Efficacy of a 12-Week Simeprevir Plus Peginterferon/Ribavirin (PR) Regimen in Treatment-Naïve Patients with Hepatitis C Virus (HCV) Genotype 4 (GT4) Infection and Mild-To-Moderate Fibrosis Displaying Early On-Treatment Virologic Response

Background HCV GT4 accounts for up to 20% of HCV infections worldwide. Simeprevir, given for 12 weeks as part of a 24- or 48-week combination regimen with PR is approved for the treatment of chronic HCV GT4 infection. Primary study objectives were assessment of efficacy and safety of simeprevir plus PR in treatment-naïve patients with HCV GT4 treated for 12 weeks. Primary efficacy outcome was sustained virologic response 12 weeks post-treatment (SVR12). Additional objectives included investigation of potential associations of rapid virologic response and baseline factors with SVR12. Methods This multicentre, open-label, single-arm study (NCT01846832) evaluated efficacy and safety of simeprevir plus PR in 67 patients with HCV GT4 infection. Patients were treatment-naïve, aged 18–70 years with METAVIR F0–F2 fibrosis. Patients with early virologic response (HCV RNA <25 IU/mL [detectable/undetectable in IL28B CC patients or undetectable in IL28B CT/TT patients] at Week 2 and undetectable at Weeks 4 and 8) were eligible to stop all treatment at the end of Week 12, otherwise PR therapy was continued to Week 24. Results Of 67 patients treated, 34 (51%) qualified for 12-week treatment including all but one patient with IL28B CC genotype (14/15). All patients in the 12-week group had undetectable HCV RNA at end of treatment, and 97% (33/34) achieved SVR12. No new safety signals with simeprevir plus PR were identified. The proportion of patients experiencing Grade 3–4 adverse events was lower in the 12-week group than in the 24-week group. Conclusions Our findings on simeprevir plus PR therapy shortened to 12 weeks in patients with HCV GT4 infection with favourable baseline characteristics and displaying early on-treatment virologic response are encouraging. No new safety signals were associated with simeprevir plus PR in this study. Trial Registration NCT01846832


Introduction
Hepatitis C virus (HCV) is among the leading causes of liver disease, estimated to affect around 180 million people worldwide [1]. Untreated HCV infection puts patients at risk of developing cirrhosis and hepatocellular carcinoma. Fortunately, cure of HCV infection is now possible in most cases [2]. Sustained virologic response (SVR), defined as undetectable HCV RNA 12 weeks after end of treatment (SVR12), is associated with cure of the infection in >99% of patients and is the primary measure of efficacy of HCV treatment [1].
HCV variants are classified into seven genotypes whose coding region sequences differ by at least 15% [3]. HCV treatment efficacy varies according to HCV genotype [4]. HCV genotype 4 (GT4) has not, until recently, been the focus of the same extent of research as GT1-3, although GT4 is responsible for approximately 34 million HCV infections worldwide, and represents up to 20% of all cases [5]. GT4 is particularly widespread in the Middle East and sub-Saharan Africa, where it accounts for over 80% of cases [6,7]. It is becoming increasingly prevalent in Southern Europe, as a result of migration and spread of the virus through injection drug users [7,8].
HCV GT4 has long been considered to be one of the more difficult genotypes to treat, since peginterferon-α (IFN; P) and ribavirin (RBV; R))-only regimens are only partially effective in patients with HCV GT4 [9,10]. Historically, treatment of HCV GT4 with PR necessitated a 48-week treatment regimen and achieved SVR rates of 43-70% [10].
The advent of IFN-free DAA regimens has revolutionised HCV treatment. SVR rates exceeding 90% have been achieved across all genotypes, even in treatment-experienced patients and those with advanced fibrosis, in randomised trials and real-world studies. Regimens demonstrating effectiveness in GT4 with 8 or 12 weeks of treatment include ombitasvir/ paritaprevir/ritonavir (OBV/PTV/r) [11][12][13][14][15], simeprevir plus sofosbuvir [16], elbasvir plus grazoprevir [17], and sofosbuvir plus ledipasvir [18]. Furthermore, pan-genotypic DAA therapies such as velpatasvir, which has recently demonstrated an SVR12 rate approaching 100% when administered for 12 weeks in combination with sofosbuvir [19], have the potential to eliminate the need for genotyping and thereby greatly simplify treatment. GS-9857 [20,21] and ravidasvir [22] also show significant promise in this area; the latter has demonstrated a 97% SVR12 rate in 182 non-cirrhotic patients with HCV GT4 in Egypt when given for 12 weeks in combination with sofosbuvir [23].
