In a recent analysis, APRI was more accurate in patients with HCV monoinfection than in HIV/HCV infection in the identification of significant fibrosis (AUROC: 0.79 vs. 0.75), severe fibrosis (AUROC: 0.80 vs. 0.76) and cirrhosis (AUROC: 0.83 vs. 0.79) [56]. In a separate study, an APRI > 2 demonstrated a negative predictive value of > 97% in excluding cirrhosis [57]; the results for FIB-4 are similar [58]. Both tests can be considered accurate in identifying those with cirrhosis (AUROC > 0.80), but are less successful than in HCV
ABT-199 molecular weight monoinfection in the identification of significant and severe fibrosis (AUROC < 0.80) [56]. The Forns Index has been validated in HCV/HIV infection [58] and
has a high degree of concordance with transient elastography in the identification of advanced fibrosis/cirrhosis. Of the commercially available tests, Fibrometer and FibroTest have both been validated in the HIV coinfection settings and perform well in terms of identification of significant fibrosis (AUROC 0.85 and 0.82 respectively) [59]. The European Liver Fibrosis (ELF) test has been shown to predict overall mortality in HIV/HCV infection, after adjusting for HIV-associated factors, and performs better than APRI and FIB-4 in this regard [60]. Hepatic transient elastography (TE) has become the non-invasive learn more investigation of choice
in patients with hepatitis virus/HIV infection. Two ultrasound-based methods (FibroScan and ARFI [Acoustic Radiation Force Impulse]) are effective in the non-invasive assessment of liver fibrosis and are accurate Ribonucleotide reductase in identifying those with significant fibrosis. Liver fibrosis scores assessed by TE outperform blood panels (APRI, Forns index and FIB-4) at all stages of fibrosis in HIV/HCV infection [61]. TE has good positive and negative predictive values in identifying cirrhosis with recommended disease-specific cut-offs using FibroScan™ of > 11.0 kPa for HBV and > 14.5 kPa for HCV based on meta-analyses. However, it performs less well in separating earlier stages of fibrosis [62]. Optimal cut-offs for different stages of fibrosis in chronic HCV/HIV infection are yet to be defined. In terms of clinically relevant fibrosis (≥ F2 Metavir), an optimal cut-off between 7.2 and 7.7 kPa has been suggested [62–64]. However, at these cut-offs both positive and negative predictive values are less than 100%. Correctly identifying cirrhosis is less problematic, but the issue of disease-specific cut-off values must be borne in mind [66]. AUROCs for the prediction of cirrhosis by TE are consistently high and therefore patients identified as having cirrhosis by TE should proceed to appropriate monitoring for associated complications.