Background
Since identification of its causative agent in 1989, hepatitis C has been recognized as a major public health problem, with major economic and quality of life impact on peoples [
1]. The hepatitis C virus (HCV) is currently the leading cause of chronic hepatitis and is a major cause of cirrhosis worldwide [
2]. It is estimated that about 3% of world population are chronically infected by this agent, with at least six types of viral genotypes. In Brazil, are found mainly genotypes 1a, 1b, 2a, 2b and 3, with a predominance of genotype 1 over non-1 genotypes, with distribution of 60% and 40%, respectively. Among patients diagnosed in Brazil with non-1 genotype, approximately in 25% it is observed genotype 3 and 5% are diagnosed with genotype 2 [
3].
Initially, the ideal treatment for chronic hepatitis C was the use of interferon alpha (IFN-α) monotherapy at a dose of 3 million units, thrice a week for 48 weeks, with rates of sustained virological response (SVR) of only 12 to 16% [
4‐
8]. Shortly after, there are several clinical studies demonstrating the superiority of combination therapy with ribavirin (RBV) on IFN-α monotherapy and in 1998 the scheme is approved by the Food and Drug Administration (FDA) for treatment of chronic viral hepatitis C. Using this combined regimen for 24 or 48 weeks resulted in an increase of 2 to 3 times the SVR rates ranging from 36% to 47% [
9‐
11].
More recently, the incorporation of an inert molecule of polyethylene glycol molecule to IFN produced a new drug to treat hepatitis C, peginterferon alfa (2a or 2b) with reduced kidney clearance (slower elimination), altered metabolism (more slow absorption) and increase in half-life, allowing his administration to become once a week instead of three times [
12‐
14]. Using this new molecule has shown SVR rates of 54% to 56%, according to some clinical trials [
15‐
17].
When the pegylated interferon was introduced in the market, a sizeable proportion of patients had not yet been successful with conventional interferon-based regimens. As chronic hepatitis C virus infection can result in long term complications (cirrhosis, terminal liver failure and hepatocellular carcinoma), those patients remain at risk of developing progressive liver disease and the possibility of an alternative to retreatment has been the focus of clinical investigations [
18‐
20]. Literature data show that it has been achieved a global response to retreatment of 30-60% [
21‐
32].
In Brazil, according to Chronic Viral Hepatitis C Therapeutic Guideline (CVH-PTG) - Ministerial Decree N°. 863 of November 4, 2002, the standard treatment of hepatitis C genotype 2 and 3 should be done with interferon alfa-2a (IFN-2a) or interferon alfa-2b (IFN-2b) at a dose of 3 million units, thrice a week subcutaneously combined with an oral dose ribavirin: 1,000 mg/day for patients under 75 kg and 1,250 mg/day, for those weighing over 75 Kg for 24 weeks. This drug is provided free by the Ministry of Health in capsules of 250 mg. For patients with hepatitis C genotype 1, with higher resistance to antiviral therapy, the recommended standard treatment is with peginterferon alfa-2a (PEG-IFN-2a) at a dose of 180 μg or peginterferon alfa-2b (PEG-IFN-2b) at a dose of 1.5 μg/Kg body weight once a week subcutaneously, associated with an oral dose ribavirin: 1,000 mg/day for patients under 75 kg and 1,250 mg/day, for those weighing over 75 Kg for 48 weeks [
33]. On September 28, 2007, through the publication of Ordinance N°. 34, this Guideline was updated, including the use of PEG-IFN-2a or 2b as the standard treatment in the retreatment of patients genotypes 2 and 3 non-responders or relapsed after treatment with interferon alfa and ribavirin [
34].
For the effective implementation of CVH-PTG, the State Health Secretariat of Rio Grande do Sul/Brazil established in Parthenon Sanatorium Hospital (PSH), the first Center for Application and Monitoring of Injectable Drugs (CAMID), a service aimed at the care of patients with hepatitis C. This service is aimed at improving the pharmaceutical assistance with the implementation of pharmaceutical care to administer and systematically monitor patients receiving PEG-IFN and ribavirin [
35].