However, the cost of DAAs and restricted availability remain significant barriers to access to treatment for many HCV patients even in the most developed countries [24]. These barriers are particularly formidable for regimens containing two or more DAAs. Even in 2016, access to IFN-free regimens continues to be restricted to patients with advanced liver disease (F3-F4 fibrosis) and/or those who cannot tolerate IFN in many European and Asian countries [25,26]. Single-DAA IFN-based regimens may broaden the range of patients able to access effective treatment earlier in the disease course, forestalling the progress of liver disease, decreasing the risk of hepatocellular carcinoma, and increasing the likelihood of success with short-course treatment. The clinical management and adverse event burdens associated with PR therapy [27] mean that decreasing treatment duration is very appealing to patients and physicians.
Simeprevir is a once-daily DAA approved for use in combination with PR or with sofosbuvir in HCV GT1 and GT4 [28,29]. Simeprevir plus PR has demonstrated SVR rates of 83% in treatment-naïve patients and 86% in prior relapsers with GT4 following 12 weeks of simeprevir plus 24-48 weeks of PR [30].
Previous findings suggest that the overall duration of IFN-based therapy in combination with a protease inhibitor could be shortened to 12 weeks in some patients without reducing its efficacy [31]. In patients infected with HCV GT1 and F0-F2 fibrosis only, SVR12 rates of >80% were reported in patients with IL28B CC genotype (94%) or HCV RNA 800,000 IU/ mL (82%) who received simeprevir plus PR for 12 weeks after achieving early on-treatment response [32]. Recent reports suggest that timely initiation of therapy in patients with earlystage fibrosis could be associated with improved long-term outcomes and reduced HCV-associated mortality [33]. The analysis described here was conducted to assess the potential for shortening the total duration of simeprevir plus PR treatment to 12 weeks in treatment-naïve patients with HCV GT4 and F0-F2 fibrosis displaying an early on-treatment virologic response.

Patients and study design
A multicentre, open-label, single-arm, phase III clinical trial evaluating efficacy and safety of simeprevir plus PR in treatment-naïve patients with HCV GT1 (reported separately [32]) and GT4 infection took place between 3 September 2013 (first patient screened) and 31 August 2015 (date of last patient contact). The study was approved by each centre's institutional review board and conducted in accordance with the Declaration of Helsinki and Good Clinical Practice guidelines. The review boards are listed in S1 Text. Here we report data in the GT4 population.
Patients with HCV GT4 were recruited from centres in Austria, Belgium, France, Italy, Saudi Arabia and Spain. Written informed consent was obtained from all patients at screening prior to the performance of any study-specific assessments or procedures. Each patient received an identification code to permit easy identification of each patient during and after the study. The code list was treated as confidential and filed by the investigator in the study file.
Eligible patients were treatment-naïve adults aged 18 to 70 years with chronic HCV GT4 infection confirmed at least 6 months prior to screening, plasma HCV RNA >10,000 IU/mL, and mild-to-moderate liver fibrosis (METAVIR F0-F2). HCV genotype subtype is based on the NS5B assay or, if data were unavailable, on LIPA HCV II or TRUGENE results. Liver fibrosis score was confirmed by liver biopsy within 2 years of screening or non-invasive assessment of liver disease stage by transient elastography performed within 6 months of screening [34]. For patients with liver biopsy data, lesions were evaluated according to the METAVIR scoring system whereby fibrosis was staged on a 0-4 scale (F0: no fibrosis; F1: portal fibrosis without septa; F2: few septa; F3: numerous septa without cirrhosis; F4: cirrhosis) [34,35]. For noninvasive fibrosis assessment, the following cut-offs were defined: FibroScan™ F0-F1 <6.9 kPa, F2 <8 kPa [36,37]; magnetic resonance elastography F0-F1 <2.5 kPa; F2 <3.1 kPa [38]. For other methods, such as shear wave elastography, the advice of the sponsor was taken.
Exclusion criteria included advanced liver disease (METAVIR F3-F4) or liver disease of aetiology other than HCV; previous or current hepatic decompensation; co-infection with hepatitis B virus or HIV; significant abnormalities in laboratory parameters; pregnancy, breast-feeding, or plans to conceive within 6 months of end of treatment.
