjects
Cyprus epidemiology, Humans, Public Health, SARS-CoV-2, COVID-19, Epidemics
Abstract

Background: Cyprus addressed the first wave of SARS CoV-2 (COVID-19) by implementing non-pharmaceutical interventions (NPIs). The aims of this study were: a) to estimate epidemiological parameters of this wave including infection attack ratio, infection fatality ratio, and case ascertainment ratio, b) to assess the impact of public health interventions and examine what would have happened if those interventions had not been implemented., Methods: A dynamic, stochastic, individual-based Susceptible-Exposed-Infected-Recovered (SEIR) model was developed to simulate COVID-19 transmission and progression in the population of the Republic of Cyprus. The model was fitted to the observed trends in COVID-19 deaths and intensive care unit (ICU) bed use., Results: By May 8th, 2020, the infection attack ratio was 0.31% (95% Credible Interval [CrI]: 0.15, 0.54%), the infection fatality ratio was 0.71% (95% CrI: 0.44, 1.61%), and the case ascertainment ratio was 33.2% (95% CrI: 19.7, 68.7%). If Cyprus had not implemented any public health measure, the healthcare system would have been overwhelmed by April 14th. The interventions averted 715 (95% CrI: 339, 1235) deaths. If Cyprus had only increased ICU beds, without any social distancing measure, the healthcare system would have been overwhelmed by April 19th., Conclusions: The decision of the Cypriot authorities to launch early NPIs limited the burden of the first wave of COVID-19. The findings of these analyses could help address the next waves of COVID-19 in Cyprus and other similar settings., (© 2021. The Author(s).)

Published
2021
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