Therefore, the aim of this study was to evaluate the effectiveness of retreatment with peginterferon alfa-2a or 2b combined with ribavirin for 48 weeks in patients with chronic hepatitis C non-responders or relapsers to previous treatment with interferon alfa who were followed by a pharmaceutical care program of the State Department of Health of Rio Grande do Sul/Brazil and to identify possible predictors of SVR.
Methods
Design
All patients with chronic hepatitis C genotypes 2 and 3 were studied in a prospective cohort study in the CAMID - Parthenon Sanatorium Hospital from September 2003 to March 2009.
Patient selection
All Two hundred and sixteen patients with chronic hepatitis C genotype 2 and 3 who underwent the first treatment for 24 weeks with interferon alfa-2a or 2b at a dose of 3 million units thrice a week subcutaneously and oral dose daily ribavirin (1,000 or 1,250 mg, depending on body weight). Out of these, 128 patients never achieved undetectable HCV RNA serum levels (qualitative PCR testing) during the first treatment (non-responders) and 88 patients showed undetectable HCV RNA during the first therapy but became HCV RNA positive after discontinuing medication (relapsers). All patients enrolled in the study who received at least one dose of medication were included in the statistical analysis. The study excluded all patients who did not agree to participate in interviews of monitoring during treatment.
Sampling
Patients in the study were sequentially allocated according to demand.
Follow-up of patients and data collection
The monitoring of patients was performed by a multidisciplinary team, with the presence of the pharmacist through monthly interviews. In these interviews, patients were informed about the disease, treatment and monitored for adverse events and laboratory tests needed for continuing care. The nursing staff performed the weekly applications of PEG-IFN, monthly monitoring body weight for possible dose adjustments where necessary.
Patient information and interventions were recorded on a specific Pharmacotherapeutics file, which contributed to the clinical and laboratory data such as prior treatment hepatitis C, virus C genotype, comorbidities, use of other medications, alcohol use, initial laboratory tests [albumin, prothrombin time, bilirubin, glucose, uric acid, ALT, AST, creatinine levels, TSH, hemoglobin and platelets]. An initial quantitative PCR and liver biopsy for assessing inflammatory activity and fibrosis grade were evaluated by the Metavir score. Patients were considered as carriers of non significant fibrosis when classified as F0, F1 and F2. Patients with F3 and F4 were considered as significant fibrosis carriers. that were recorded on the database developed especially for the service, allowing the pharmacoepidemiological study data [
35].
As material to support the process of pharmaceutical care was used a "Patient Orientation Guide" containing information that was conveyed orally and in writing to the patient [
35].
Adverse events presented by the patients were collected in a systematic way of monthly interviews with structured questions in advance, first questioning the patient about his condition and then about possible previously reported effects. The events were also classified according to intensity as mild, moderate or severe.
According to the protocol of the Ministry of Health, the quantitative PCR test at 12 weeks or 24 weeks in the qualitative PCR determined whether to proceed the treatment. Those patients who did not decrease by at least 2 log the viral load became negative or had their treatment suspended. Treatment response was evaluated by qualitative PCR tests of the end of treatment (48 weeks Virological Response - VR) and 24 weeks after its completion (72 weeks Sustained Virological Response - SVR) [
33].
The interventions performed during the monitoring of treatment were backed by the Ministerial Decree N°. 863 of November 4, 2002, the first edition of the Brazilian protocol that established the treatment of hepatitis C with peginterferon alfa in the National Health System [
33] and the Ministerial Decree N°. 34 of 28 November 2007, an update of the first ordinance described above [
34].
Treatment
All study participants (n = 216) were retreated with peginterferon alfa-2a (PEG-IFN-2a) at a dose of 180 μg or peginterferon alfa-2b (PEG-IFN-2b) at a dose of 1.5 μg/kg body weight, once a week subcutaneously, associated with an oral dose ribavirin: 1,000 mg/day for patients under 75 kg and 1,250 mg/day, for those weighing over 75 Kg for 48 weeks. The doses of PEG-IFN and ribavirin were adjusted because of adverse effects and as medical advice.
