FIB-4 Index Is Associated with Hepatocellular Carcinoma Risk in HIV-Infected Patients Epidemiology,Biomarkers&Prevention

, Abstract Background: Chronic inﬂammation causedby hepatitis Bvirus infection, hepatitis Cvirus infection, and/or heavy alcohol use can lead to ﬁbrosis, cirrhosis, and eventually hepatocellular carcinoma (HCC). FIB-4 is an index score calculated from platelet count, alanine transaminase, aspartate transaminase, and agethat predicts ﬁbrosis and cirrhosis. We hypothesized thathigh FIB-4 would beassociated with development ofHCC inHIV-infected persons, who are at high risk due to high prevalence of viral hepatitis and alcohol consumption, and possibly due to HIV infection itself. Methods: Using proportional hazards models, we tested this hypothesis among 22,980 HIV-infected men from the Veterans Aging Cohort Study. We identiﬁed incident HCC cases from the Veterans Affairs Central Cancer Registry. Results: During follow-up, there were 112 incident HCC diagnoses. The age- and race/ethnic group-adjustedHRwas4.2[95%conﬁdenceinterval(CI),2.4–7.4]forintermediateFIB-4and13.0(95%CI,7.2–23.4)for high FIB-4, compared with low FIB-4. After further adjustment for enrollment year, CD4 count, HIV-1 RNA level, antiretroviral therapy use, hepatitis B and C virus infection, alcohol abuse/dependency, and diabetes, FIB-4 remained a strong, signiﬁcant, independent risk factor for HCC. The multivariate-adjusted HR was 3.6 (95% CI, 2.1–6.4) for intermediate FIB-4 and 9.6 (95% CI, 5.2–17.4) for high FIB-4. Conclusions: Calculated from routine, noninvasive laboratory tests, FIB-4 is a strong, independent HCC risk factor in HIV-infected patients. Impact: FIB-4 might prove valuable as an easily measured index to identify those at highest risk for HCC, even prior to development of clinical cirrhosis. Cancer Epidemiol Biomarkers Prev; 1–6. (cid:1) 2011 AACR.


Introduction
Primary liver cancer, mainly hepatocellular carcinoma (HCC), is the third leading cancer cause of death worldwide (1) and the fifth among men in the United States (2), where HCC incidence and mortality rates continue to increase (3). Chronic inflammation associ-ated with hepatitis B virus (HBV) infection, hepatitis C virus (HCV) infection, and/or heavy alcohol use can lead to fibrosis, cirrhosis, and eventually to HCC (4,5). FIB-4 is an index score calculated from platelet count (PLT), alanine transaminase (ALT), aspartate transaminase (AST), and age that is predictive of advanced hepatic fibrosis and cirrhosis (6). We hypothesized that high FIB-4 would be associated with subsequent development of HCC among HIV-infected persons, who are at high risk due to high prevalence of viral hepatitis (7) and alcohol consumption (8), and possibly due to HIV infection itself (9).