Patients received simeprevir (150 mg once-daily, orally) in combination with peg-IFN alfa-2a (180 μg, weekly by subcutaneous injection) and RBV (1000 mg/day if body weight <75 kg, or 1200 mg/day if >75 kg, orally) [Simeprevir SmPC]. Total treatment duration was determined on the basis of on-treatment response, with HCV RNA levels determined by Roche Cobas 1 TaqMan v2.0 1 assay [lower limit of quantification 25 IU/mL; limit of detection 15 IU/mL]. Treatments were stored and administered by participants in accordance with instructions provided by study site personnel. The investigator or designated study site personnel maintained a log of all study treatments dispensed and returned for compliance assessment purposes.
To be eligible for the 12-week regimen, patients were required to display HCV RNA <25 IU/mL at Week 2 (detectable or undetectable in patients with IL28B CC genotype, undetectable in those with CT or TT genotype), and undetectable HCV RNA at Weeks 4 and 8. For all patients, the planned duration of simeprevir treatment was 12 weeks. Patients fulfilling the 12-week eligibility criteria also discontinued PR at Week 12; otherwise, PR treatment was continued for another 12 weeks following discontinuation of simeprevir (S1 Fig). Patients who stopped treatment prior to Week 8 were assigned to the 24-week treatment group for the purpose of the analysis.
Patients discontinued all treatment if they met any of the following virologic stopping rules: HCV RNA concentration !25 IU/mL at Week 4; HCV RNA <25 IU/mL detectable or !25 IU/mL at Week 12; or viral breakthrough (defined as a confirmed increase of >1 log 10 IU/mL in HCV RNA concentration from the lowest level reached, or a confirmed HCV RNA level of >100 IU/mL in patients whose HCV RNA level had previously been <25 IU/mL [detectable or undetectable] while on study treatment).

Objectives
The objectives of the present study were to determine the efficacy, defined in terms of the proportion of patients achieving SVR12, and the safety and tolerability of simeprevir plus PR in patients with HCV GT4 eligible for the shortened (12-week) treatment regimen. SVR12 was defined as HCV RNA <25 IU/mL undetectable 12 weeks after the planned end of all study treatment. SVR12 is considered equivalent to SVR 24 weeks after end of treatment (SVR24).
Efficacy and safety of simeprevir plus PR in patients with HCV GT4 receiving 24 weeks of treatment were also assessed, as were early virologic responses at Weeks 2 and 4, SVR24, and on-treatment HCV RNA levels.

Evaluations
Blood samples for determination of HCV RNA levels were collected at screening and/or baseline, at each on-treatment study visit (Weeks 2,4,8,12,16,20 and 24), and at the follow-up visits (Weeks 1, 2, 4, 8, 12, 16, 20, 24, 28, 36, and 48), as pre-specified in the time and events schedule, or at the time of discontinuation of treatment. Genotyping of the rs12979860 single nucleotide polymorphism of IL28B, previously shown to be strongly associated with SVR in patients with HCV GT4 [9], was conducted at screening. Adverse events (AEs), as reported by the patient or appropriate caregiver, were recorded throughout the study. Descriptions of AEs were coded using the Medical Dictionary for Regulatory Activities. All reported AEs occurring during the treatment phase were included in the safety analysis, in which the percentage of patients experiencing each recorded AE was summarised according to treatment group.
Blood samples collected at each study visit were used for biochemical and haematological analyses. Electrocardiograms, vital sign assessments and physical examinations were also performed throughout the study period.

Statistical methods
The efficacy analysis population was the intent-to-treat (ITT) population, consisting of all study participants with HCV GT4 who received at least one dose of study medication. Summary statistics for the effects of treatment and of viral clearance are reported for each treatment group. Baseline factors associated with treatment cessation and eligibility for 12 weeks were also examined. Statistical analysis was conducted using SAS statistical analysis software (SAS Institute Inc.). P-values for assessment of differences in demographic characteristics and adverse event incidences between 12-and 24-week groups were calculated using the Chi-squared test (categorical parameters) or Wilcoxon-Mann-Whitney test (continuous parameters).
Of the 67 GT4 patients enrolled in the study, 34 (51%) met the criteria for 12-week treatment with all 34 completing 12 weeks of simeprevir plus PR (Fig 1).
