Time To First Occurrence Of Severe Decompensating Events of Expanded Composite Endpoint
The first occurrence of the key secondary clinical event refers to the first occurrence of the following events: death, liver transplant, MELD-Na score >=15 if MELD-Na< 12 at baseline, MELD score >=15 if MELD-Na >=12 at baseline, uncontrolled or refractory ascites, portal hypertension syndromes (hepatorenal syndrome, portopulmonary syndrome, hepatopulmonary syndrome) or hospitalization for new onset or recurrence of variceal bleed, hepatic encephalopathy, spontaneous bacterial peritonitis, or bacterial empyema. The clinical events distribution was estimated using the Kaplan-Meier methodology. Point estimates and 95% CIs for the clinical events distribution percentiles (25th and 50th) are provided.
Time To Liver Transplant Or Death (All-cause)
The effect of OCA compared to placebo on time to liver transplant or death (all-cause) was assessed. The events distribution was estimated using the Kaplan-Meier methodology. Point estimates and 95% CIs for the clinical events distribution percentiles (25th and 50th) are provided.
Time to First Occurrence of Fatal Event (All-Cause)
The results represent the ratio of OCA to placebo. The fatal events distribution was estimated using the Kaplan-Meier methodology. Point estimates and 95% CIs for the fatal events distribution percentiles (25th and 50th) are provided
Time to First Occurrence of Liver Transplant
The effect of OCA compared to placebo on time to occurrence of a liver transplant was assessed. The results represented the ratio of OCA to placebo. A hazard ratio <1 indicated an advantage for OCA. The event of interest was summarized through Cumulative Incidence Function (CIF) estimate at 5 years.
Time to First Occurrence of Hospitalization Due to Hepatic Events
Hospitalization events include new onset or recurrent variceal bleed, hepatic encephalopathy (as defined by a West Haven score of >=2), spontaneous bacterial peritonitis (confirmed by diagnostic paracentesis OR presence of >250/mm^3 polymorph leucocytes [PMNs] in the ascitic fluid), bacterial empyema is confirmed by diagnostic thoracentesis OR presence of >250/mm^3 PMNs in the pleural fluid. The event of interest was summarized through CIF estimate at 5 years.
Time to First Occurrence of Uncontrolled or Refractory Ascites
Uncontrolled or refractory ascites are defined as diuretic-resistant ascites requiring large-volume paracentesis. The effect of OCA compared to placebo on time to the first occurrence of uncontrolled or refractory ascites was assessed. The event of interest was summarized through CIF estimate at 5 years.
Time to First Occurrence of MELD Score ≥15
The MELD score is useful in assessing participants with significant decompensation. The MELD score is now used by the United Network for Organ Sharing in the United States and Eurotransplants to manage organ allocation for liver transplantation. The MELD score is derived from the participant's serum total bilirubin, serum creatinine, and International Normalized Ratio (INR), as appropriate, to predict survival. The MELD score ranges from 6 to 40. The higher the score, the more likely a participant will receive a liver from a deceased donor when an organ becomes available. The event of interest was summarized through CIF estimate at 5 years.
Time To Development Of Varix/Varices
The effect of OCA compared to placebo on time to development of varix/varices was assessed. The event of interest was summarized through CIF estimate at 5 years.
Time To Liver-Related Death
The effect of OCA compared to placebo on time to liver-related death was assessed. The event of interest was summarized through CIF estimate at 5 years.
Time To Liver-Related Death Or Liver Transplant
The effect of OCA compared to placebo on time to liver-related death or liver transplant was assessed. The event of interest was summarized through CIF estimate at 5 years.
Time To Liver-Related Death, Liver Transplant, Or MELD Score ≥15
The effect of OCA compared to placebo on time to liver-related death, liver transplant, or MELD Score ≥15 was assessed. The MELD score is useful in assessing participants with significant decompensation. The MELD score is now used by the United Network for Organ Sharing in the United States and Eurotransplants to manage organ allocation for liver transplantation. The MELD score is derived from the participant's serum total bilirubin, serum creatinine, and INR, as appropriate, to predict survival. The MELD score ranges from 6 to 40. The higher the score, the more likely a participant will receive a liver from a deceased donor when an organ becomes available. The event of interest was summarized through CIF estimate at 5 years.
