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Hepatitis C Virus Clearance by Direct-acting Antiviral Results in Rapid Resolution of Hepatocytic Injury as Indicated by Both Alanine Aminotransferase and Aspartate Aminotransferase Normalization

  • Tung Huynh,
  • Johnathan Zhang and
  • Ke-Qin Hu*
 Author information
Journal of Clinical and Translational Hepatology   2018;6(3):258-263

doi: 10.14218/JCTH.2018.00014

Abstract

Background and Aims: Hepatitis C virus (HCV) infection results in hepatocytic injury with elevation of both alanine aminotransferase (ALT) and aspartate aminotransferase (AST). It remains to be determined if direct-acting antiviral treatment can terminate hepatocytic injury following virologic response. To this end, we evaluated the pattern and predicting factors of ALT and AST normalization during and after direct-acting antiviral treatment with sustained virologic response at 12 weeks (SVR12).

Methods: Single-center retrospective study on 115 HCV-infected patients who achieved SVR12 was performed.

Results: At treatment week 2, 100% and 45.9% showed decline in HCV RNA to <700 IU/mL and undetectable levels, respectively, and this was associated with 85.5%, 83.9% and 77.4% ALT normalization, AST normalization and ALT and AST normalization. At end of treatment, 85.6% of patients with baseline elevation of both ALT and AST had normalization of both ALT and AST. At posttreatment weeks 12 and 24, 90.8% and 94.8% had normalization of both ALT and AST. HCV clearance also resulted in further decline of both ALT and AST in those with baseline <40 IU. Univariate analysis showed baseline Child-Pugh score of <6, model for end-stage liver disease score of <10, HCV genotype 1, and HCV RNA of <500 IU/mL at treatment week 2 were associated with sustained normalization of both ALT and AST at posttreatment week 12. On multivariate analysis, baseline model for end-stage liver disease score of <10 was significantly associated with normalization of both ALT and AST at posttreatment week 12, independent of baseline Child-Pugh score <6, HCV genotype 1, and HCV RNA of <500 IU/mL at treatment week 2.

Conclusions: During direct-acting antiviral therapy, 85.5% and 83.9% had normalization of both ALT and AST as early as in week 2, providing biochemical evidence of hepatocytic injury resolution. Sustained normalization of both ALT and AST was seen in 90.8% at posttreatment weeks 12, and was independently associated with baseline model for end-stage liver disease score of <10.

Keywords

Chronic hepatitis C, Direct acting antiviral, ALT and AST normalization, Hepatocytic injury

Introduction

Hepatitis C virus (HCV) infection affects approximately 115 million people worldwide and 3–5 million people in the USA.1,2 In most cases, HCV infection becomes chronic, which can result in chronic hepatitis C (CHC), cirrhosis and development of hepatocellular carcinoma.3 Interferon plus ribavirin (RBV) was once the mainstay regimen for HCV treatment, but was not effective and was associated with profound side effects. Since the first generation of direct-acting antiviral agents (DAAs)—boceprevir and telaprevir—were launched in 2011, significant advances have been made. The result has been clinical applications of more effective, safer, and newer generation of DAAs, starting in 2013, which revolutionized HCV treatment with superior sustained virologic response (SVR) rates, shorter treatment duration, and minimal side effects.4

To date, the USA Food and Drug Administration has approved the following DAA therapies: sofosbuvir (Sovaldi), simeprevir (Olysio), ledipasvir-sofosbuvir (Harvoni), ombitasvir-paritaprevir/ritonavir-dasabuvir (Viekira pak, Viekira XR), daclatasvir (Daklinza), ombitasvir-paritaprevir/ritonavir (2D regimen) (Technivie), elbasvir-grazoprevir (Zepatier), sofosbuvir-velpatasvir (Epclusa), sofosbuvir-velpatasvir-voxilaprevir (Vosevi), and glecaprevir-pibrentasvir (Mavyret). In fact, these DAA regimens have become the standard of care in the USA, and many other countries. Consequently, HCV infection has become a curable disease, defined as SVR at 12 weeks (SVR12), i.e. the absence of detectable HCV RNA at 12 weeks after treatment completion. Studies have confirmed that SVR results in significantly improved long-term outcomes, including reduced morbidity and mortality in these patients.5,6

Both alanine aminotransferase (ALT) and aspartate aminotransferase (AST) have been biochemical surrogates for liver injury, including HCV-mediated hepatocytic injury. During chronic HCV infection, ALT and AST are frequently elevated. Although HCV RNA monitoring during HCV treatment has been a standard practice, ALT and AST monitoring is also important to assess improvement of liver injury, drug side effects or interactions, and treatment response. However, changes in early treatment and full dynamic patterns of ALT and AST during and post DAAs treatment-have not been well studied. Furthermore, patients with HCV infection often have concomitant nonalcoholic fatty liver disease or other nonviral liver disease, potentially confounding the liver enzyme elevation. It remains to be determined whether these coexisting liver diseases or other factors could impact sustained biochemical normalization in patients who achieve SVR following HCV DAA therapy.

