Summary
In immune‐competent patients, higher vitamin D levels predicted sustained viral response (SVR) following interferon (INF) and ribavirin therapy for chronic hepatitis C. This study aimed to verify the influence of vitamin D serum levels and/or vitamin D supplementation in predicting SVR rates for recurrent hepatitis C (RHC). Forty‐two consecutive patients were treated for RHC with combination therapy with INF‐α and ribavirin for 48 weeks. Vitamin D serum levels were measured in all patients before antiviral therapy. In 15 patients oral vitamin D3 supplementation was administered to avoid further bone loss. SVR was observed in 13 patients; it was achieved in 1/10 severely vitamin D deficient (≤10 ng/ml) patients, in 6/20 deficient (>10 and ≤20 ng/ml) and in 6/12 with near normal (>20 ng/ml) 25‐OH vitamin D serum levels (P < 0.05). Cholecalciferol supplementation, in the presence of a normal or near normal baseline vitamin D concentration, (improvement of chi‐square P < 0.05, odds ratio 2.22) and possessing a genotype other than 1 (improvement of chi‐square P < 0.05, odds ratio 3.383) were the only variables independently associated to SVR. In conclusion, vitamin D deficiency predicts an unfavourable response to antiviral treatment of RHC. Vitamin D supplementation improves the probability of achieving a SVR following antiviral treatment.
The widely accepted interleukin-28B (IL-28B) rs12979860 C/T polymorphism and the more recently proposed vitamin D serum concentration are two novel predictors of the response to antiviral treatment in chronic hepatitis C virus (HCV) infection. This study aimed to verify whether the IL-28B rs12979860 C/T polymorphism and pretreatment serum vitamin D levels have independent or complementary roles in predicting the rates of sustained viral response (SVR). The present study included 211 consecutive, treatment-naïve chronic HCV patients who had their pretreatment serum 25-OH vitamin D level and IL-28B rs12979860 C/T genotype determined. Overall, SVR was achieved by 134/211 (63.5%) patients and by 47/110 (42.7%) patients infected with difficult-to-treat HCV genotypes. On multivariate analysis, SVR was predicted by the HCV genotype, the IL-28B rs12979860 C/T polymorphism, and gamma-glutamyl transpeptidase, HCV RNA, cholesterol, and 25-OH vitamin D serum levels, with an area under the receiver operating characteristic (ROC) curve of 0.827. When difficult-to-treat HCV genotypes were analyzed separately, the SVR was predicted by the IL-28B rs12979860 C/T polymorphism, viral load, and serum vitamin D level, with an area under the ROC curve of 0.836. Moreover, by categorizing these latter patients into four groups-C/C homozygotes with vitamin D levels >20 ng/mL (group A) or 20 ng/mL (group B) and C/T heterozygotes or T/T homozygotes with vitamin D levels >20 ng/mL (group C) or 20 ng/mL (group D)-a significant linear trend was observed, with SVR rates in the following descending order: group A, 18/21 (85.7%); group B, 6/11 (54.5%); group C, 14/38 (36.8%); and group D, 9/40 (22.5%) (P < 0.0001). Conclusion: Vitamin D serum levels are complementary to the IL-28B rs12979860 C/T polymorphism in enhancing the correct prediction of the SVR in treatment-naïve chronic hepatitis C. (HEPATOLOGY 2011;53:1118-1126
The PNPLA3 rs738409 C>G polymorphism is associated with cirrhosis. In synergy with gender, this polymorphism is a strong predictor of HCC occurrence among patients with cirrhosis.
Vitamin D deficiency seems to predict the unsuccessful achievement of sustained viral response (SVR) after antiviral treatment in hepatitis C virus (HCV) difficult-to-treat genotypes. Vitamin D binding protein (GC) gene polymorphisms are known to influence vitamin D levels. This study was performed to assess whether the interaction between basal circulating vitamin D and the GC polymorphism plays a role in influencing the rate of antiviral responses in patients affected by chronic hepatitis C. In all, 206 HCV patients treated with a combination therapy of pegylated (PEG)-interferon plus ribavirin were retrospectively evaluated. GC rs7041 G>T, GC rs4588 C>A, and IL-28B rs12979860 C>T polymorphisms were genotyped. Frequencies of GC rs7041 G>T and rs4588 C>A polymorphisms were: G/G 5 64 (31.1%), G/T 5 100 (48.5%), T/T 5 42 (20.4%) and C/C 5 108 (52.4%), C/A 5 84 (40.8%), A/A 5 14 (6.8%). Patients were divided into those carrying !3 major alleles (wildtype [WT]
1: G-C/G-C, G-C/T-C, G-C/G-A, N 5 100) and the remaining (WT2: G-C/T-A, T-A/T-C, T-A/T-A, T-C/T-C, N 5 106). Four groups were identified: vitamin D 20 ng/mL and WT2, vitamin D 20 and WT1, vitamin D >20and WT2, vitamin D >20 and WT1. In difficult-to-treat HCV genotypes the proportion of patients achieving SVR significantly increased with a linear trend from the first to the last group: 6/25 (24.0%), 9/24 (37.5%), 12/29 (41.4%), 19/29 (65.5%) (P 5 0.003). At multivariate analysis, having basal vitamin D >20 ng/mL plus the carriage of GC WT1 was found to be an independent predictor of SVR (odds ratio 4.52, P 5 0.015). Conclusion: In difficult-to-treat HCV genotypes, simultaneous pretreatment normal serum vitamin D levels and the carriage of GC-globulin WT isoform strongly predicts the achievement of SVR after PEG-interferon plus ribavirin antiviral therapy. (HEPATOLOGY 2012;56:1641-1650
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