Progression To Cirrhosis (for Noncirrhotic Subjects at Baseline)
When a participant is identified as noncirrhotic at the Baseline and exhibited any signs or symptoms associated with progression to cirrhosis, the participant was assessed by Fibroscan® TE where available. The event of interest was summarized through CIF estimate at 5 years.
Time To Occurrence Of Hepatocellular Carcinoma (HCC)
The effect of OCA compared to placebo on time to occurrence of HCC was assessed. The event of interest was summarized through CIF estimate at 5 years.
Change From Baseline To Month 24 Of Total Bilirubin
Liver biochemistry, which includes total bilirubin, was assessed to evaluate biochemical triggers that would prompt an immediate reevaluation of participants for potential hepatic injury or hepatic decompensation. Analysis was performed using mixed model repeated measures (MMRM), including treatment group, time, treatment group by time interaction, and randomization stratification factors as entered in the IWRS as fixed effects and baseline values as a covariate.
Change From Baseline To Month 24 Of Direct Bilirubin
Liver biochemistry, which includes direct bilirubin, was assessed to evaluate biochemical triggers that would prompt an immediate reevaluation of participants for potential hepatic injury or hepatic decompensation. Analysis was performed using MMRM, including treatment group, time, treatment group by time interaction, and randomization stratification factors as entered in the IWRS as fixed effects and baseline values as a covariate.
Change From Baseline To Month 24 Of Aspartate Aminotransferase (AST)
Liver biochemistry, which includes AST, was assessed to evaluate biochemical triggers that would prompt an immediate reevaluation of participants for potential hepatic injury or hepatic decompensation. Analysis was performed using MMRM, including treatment group, time, treatment group by time interaction, and randomization stratification factors as entered in the IWRS as fixed effects and baseline values as a covariate.
Change From Baseline To Month 24 Of Alanine Aminotransferase (ALT)
Liver biochemistry, which includes ALT, was assessed to evaluate biochemical triggers that would prompt an immediate reevaluation of participants for potential hepatic injury or hepatic decompensation. Analysis was performed using MMRM, including treatment group, time, treatment group by time interaction, and randomization stratification factors as entered in the IWRS as fixed effects and baseline values as a covariate.
Change From Baseline To Month 24 Of Alkaline Phosphatase (ALP)
Liver biochemistry, which includes ALP, was assessed to evaluate biochemical triggers that would prompt an immediate reevaluation of participants for potential hepatic injury or hepatic decompensation. Analysis was performed using MMRM, including treatment group, time, treatment group by time interaction, and randomization stratification factors as entered in the IWRS as fixed effects and baseline values as a covariate.
Change From Baseline To Month 24 Of Gamma-glutamyl Transferase (GGT)
Liver biochemistry, which includes GGT, was assessed to evaluate biochemical triggers that would prompt an immediate reevaluation of participants for potential hepatic injury or hepatic decompensation. Analysis was performed using MMRM, including treatment group, time, treatment group by time interaction, and randomization stratification factors as entered in the IWRS as fixed effects and baseline values as a covariate.
Change From Baseline To Month 24 Of Albumin
Liver biochemistry, which includes albumin, was assessed to evaluate biochemical triggers that would prompt an immediate reevaluation of participants for potential hepatic injury or hepatic decompensation. Analysis was performed using MMRM, including treatment group, time, treatment group by time interaction, and randomization stratification factors as entered in the IWRS as fixed effects and baseline values as a covariate.
Change From Baseline To Month 24 Of INR
The coagulation test, which includes INR, was assessed to evaluate biochemical triggers that would prompt an immediate reevaluation of participants for potential hepatic injury or hepatic decompensation. INR is the ratio of tested prothrombin time to normal prothrombin time, to a power designated the international sensitivity index (ISI). INR normal range is 0.8 to 1.2 (female and male). Analysis was performed using MMRM, including treatment group, time, treatment group by time interaction, and randomization stratification factors as entered in the IWRS as fixed effects and baseline values as a covariate.