The present study assessed the dynamics of AST and ALT in patients who received DAA treatment with resulting SVR12 and evaluated factors that predict sustained biochemical response or normalization of both AST and ALT in these patients.

Methods

Patient enrollment

This was a single-center retrospective study. Institutional Review Board approval was obtained, and informed consent was waived. Inclusion criteria included patients with HCV, treated with DAAs with or without RBV, and having a minimum of 12 weeks posttreatment follow-up with confirmed SVR12. Exclusion criteria included patients with incomplete or missing lab data during treatment, completion of DAAs treatment but lack of SVR12 data, and completion of HCV treatment but relapse after DAA treatment. Patients with chronic HCV infection who received DAA treatment from 4/2014 to 10/2016 at the University of California Irvine Medical Center were assessed and enrolled if they met the above inclusion criteria.

A total of 149 charts were reviewed, leading to 28 patients being excluded – 19 due to incomplete or missing data during or after completed DAA treatment, and 9 patients due to completion of DAA treatment but no SVR12 data. There were 121 patients who completed the DAA treatment and had 12 week post treatment follow-up data. Six of those patients relapsed after completed treatment and were excluded. Consequently, 115 patients who achieved SVR12 were included in the analysis.

Data collection

Baseline data collection included age, sex, ethnicity, liver disease stage, comorbidities, presence of steatosis on imaging or biopsy, presence of nonalcoholic steatohepatitis (NASH) by biopsy, diagnosis of autoimmune hepatitis (AIH), diagnosis of cirrhosis, presence of decompensation, Child-Pugh (C-P) score, model for end-stage liver disease (MELD) score, baseline weight, body mass index, history of prior treatment experience, and previous treatment regimen if experienced. Baseline and follow-up lab data included HCV genotype (GT), HCV RNA PCR findings, international normalized ratio, levels of creatinine and alpha-fetoprotein (AFP), and complete blood count (white blood cells, hemoglobin, and platelets). The sensitivity of HCV RNA PCR tests was 15 IU/mL. Additional ALT and AST levels and HCV RNA PCR test results were collected at the time points of treatment weeks 2, 4, end of treatment (EOT), posttreatment weeks 12 and 24, and end of follow-up (EOF). Diagnosis of cirrhosis was based on histology, imaging evidence of cirrhosis and ascites, or endoscopic evidence of esophageal/gastric varices.

Statistical analysis

Variables were described using number and percentage or mean with the range. The SPSS program was used for statistical analysis. Pearson chi-square, univariate and multivariate analyses were performed to evaluate the association between different variables to ALT and AST normalization during the HCV treatment, with p-value <0.05 considered statistically significant.

Results

Baseline characteristics of the study subjects

In 115 patients, 47.8% had histological or clinical diagnosis of cirrhosis, with a mean MELD score of 8.8; among these patients, 85.5% were C-P class A and 14.5% were C-P class B, and 14.5% had hepatic decompensation with ascites and/or hepatic encephalopathy. In 73 (63.5%) patients who had liver biopsy data, 52.1% had fibrosis stage 1–2, 47.9%, fibrosis stage 3–4; among these, 69 (60%) patients had steatosis based on imaging and/or biopsy (Table 1) and 13 (11.3%) had biopsy proven coexisting NASH. Only 4 (3.5%) patients had concomitant AIH. HCV distribution is as following: 89 (77.4%) GT1 (34 GT1a, 31 GT1b, and 24 had no subtype test); 12 (10.4%) GT2; 9 (7.8%) GT3; and 5 (4.4%) GT4-6.

Table 1.