Effectiveness and safety
A quantitative PCR test was obtained at week 12 of retreatment with the objective of observing a reduction of at least 2 log10 in viral load compared to the result of pre-treatment. Some patients also showed the qualitative PCR test at 24 weeks of retreatment, and if the result was positive there should be discontinuation of treatment.
For the efficacy analysis percentage of virological response (VR) and sustained virological response (SVR) were calculated.
We studied the predictive value of various parameters such as gender, age, body mass index, initial viral load, type of response to previous treatment (non-responder and relapsed), grade of hepatic fibrosis and transaminases regarding response to treatment (SVR).
The main safety parameters analyzed from the patients’ reports on monthly interviews were body weight, adverse events and laboratory tests (neutropenia / neutrophils count <750/mm3, leucopenia / leukocytes count <1.500/mm3 and thrombocytopenia / platelet count <50.000/μL, anemia / hemoglobin level <8.5 g/dL, creatinine, TSH, ALT e AST levels) and total discontinuation due to adverse events. We also analyzed the adverse events that led to discontinuation of treatment.
Statistical analysis
We performed a descriptive analysis of demographic and clinical variables, and SVR. For quantitative variables we used the mean and standard deviation (symmetric distribution) or median and interquartile range (asymmetric distribution). For the qualitative variables were used as absolute and relative frequencies. The SVR rate was compared in different groups using the chi-square test or Fisher exact test. Follow-up losses were treated as treatment failures.
For comparison of means was applied Student t test for independent samples (eg average age between SVR and failure in SVR). In case of asymmetry, the Mann–Whitney test was used (e.g. median ALT initial between SVR and failure in SVR).
In multivariate analysis, the assessment of factors independently associated with SVR rate was applied to the Poisson regression analysis. The criterion for entering the variable in the model was to produce a p value less than 0.20 in bivariate analysis. We calculated relative risks (RR) and corresponding 95% confidence.
The level of significance was 5% (p ≤ 0.05) and analyses were performed using Statistical Package for Social Sciences (SPSS) version 17.0.
Ethical aspects
This project was approved by the Ethics Committee of the School of Public Health of Rio Grande do Sul/Brazil, under number 421/08. All subjects signed a consent form in which information was provided on risks and benefits of the drug and confidentiality of data.
Discussion
Many patients with chronic hepatitis C have not yet been able to obtain SVR with anti-HCV therapies, and thus become a candidate likely to develop progressive liver disease in the long term, such as cirrhosis or HCC with the possibility of needing liver transplantation [
18‐
20]. Thus, infection in patients with chronic hepatitis C relapsers or non-responders to previous therapy has been an important public health problem and the possibility of an alternative to retreatment has been the focus of clinical investigations.
So, this cohort study was able to assess the effectiveness of retreatment with peginterferon alfa in patients with chronic hepatitis C genotype 2 or 3 in a healthcare environment of the Brazilian public health system. Baseline characteristics such as age, gender, initial body weight, body mass index and baseline ALT and AST, showed no differences from the baseline features presented in several published studies, indicating that the populations for these characteristics were similar.
In our study group of patients non-responders to previous therapy with interferon alfa combined with ribavirin showed an SVR rate of 34.4% when retreated with PEG-IFN alpha-2a or 2b combined with ribavirin for 48 weeks. This result is similar to that described by Sherman et al. who found an SVR rate of 37% in non-responders retreated with PEG-IFN alpha-2a and RBV [
30]. In the study of HALT-C Shiffman et al. to assess a sample of 604 patients and all non-responders with advanced fibrosis (METAVIR F3-F4) obtained SVR rate was 18% [
21] as well as the study of Carnicer et al. to assess a sample of 35 patients non-responders, 17% with fibrosis F3-F4 and 45.8% with HCV RNA > 850.000 UI/mL showed an SVR rate of only 27.3% [
22]. However, some multicenter studies, sponsored by pharmaceutical companies as Parise et al. with PEG-IFN alpha-2a plus RBV [
23] and Krawitt EL et al. with PEG-IFN alpha-2b plus RBV [
25], has demonstrated higher values in the SVR rates in patients non-responders to prior therapy of 46% and 57%, respectively.