Change From Baseline To Month 72 Of MELD Score
The MELD score is useful in assessing participants with significant decompensation. The MELD score is now used by the United Network for Organ Sharing in the United States and Eurotransplants to manage organ allocation for liver transplantation. The MELD score is derived from the participant's serum total bilirubin, serum creatinine, and INR, as appropriate, to predict survival. The MELD score ranges from 6 to 40. The higher the score, the more likely a participant will receive a liver from a deceased donor when an organ becomes available.
Change From Baseline To Month 72 Of MELD-Na Score
The MELD-Na score is another useful predictor in assessing participants with significant decompensation. The MELD-Na took into account the effect of serum sodium as a reflection of renal function and hypothetically may improve the accuracy of the model score. The MELD-Na score is derived from the participant's serum total bilirubin, serum creatinine, INR, and serum sodium, as appropriate, to predict survival. The MELD-Na score ranges from 6 to 40. The higher the score, the more likely a participant will receive a liver from a deceased donor when an organ becomes available.
Change From Baseline To Month 72 Of CPS
Child-Pugh Score (Pugh 1973, Lucey 1997) was calculated and reported within the electronic data capture (EDC) system based on data entered into the CRF by adding the scores from the 5 factors and could have ranged from 5 to15. A total score of 5 to 6 was considered Grade A (mild, well-compensated disease); 7 to 9 was Grade B (moderate, significant functional compromise); and 10 and above was Grade C (severe, decompensated disease).
Change From Baseline To Month 72 Of Mayo Risk Score (MRS)
Mayo Risk Score (MRS) was calculated and reported within the EDC system. Calculation of MRS included Investigator assessment of peripheral edema and the use of diuretic therapy, which was assessed during the adverse event and concomitant medicine review at the scheduled visits and entered into the CRF, as well as total bilirubin, albumin, and prothrombin time results obtained from the central laboratory data. There is no maximum and minimum range of score but an increase in the MRS represents an increase in the risk of death.
Change From Baseline To Month 72 Of Immunoglobulin-M (IgM)
Markers of inflammation, which include IgM, were assessed.
Change From Baseline To Month 72 Of C-reactive Protein (CRP)
Markers of inflammation, which include CRP, were assessed.
Change From Baseline To Month 72 Of Tumor Necrosis Factor-α (TNF-α)
Markers of inflammation, which include TNF-α, were assessed.
Change From Baseline To Month 72 Of Fibroblast Growth Factor-19 (FGF-19)
Markers of hepatic fibrosis, which include FGF-19, were assessed.
Change From Baseline To Month 72 Of Cytokeratin-18 (CK-18)
Markers of inflammation, which include CK-18, were assessed.
Change From Baseline To Month 72 Of 7α-hydroxy-4-cholesten-3-one (C4)
Markers of hepatic fibrosis, which include C4, were assessed.
Change From Baseline To Month 72 Of Enhanced Liver Fibrosis (ELF)
Liver fibrosis was assessed using ELF test. The ELF test assessed: hyaluronic acid, procollagen3 N-terminal peptide, and a tissue inhibitor of metalloproteinase 1. The ELF test is a composite score: < 7.7: no to mild fibrosis; ≥ 7.7 - < 9.8: Moderate fibrosis; ≥ 9.8 - < 11.3: Severe fibrosis; ≥ 11.3: Cirrhosis. A negative change from Baseline suggests decreased fibrosis.
Change From Baseline To Month 72 Of Liver Stiffness - Transient Elastography
Hepatic stiffness was measured using non-invasive transient Elastography with Fibroscan® TE device.
