A Study to Collect Blood Biomarker Samples From Participants With Chronic Hepatitis B (CHB) Who Received Treatment With Pegasys (Peginterferon Alfa-2a) ± Nucleoside/Nucleotide Analogue

March 8, 2017 updated by: Hoffmann-La Roche

A Phase IV, Blood Sample Collection Study For Exploratory Evaluation of the Association of Single Nucleotide Polymorphisms With Treatment Responses From Subjects With HBe-Antigen Positive or Negative Chronic Hepatitis B, Who Received Therapy for Hepatitis B With Peginterferon Alfa-2a 40kD (Peg-IFN) ± Nucleos(t)Ide Analogue

This Phase 4 study is designed for the collection of blood biomarker samples from participants who have completed CHB treatment with at least 24 weeks of a pegylated interferon alfa-2a (Peg-IFN alfa-2a) containing regimen and at least 24 weeks post-treatment follow-up. Participants may be enrolled from historical studies supported or sponsored by Roche, ongoing studies supported or sponsored by Roche, or from general medical practice. The follow-up of individuals who choose to participate in this study will be in accordance with the ongoing studies or with the general medical practice of the physician. Data from whole blood deoxyribonucleic acid (DNA) samples collected in the GV28555 study or available from previously collected Roche Clinical Repository (RCR) samples will be used for combined analysis with data from other applicable studies. Procedures will include blood sample collection (not applicable for participants who previously have consented and donated RCR DNA samples) and medical record capture.

Study Overview

Status

Completed

Conditions

Intervention / Treatment

Study Type

Observational

Enrollment (Actual)

1669

Contacts and Locations

This section provides the contact details for those conducting the study, and information on where this study is being conducted.

