Hepatitis C Clinical Trial
Official title:
Can Vitamin D Supplementation Improve Hepatitis C Cure Rates : A Pilot Multicentre Randomised Controlled Clinical Trial
Evidence suggests that vitamin D may be directly or indirectly a co-factor for the efficacy of Hepatitis C virus, (HCV), antiviral therapies. The level of vitamin D necessary for optimum immune function is ill defined and many of those with HCV infection in Scotland are below these levels. Vitamin D is a cheap and safe medication, so its addition to anti-viral therapy should be highly cost-effective even if only a modest increase in SVR was achieved. Given the Scottish HCV epidemic, the world leading government response to it and the nationally low vitamin D levels, Scotland is perfectly placed to answer this question. Therefore the investigators hypothesize that vitamin D supplementation will improve SVR and propose a randomised controlled trial to test this hypothesis. The anticipated end of study date for this study is April 2015
Hepatitis C is a major health problem for Scotland with greater than 1% of the population
infected; the Scottish Government has recognised this and mounted the Hepatitis C action
plan, recognised as the world leading public health response to the epidemic. The key aim of
this is to expand treatment access and numbers of patients cured of HCV infection to prevent
patients developing the complications of cirrhosis and hepatocellular carcinoma.
The success of treatment for HCV depends on genotype and is measured by the Sustained Viral
Response (SVR). The SVR is the absence of virus 24 weeks after end of treatment and has been
shown to be a cure of infection. The FDA has recently suggested SVR can be assessed at 12
weeks, in clinical trials. Scotland has an equal mix of genotype 1 & 3 HCV infection
accounting for greater than 95% of those infected. Treatment involves Pegylated Interferon
injections weekly and Ribavirin twice daily for 6 months for HCV genotype 3 infection, with
an SVR of 70%. For genotype 1 infection treatment is with the above dual therapy with the
addition of a protease inhibitor, for treatment duration of 6-12 months leading to SVR rates
of 65-70%. There are an increasing number of new pharmacological products in advanced
development that will be available for clinicians to use but these, as well as increasing
efficacy, will increase cost. So it requires clinicians to make treatment as effective as
possible.
Vitamin D has traditionally been associated with bone health, with definite deficiency
causing osteomalacia and making a contribution to osteoporosis. The traditional, currently
used normal ranges for Vitamin D are based on prevention of bone diseases. Recently and
controversially it has been suggested that low normal levels of vitamin D are associated
with multiple other disease states, including cancer, infection and cardiovascular disease
Additionally it has been suggested that many of the normal population in Scotland are
vitamin D deficient. Other studies have shown that drug users, a high risk group for HCV
infection have similarly deficient levels of vitamin D. Studies have suggested that up to
92% of those with chronic liver disease have vitamin D levels below that deemed acceptable
physiologically to maintain health.
Some data is now available to support the role of vitamin D supplementation in the treatment
of hepatitis C and improving SVR rates. Several observational studies have found an
association between low vitamin D levels and reduced SVR rates, and additionally one study
has shown an association between a single nucleotide polymorphism (SNP) in vitamin D binding
protein and treatment response. A small Israeli trial of vitamin D supplementation in HCV
treatment has shown increased SVRs in those supplemented, but the study had a number of
flaws including a failure of randomisation(13). Additionally there have been an abstract and
a letter report of improved outcome with a vitamin D intervention . Biological mechanisms of
interaction between vitamin D and the immune system have been explored. It has been shown
that Vitamin D plays a role in the regulation of innate immunity, macrophage function, and
cell mediated immunity Vitamin D receptors (VDR) are also expressed on many effector cells
of the immune system; activated T and B cells, macrophages and monocytes which act to
increase to enhance phagocytic action and interferon activity , it has also been suggested
vitamin D has a direct effect on HCV. These give a biological basis for the effect of
vitamin D on the success of antiviral therapy.
A randomised controlled trial, to be successful, requires recruitment and retention of
subjects in the trial. HCV infection is associated with chaotic lifestyles which might
impair the rate of recruitment and retention, although the Scottish HCV clinical database
audit clearly shows that, with all comers, routine HCV care in Scotland matches the results
from the randomised clinical trials. This pilot study will also help determine the
recruitment and retention rates for a larger trial in this population.
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Treatment
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