Number of Participants With Treatment-Emergent Adverse Events (TEAEs) and Serious Adverse Events (SAEs)
An adverse event (AE) was defined as any unfavorable and unintended sign (for example, including an abnormal laboratory finding), symptom, or disease temporally associated with the use of a medicinal product or procedure, whether or not considered related to the medicinal product or procedure, which occurred during the course of the clinical study. TEAEs were defined as AEs that occurred on or after the date and time of study drug administration, or those that first occurred before dosing but worsened in frequency or severity after study drug administration. A summary of all Serious Adverse Events and Other Adverse Events (nonserious) regardless of causality is located in the 'Reported Adverse Events' Section.
Pharmacokinetic (PK) Population: Fasting Trough Concentrations Of OCA By Dose Regimen
The fasting trough PK concentrations of OCA of different dose regimens taken throughout the study are reported.
PK Population: Serial Concentration of OCA By Dose Regimen
In Month 9, blood samples were collected at predose, 0.5 h, 0.75 h, 1 h, 1.5 h, 2 h, 2.5 h, 3 h, 4h, 5 h, and 6 h and PK serial concentrations at different dose regimen are reported.
PK Population: Area Under The Concentration-Time Curve (AUC) From 0 to 6 Hours Post-dose (AUC0-6h) Of Participants Who Received 5 mg QD OCA and With CP Score=Non-Cirrhotic (NC)
In Month 9, blood samples were collected at predose, 0.5h, 0.75 h, 1 h, 1.5 h, 2 h, 2.5 h, 3 h, 4h, 5 h, and 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=NC.
PK Population: AUC From 0 to 24 Hours Post-dose (AUC0-24h) Of Participants Who Received 5 mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose, 0.5h, 0.75 h, 1 h, 1.5 h, 2 h, 2.5 h, 3 h, 4h, 5 h, and 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=NC.
PK Population: Maximum Observed Concentration (Cmax) Of Participants Who Received 5mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=NC.
PK Population: Time to Cmax (Tmax) Of Participants Who Received 5mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=NC.
PK Population: Metabolite to Parent Ratio of AUC0-6h (MRAUC) Of Participants Who Received 5mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=NC.
PK Population: Metabolite to Parent Ratio of Cmax (MRCmax) Of Participants Who Received 5mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=NC.
PK Population: AUC0-6h Of Participants Who Received 5 mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=A.
PK Population: AUC0-24h Of Participants Who Received 5 mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=A.
PK Population: Cmax Of Participants Who Received 5mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=A.
PK Population: Tmax Of Participants Who Received 5mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=A.
PK Population: Concentration at 24 Hours Post-dose (Ctrough) Of Participants Who Received 5mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=A.
PK Population: MRAUC Of Participants Who Received 5mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=A.
PK Population: MRCmax Of Participants Who Received 5mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=A.
PK Population: Ctrough Of Participants Who Received 5mg QD OCA and With CP Score=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with CP Score=B.
PK Population: AUC0-6h Of Participants Who Received 5 mg QOD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with CP Score=NC.
PK Population: AUC0-24h Of Participants Who Received 5 mg QOD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with CP Score=NC
PK Population: Cmax Of Participants Who Received 5mg QOD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with CP Score=NC.
PK Population: Tmax Of Participants Who Received 5mg QOD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with CP Score=NC.
PK Population: Ctrough Of Participants Who Received 5mg QOD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with CP Score=NC.
PK Population: MRAUC Of Participants Who Received 5mg QOD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with CP Score=NC.
PK Population: MRCmax Of Participants Who Received 5mg QOD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with CP Score=NC.
PK Population: AUC0-6h Of Participants Who Received 10 mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QOD OCA with CP Score=NC.
PK Population: AUC0-24h Of Participants Who Received 10 mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QOD OCA with CP Score=NC.
PK Population: Cmax Of Participants Who Received 10 mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QOD OCA with CP Score=NC.
PK Population: Tmax Of Participants Who Received 10 mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QOD OCA with CP Score=NC.
PK Population: Ctrough Of Participants Who Received 10 mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QOD OCA with CP Score=NC.
PK Population: MRAUC Of Participants Who Received 10 mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QOD OCA with CP Score=NC.
