2021 |
N Kronfli; J, Young; Wang; Cox; Walmsley; Hull; Cooper; Martel-Laferriere; Wong; Pick; MB Klein; Canadian Coinfection Cohort Study Investigators. S J S M C V A N Clinical Infectious Diseases, 2021. Abstract | Links | BibTeX | Tags: APRI, Fibrosis regression, HIV-HCV coinfection, Sustained virologic response, Transient elastography @article{N2021, title = {Liver Fibrosis in Human Immunodeficiency Virus (HIV)-Hepatitis C Virus (HCV) Coinfection Before and After Sustained Virologic Response: What Is the Best Noninvasive Marker for Monitoring Regression?}, author = {N, Kronfli; J, Young; S, Wang; J, Cox; S, Walmsley; M, Hull; C, Cooper; V, Martel-Laferriere; A, Wong; N, Pick; MB, Klein; Canadian Coinfection Cohort Study Investigators.}, url = {https://academic.oup.com/cid/article/73/3/468/5854053?login=false}, doi = {10.1093/cid/ciaa702}, year = {2021}, date = {2021-08-02}, journal = {Clinical Infectious Diseases}, abstract = {Background: Noninvasive markers of liver fibrosis such as aspartate aminotransferase-to-platelet ratio (APRI) and transient elastography (TE) have largely replaced liver biopsy for staging hepatitis C virus (HCV). As there is little longitudinal data, we compared changes in these markers before and after sustained virologic response (SVR) in human immunodeficiency virus (HIV)-HCV coinfected patients. Methods: Participants from the Canadian Coinfection Cohort study who achieved SVR after a first treatment with either interferon/ribavirin or direct acting antivirals (DAAs), with at least 1 pre- and posttreatment fibrosis measure were selected. Changes in APRI or TE (DAA era only) were modeled using a generalized additive mixed model, assuming a gamma distribution and adjusting for sex, age at HCV acquisition, duration of HCV infection, and time-dependent body mass index, binge drinking, and detectable HIV RNA. Results: Of 1981 patients, 151 achieved SVR with interferon and 553 with DAAs; 94 and 382 met inclusion criteria, respectively. In the DAA era, APRI increased (0.03 units/year; 95% credible interval (CrI): -.05, .12) before, declined dramatically during, and then changed minimally (-0.03 units/year; 95% CrI: -.06, .01) after treatment. TE values, however, increased (0.74 kPa/year; 95% CrI: .36, 1.14) before treatment, changed little by the end of treatment, and then declined (-0.55 kPa/year; 95% CrI: -.80, -.31) after SVR. Conclusions: TE should be the preferred noninvasive tool for monitoring fibrosis regression following cure. Future studies should assess the risk of liver-related outcomes such as hepatocellular carcinoma according to trajectories of fibrosis regression measured using TE to determine if and when it will become safe to discontinue screening.}, keywords = {APRI, Fibrosis regression, HIV-HCV coinfection, Sustained virologic response, Transient elastography}, pubstate = {published}, tppubtype = {article} } Background: Noninvasive markers of liver fibrosis such as aspartate aminotransferase-to-platelet ratio (APRI) and transient elastography (TE) have largely replaced liver biopsy for staging hepatitis C virus (HCV). As there is little longitudinal data, we compared changes in these markers before and after sustained virologic response (SVR) in human immunodeficiency virus (HIV)-HCV coinfected patients. Methods: Participants from the Canadian Coinfection Cohort study who achieved SVR after a first treatment with either interferon/ribavirin or direct acting antivirals (DAAs), with at least 1 pre- and posttreatment fibrosis measure were selected. Changes in APRI or TE (DAA era only) were modeled using a generalized additive mixed model, assuming a gamma distribution and adjusting for sex, age at HCV acquisition, duration of HCV infection, and time-dependent body mass index, binge drinking, and detectable HIV RNA. Results: Of 1981 patients, 151 achieved SVR with interferon and 553 with DAAs; 94 and 382 met inclusion criteria, respectively. In the DAA era, APRI increased (0.03 units/year; 95% credible interval (CrI): -.05, .12) before, declined dramatically during, and then changed minimally (-0.03 units/year; 95% CrI: -.06, .01) after treatment. TE values, however, increased (0.74 kPa/year; 95% CrI: .36, 1.14) before treatment, changed little by the end of treatment, and then declined (-0.55 kPa/year; 95% CrI: -.80, -.31) after SVR. Conclusions: TE should be the preferred noninvasive tool for monitoring fibrosis regression following cure. Future studies should assess the risk of liver-related outcomes such as hepatocellular carcinoma according to trajectories of fibrosis regression measured using TE to determine if and when it will become safe to discontinue screening. |
2020 |