Materials and Methods
The study sample included all HIV-infected men who enrolled in the Veterans Aging Cohort Study (VACS) Virtual Cohort (VC) between January 1, 1996, and December 31, 2007, with available FIB-4 index score within the year prior to or one month after the cohort enrollment date and with greater than 1 year of follow-up (N ¼ 22,980). The number of otherwise eligible VACS VC subjects who did not have an available FIB-4 at baseline was 11,499. The cohort, which was 98% male, included no female subjects diagnosed with HCC; therefore, females were excluded from the analysis. The VACS VC is based on national Veterans Affairs (VA) medical databases, with no contact with patients, and is described in detail elsewhere (10). It is an open cohort that enrolls veterans when they begin HIV care in the VA medical system. The cohort was approved by the Institutional Review Boards of the VA Connecticut Healthcare System and Yale University and has been granted a waiver of informed consent.
We defined baseline as date of enrollment into the cohort. and classified subjects into quartiles of modified FIB-4. We also examined the relationship between HCC risk and the other 2 components of FIB-4, platelet count (<100,000/mL vs. !100,000/mL) and AST/ALT ratio (!1 vs. <1), which are known in themselves to be associated with cirrhosis (12,13). We included as covariates the following demographic variables, HIV-related variables, and known and suspected risk factors for HCC: age, race/ethnic group, year of enrollment, baseline CD4 count, baseline HIV-1 RNA level, baseline antiretroviral therapy (ART) use, history of active HBV infection, history of HCV infection (not necessarily chronic), alcohol abuse and dependency, and diabetes status, which was included because it is an emerging suspected HCC risk factor (5). History of active HBV infection was defined by positive HBV surface antigen, e antigen, or DNA test result up to 1 year postbaseline. Because more than 90% of anti-HCV-positive HIV-infected persons have HCV viremia (14), history of HCV infection (not necessarily chronic) was defined by positive anti-HCV antibody test, recombinant immunoblot assay, and/or HCV RNA up to 1 year postbaseline. Subjects with 2 outpatient or 1 inpatient alcohol abuse/ dependence-related ICD-9 diagnostic code (ICD-9 code 291: alcohol-induced mental disorders, 303: alcohol dependence syndrome, 305.0: nondependent alcohol abuse) between 5 years before and 1 year postbaseline were classified as positive for alcohol abuse/dependence. Baseline diabetes, diagnosed at any time before baseline, was defined as described previously (15).
Statistical analyses were conducted with SAS 9.2. We created Kaplan-Meier cumulative incidence plots (PROC LIFETEST) and used the log-rank test to compare plots. Cox proportional hazards regression models (PROC PHREG) estimated hazard ratios (HR) and 2-sided 95% confidence intervals (CI). We tested the proportional hazards assumption using martingale residuals (ASSESS statement in PROC PHREG) and found no meaningful violations. To calculate a P trend , FIB-4 was included as a continuous variable, with an upper limit to address outliers, in a Cox model. Missing values were classified as "unknown" in primary analyses. Results were similar when we used multiple imputation (PROC MI) for missing values; we, therefore, only report the primary results.

Results
After excluding diagnoses prior to enrollment into the cohort and diagnoses during the first year of follow-up, there were 112 incident HCC cases (66% microscopically confirmed) with an average of 6.7 years  Table 1). The Kaplan-Meier plots ( Fig. 1) showed cumulative incidence of HCC to be lowest among those with low baseline FIB-4 and highest among those with high FIB-4. The 10-year cumulative incidence was 0.27%, 1.6%, and 5.1% for low, intermediate, and high FIB-4, respectively (P < 0.001).
About half of the subjects were non-Hispanic black and more than one third were non-Hispanic white ( To determine whether high FIB-4 was associated with long-term risk, we calculated HRs excluding the first 5 years of follow-up. With 78 incident HCC cases, the multivariate-adjusted HR was 3.1 for intermediate FIB-4 (95% CI, 1.7-5.8) and 7.4 for high FIB-4 (95% CI, 3.7-14.8; P trend < 0.0001). When we evaluated the association between the "modified FIB-4" score and HCC, we found a significantly elevated risk of HCC in the third and fourth "modified FIB-4" quartiles compared with the first quartile (P trend < 0.0001). The multivariate-adjusted HR was 3.1 (95% CI, 1.3-7.7) for the third quartile and 8.6 (95% CI, 3.7-20.3) for the fourth quartile, similar to HRs for FIB-4 itself, even after removing age from the index. With respect to the other 2 individual components of FIB-4, in a multivariate model that included all covariates and platelet count, the multivariate-adjusted HR for low platelet count (<100,000/mL) was 2.4 (95% CI, 1.3-4.3). In a separate multivariate model that included all covariates and the AST/ALT ratio, the multivariateadjusted HR for AST/ALT ratio 1 or more was 1.2 (95% CI, 0.8-1.8).
Finally, to assess the possibility that our results were influenced by selection bias stemming from differences between the VACS VC members with baseline FIB-4 values (N ¼ 22,980), who were included in our analyses, and those without baseline FIB-4 values (N ¼ 11,499), who were excluded from our analyses, we included all 34,479 subjects in a multivariate model to calculate a multivariate-adjusted HR for those with a FIB-4 value at baseline compared with those without a FIB-4 value at baseline. The multivariate-adjusted HR was 1.0 (95% CI, 0.7-1.4).