Study Locations

  • Austria
      • Wien, Austria, 1090
        • Medizinische Universität Wien; Univ.Klinik für Innere Medizin III - Gastroenterologie & Hepatologie
  • Bulgaria
      • Sofia, Bulgaria, 1407
        • MHAT Tokuda Hospital Sofia; Department of Gastroenterology at Clinic of Internal Deseases
      • Varna, Bulgaria, 9010
        • Mhat Sveta Marina; Clinic of Gastroenterology
  • China
      • Beijing, China, 100044
        • Peking University People's Hospital
      • Beijing, China, 100011
        • Beijing Ditan Hospital
      • Beijing, China, 100039
        • Beijing 302 Hospital; No. 2 Infectious Disease Section
      • Beijing, China, 100069
        • Beijing You An Hospital; Digestive Dept
      • Changsha, China, 410008
        • Xiangya Hospital of Centre-South University
      • Chengdu, China, 610041
        • West China Hospital, Sichuan University
      • Chongqing, China, 400010
        • The Second Affiliated Hospital, Chongqing Medical University
      • Fu Zhou, China, 350005
        • The First Affiliated Hospital of Fujian Medical University
      • Guangzhou, China
        • Guangdong General Hospital
      • Guangzhou, China, 510515
        • Nanfang Hospital, Southern Medical University
      • Guangzhou, China, 510060
        • The Eighth People's Hospital of Guangzhou
      • Hangzhou, China
        • Hangzhou Sixth People's Hospital
      • Harbin, China, 150001
        • The 1st Affiliated Hospital of Harbin Medical University
      • Jinan, China, 250021
        • JiNan Infectious Diseases Hospital
      • Nanjing, China, 210003
        • Nanjing No.2 Hospital; Liver Disease Department
      • Nanning, China, 530021
        • The First Affiliate Hospital of Guangxi Medical University
      • Shanghai, China, 201508
        • Shanghai Public Health Clinical Center
      • Shanghai, China, 200021
        • Shuguang Hospital, Shanghai University of Traditional Chinese Medicine
      • Shen Zhen, China, 518020
        • Shenzhen Donghu Hospital
      • Shi Jiazhuang, China, 050051
        • The Third Hospital of Hebei Medical University
      • Urumqi, China, 830001
        • Xinjiang Uygur Autonomous Region Hospital of Chinese Traditional Medicine
      • Wuhan, China, 430030
        • Tongji Hosp, Tongji Med. Col, Huazhong Univ. of Sci. & Tech
      • Xi'an, China, 710038
        • The Second Affiliated Hospital of The Fourth Military Medical University (Tangdu Hospital)
      • Yinchuan, China, 750004
        • General Hospital of Ningxia Medical University
      • Zhengzhou, China, 450003
        • Henan Provincial People's Hospital
  • France
      • Clichy, France, 92118
        • Hopital Beaujon;Hepatologie
      • Creteil, France, 94010
        • Hopital Henri Mondor; Hepatologie Gastro Enterologie
      • Rennes, France, 35033
        • Hopital de Pontchaillou; Medicine Interne - Hepatologie
      • Saint Laurent Du Var, France, 06721
        • Institut Arnault Tzanck; Medecine I Gastro Enterologie
  • Germany
      • Berlin, Germany, 13353
        • Charité Uni.-medizin Berlin, Campus Virchow-Klinikum; Med. Klinik m.S. Hepatologie Gastroenterologie
      • Berlin, Germany, 10117
        • Praxis Dr. med. Christine John
      • Berlin, Germany, 10969
        • Praxis Dr. Heyne
      • Hamburg, Germany, 20099
        • Ifi- Studien und Projekte GmbH, An der Asklepios Klinik St. Georg
      • Hannover, Germany, 30625
        • Medizinische Hochschule Zentrum Innere Medizin Abt.Gastroenterologie, Endokrinologie und Hepatologie
  • Greece
      • Athens, Greece, 115 27
        • Laiko General Hospital Athen; Uni Clinic of Gastrenterology
      • Larissa, Greece, 41 110
        • University Hospital of Larissa; Pathological Clinic
      • Thessaloniki, Greece, 546 42
        • Hippokratio Hospital; 4Th Internal Medicine Dpt
  • Italy
    • Campania
      • Caserta, Campania, Italy, 81100
        • Az. Osp. S. Sebastiano; Divisione Malattie Infettive
      • Napoli, Campania, Italy, 80131
        • Az. Osp. Cardarelli; Unita Operativa A Struttura Complessa Di Epatologia
    • Emilia-Romagna
      • Bologna, Emilia-Romagna, Italy, 40138
        • UNI DEGLI STUDI - POLICLINICA S. ORSOLA; Dipartimento Malattie dell'Apparato Digerente e Medicina In
      • Parma, Emilia-Romagna, Italy, 43100
        • Az. Osp. Uni Ria Di Parma; Gastro-Enterology