Median body mass index was significantly greater (Wilcoxon-Mann-Whitney p = 0.01) in the 24-week group than in the 12-week group. Patients in the 24-week group also had significantly higher median HCV RNA levels (Wilcoxon-Mann-Whitney p = 0.011) and were more likely to have non-CC IL28B genotype (Chi-Squared p = 0.00065) than those in the 12-week group. All other patient characteristics assessed (Table 1) were not significantly different between the two groups.
Of the 33 patients who were not eligible for the 12-week regimen and were therefore assigned to receive 24 weeks of treatment, 28 (85%) completed simeprevir and 24 (73%) completed all study therapy. Five patients in the 24-week group discontinued simeprevir: two met a virologic stopping rule, and three discontinued treatment because of an AE. Two of these discontinuations were considered not related to simeprevir; the other patient had AEs considered to be probably related to simeprevir (erythema [Grade 1] and pruritus [Grade 2]). Nine patients in the 24-week group discontinued PR: five as described above, who also discontinued simeprevir, one patient who discontinued PR only [due to erythema nodosum]) and three because of noncompliance (Fig 1). All patients who discontinued PR were in the PR-only treatment phase; no patients received simeprevir monotherapy.

Eligibility of patients for 12 weeks total treatment duration
Patients with IL28B CC genotype appeared more likely to stop all treatment at Week 12 (93% of IL28B CC patients compared with 36% of CT and 50% of TT patients); the difference in response guided therapy criteria for IL28B CC versus non-CC patients did not explain this observation, since 12/14 of IL28B CC patients in the 12-week group had undetectable HCV RNA at Week 2. A greater proportion of patients with low RNA viral load at baseline were eligible for the 12-week group-respectively, 79% of patients with HCV RNA < 400,000 IU/mL, 67% of patients with HCV RNA 400,000-800,000 IU/mL, and 37% of patients with HCV RNA > 800,000 IU/ml qualified to stop treatment at Week 12. There were small or no differences in 12-week eligibility rates according to gender, HCV 4 subtype, race, geographical region, or fibrosis stage on eligibility for 12 weeks versus 24 weeks of treatment (Fig 2; Table 1). The minimal dataset of the present study is available in S1 Dataset.

Efficacy
Among all patients with GT4 receiving 12 or 24 weeks of simeprevir plus PR, 90% (60/67) achieved SVR12. All patients with GT4 receiving the 12-week treatment regimen had undetectable HCV RNA at end of treatment; 97% (33/34) achieved SVR12 (Fig 3) and SVR24 (Data Not Shown). The one patient in the 12-week group who did not achieve SVR12 relapsed 58 days after the end of treatment. This patient was male, infected with HCV GT4d, had IL28B CC genotype, F0-F1 fibrosis and had a baseline HCV RNA of 2,080,000 IU/mL. Among those GT4 patients assigned to the 24-week treatment group, 82% (27/33) achieved SVR12 and SVR24. Three patients experienced on-treatment failure: two met the Week 4 stopping rule (HCV RNA !25 IU/mL at Week 4) and one discontinued all study drugs during the first week of therapy due to pyrexia, oropharyngeal pain, headache and abdominal pain, and had detectable HCV RNA at time of discontinuation.
Three patients in the 24-week group experienced relapse post-treatment (two completed PR and one stopped all treatment at Week 8 due to depression) (S2 Table). The two patients who had completed the 24 weeks of treatment relapsed between follow-up Weeks 4 and 12. The patient who discontinued prematurely due to depression relapsed during the first 4 weeks of follow up. All had IL28B non-CC genotype.

Safety
Among all GT4 patients included in the analysis (n = 67), 60 (90%) experienced at least one treatment-emergent AE. The most commonly reported treatment-emergent AEs (reported in !20% of patients in either treatment group) were pruritus, neutropenia, asthenia, fatigue, decreased appetite, influenza-like illness and headache ( Table 2). Two patients (3%)   experienced a serious AE (acute sinusitis [n = 1] and phlebitis [n = 1]); both occurred in patients in the 24-week group and were considered not to be related to simeprevir (Table 2). Four patients discontinued at least one study treatment (PR ± simeprevir) because of AEs. All four were in the 24-week group. Only one (erythema and pruritus [n = 1]), was considered probably related to simeprevir (the patient discontinued all treatment during Weeks 10-11). The other three (depression [n = 1, discontinued all treatment at Week 8], pyrexia/oropharyngeal pain/headache/abdominal pain [n = 1, discontinued all treatment during Week 1], and erythema nodosum [n = 1, discontinued PR during Weeks 22-23]) were considered not to be related to simeprevir.