Discussion
FIB-4, a marker of advanced fibrosis and cirrhosis, was a strong risk factor for HCC in our HIV-infected cohort. After adjustment for demographic variables, HIV-related variables, and known and suspected HCC risk factors, persons with high FIB-4 had a 10-fold greater risk of developing HCC than did persons with low FIB-4. Even FIB-4 scores in the intermediate range were associated with almost 4-fold risk. FIB-4 was a strong risk factor for HCC in all subgroups examined, including HCV-infected and HCV-uninfected subjects and subjects with none of the 3 main known HCC risk factors (HCV infection, HBV infection, and alcohol abuse/dependence, although the latter was not a significant risk factor in our data). Furthermore, high FIB-4 was associated with both short-and long-term HCC risk, and the risk persisted when age was removed from the FIB-4 index.
Although the efficacy of HCC screening is still being explored (16), there is much interest in developing algorithms that identify high-risk populations for screening. For example, investigators in Taiwan recently validated a risk score including sex, age, ALT, hepatitis B e antigen status, and serum HBV DNA level for predicting risk of HCC for Asian patients with chronic HBV infection (17). Although platelet count and the AST/ALT ratio, 2 components of the FIB-4 index, have been shown to be associated with cirrhosis in HCV-infected patients (12,13), we found FIB-4, which combines these 2 markers, to be better at identifying persons at high risk for HCC than were either of these 2 markers alone. The ultimate costeffectiveness of screening for HCC will depend upon several factors, including the ability to identify a highrisk population and the ability to accurately diagnose patients at a point where early intervention can be beneficial. We are proposing that FIB-4, or further refinements of FIB-4, may help to identify a high-risk population. This is evinced by the 19-fold higher 10-year cumulative incidence for subjects with high FIB-4 (5.1%) than subjects with low FIB-4, who were very unlikely to develop HCC (0.27%).
This study had the strengths of a large sample size, laboratory test results to determine hepatitis coinfections, and cancer registry-confirmed cancer diagnoses. Although only two thirds of the otherwise eligible cohort members had an available FIB-4 value at baseline, selection bias would distort the results only if the relationship between FIB-4 and HCC was different between those with and without a FIB-4 value, which is unlikely. Furthermore, the similar HCC risk among subjects with and without FIB-4 values at baseline suggests the absence of selection bias.
It was not surprising that only two thirds of the HCC diagnoses were microscopically confirmed because diagnosis of HCC can be established with high positive predictive value by diagnostic imaging in combination with serum a-fetoprotein determination, without biopsy, if certain criteria are met (18). Although our measurement of HCV infection may have yielded false positives, which may result in incomplete control of confounding by HCV infection, other cohort studies have used similar methods to classify HCV infection (19,20). Another limitation, faced by most epidemiologic studies, was our inability to assess duration of HIV, HCV, and HBV infection. However, it is possible that that FIB-4 acts in part as a surrogate for duration of infection. Obesity has been emerging as a potential risk factor for HCC (21,22); however, due to a large proportion of missing data on body mass index, we did not include body mass index as a covariate in the analysis.
In conclusion, advanced fibrosis places patients at elevated risk for HCC. We have shown that FIB-4, a marker of advanced fibrosis that is easily calculated from routine, noninvasive laboratory tests, is a useful tool for HCC risk stratification among HIV-infected persons. Future studies should investigate the relationship between FIB-4 trajectory and HCC, as well as FIB-4 as a risk factor for HCC among persons not infected with HIV.

Disclosure of Potential Conflicts of Interests
No potential conflicts of interest were disclosed.