Baseline characteristics in 115 study subjects

Characteristicn (% or range)
Mean age, years58.39 (20–85)
Male:female58:57 (50.4:49.6)
Mean BMI, kg/m227.2 (18.1–45.9)
BMI >30 kg/m230 (26.1)
Ethnicity
  Caucasian59 (51.3)
  Asian24 (20.9)
  Hispanic16 (13.9)
  African American6 (5.2)
  Others10 (8.7)
Treatment-experienced45 (39.1)
Clinical diagnosis of cirrhosis55 (47.8)
Mean MELD score8.8 (6–29)
CPC A98 (85.5)
CPC B17 (14.5)
Liver biopsy73 (63.5)
F1–F238 (52.1)
F3–F435 (47.9)
Steatosis69 (60)
Coexisting NASH13 (11.3)
Coexisting AIH4 (3.5)
HCV genotype
 189 (77.4)
 212 (10.4)
 39 (7.8)
 4–65 (4.4)
ALT <40 IU/L32 (27.8)
AST <40 IU/L40 (34.8)
Mean baseline HCV RNA log5.98 (2.65–7.26)
Mean baseline AST, IU/L67.9 (18–244)
Mean baseline ALT, IU/L78.1 (12–496)
Mean baseline AFP, ng/dL14.4 (1.1–197)

Abbreviations: AFP, alpha-fetoprotein; AIH, autoimmune hepatitis; ALT, alanine aminotransferase; AST, aspartate aminotransferase; BMI, body mass index; CPC, Child-Pugh class; HCV, hepatitis C virus; MELD, model for end-stage liver disease; NASH, nonalcoholic steatohepatitis.

As shown in Table 1, the mean age was 58.39 (20–85) years. 50.4% of patients were male. 51.3% were Caucasian, 20.9% were Asian, 13.9% were Hispanic, 5.2% were African-American, and 8.7% were identified as other race. The mean follow-up was 49 (12–122) weeks post-treatment. In 45 (39.1%) treatment experienced patients, 35 patients (77.8%) received pegylated interferon (PEG-IFN) with RBV or PEG-IFN monotherapy, 9 patients (20%) received PEG-IFN/RBV with protease inhibitor, and 1 (2.2%) received PEG-IFN + RBV with sofosbuvir. For the DAA treatment regimens in this study, there were 66 patients treated with ledipasvir and sofosbuvir +/− RBV, 18 with sofosbuvir + RBV, 6 with 3D +/− RBV, 15 with sofosbuvir and simeprevir, 3 with elbasvir and grazoprevir, 2 with daclatasvir and sofosbuvir, and 5 patients with PEG-IFN + RBV + sofosbuvir.

Mean baseline HCV RNA was log 5.98 (range: 2.65–7.26) IU/mL. Percent of patients with baseline serum ALT >40 IU/L and AST >40 IU/L was 72.2% and 65.2%, respectively, and 59.1% had both ALT and AST >40 IU/L. Mean creatinine was 0.85 mg/dL (range: 0.3–2.18), mean hemoglobin was 13.78 g/dL (range: 8.1–17.2), mean white blood cell count was 5.38×1000/μL (range: 1.7–9.1), and mean platelet count was 169.73×1000/μL (range: 32–467).

In our cohort of patients, percent with baseline serum ALT >40 IU/L and AST >40 IU/L were 72.2% and 65.2%, respectively, and 59.1% had both ALT and AST >40 IU/L.

HCV treatment response and patterns of ALT and AST normalization

In our cohort of HCV patients who received DAA treatment, serum HCV RNA level declined to <700 IU/mL in 100% and was undetectable in 45.9% as early as treatment week 2. For those with remaining detectable HCV RNA, the mean level decreased to 77 (range: 12–630) IU/mL. As shown in Table 2 and Fig. 1, the percentage of undetectable HCV RNA continued increasing to 100% in EOT.

Table 2.

Dynamic changes in serum HCV RNA, ALT, AST, and both ALT and AST to <40 IU/L (%) from baseline to end of follow-up

BaselineWk2Wk4Wk8EOTPRx Wk12PRx Wk24EOF
HCV RNA <15 IU/mL0.0045.9 (28/61)78.2 (79/101)95.3 (82/86)100 (100/100)100 (95/95)100 (67/67)100 (92/92)
ALT <40 IU/L27.8 (32/115)85.5 (53/62)92.9 (91/98)91.3 (95/104)97.0 (95/98)96.1 (74/77)97.4 (112/115)
AST <40 IU/L34.8 (40/115)83.9 (52/62)91.8 (90/98)91.3 (95/104)91.8 (90/98)94.8 (73/77)94.8 (109/115)
Both ALT and AST <40 IU/L22.6 (26/115)77.4 (48/62)85.7 (84/98)85.6 (89/104)90.8 (89/98)94.8 (73/77)93.0 (107/115)

Abbreviations: ALT, alanine aminotransferase; AST, aspartate aminotransferase; EOF, end of follow-up; EOT, end of treatment; PRx Wk, posttreatment week; Wk, treatment week.