For the group of relapsed patients, in our study we found an SVR rate of 50%. This result is confirmed favorably to the data presented in studies by Mathew et al. who found an SVR rate of 50% of patients relapsed when retreated with PEG-IFN alpha-2b plus RBV [
27] as well as the study of Sherman et al. who found an SVR rate of 51% for relapsed patients, genotype 2 and 3 when retreated with PEG-IFN alpha-2a plus RBV [
30]. Meanwhile, other authors have presented their studies in SVR rates for patients relapsed to prior therapy, superior to that found in our study, as presented by multicenter studies by Parise et al. PEG-IFN alpha-2a plus RBV [
23] and Krawitt E.L et al. PEG-IFN alpha-2b plus RBV [
25], SVR rates of 70% and 59%, respectively. Other studies also showed a higher SVR rate than our results, as well as the one presented by Basso et al. to portray patients with recurrent PEG-IFN alpha-2b plus RBV where the SVR rate achieved was 78.6% [
32] and Gonçalves Jr et al. who found an SVR rate of 62%, to portray with PEG-IFN alpha-2b plus RBV a sample where only 26% of patients had liver diagnostics F3-F4 and 30% had baseline viral load HCV RNA > 800.000 UI/mL [
29].
According to Mitchell L. Shiffman clinical and virological factors may be useful to predict the likelihood of response to retreatment such as: type of response to previous treatment (non-responders or relapsers), race, type of viral genotype, liver disease severity, current alcohol consumption in which higher response rates can be obtained when patients are carefully selected. Therefore, we concluded that retreatment with PEG-IFN and RBV should be reserved for patients relapsed to prior therapy, which had been done with IFN-α monotherapy and in patients with viral genotype 2 and 3 [
23].
Based on these previous findings, current studies of retreatment have evaluated the influence of factors predictive of SVR rates. In our study, among the evaluated parameter settings (type of response to previous treatment, age, gender, BMI, ALT, liver fibrosis and serum HCV RNA), only the type of response to previous treatment, age, the initial level of ALT and the degree of hepatic fibrosis, showed statistical significance in achieving SVR.
In the evaluation of factors independently associated with SVR rate was applied Poisson regression analysis and were identified as predictors of SVR: age, be relapsed to previous treatment and present degree of liver fibrosis F0-F2, indicating that these patients are more likely to have SVR. For the analysis of average initial pretreatment ALT variable was not statistically significant, indicating that this parameter in this study did not contribute to increase the rate of SVR.
These findings resemble those reported by Shiffman et al. that showed that in their multivariate regression analysis the following factors: previous treatment with IFN-α monotherapy, virus C genotype 2 and 3, a serum HCV RNA less than 1.5 million IU/mL, an AST: ALT ratio less than 1.0 and absence cirrhosis on liver biopsy as associated with an increased probability of achieving SVR [
21].
Our results also are similar to those presented Sherman et al. Direct comparisons are difficult to achieve, since, Sherman et al. stratified the results among the group of relapsed patients and non-responders to initial treatment to assess predictors of SVR: in the group of relapsed patients, the predictors of SVR were HCV genotype 2 and 3, the Caucasian race and a low initial HCV viral load, and in the patients non-responders, were gender, body weight, BMI, degree of hepatic fibrosis and a low initial HCV viral load as predictors of SVR [
30].
No association was found between parameters BMI (< or ≥ 30 Kg/m2) and baseline viral load of HCV RNA (< or ≥ 800.000 IU/mL) at the rate of SVR. This lack of association probably could not be established in our study because the sample was lost for the two parameters of 33.8% and 28.2%, respectively. Loss of data collection for these parameters represented a failure in data collection of the study, not allowing the establishment of relationship with SVR. The study of Sherman et al. identified as a predictor of SVR low initial load HCV RNA in both groups of patients as in non-responders relapsed; whereas for this parameter only BMI was identified as a predictor of response in patients non-responders [
30]. As the study of Sherman et al. and HALT-C study of Shiffman et al. also found that an initial viral load less than 1.500.000 IU/mL is associated with an increased probability of SVR [
21].