    • Lombardia
      • Milano, Lombardia, Italy, 20122
        • Fondazione IRCCS Ospedale Maggiore Policlinico; Gastroenterologia
      • Milano, Lombardia, Italy, 20122
        • Ospedale Maggiore Policlinico; Iii Divisione Medicina Generale
    • Puglia
      • Bari, Puglia, Italy, 70124
        • Azienda Ospedaliera Policlinico Consorziale di Bari; Clinica Malattie Infettive
      • Castellana Grotte, Puglia, Italy, 70013
        • Ospedale de Bellis; Reparto Medicina Generale
    • Sardegna
      • Cagliari, Sardegna, Italy, 09042
        • Uni Di Cagliari; Dept. Di Scienze Mediche
    • Sicilia
      • Palermo, Sicilia, Italy, 90127
        • Istituto Di Clinica Medica 1 A; Divisione Di Medicina Generale E Gastroenterologia
    • Toscana
      • Pisa, Toscana, Italy, 56124
        • Ospedale Cisanello - Az. Osp. Pisana; Unità Operativa Di Gastroenterologia Ed Epatologia
    • Veneto
      • Padova, Veneto, Italy, 35128
        • Az. Osp. Di Padova; Dipart. Scienze Chirurgiche E Gastroent.
  • Korea, Republic of
      • Busan, Korea, Republic of, 633-165
        • Inje University Busan Paik Hospital; Nephrology
      • Chooncheon, Korea, Republic of, 200-060
        • Chooncheon Sacred Heart Hospital
      • Seoul, Korea, Republic of, 135-710
        • Samsung Medical Center; Gastroenterology
  • New Zealand
      • Auckland, New Zealand, 100
        • Auckland Hospital; New Zealand Liver Transplant Unit
  • Poland
      • Bydgoszcz, Poland, 85-030
        • Hospital For Infectious Diseases; Infectiology
      • Chorzow, Poland, 41-500
        • Szpital Specjalistyczny; Oddzial Obserwacyjno - Zakayny
      • Krakow, Poland, 31-202
        • Krakowski Szpital Specjalistyczny im. Jana Pawla II; Oddzial Wirusowego Zapalenia Watroby
      • Lancut, Poland, 37-100
        • Centrum Medyczne
      • Warszawa, Poland, 02-507
        • Centralny Szpital Kliniczny MSWiA; Oddzial Chorob Wewnetrznych i Hepatologii
      • Warszawa, Poland, 01-201
        • Wojewodzki Szpital Zakazny; Klinika Chorob Zakaznych
      • Zielona Góra, Poland, 65-044
        • NZOZ Lubuska Specjalistyczna Poradnia Chorob Watroby
      • Łodz, Poland, 91-347
        • Specjalistyczny Szpital Wojewódzki im. Biegańskiego; Klinika Chorób Zakaźnych i Hepatologii UM
  • Portugal
      • Lisboa, Portugal, 1649-035
        • Hospital de Santa Maria; Servico de Gastrenterologia e Hepatologia
      • Porto, Portugal, 4099-001
        • Hospital Geral de Santo Antonio; Servico de Gastrenterologia
      • Porto, Portugal, 4202-451
        • Hospital de Sao Joao; Servico de Gastrenterologia
  • Romania
      • Bucharest, Romania, 021105
        • Institutul De Boli Infectioase Matei Bals; Sectia Clinica II Boli Infectioase Adulti
      • Bucharest, Romania, 030303
        • The Hospital of Tropical and Infectious Disease Victor Babes
      • Craiova, Romania, 200515
        • Clinical Infectious Diseases Hospital Victor Babes
  • Taiwan
      • Changhua, Taiwan, 500
        • Changhua Christian Hospital; Internal Medicine
      • Kaohsiung, Taiwan, 807
        • Kaohsiung Medical Uni Chung-Ho Memorial Hospital; Dept of Internal Medicine
      • Kaohsiung, Taiwan, 00833
        • Kaohsiung Chang Gung Memorial Hospital; Dept of Internal Medicine
      • Keelung City, Taiwan, 204
        • Chang Gung Medical Foundation - Keelung; Dept. of Hepato-Gastroenterology
      • Taichung, Taiwan, 404
        • China Medical University Hospital; Department of Rheumatology
      • Taipei, Taiwan, 112
        • Taipei Veterans General Hospital; Gastroenterology Division
      • Taipei, Taiwan, 100
        • National Taiwan Uni Hospital; Gastro-Enterology Dept.
      • Taipei, Taiwan
        • Tri-Service Hospital; Dept. of Internal Medicine
      • Taoyuan, Taiwan, 333
        • Chang Gung Medical Foundation - Linkou; Dept. of Hepato-Gastroenterology
  • Thailand
      • Bangkok, Thailand, 10700
        • Siriraj Hospital
      • Chiang Mai, Thailand, 50200
        • Chiang Mai Uni Hospital; Faculty of Medicine
      • Songkhla, Thailand, 90112
        • Songklanagarind Hospital; Division of Gastroenterology
  • United Kingdom
      • London, United Kingdom, E1 1BB
        • The Royal London Hospital
      • Manchester, United Kingdom, M13 9WL
        • Manchester Royal Infirmary; Department Of Medicine