Dynamic changes of mean HCV RNA, ALT and AST during and after DAA treatment.
Fig. 1.  Dynamic changes of mean HCV RNA, ALT and AST during and after DAA treatment.

The dynamic changes of ALT (IU/L), AST (IU/L) and HCV RNA (IU/mL) including standard deviations are shown on the y-axis. Baseline and time line of the DAA treatment and of the posttreatment follow-up (by week, or W) are shown on the x-axis. Both mean ALT and AST decline and normalization rapidly following HCV RNA decline and undetectability occurred as early as DAA treatment week 2, indicating HCV clearance resulted in ALT and AST normalization in HCV-infected patients. Paired sample t-test showed that compared to the baseline ALT and AST values, the p-values of both ALT and AST decline at each time point were all <0.001.

Abbreviations: ALT, alanine aminotransferase; AST, aspartate aminotransferase; DAA, direct-acting antiviral; EOT, end of treatment; HCV, hepatitis C virus; PRxW, posttreatment week; RxW, treatment week.

In this study, normalization was defined by baseline level greater than the upper limit of normal (ULN) (i.e. ALT or AST ≥40 IU/L) with subsequent decrease to below ULN (i.e. <40 IU/L). As shown in Table 2, consistent with virologic response, the ALT and AST normalization started as early as treatment week 2, from 27.8% and 34.8% to 85.5% and 83.9%, respectively. The percentage of the improvement continued to rise in treatment week 4, until posttreatment week 12, up to 97.0% and 91.8%, respectively. Such ALT and AST normalization remained sustained until EOF. Indeed, there was continuous increase in percentage of ALT and AST normalization from posttreatment week 12 to EOF. Both ALT and AST normalization occurred as early as in treatment week 2, rising from 22.6% at baseline to 77.4% and 90.8% in posttreatment week 12.

Consistent with ALT or AST normalization, the percentage of both ALT and AST normalization was further increased to 93.0% at EOF. Fig. 1 shows the dynamic decline of ALT and AST in reference to HCV RNA during and after DAA treatment. However, the overall percentage of both ALT and AST normalization was lower than that of either ALT or AST normalization. Paired sample t-test showed that compared to the baseline ALT and AST values, the p-values of both ALT and AST declined at each time point, and were all <0.001 (i.e. showing statistical significance). In 6 cases with HCV relapse after finishing the DAA treatment, all had EOT ALT and AST normalization, but experienced recurrent ALT and AST elevation after the HCV relapse.

In 20 cases with pretreatment ALT and AST <40 (range: 12–39) IU/L, 100% had further decline in both ALT and AST as early as treatment week 2, which remained in posttreatment week 12. In 19 of the cases with posttreatment week 12 data, 18/19 (94.7%) had both ALT and AST decline to <25 IU/L. One case had ALT of 37 IU/L and AST of 29 IU/L, but this carried a diagnosis of coexisting NASH.

The differences in ALT normalization between male and female patients were analyzed. In 19 patients with baseline ALT <40 IU and posttreatment week 12 follow-up, 5/8 (62.5%) male patients had baseline ALT <30 (range: 12–29) IU/L and 1/11 (9%) female patients had ALT <19 (range: 13–16) IU/L. At posttreatment week 12, 8/8 (100%) males had ALT <30 (range: 10–29) IU/L and 9/11 (81.8%) females had ALT <19 (range: 9–17) IU/L.

In 17 patients with liver biopsy diagnosis of NASH or AIH (NASH, n = 13; AIH, n = 4), 93.3%, 86.7% and 86.7% had ALT, AST and both ALT and AST normalization in posttreatment week 12. Fig. 1 shows the dynamic changes of mean ALT and AST in association with serum HCV RNA changes, from baseline to EOF. Both ALT and AST normalization was well associated with the clearance of HCV replication.

Variables associated with ALT and AST normalization

As shown in Table 3, univariate analysis was performed to evaluate factors associated with both ALT and AST normalization to <40 IU/L at posttreatment weeks 12. The variables of age >50 years, ethnicity, presence of NASH or AIH, body mass index >30 kg/m2, and baseline AFP elevation to >5.5 ng/dL were not associated with ALT and AST normalization to <40 IU/L. However, HCV GT 1, HCV RNA of <500 IU in treatment week 2, C-P score of <6, and MELD score of <10 were significantly associated with both ALT and AST normalization to <40 IU/L in posttreatment week 12. Multivariate analysis confirmed that baseline MELD score of <10 was significantly associated with both ALT and AST normalization at posttreatment week 12, independent to HCV RNA <500 IU/mL at treatment week 2 and C-P score of <6, although C-P score of <6 was also almost significantly associated.