PK Population: MRCmax Of Participants Who Received 10 mg QD OCA and With CP Score=NC
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QOD OCA with CP Score=NC.
PK Population: AUC0-6h Of Participants Who Received 10 mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with CP Score=A.
PK Population: AUC0-24h Of Participants Who Received 10 mg QD OCA and With CPS Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with CP Score=A.
PK Population: Cmax Of Participants Who Received 10 mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with CP Score=A.
PK Population: Tmax Of Participants Who Received 10 mg QD OCA and With CPS Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with CP Score=A.
PK Population: Ctrough Of Participants Who Received 10 mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with CP Score=A.
PK Population: MRAUC Of Participants Who Received 10 mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with CP Score=A.
PK Population: MRCmax Of Participants Who Received 10 mg QD OCA and With CP Score=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with CP Score=A.
PK Population: AUC0-6h Of Participants Who Received 10 mg Q2W OCA and With CP Score=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with CP Score=B.
PK Population: AUC0-24h Of Participants Who Received 10 mg Q2W OCA and With CP Score=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with CP Score=B.
PK Population: Cmax Of Participants Who Received 10 mg Q2W OCA and With CP Score=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with CP Score=B.
PK Population: Tmax Of Participants Who Received 10 mg Q2W OCA and With CP Score=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with CP Score=B.
PK Population: Ctrough Of Participants Who Received 10 mg Q2W OCA and With CP Score=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with CP Score=B.
PK Population: MRAUC Of Participants Who Received 10 mg Q2W OCA and With CP Score=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with CP Score=B
PK Population: MRCmax Of Participants Who Received 10 mg Q2W OCA and With CP Score=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with CP Score=B.
PK Population: AUC0-6h Of Participants Who Received 5 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=A.
PK Population: AUC0-24h Of Participants Who Received 5 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=A.
PK Population: Cmax Of Participants Who Received 5 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=A.
PK Population: Tmax Of Participants Who Received 5 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=A.
PK Population: Ctrough Of Participants Who Received 5 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=A.
PK Population: MRAUC Of Participants Who Received 5 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=A.
PK Population: MRCmax Of Participants Who Received 5 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=A.
PK Population: AUC0-6h Of Participants Who Received 5 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=B.
PK Population: AUC0-24h Of Participants Who Received 5 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=B.
PK Population: Cmax Of Participants Who Received 5 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=B.
PK Population: Tmax Of Participants Who Received 5 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=B.
PK Population: Ctrough Of Participants Who Received 5 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=B.
PK Population: MRAUC Of Participants Who Received 5 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=B.
PK Population: MRCmax Of Participants Who Received 5 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QD OCA with MELD Category=B.
PK Population: AUC0-6h Of Participants Who Received 5 mg QOD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with MELD Category=A.
PK Population: AUC0-24h Of Participants Who Received 5 mg QOD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with MELD Category=A.
PK Population: Cmax Of Participants Who Received 5 mg QOD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with MELD Category=A.
PK Population: Tmax Of Participants Who Received 5 mg QOD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with MELD Category=A.
PK Population: Ctrough Of Participants Who Received 5 mg QOD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with MELD Category=A.
PK Population: MRAUC Of Participants Who Received 5 mg QOD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with MELD Category=A.
PK Population: MRCmax Of Participants Who Received 5 mg QOD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 5 mg QOD OCA with MELD Category=A.
PK Population: AUC0-6h Of Participants Who Received 10 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=A.
PK Population: AUC0-24h Of Participants Who Received 10 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=A.
PK Population: Cmax Of Participants Who Received 10 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=A
PK Population: Tmax Of Participants Who Received 10 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=A.
PK Population: Ctrough Of Participants Who Received 10 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=A.
PK Population: MRAUC Of Participants Who Received 10 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=A.
PK Population: MRCmax Of Participants Who Received 10 mg QD OCA and With MELD Category=A
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=A.
PK Population: AUC0-6h Of Participants Who Received 10 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=B.
PK Population: AUC0-24h Of Participants Who Received 10 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=B.
PK Population: Cmax Of Participants Who Received 10 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=B.