Similar proportions of patients in the 12-and 24-week groups (91% and 88% respectively; Chi-Squared p = NS) reported treatment-emergent AEs (all grades) and AEs of special interest. Most on-treatment Grade 3/4 AEs, across both groups, were not considered related to simeprevir (85% [17/20]). The three Grade 3/4 AEs considered at least possibly related to simeprevir were Grade 3 instances of asthenia [n = 2] and increased blood bilirubin [n = 1], all in the 24-week group. Grade 4 AEs were reported in three patients in the 24-week group (neutrophil count decrease [n = 3]) and none in the 12-week group; all Grade 4 AEs were considered not to be related to simeprevir.
Findings of the laboratory analysis of haemoglobin, neutrophils and precursors, platelets, and bilirubin are summarised in S2 Fig.

Discussion
This study comprised 67 treatment-naïve patients with HCV GT4 mild-to-moderate (F0-F2) fibrosis, infected with various GT4 subtypes (GT4a, d or others). The overall SVR12 rate for patients who met the eligibility criteria for the 12-week group and discontinued both simeprevir and PR after 12 weeks of treatment was 97% (33/34). All patients who achieved SVR12 also achieved SVR24. The 34 patients who discontinued all treatment at Week 12 represented 51% of the total GT4 patient population.
The simeprevir plus PR regimen has previously displayed an acceptable safety and tolerability profile in patients with HCV GT1 [39] and GT4 [30]. No new safety signals were identified in this study. The same proportion of patients in the 12-and 24-week groups reported any AE. However, 67% of patients in the 24-week group who received PR experienced at least one new AE during the PR-only phase, and four patients experienced a new Grade 3/4 AE during this phase. Ending treatment after 12 weeks appeared to be associated with a reduction in overall treatment-associated morbidity versus the 24-week or longer regimen. Notably, the majority of Grade 3, and all Grade 4 AEs were considered unrelated to simeprevir, whereas 90% of Grade 3/4 AEs were considered related to peg-IFN.
Excellent results have been reported in broad HCV patient populations, including treatment-naïve and -experienced patients with HCV GT4, with a variety of IFN-free combination DAA regimens [11][12][13][14][15][16][17][18][19][20][21][22][23]. SVR rates exceeding 95% are now routinely reported in randomised clinical trials and in real-world studies after 12 weeks of treatment with such combinations. However, access to treatment continues to be limited by availability and cost, and the proportion of patients who can receive such regimens, if any, varies widely across countries and socioeconomic groups [25,26,40]. Voluntary licensing agreements have dramatically improved access to IFN-free regimens such as sofosbuvir plus ledipasvir in some countries, such as Egypt, but prices remain unaffordably high in many others [41] and are likely to remain so for some time in the absence of agreements [42]. Efforts are ongoing to improve access more widely (e.g. [43]); however as of 2016 there remains a sizable patient population who would clearly benefit from DAA therapy but are untreated or receiving clearly inferior regimens. For instance, in Greece-which has one of the highest rates of HCV prevalence in Europe with 14% of patients having GT4 -PR-only regimens remain widely used with estimated SVR of just 65% following 48 weeks of treatment [44].
In accordance with clinical practice recommendations, patients with advanced fibrosis or cirrhosis are typically prioritised for treatment [1,26]. In many middle-and even high-income countries, patients with F0-F2 fibrosis continue to be ineligible for treatment [25,26]. In Italy, the country with the highest HCV prevalence in Europe, simeprevir is the only DAA eligible for reimbursement for treatment of patients with F0-F2 fibrosis; other European countries do not reimburse DAA therapy at all for this patient population [45]. The cost-effectiveness of early treatment is well established [46][47][48], particularly when the risks of transmission and of complications such as hepatocellular carcinoma are taken into consideration [49][50][51][52]. Indeed, broadening access to treatment and eliminating the requirement for fibrosis staging to determine eligibility may be essential if future HCV incidence is to be significantly reduced [53].
Our findings are similar to those previously reported with an IFN-based single-DAA regimen in a similar, though smaller, treatment-naïve GT4 patient population [54]: an SVR rate of 96% (27/28) was achieved with 12 weeks of sofosbuvir plus PR. IFN-free single-DAA regimens of sofosbuvir plus RBV have been assessed in two studies of GT4 patients in Egypt and of Egyptian ancestry [55,56], with overall SVR rates after 12 weeks of treatment of 77% and 68%, respectively (84% and 79% in treatment-naïve patients); SVR rates of !90% were achieved in both studies with 24 weeks of sofosbuvir plus PR.
