J Morgan Freiman1, Jianing Wang2, Philippa J Easterbrook3, C Robert Horsburgh4, Francesco Marinucci5, Laura F White6, George Kamkamidze7, Mel Krajden8, Anne Loarec9, Richard Njouom10, Kihn V Nguyen11, Gamal Shiha12, Reham Soliman13, Sunil S Solomon14, Tengiz Tsertsvadze7, Claudia M Denkinger5, Benjamin Linas15. 1. Boston Medical Center, Section of Infectious Diseases, Boston University School of Public Health, Boston, USA. Electronic address: j.morgan.freiman@bmc.org. 2. Boston Medical Center, Section of Infectious Diseases, Boston University School of Public Health, Boston, USA. 3. Global Hepatitis Programme, World Health Organization, Geneva, Switzerland. 4. Department of Biostatistics, Section of Infectious Diseases, Boston University School of Public Health, Boston, USA; Department of Epidemiology, Section of Infectious Diseases, Boston University School of Public Health, Boston, USA; Global Health, Section of Infectious Diseases, Boston University School of Public Health, Boston, USA. 5. FIND, Geneva, Switzerland. 6. Department of Biostatistics, Section of Infectious Diseases, Boston University School of Public Health, Boston, USA. 7. Georgia Hepatitis C Elimination Program, Tbilisi, Georgia. 8. British Columbia Centre for Disease Control, Vancouver, Canada. 9. Epicentre, Medecins Sans Frontières, Paris, France. 10. Centre Pasteur of Cameroon, Yaoundé, Cameroon. 11. National Hospital of Tropical Diseases, Hanoi, Viet Nam. 12. Department of Internal Medicine, University of Mansoura, Egypt; Egyptian Liver Research Institute and Hospital, Mansoura, Egypt. 13. Egyptian Liver Research Institute and Hospital, Mansoura, Egypt. 14. YR Gaitonde Centre for AIDS Research and Education, Chennai, India; Johns Hopkins University School of Medicine, Baltimore, USA. 15. Boston Medical Center, Section of Infectious Diseases, Boston University School of Public Health, Boston, USA; Department of Epidemiology, Section of Infectious Diseases, Boston University School of Public Health, Boston, USA. Electronic address: Benjamin.linas@bmc.org.
Abstract
BACKGROUND & AIMS: Affordable point-of-care tests for hepatitis C (HCV) viraemia are needed to improve access to treatment in low- and middle-income countries. Our aims were to determine the target limit of detection (LOD) necessary to diagnose the majority of people with HCV eligible for treatment, and identify characteristics associated with low-level viraemia (LLV) (defined as the lowest 3% of the distribution of HCV RNA) to understand those at risk of being misdiagnosed. METHODS: We established a multi-country cross-sectional dataset of first available quantitative HCV RNA measurements linked to demographic and clinical data. We excluded individuals on HCV treatment. We analysed the distribution of HCV RNA and determined critical thresholds for detection of HCV viraemia. We then performed logistic regression to evaluate factors associated with LLV, and derived relative sensitivities for significant covariates. RESULTS: The dataset included 66,640 individuals with HCV viraemia from across the world. The LOD for the 95th and 99th percentiles were 3,311 IU/ml and 214 IU/ml. The LOD for the 97th percentile was 1,318 IU/ml (95% CI 1,298.4-1,322.3). Factors associated with LLV, defined as HCV RNA <1,318 IU/ml, were younger age 18-30 vs. 51-64 years (odds ratios [OR] 2.56; 95% CI 2.19-2.99), female vs. male sex (OR 1.32; 95% CI 1.18-1.49), and advanced fibrosis stage F4 vs. F0-1 (OR 1.44; 95% CI 1.21-1.69). Only the younger age group had a decreased relative sensitivity below 95%, at 93.3%. CONCLUSIONS: In this global dataset, a test with an LOD of 1,318 IU/ml would identify 97% of viraemic HCV infections among almost all populations. This LOD will help guide manufacturers in the development of affordable point-of-care diagnostics to expand HCV testing and linkage to care in low- and middle-income countries. LAY SUMMARY: We created and analysed a dataset from 12 countries with 66,640 participants with chronic hepatitis C virus infection. We determined that about 97% of those with viraemic infection had 1,300 IU/ml or more of circulating virus at the time of diagnosis. While current diagnostic tests can detect as little as 12 IU/ml of virus, our findings suggest that increasing the level of detection closer to 1,300 IU/ml would maintain good test accuracy and will likely enable development of more affordable portable tests for use in low- and middle-income countries.