PK Population: Tmax Of Participants Who Received 10 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=B.
PK Population: Ctrough Of Participants Who Received 10 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=B.
PK Population: MRAUC Of Participants Who Received 10 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=B.
PK Population: MRCmax Of Participants Who Received 10 mg QD OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg QD OCA with MELD Category=B.
PK Population: AUC0-6h Of Participants Who Received 10 mg Q2W OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with MELD Category=B.
PK Population: AUC0-24h Of Participants Who Received 10 mg Q2W OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with MELD Category=B.
PK Population: Cmax Of Participants Who Received 10 mg Q2W OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with MELD Category=B.
PK Population: Tmax Of Participants Who Received 10 mg Q2W OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with MELD Category=B.
PK Population: Ctrough Of Participants Who Received 10 mg Q2W OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with MELD Category=B.
PK Population: MRAUC Of Participants Who Received 10 mg Q2W OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with MELD Category=B.
PK Population: MRCmax Of Participants Who Received 10 mg Q2W OCA and With MELD Category=B
In Month 9, blood samples were collected at predose to 6 h for PK analysis in participants who received 10 mg Q2W OCA with MELD Category=B.
PK Population: Trough Concentrations Of Cirrhotic Participants Who Received 5 mg QD OCA
The trough concentration of OCA in the cirrhotic participants who received 5 mg QD OCA was reported.
PK Population: Trough Concentrations Of Non-Cirrhotic Participants Who Received 5 mg QD OCA
The trough concentration of OCA in the non-cirrhotic participants who received 5 mg QD OCA was reported.
PK Population: Trough Concentrations Of Cirrhotic Participants Who Received 5 mg QOD OCA
The trough concentration of OCA in the cirrhotic participants who received 5 mg QOD OCA was reported.
PK Population: Trough Concentrations Of Non-Cirrhotic Participants Who Received 5 mg QOD OCA
The trough concentration of OCA in the non-cirrhotic participants who received 5 mg QOD OCA was reported.
PK Population: Trough Concentrations Of Cirrhotic Participants Who Received 5 mg QW OCA
The trough concentration of OCA in the cirrhotic participants who received 5 mg QW OCA was reported.
PK Population: Trough Concentrations Of Non-Cirrhotic Participants Who Received 5 mg QW OCA
In Month 12, the trough concentration of OCA in the non-cirrhotic participants who received 5 QW QOD OCA was reported.
PK Population: Trough Concentrations Of Cirrhotic Participants Who Received 5 mg Q2W OCA
The trough concentration of OCA in the cirrhotic participants who received 5 mg Q2W OCA was reported.
PK Population: Trough Concentrations Of Non-Cirrhotic Participants Who Received 5 mg Q2W OCA
The trough concentration of OCA in the non-cirrhotic participants who received 5 Q2W QOD OCA was reported.
PK Population: Trough Concentrations Of Cirrhotic Participants Who Received 10 mg QD OCA
The trough concentration of OCA in the cirrhotic participants who received 10 mg QD OCA was reported.
PK Population: Trough Concentrations Of Non-Cirrhotic Participants Who Received 10 mg QD OCA
The trough concentration of OCA in the non-cirrhotic participants who received 10 QD QOD OCA was reported.
PK Population: Trough Concentrations Of Cirrhotic Participants Who Received 10 mg QOD OCA
PK Population: Trough Concentrations Of Non-Cirrhotic Participants Who Received 10 mg QOD OCA
In Month 12, the trough concentration of OCA in the non-cirrhotic participants who received 10 mg QOD OCA was reported.
PK Population: Trough Concentrations Of Cirrhotic Participants Who Received 10 mg Q2W OCA
In Month 6, the trough concentration of OCA in the cirrhotic participants who received 10 mg Q2W OCA was reported.
PK Population: Trough Concentrations Of Non-Cirrhotic Participants Who Received 10 mg Q2W OCA
In Month 6, the trough concentration of OCA in the non-cirrhotic participants who received 10 mg Q2W OCA was reported.