Hepatitis C Clinical Trial
Official title:
Evaluation of Liver Fibrosis by Serum Hyalornic Acid Measurement in β-Thalassemic Children Infected With Hepatitis C Virus Before and After Direct-Acting Antiviral Therapy
Patients with transfusion dependent Beta Thalassemia suffer from a high incidence of Hepatitis C infection especially in developed countries as Egypt. In our patients we also found a high correlation between hepatitic C infection and Liver fibrosis. in this study we offer our patients treatment with Direct antiviral drugs and assessed the degree of fibrosis before and after treatment. We tested Hyalornic acid as a predictor of the degree of fibrosis before and after treatment.
The thalassemias are a heterogeneous group of genetic heritable disorders of hemoglobin (Hb)
synthesis, considered as the most common monogenic disorder in the world, affecting men and
women equally and poses a severe health and economic burden to patients and families at risk
(Mohammad and Al-Doski, 2012). Thalassemia is a major health problem in Egypt since it
estimated out of 1.5 million live births, 1000 children with thalassemia are born annually
(Youssef et al., 2012).
Thalassemics can develop liver fibrosis because of iron liver overload and hepatitis virus C
(HCV) infection. Multicenter cross-sectional studies have reported that the development and
the severity of liver fibrosis are strongly related to the extent of liver iron overload and
to the presence of chronic HCV infection (Di Marco et al., 2008). HCV infection is the main
risk factor for liver fibrosis in transfusion-dependent thalassemics. Excess liver iron is
now clearly recognized as a cofactor for the development of advanced fibrosis in patients
with HCV infection (Elalfy et al., 2013). Although, hepatic fibrogenesis has long been
thought to be an irreversible process, it is now evident that it is a dynamic process with
significant potential for reversal; unlike cirrhosis, which is irreversible. Identification
of liver fibrosis at an early stage would be of great significance (Manning DS and Afdhal NH,
2008, Xu et al., 2003) Liver biopsy is an essential method for assessing fibrosis and it
continues to have an important role in the diagnosis, prognosis, and management of patients
with elevated results of iron studies and abnormal liver function test results. Therefore,
liver biopsy is currently considered the gold standard for assessing hepatic fibrosis (Di
Marco et al., 2008). However, it is an invasive and painful procedure, with rare but
potential life threatening complications, limiting its acceptance and repetition in usually
asymptomatic patients. In addition, the accuracy of liver biopsy in assessing fibrosis may be
questioned because of sampling error and interobserver variability, which may lead to under
or overstaging of fibrosis or cirrhosis (Foucher et al., 2006).
Thus there is a need to develop and validate non-invasive tests that can accurately reflect
the full spectrum of hepatic fibrosis, cirrhosis, and its severity in liver diseases (Foucher
et al., 2006). Serum markers and imaging methods are increasingly in vogue non-invasive
alternatives to liver biopsy and the development of safe, inexpensive, and reliable
non-invasive fibrosis measurement tools remains a research priority in clinical hepatology
(Rockey DC 2006).
Hyaluronic acid (HA) is a high molecular weight glycosaminoglycan which is an essential
component of extracellular matrix in almost every tissue in the body (Papastamataki, 2010).
In the liver, HA is mostly synthesized by the hepatic stellate cells and removed via
sinusoidal cell adhesion molecules (Halfon, 2005). This mechanism is impeded in fibrosis,
leading to a rise in serum levels of HA. Therefore, serum HA is considered a marker that
appears early before pathological changes occur (Zheng, 2003). Serum HA levels have been
shown to correlate with histological stages of liver fibrosis in hepatitis C virus patients.
Therefore, HA has a good diagnostic accuracy as a noninvasive assessment of fibrosis and
cirrhosis (Parise et al, 2006).
Children with chronic hepatitis C (CHC) in are at risk for major complications, including
cirrhosis, hepatocellular carcinoma, and death. The combined pegylated interferon-α and
ribavirin (PEG-IFN/ribavirin) remains the standard therapy for CHC in children until 2016
(Aziz S, 2014, Suzuki et al. 2016, Yang et al 2017). The approved PEG-IFN/ribavirin therapy
for children aged 3 and older is often held from use until adulthood because of its extensive
list of potential side effects and high likelihood of causing adverse symptoms. In children
and adolescents with HCV, treatment and reduction of the spread of HCV before adulthood is
important, as there can be transmission to other individuals via sexual activity and infected
females can later vertically transmit the infection during pregnancy, the latter representing
a common source of transmission for children (Yang et al 2017).
In recent years, a number of direct-acting antiviral agents (DAAs) are under development for
treatment of CHC. DAAs reduce the amount of HCV in the body by blocking viral replication
inhibiting directly one of the several steps of HCV lifecycle preventing the virus from
multiplying, and in most cases, they cure HCV. DAAs are classified into several categories
based on their molecular target (Perales et al., 2015, Manns et al., 2016). The recent
development of DAAs has shown promising results in clinical trials for use in children and
adults and has dramatically increased the rates of sustained virological response (SVR) while
improving side effect profiles as compared to interferon based treatments (Yang et al 2017).
New DAAs available for adults have still not been approved for treatment in children (Aziz S,
2014, Serranti et al., 2014, Ohmer et al., 2016, Yang et al 2017). However, the approval of
ledipasvir/sofosbuvir and sofosbuvir with ribavirin for adolescents is potentially
anticipated as early as 2017 (Yang et al 2017).
Recently (on April 7, 2017), the U.S. Food and Drug Administration (FDA) approved the first
DAAs for children that included sofosbuvir (Sovaldi) and sofosbuvir/ledipasvir (Harvoni) to
treat HCV in children and adolescents aged 12 years and older or weighing at least 35
kilograms. These DAAs (Harvoni and Sovaldi) were previously approved to treat HCV in adults.
These approvals will help change the landscape for HCV treatment by addressing an unmet need
in children and adolescents (FDA News Release 2017, HCV Guidance 2017). The adult fixed-dose
of ledipasvir/sofosbuvir resulted in similar plasma exposure of ledipasvir, sofosbuvir, and
GS-331007 (the inactive metabolite of sofosbuvir) in adolescents as in adults, thus the adult
dose was used for this age group (Schwarz et al. 2016). Similarly, giving half the adult
fixed-dose of ledipasvir/ sofosbuvir, 45 mg/200 mg, to children ages 6-11 resulted in
comparable plasma exposure of ledipasvir, sofobuvir, and GS-331007 as in adults, without any
severe adverse events or laboratory abnormalities (Garrison et al 2016).
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