Kronfli, Nadine; Young, Jim; Wang, Shouao; Cox, Joseph; Walmsley, Sharon; Hull, Mark; Cooper, Curtis; Martel-Laferriere, Valerie; Wong, Alexander; Pick, Neora; Klein, Marina B; Investigators, Canadian Co-infection Cohort Study Clinical Infectious Diseases, 2020. Abstract | Links | BibTeX | Tags: APRI, Fibrosis regression, HIV-HCV co-infection, Sustained virologic response, Transient elastography @article{Kronfli2020, title = {Liver fibrosis in HIV-Hepatitis C virus (HCV) co-infection before and after sustained virologic response: what is the best non-invasive marker for monitoring regression?}, author = {Nadine Kronfli and Jim Young and Shouao Wang and Joseph Cox and Sharon Walmsley and Mark Hull and Curtis Cooper and Valerie Martel-Laferriere and Alexander Wong and Neora Pick and Marina B Klein and Canadian Co-infection Cohort Study Investigators}, url = {https://pubmed.ncbi.nlm.nih.gov/32504083/}, doi = {10.1093/cid/ciaa702}, year = {2020}, date = {2020-06-05}, journal = {Clinical Infectious Diseases}, abstract = {Background: Noninvasive markers of liver fibrosis such as aspartate aminotransferase-to-platelet ratio (APRI) and transient elastography (TE) have largely replaced liver biopsy for staging hepatitis C virus (HCV). As there is little longitudinal data, we compared changes in these markers before and after sustained virologic response (SVR) in HIV-HCV coinfected patients. Methods: Participants from the Canadian Coinfection Cohort study who achieved SVR after a first treatment with either interferon/ribavirin or direct acting antivirals (DAAs), with at least one pre- and post-treatment fibrosis measure were selected. Changes in APRI or TE (DAA era only) were modelled using a generalised additive mixed model, assuming a gamma distribution and adjusting for sex, age at HCV acquisition, duration of HCV infection, and time-dependent BMI, binge drinking and detectable HIV RNA. Results: Of 1981 patients, 151 achieved SVR with interferon and 553 with DAAs; 94 and 382 met inclusion criteria, respectively. In the DAA era, APRI increased (0.03 units/year; 95% credible interval (CrI): -0.05, 0.12) before, declined dramatically during, and then changed minimally (-0.03 units/year; 95% CrI: -0.06, 0.01) after treatment. TE values, however, increased (0.74 kPa/year; 95% CrI: 0.36, 1.14) before treatment, changed little by the end of treatment, and then declined (-0.55 kPa/year; 95% CrI: -0.80, -0.31) after SVR. Conclusions: TE should be the preferred non-invasive tool for monitoring fibrosis regression following cure. Future studies should assess the risk of liver-related outcomes such as hepatocellular carcinoma according to trajectories of fibrosis regression measured using TE to determine if and when it will become safe to discontinue screening.}, keywords = {APRI, Fibrosis regression, HIV-HCV co-infection, Sustained virologic response, Transient elastography}, pubstate = {published}, tppubtype = {article} } Background: Noninvasive markers of liver fibrosis such as aspartate aminotransferase-to-platelet ratio (APRI) and transient elastography (TE) have largely replaced liver biopsy for staging hepatitis C virus (HCV). As there is little longitudinal data, we compared changes in these markers before and after sustained virologic response (SVR) in HIV-HCV coinfected patients. Methods: Participants from the Canadian Coinfection Cohort study who achieved SVR after a first treatment with either interferon/ribavirin or direct acting antivirals (DAAs), with at least one pre- and post-treatment fibrosis measure were selected. Changes in APRI or TE (DAA era only) were modelled using a generalised additive mixed model, assuming a gamma distribution and adjusting for sex, age at HCV acquisition, duration of HCV infection, and time-dependent BMI, binge drinking and detectable HIV RNA. Results: Of 1981 patients, 151 achieved SVR with interferon and 553 with DAAs; 94 and 382 met inclusion criteria, respectively. In the DAA era, APRI increased (0.03 units/year; 95% credible interval (CrI): -0.05, 0.12) before, declined dramatically during, and then changed minimally (-0.03 units/year; 95% CrI: -0.06, 0.01) after treatment. TE values, however, increased (0.74 kPa/year; 95% CrI: 0.36, 1.14) before treatment, changed little by the end of treatment, and then declined (-0.55 kPa/year; 95% CrI: -0.80, -0.31) after SVR. Conclusions: TE should be the preferred non-invasive tool for monitoring fibrosis regression following cure. Future studies should assess the risk of liver-related outcomes such as hepatocellular carcinoma according to trajectories of fibrosis regression measured using TE to determine if and when it will become safe to discontinue screening. |
Research Papers
2021 |
Clinical Infectious Diseases, 2021. |
2020 |
Clinical Infectious Diseases, 2020. |