Hepatitis C Clinical Trial
Official title:
Double Filtration Plasmapheresis (DFPP) in Combination With Pegylated Interferon Alfa-2a and Ribavirin for Patients With Chronic Hepatitis C With Genotype 1 and High Viral Load: a Randomized Controlled Trial
Hepatitis C virus (HCV) infection, a leading cause of cirrhosis, hepatocellular carcinoma (HCC) and liver transplantation, affects approximately 170 million individuals worldwide. The prevention of HCV transmission and early intervention of HCV infection are urgently needed to reduce or halt the liver-related morbidity and mortality. Double filtration plasmapheresis (DFPP) has been with widespread use in clinical practice for several indications with plasma filters optimized for the respective elimination targets with excellent safety. By way of the plasma separator, the blood is separated into plasma and cell components. Separated plasma is then led into the plasma component separator where the pores of the plasma component separator further fractionate the plasma into large and small molecular components. The large molecular components, including pathogenic substances, is removed and discarded and the small molecular components, including proteins such as albumin and gamma-globulin, are returned to the patient and mixed with the cell components. After the initiation of pegylated interferon plus ribavirin (Peg-IFN+RBV) therapy, the rapid first phase relates to a significant reduction in virus production and the degradation of free virus particles, which is followed by a second much slower one reflecting the elimination and clearance of infected cells. In HCV patients, high baseline viral load at the initiation of therapy is considered to be a negative predictor for systemic vascular resistance (SVR) for HCV genotype 1 patients. Reduction of baseline viral load by means of therapeutic double filtration plasmapheresis (DFPP) may represent a plausible adjunct for improved antiviral therapy to reduce the virus load with the initiation of treatment in synergy with Peg-IFN and RBV combination therapy. Recently, several clinical studies in evaluating the therapeutic efficacy and safety of DFPP in conjunction with IFN-based therapy were conducted for treatment-naïve genotype 1 high viral load CHC patients, and CHC patients who underwent liver transplantation. These studies showed that patients with DFPP treatment had more favorable HCV early viral kinetics to those without DFPP treatment. Furthermore, all these studies showed excellent safety after DFPP treatment. Therefore, the investigators aimed to conduct a large-scaled randomized controlled trial to evaluate the overall response of DFPP for HCV genotype 1 patients with high viral load.
Hepatitis C virus (HCV) infection, a leading cause of cirrhosis, hepatocellular carcinoma
(HCC) and liver transplantation, affects approximately 170 million individuals worldwide.
The prevention of HCV transmission and early intervention of HCV infection are urgently
needed to reduce or halt the liver-related morbidity and mortality. Currently, combination
therapy with peginterferon (Peg-IFN) and ribavirin (RBV) has become the standard of care for
chronic hepatitis C (CHC) patients, with an overall sustained virologic response (SVR) rate
of 54-63%. Treatment with weekly Peg-IFN and weight-based RBV for 48 weeks resulted in a
significantly higher SVR rate than that for 24 weeks in patients with HCV genotype 1
infection. While HCV genotype 1 patients who had both rapid virologic response (RVR) and low
pretreatment viral load could receive short duration of therapy without compromising the
treatment responses, those who had either high baseline viral load or failed to achieve RVR
should receive at least 48 weeks of treatment. RVR is considered the most important factor
for SVR. Furthermore, several studies have repeated shown that high baseline viral load (>
400,000~800,000 IU/mL) was closely associated with failure to achieve RVR in these patients.
Therefore, efforts to improve the RVR rate is important to facilitate the overall treatment
responses.
Double filtration plasmapheresis (DFPP), a well established method of therapeutic apheresis,
has been with widespread use in clinical practice for several indications with plasma
filters optimized for the respective elimination targets. By way of the plasma separator,
the blood is separated into plasma and cell components. Separated plasma is then led into
the plasma component separator where the pores of the plasma component separator further
fractionate the plasma into large and small molecular components. The large molecular
components, including pathogenic substances, is removed and discarded and the small
molecular components, including proteins such as albumin and gamma-globulin, are returned to
the patient and mixed with the cell components.
DFPP has been used in the treatment of many diseases such as neurological diseases, collagen
diseases, hematological diseases, skin diseases, and renal diseases, and its efficacy and
safety have been well established. It is noteworthy to mention that DFPP has been indicated
to treat CHC in Japan since April 2008. In Germany, the safety of DFPP in LDL-apheresis was
analyzed within a retrospective multicenter investigation including data from 1702
ambulatory DFPP-LDL-apheresis treatments of 52 patients (REMUKAST Study). Ninety-eight
percent of the treatments bear no serious adverse events while only 2% of slight hypotensive
episodes were observed. In a recent investigation, efficacy and safety of DFPP was compared
with the HELP (Heparin-induced Extracorporeal LDL-Cholesterol Precipitation) system in a
cross-over design. No serious adverse events occurred in this study including 44 treatments.
During chronic infection, the level of serum HCV RNA is in a steady state with only minor
fluctuations in untreated patients. A dynamic equilibrium, involving hepatocytes and plasma
components, exists between new viral production and viral destruction during chronic HCV
infection. After the initiation of Peg-IFN plus RBV therapy, the viral decline can be
divided into two major phases. Over the first 24 - 48 h the initial dose of PEG-IFN/RBV
leads to a first decline of HCV RNA which ranges from 0.5-2.0 log levels. This rapid first
phase relates to a significant reduction in virus production and the degradation of free
virus particles, which is followed by a second much slower one reflecting the elimination
and clearance of infected cells.
As described above, a high baseline viral load (HCV-RNA > 800,000 IU/mL) at the initiation
of therapy is considered to be a negative predictor for SVR for HCV genotype 1 patients.
Reduction of baseline viral load by means of therapeutic DFPP may represent a plausible
adjunct for improved antiviral therapy to reduce the virus load with the initiation of
treatment in synergy with Peg-IFN and RBV combination therapy. Therefore the rationale for
the effect of DFPP is that the reduced amount of virus during the initiation phase supports
the therapeutic efficacy of Peg-IFN and RBV combination therapy by preventing liver
reinfection by circulating HCV.
Recently, several small-scaled clinical studies in evaluating the therapeutic efficacy and
safety of DFPP in conjunction with IFN-based therapy were conducted for treatment-naïve
genotyp1 high viral load CHC patients, and CHC patients who underwent liver transplantation.
These studies showed that patients with DFPP treatment had more favorable HCV early viral
kinetics to those without DFPP treatment. The large-scaled non-randomized clinical study
totally evaluating 104 CHC patients showed that the addition of DFPP had a higher SVR rate
to those without DFPP treatment in HCV genotype 1 patients with baseline viral load >
100,000 IU/mL (70.8% versus 50.0%), probably due to eliminating a substantial part of viral
particles from the dynamic equilibrium of the liver and plasma compartments. Furthermore,
all these studies showed excellent safety after DFPP treatment. However, these studies were
limited by the small case numbers and non-randomized assignment, making the role of DFPP in
improving the efficacy of difficult-to-treat HCV patients still debated. Therefore, the
investigators aimed to conduct a large-scaled randomized controlled trial to evaluate the
overall response of DFPP for HCV genotype 1 patients with high viral load.
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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