BACKGROUND & AIMS: Affordable point-of-care tests for hepatitis C (HCV) viraemia are needed to improve access to treatment in low- and middle-income countries. Our aims were to determine the target limit of detection (LOD) necessary to diagnose the majority of people with HCV eligible for treatment, and identify characteristics associated with low-level viraemia (LLV) (defined as the lowest 3% of the distribution of HCV RNA) to understand those at risk of being misdiagnosed. METHODS: We established a multi-country cross-sectional dataset of first available quantitative HCV RNA measurements linked to demographic and clinical data. We excluded individuals on HCV treatment. We analysed the distribution of HCV RNA and determined critical thresholds for detection of HCV viraemia. We then performed logistic regression to evaluate factors associated with LLV, and derived relative sensitivities for significant covariates. RESULTS: The dataset included 66,640 individuals with HCV viraemia from across the world. The LOD for the 95th and 99th percentiles were 3,311 IU/ml and 214 IU/ml. The LOD for the 97th percentile was 1,318 IU/ml (95% CI 1,298.4-1,322.3). Factors associated with LLV, defined as HCV RNA <1,318 IU/ml, were younger age 18-30 vs. 51-64 years (odds ratios [OR] 2.56; 95% CI 2.19-2.99), female vs. male sex (OR 1.32; 95% CI 1.18-1.49), and advanced fibrosis stage F4 vs. F0-1 (OR 1.44; 95% CI 1.21-1.69). Only the younger age group had a decreased relative sensitivity below 95%, at 93.3%. CONCLUSIONS: In this global dataset, a test with an LOD of 1,318 IU/ml would identify 97% of viraemic HCV infections among almost all populations. This LOD will help guide manufacturers in the development of affordable point-of-care diagnostics to expand HCV testing and linkage to care in low- and middle-income countries. LAY SUMMARY: We created and analysed a dataset from 12 countries with 66,640 participants with chronic hepatitis C virus infection. We determined that about 97% of those with viraemic infection had 1,300 IU/ml or more of circulating virus at the time of diagnosis. While current diagnostic tests can detect as little as 12 IU/ml of virus, our findings suggest that increasing the level of detection closer to 1,300 IU/ml would maintain good test accuracy and will likely enable development of more affordable portable tests for use in low- and middle-income countries.
Authors: S S Solomon; M S Sulkowski; P Amrose; A K Srikrishnan; A M McFall; B Ramasamy; M S Kumar; S Anand; D L Thomas; S H Mehta Journal: J Viral Hepat Date: 2017-08-14 Impact factor: 3.728
Authors: J M Matthews-Greer; G C Caldito; S D Adley; R Willis; A C Mire; R M Jamison; K L McRae; J W King; W L Chang Journal: Clin Diagn Lab Immunol Date: 2001-07
Authors: Naveed Zafar Janjua; Margot Kuo; Mei Chong; Amanda Yu; Maria Alvarez; Darrel Cook; Rosemary Armour; Ciaran Aiken; Karen Li; Seyed Ali Mussavi Rizi; Ryan Woods; David Godfrey; Jason Wong; Mark Gilbert; Mark W Tyndall; Mel Krajden Journal: PLoS One Date: 2016-03-08 Impact factor: 3.240
Authors: Alba Llibre; Yusuke Shimakawa; Matthew L Albert; Darragh Duffy; Estelle Mottez; Shaun Ainsworth; Tan-Phuc Buivan; Rick Firth; Elliott Harrison; Arielle R Rosenberg; Jean-François Meritet; Arnaud Fontanet; Pablo Castan; Antonio Madejón; Mark Laverick; Allison Glass; Raquel Viana; Stanislas Pol; C Patrick McClure; William Lucien Irving; Gino Miele Journal: Gut Date: 2018-04-03 Impact factor: 23.059
Authors: Andrea Marcellusi; Francesco Saverio Mennini; Murad Ruf; Claudio Galli; Alessio Aghemo; Maurizia R Brunetto; Sergio Babudieri; Antonio Craxi; Massimo Andreoni; Loreta A Kondili Journal: Liver Int Date: 2021-10-08 Impact factor: 8.754
Authors: Jake R Morgan; Elizabeth Marsh; Alexandra Savinkina; Sonjelle Shilton; Shaun Shadaker; Tengiz Tsertsvadze; George Kamkamidze; Maia Alkhazashvili; Timothy Morgan; Pam Belperio; Lisa Backus; Waheed Doss; Gamal Esmat; Mohamed Hassany; Aisha Elsharkawy; Wafaa Elakel; Mai Mehrez; Graham R Foster; Constance Wose Kinge; Kara W Chew; Charles S Chasela; Ian M Sanne; Yin M Thanung; Anne Loarec; Khawar Aslam; Suna Balkan; Philippa J Easterbrook; Benjamin P Linas Journal: J Viral Hepat Date: 2022-03-30 Impact factor: 3.517