Table 3.

Univariate and multivariate analysis for factors associated with both ALT and AST <40 IU/L at post-DAA Rx week 12

VariableUnivariate analysisMultivariate analysis
p-valuep-value (LR)
Age >50 years0.242
Asian ethnicity0.239
Presence of NASH or AIH0.591
BMI >30 kg/m20.296
Baseline AFP >5.5 ng/dL0.523
Presence of cirrhosis0.362
GT 1 vs. non-10.0100.250 (2.77)
HCV RNA <500 IU at Rx Wk 20.0280.148 (3.82)
CPC score <60.0220.063 (8.32)
MELD score <100.0350.044 (9.00)

Abbreviations: AFP, alpha-fetoprotein; AIH, autoimmune hepatitis; BMI, body mass index; CPC, Child-Pugh class; DAA, direct-acting antiviral; GT, genotype; HCV, hepatitis C virus; LR, likelihood ratio; MELD, model for end-stage liver disease; NASH, nonalcoholic steatohepatitis; Rx, treatment; Wk, week.

Discussion

ALT and AST elevation is a biochemical surrogate for hepatocytic injury and a typical presentation of CHC. Studies have demonstrated persistent elevation of ALT and AST is associated with CHC progression and increasing risk for cirrhosis, and indication for HCV treatment.7–10 For instance, ALT elevation was reported to be present in 75% of patients with CHC.11 In our cohort of patients, baseline serum ALT >40 IU/L and AST >40 IU/L were found in 72.2% and 65.2% of the patients, respectively, and 59.1% had both ALT and AST >40 IU/L, consistent with previous reports.

DAA has become the standard of HCV treatment, with very high SVR rates demonstrated by clinical trials and real-world data.12–14 However, biochemical response and factors related to biochemical response during and after DAA therapy have not been previously reported. The present study assessed ALT and AST dynamic changes during and after DAA treatment in association with HCV clearance in patients with CHC. For a long time, HCV has been considered nonpathogenic, and that it is the host immune response to HCV proteins that caused hepatocytic injury.15–17 However, we found that in most of the patients, HCV decline and clearance occurred as early as 2 weeks after initiating the DAA treatment. Consistent with this, normalization of ALT and AST elevation occurred as early as 2 weeks after DAA treatment. More specifically, at week 2 of DAA treatment, serum HCV RNA declined to <700 IU/mL in 100% and was undetectable in 45.9% of the patients, and 85.5% and 83.9% experienced ALT and AST normalizations, respectively, and 77.4% experienced both ALT and AST normalization. Therefore, for the first time, we demonstrated the benefit of DAA treatment not only for HCV RNA clearance but also for normalization of ALT and AST – traditional biochemical surrogates of liver injury – as early as 2 weeks after initiating the DAA treatment.

Both ALT and AST improvement continued with the course of DAA treatment and HCV RNA clearance. On the other hand, in 6 cases with baseline elevation of both ALT and AST and treatment-induced ALT and AST normalizations but posttreatment virologic relapse, all developed recurrent elevation of both ALT and AST once the virological relapse had occurred. As both ALT and AST elevation is the surrogate for hepatocytic injury, such close correlation of ALT and AST improvement with HCV RNA clearance also provides strong clinical evidence that HCV may be directly pathogenic, causing hepatocytic injury. If this finding is further confirmed by large prospective studies and the underlying mechanism is determined, our findings will lend support to the theory that HCV could be directly pathogenic in HCV-related pathogenesis, in contrast to the traditional concept.

We also found that all patients with baseline ALT and AST <40 IU had further ALT and AST decline right after HCV clearance that remained to posttreatment week 12. Modified ALT ULN (i.e. <30 IU/L for males and <19 IU/L for females) has been included for hepatitis B treatment guidance,18 but no studies for such with HCV infection have been reported. Another interesting finding of the present study is that in patients with pretreatment ALT of <40 IU/L, DAA-mediated HCV clearance resulted in further ALT decline. Indeed, 100% of male patients had ALT improved to <30 IU/L, and 81.8% of female patients had it to <19 IU/L. Our findings indicated that the current ALT ULN of 40 IU/L may under-estimate HCV-mediated liver injury. Further larger sample studies will be needed to reconfirm our above findings.