Participation Criteria

Researchers look for people who fit a certain description, called eligibility criteria. Some examples of these criteria are a person's general health condition or prior treatments.

Eligibility Criteria

Ages Eligible for Study

18 years and older (Adult, Older Adult)

Accepts Healthy Volunteers

No

Genders Eligible for Study

All

Sampling Method

Probability Sample

Study Population

Participants with CHB who received therapy with Peg-IFN ± nucleoside/nucleotide analogue will be included.

Description

Inclusion Criteria:

  • Adults greater than or equal to (≥) 18 years of age
  • CHB
  • Previously enrolled in a Roche study and treated for CHB for ≥24 weeks with Peg-IFN ± nucleoside analogue (lamivudine or entecavir) or Peg-IFN ± nucleotide analogue (adefovir) and with ≥24 weeks post-treatment follow-up; or
  • Treated in general practice for CHB with Peg-IFN according to standard of care and in line with the current Summary of Product Characteristics (SmPC)/local labeling who have no contraindication to Peg-IFN therapy as per local label and have been treated with Peg-IFN for ≥24 weeks and have ≥24 week post-treatment response available at the time of blood sample collection

Exclusion Criteria:

  • Hepatitis A, hepatitis C, or human immunodeficiency virus (HIV) infection

Study Plan

This section provides details of the study plan, including how the study is designed and what the study is measuring.

How is the study designed?

Design Details

Cohorts and Interventions

Group / Cohort
Intervention / Treatment
Adult CHB Participants Treated With Peg-IFN Alfa-2a
Adult participants with CHB infection, and who have completed at least 24 weeks of Peg-IFN alfa-2a with/without nucleoside analogue therapy and at least 24 weeks of follow-up, will be included. Participants will be recruited from Roche clinical trials or general practice; no treatment will be administered in this non-interventional study.
Drug: Peg-IFN alfa-2a
Participants received Peg-IFN alfa-2a prior to enrollment for at least 24 weeks. Dosing was chosen according to standard of care or at the discretion of the treating physician.
Other Names:
  • Pegasys

What is the study measuring?

Primary Outcome Measures

Outcome Measure
Measure Description
Time Frame
Single Nucleotide Polymorphisms (SNPs) Associated With HBeAg Seroconversion or Hepatitis B Surface Antigen (HBsAg) Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive East Asian (CN) Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
Genome-wide association study (GWAS) approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of the antibody to HBeAg (anti-HBe). HBsAg clearance was defined as the loss of HBsAg, with or without detection of the antibody to HBsAg (anti-HBs). Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive CN Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion Plus Undetectable Hepatitis B Virus (HBV) Deoxyribonucleic Acid (DNA) or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive CN Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as HBV DNA level below the lower limit of detection (LLD) of 2000 international units per milliliter (IU/mL). HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined criterion in treatment response. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion Plus Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive CN Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined criterion in treatment response. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion Plus Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined criterion in treatment response. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion Plus Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined criterion in treatment response. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Negative Non-East Asian (Non-CN) Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response. Only a single SNP (rs17037122) was included in the analysis.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Negative Non-CN Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response. Only a single SNP (rs17037122) was included in the analysis.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Negative CN Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response. Only a single SNP (rs2464266) was included in the analysis.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Negative CN Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Negative Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Negative Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in Non-CN Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in Non-CN Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response. Only a single SNP (rs17037122) was included in the analysis.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in CN Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in CN Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion Plus Undetectable HBV DNA, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in Non-CN Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined criterion in treatment response. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion Plus Undetectable HBV DNA, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in Non-CN Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined criterion in treatment response. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion Plus Undetectable HBV DNA, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in CN Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined criterion in treatment response. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion Plus Undetectable HBV DNA, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in CN Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined criterion in treatment response. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion Plus Undetectable HBV DNA, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined criterion in treatment response. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBeAg Seroconversion Plus Undetectable HBV DNA, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined criterion in treatment response. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBsAg Clearance ≥24 Weeks Post-Treatment in Non-CN Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response. Only a single SNP (rs12992677) was included in the analysis.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBsAg Clearance ≥24 Weeks Post-Treatment in Non-CN Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response. Only a single SNP (rs12992677) was included in the analysis.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBsAg Clearance ≥24 Weeks Post-Treatment in CN Population: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response. Only a single SNP (rs7549785) was included in the analysis.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBsAg Clearance ≥24 Weeks Post-Treatment in CN Population: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response. Only a single SNP (rs7549785) was included in the analysis.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBsAg Clearance ≥24 Weeks Post-Treatment: Additive Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to additive models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response.
Single blood sample ≥24 weeks post-treatment
SNPs Associated With HBsAg Clearance ≥24 Weeks Post-Treatment: Dominant Model
Time Frame: Single blood sample ≥24 weeks post-treatment
GWAS approach was used to evaluate the association of SNPs with treatment response. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Associations with treatment response were analyzed using logistic regression and adjusted for covariates. Markers were coded according to dominant models of inheritance. Markers surpassing p-value thresholds of p<10^-5 and p<5x10^-8 were considered suggestive and genome-wide significant, respectively. Larger beta coefficients correspond to greater likelihood of treatment response. Only a single SNP (rs6592052) was included in the analysis.
Single blood sample ≥24 weeks post-treatment