Our study showed that patients with less advanced age are more likely to respond to retreatment regimen, since the patients with SVR had a lower mean age (51.3 ± 9.4 years) compared with patients who had failures in SVR with significantly higher mean age (55.2 ± 8.2 years). This result was also observed by Krawitt et al. to identify non-responders that patients aged 40 years or younger have a higher SVR rate, but for the group of relapsed patients, this significance was not found [
25].
It is important to note the poor liver profile of these patients’ with high percentage (76% presented F3/F4) with results in liver biopsy can justify the number of interruptions of treatment and deaths from decompensated cirrhosis (ascites and encephalopathy) found in our study. Some effectiveness studies in the literature revealed different percentages described in cirrhotic patients, and international studies with a smaller percentage as observed by Carnicer et al. [
22] and Sherman et al. [
30] where 20% and 26%, respectively of the samples were composed of patients with cirrhosis. However, in studies in Brazil are found, generally higher percentages of patients with cirrhosis as shown by the studies of Gonçalves et al. [
29] and Parise et al. 40% and 33% respectively of their samples composed of patients with cirrhosis [
23].
The percentage of discontinuation due to adverse events (18.5%) in our study was slightly different from controlled clinical studies (5-14%) [
36] but similar to studies of effectiveness [
21,
25,
27]. This difference in profile is justified by the presence of comorbidities in this population when are conducted effectiveness studies that portray the reality of drug use, without prior selection of the sample. Almost a third of patients eligible to participate in clinical trials is excluded from the criteria established for inclusion and exclusion. Thus, patients with decompensated cirrhosis, hepatitis B, HIV, kidney disease, neuropsychiatric, coronary, cerebrovascular, or hematologic diseases are usually excluded from controlled clinical studies, favoring the non-appearance of adverse events associated with these comorbidities [
36].
Eight patients died during the retreatment, representing 20% of interruptions due to adverse events. The causal relationship between death and retreatment has not been established. However, it is remarkable that in controlled clinical studies of effectiveness investigated there are no reports of death during the retreatment [
21‐
32]. The average age of patients who died was 57.3 years and all had degree of liver fibrosis by F4 rating Metavir, characterizing the presence of cirrhosis in the whole population. These criteria may have compromised the continuity of treatment, as well as contributed to the evolutions for the deaths, but since these criteria are included in the general criteria for inclusion of patients candidates for retreatment with alfapeguinterferona + ribavirin in accordance with Ordinance No. 34 of 28 September 2007, the Ministry of Health of Brazil, we could not exclude these patients the possibility for retreatment. For this reason, studies like this, which represent the description of a population treated in real life, without prior sample selection, and was able to demonstrate in their analyzes the importance of establishing predictors of response, should be considered and made public in order to prevent individuals who are at risk of a treatment which will not benefit them, producing individual damage and to the public health system.
Conclusions
The results obtained in our sample suggest that there are benefits in portraying patients who failed therapy with interferon alfa and ribavirin, demonstrating that acceptable response rates, but not ideal yet, can be achieved in clinical practice. Patients non- responders to previous therapy had an SVR rate of 34.4% while relapsed patients a rate of 50% was obtained. The less advanced age, to be relapsing to previous treatment and present with liver biopsy fibrosis (F0-F2 Metavir) were identified as best predictors of SVR.
Concurrently with these findings the data safety profile of this treatment should be considered, since 18.5% of the reasons for prematurely discontinuation of treatment were due to adverse events, being the most frequent laboratory abnormalities (40%) and death (20%).
So, considering the severity of this clinical and epidemiological condition, it is necessary a careful selection of patients to retreatment, in order to accommodate patients who meet the criteria of predictive factors of SVR, in order to not to expose individuals to the risk of treatment that will not be benefited, producing individual damage and to the public health system.
Competing interests
The authors declare that they have no competing interests.
Authors’ contributions
SA carried out the interviews pharmacotherapeutic monitoring, developed the database, performed the statistical analysis and drafted the manuscript. KA carried out the interviews pharmacotherapeutic monitoring and performed the statistical analysis. CG participated in the design of the study. PP conceived of the study, and participated in its design and coordination and helped to draft the manuscript. All authors read and approved the final manuscript.