It is well known that other kinds of liver diseases or liver injury may coexist with CHC, contributing to progression of liver injury and increasing risk for cirrhosis.19,20 In our study, 60% of patients had steatosis by imaging ultrasound or computerized tomography, 13 cases (11.3%) had liver biopsy-confirmed diagnosis of NASH, and 4 cases (3.5%) had pathologic diagnosis of coexisting AIH. We found that in the 17 CHC patients with histologically-confirmed coexistence of NASH or AIH, 93% and 80% had baseline ALT or AST elevation, respectively. The rates of ALT and AST normalization were comparable to those in patients without NASH or AIH. Univariate analysis also indicated the presence or absence of NASH, and AIH was not associated with ALT and AST normalization. Although the sample size was small, our results indicated that in those with CHC and coexisting NASH or AIH, HCV-mediated hepatocytic injury is the main driving force for liver injury. Further larger studies are needed to confirm these findings.

The dynamics of normalization were similar for ALT and AST, but the normalization rate was slightly lower for AST than ALT. Normalization of both ALT and AST was not associated with the degree of baseline elevation. For instance, in patients with baseline ALT of >100 IU/mL, 93% had ALT normalization at EOF. In general, the rate of normalization of both ALT and AST was slightly lower than that of either ALT or AST normalization. We also found that, like serum HCV RNA, the normalization of ALT and AST at posttreatment week 12 was sustained, indicating the possibility to use ALT and AST tests as replacements for the expensive HCV RNA PCR test, and to follow DAA treatment response. If further confirmed, this will be, perhaps, particularly valuable in areas where frequent HCV RNA PCR testing is not affordable. Another interesting finding of our study was that the rate of normalization of both ALT and AST was further improved from posttreatment week 12 to EOF, from 90.8% to 93.0%.

We determined the variables associated with normalization of both ALT and AST. Univariate analysis indicated that HCV GT 1 versus non-1, HCV RNA of <500 IU/mL in treatment week 2, C-P score of <6, and MELD score of <10, but not age, ethnicity, presence of NASH or AIH, cirrhosis, obesity, elevated serum AFP, or cirrhosis were significantly associated with normalization of both ALT and AST to <40 IU/L in posttreatment week 12. Multivariate analysis confirmed that baseline MELD score of <10 was significantly associated with both ALT and AST normalization at posttreatment week 12, independent to HCV RNA <500 IU/mL, HCV GT 1, and C-P score. This indicated that absence of advanced cirrhosis (MELD <10) predicts normalization of both ALT and AST, i.e. sustained biochemical response, and that is well correlated to SVR12.

In conclusion, by assessing the dynamic patterns of normalization of both ALT and AST during and after DAA treatment for HCV infection, our study provided evidence that (1) normalization of both ALT and AST is well associated with sustained HCV clearance, which could be a potential biochemical marker to follow HCV treatment responses; (2) rapid normalization of both ALT and AST followed HCV clearance, indicating that HCV might be directly pathogenic, causing hepatocytic injury; and, (3) the current ALT ULN of 40 IU might under-estimate HCV-mediated liver injury.

Abbreviations

AFP: 

alpha-fetoprotein

AIH: 

autoimmune hepatitis

ALT: 

alanine aminotransferase

AST: 

aspartate aminotransferase

CHC: 

chronic hepatitis C

C-P: 

Child-Pugh

DAA: 

direct-acting antiviral

EOF: 

end of follow-up

EOT: 

end of treatment

GT: 

genotype

HCV: 

hepatitis C virus

MELD: 

model for end-stage liver disease

NASH: 

nonalcoholic steatohepatitis

PEG-IFN: 

pegylated-interferon

RBV: 

ribavirin

SVR12: 

sustained virologic response at 12 weeks

ULN: 

upper limit of normal

Declarations

Conflict of interest

Dr. Hu is on the Speaker Bureau for Gilead and Merck. The others have no conflict of interests related to this publication.

Authors’ contributions

Study design (KQH), data collection and analysis (KQH, TH, JZ), manuscript preparation (TH, JZ), final writing and editing of the manuscript (KQH).

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  • eISSN 2310-8819

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Hepatitis C Virus Clearance by Direct-acting Antiviral Results in Rapid Resolution of Hepatocytic Injury as Indicated by Both Alanine Aminotransferase and Aspartate Aminotransferase Normalization

Tung Huynh, Johnathan Zhang, Ke-Qin Hu
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