Other Outcome Measures

Outcome Measure
Measure Description
Time Frame
Number of Participants With HBeAg Seroconversion or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBeAg Seroconversion or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBeAg Seroconversion or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive Non-CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBeAg Seroconversion Plus Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined endpoint in this outcome measure.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBeAg Seroconversion Plus Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined endpoint in this outcome measure.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBeAg Seroconversion Plus Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Positive Non-CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined endpoint in this outcome measure.
Single blood sample ≥24 weeks post-treatment
Number of Participants With Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Negative Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs.
Single blood sample ≥24 weeks post-treatment
Number of Participants With Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Negative CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs.
Single blood sample ≥24 weeks post-treatment
Number of Participants With Undetectable HBV DNA or HBsAg Clearance ≥24 Weeks Post-Treatment in HBeAg-Negative Non-CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBeAg Seroconversion, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBeAg Seroconversion, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBeAg Seroconversion, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in Non-CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBeAg Seroconversion Plus Undetectable HBV DNA, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined endpoint in this outcome measure.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBeAg Seroconversion Plus Undetectable HBV DNA, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined endpoint in this outcome measure.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBeAg Seroconversion Plus Undetectable HBV DNA, HBsAg Clearance, or Undetectable HBV DNA ≥24 Weeks Post-Treatment in Non-CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBeAg seroconversion was defined as the loss of HBeAg and detection of anti-HBe. Undetectable HBV DNA was defined as an HBV DNA level below the LLD of 2000 IU/mL. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs. HBeAg seroconversion and undetectable HBV DNA were a combined endpoint in this outcome measure.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBsAg Clearance ≥24 Weeks Post-Treatment
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBsAg Clearance ≥24 Weeks Post-Treatment in CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs.
Single blood sample ≥24 weeks post-treatment
Number of Participants With HBsAg Clearance ≥24 Weeks Post-Treatment in Non-CN Population
Time Frame: Single blood sample ≥24 weeks post-treatment
Single blood samples were used to analyze HBV serology and genotype data at least 24 weeks post-treatment. HBsAg clearance was defined as the loss of HBsAg, with or without detection of anti-HBs.
Single blood sample ≥24 weeks post-treatment

Collaborators and Investigators

This is where you will find people and organizations involved with this study.

Sponsor

Hoffmann-La Roche

Publications and helpful links

The person responsible for entering information about the study voluntarily provides these publications. These may be about anything related to the study.

General Publications

Study record dates

These dates track the progress of study record and summary results submissions to ClinicalTrials.gov. Study records and reported results are reviewed by the National Library of Medicine (NLM) to make sure they meet specific quality control standards before being posted on the public website.

Study Major Dates

Study Start (Actual)

August 20, 2013

Primary Completion (Actual)

November 28, 2014

Study Completion (Actual)

November 28, 2014

Study Registration Dates

First Submitted

May 8, 2013

First Submitted That Met QC Criteria

May 14, 2013

First Posted (Estimate)

May 17, 2013

Study Record Updates

Last Update Posted (Actual)

April 5, 2017

Last Update Submitted That Met QC Criteria

March 8, 2017

Last Verified

March 1, 2017

More Information

Terms related to this study

Additional Relevant MeSH Terms

Other Study ID Numbers

  • GV28855

This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.

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