HCV genotype 4 is particularly heterogeneous, with more described subtypes than for any other genotype [3]. In the aforementioned study of patients of Egyptian ancestry, SVR rates approaching 100% were achieved with 12 weeks of sofosbuvir plus PR in treatment-naïve patients with low (<600,000 IU/mL) baseline viral load and F0-F2 fibrosis [56]. In the RESTORE study of simeprevir plus PR [30], 94% (29/31) of treatment-naïve patients meeting response-guided therapy criteria achieved SVR12 with 12 weeks of simeprevir plus PR followed by 12 weeks of PR.
The criteria we used to determine eligibility to shorten total treatment duration of simeprevir plus PR treatment to 12 weeks were informed by previous observations of increased likelihood of SVR in patients displaying an early on-treatment virologic response [30,54,57,58]. Based on previous findings of markedly greater treatment efficacy in HCV GT1-infected patients with IL28B CC genotype, more stringent eligibility criteria for 12-week treatment were applied to non-CC patients [32]. Virologic response was the only on-treatment factor used to determine eligibility for 12-week treatment. Among IL28B CC patients, 93% were eligible to stop therapy at Week 12 compared with 38% of IL28B non-CC, and all but one IL28B CC patient achieved SVR12. A low baseline viral load appeared to increase the probability of eligibility to stop all therapy at Week 12. No apparent effects of GT4 subtype, race, sex, geographical region or fibrosis stage on likelihood of eligibility for shortened treatment were observed and very high SVR rates were noted regardless of baseline characteristics. This is in accordance with previous findings with IFN-containing regimens, showing that early on-treatment response is associated with high SVR rates. Early on-treatment response continues to be more informative about eventual outcomes than baseline characteristics even as overall treatment duration is reduced to 12 weeks.
Examining negative baseline predictors of SVR in the 12-week group was not possible as treatment was successful in all but one patient in this group. However, it is noteworthy that patients infected with non-4a HCV genotypes treated for 12 weeks achieved 95% (19/20) SVR12 in this study. Genotype subtype has previously appeared to play a role in treatment outcomes for HCV GT4-infected patients treated with PR alone, with lower SVR rates observed in patients infected with a non-4a HCV genotype [59]. Although the numbers are small in this study, GT4 subtype did not appear to influence SVR rates in patients receiving 12 weeks of therapy, as only one such patient failed. This is particularly encouraging as the distribution of GT4 subtypes is subject to substantial geographical variation, with many regions of Africa, such as the Democratic Republic of the Congo and Gabon having a high prevalence of GT4 non-4a subtypes [8].
The substantial benefits of early treatment, in the context of ongoing limitation of access to DAAs in many countries in which HCV GT4 is prevalent, mean that an option of a shortduration, single-DAA, IFN-based regimen remains of considerable potential interest. PR treatment has previously been determined to be cost-effective even when non-drug costs associated with treatment, such as genotyping and clinical management, are taken into account [60]. However, the on-treatment impact on quality of life of protracted PR-only regimens, combined with their relatively low success rates even in patients with mild fibrosis, represent a considerable disincentive for patients to embark upon and adhere to HCV treatment [27].
The patients with HCV GT4 who participated in this study were recruited at sites in Europe and Saudi Arabia. The sample was well-balanced in terms of GT4 subtype and IL28B genotype and is considered to be representative of GT4 patients in Europe and the Middle East; subtype 4a and the IL28B CC genotype are relatively uncommon in sub-Saharan Africa [32], and the study population may, therefore, be less representative of sub-Saharan African patients. The sample size of 67 was similar to those of previously-reported DAA studies in HCV GT4, but we urge caution when interpreting the subgroup data because of the small numbers. Additionally, the eligibility criteria were defined such that patients who were not eligible for shortened treatment (e.g. because they discontinued treatment because of an AE or experienced virologic failure) were included by default in the 24-week group, potentially impacting the interpretation of the SVR data.
In conclusion, simeprevir plus PR for a total treatment duration of 12 weeks in treatmentnaïve patients with early virologic response and mild to moderate liver fibrosis (METAVIR F0-F2) demonstrated an encouragingly high SVR rate.