Effect of Telbivudine Versus Other Nucleos(t)ide Analogs on HBeAg Seroconversion and Other Outcomes in Patients with Chronic Hepatitis B: A Network Meta-Analysis

Hepatitis B virus (HBV) infection is a major global public health problem. It is estimated that 240 million people are chronically infected with HBV worldwide and approximately 780000 deaths each year are attributed to hepatitis B [1]. Chronic hepatitis B (CHB) can cause severe liver inflammation and fibrosis, ultimately resulting in more serious complications such as cirrhosis, hepatic decompensation and hepatocellular carcinoma (HCC) [2]. In patients with CHB, the presence of hepatitis B e antigen (HBeAg) indicates active HBV replication and more severe infection. Therefore, it may be useful to monitor HBeAg levels in patients to determine treatment response, as HBeAg seroconversion in HBeAg-positive patients with sustained undetectable HBV DNA may be considered as a potential end point in the treatment of CHB [3].

Currently approved therapies for CHB include two immune-based interferons [interferon-α (IFN-α) and pegylated IFN α (PEG-IFN α-2a or α-2b)] and five antiviral nucleos(t)ide analogs (NAs), namely adefovir, entecavir, lamivudine, telbivudine, and tenofovir. These antivirals do not completely eradicate HBV, and hence the efficacy of these therapies is still unsatisfactory [2, 4]. At present, NAs are most commonly used in HBeAg-positive patients with CHB. HBeAg seroconversion in patients with CHB is associated with favorable long-term outcomes, such as disease remission, lower incidence of cirrhosis and HCC, and higher survival rates [3, 5, 6]. A number of systematic literature reviews (SLRs) and meta-analyses have been published on the efficacy of NAs for the treatment of CHB [4, 7‐10]. Although these meta-analyses evaluated the efficacy of NAs, their scope was limited primarily to direct comparisons of NAs without considering indirect evidence using a common comparator between two NAs, which were not compared against each other in a randomized controlled trial (RCT). There is only one published meta-analysis which used a mixed-treatment comparison of NAs [8], but that study evaluated only 1-year efficacy outcomes. It is necessary to compare the available NAs through direct and indirect comparisons beyond the 1-year time period to have a more comprehensive overview of the efficacy of current treatment options in CHB. This can help physicians with selecting the most appropriate NA treatment options based on comparative efficacies. A network meta-analysis (NMA) helps to synthesize and analyze data by comparing multiple treatments both directly and indirectly [11, 12]. To address this need, we have performed SLR and NMA to compare the efficacy of the approved NAs. The aim of this meta-analysis was to assess the efficacy of telbivudine compared to adefovir, entecavir, lamivudine, and tenofovir in nucleos(t)ide-naïve HBeAg-positive patients with CHB.

This SLR followed standard systematic review methodology endorsed by the Cochrane Collaboration [13] and the National Institute for Health and Care Excellence (NICE) in the UK [14]. The SLR was conducted and reported in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines [15]. This article is based on previously conducted studies and does not involve any new studies of human or animal subjects performed by any of the authors.

This comprehensive and up-to-date NMA analyzed both direct and indirect evidence for the comparative efficacies of NAs. To ensure as comprehensive an approach as possible, we incorporated both English and Chinese publications. We included indirect evidence from combination therapies (as shown in Fig. 2). As NMA provides pooled efficacy estimates, the small sample size of some studies did not affect the overall results.

The 1-year results from this NMA revealed significant differences in HBeAg seroconversion when comparing telbivudine and most of the approved oral NAs. Telbivudine demonstrated superior efficacy over adefovir, entecavir and lamivudine in HBeAg seroconversion. The clinical importance of HBeAg seroconversion was reported in treatment guidelines. It is considered as a potential treatment end point in HBeAg-positive patients with undetectable HBV DNA and persistently normal ALT levels [3, 24]. HBeAg seroconversion is associated with favorable long-term outcomes, including reduced risk of cirrhosis or HCC [3]. A long-term study in patients with CHB showed that during a median follow-up of approximately nine years after spontaneous HBeAg seroconversion, the majority (67%) of patients had sustained remission [5]. Another study reported that the rate of fibrosis progression was lower in patients with sustained disease remission (HBeAg seroconversion and HBV DNA <10⁴ copies/mL at follow-up) as compared to patients who remained HBeAg positive [25]. These reports indicate that HBeAg seroconversion is an important end point in the treatment of patients with CHB.

The present analysis also demonstrated that telbivudine was superior to entecavir and lamivudine for inducing HBeAg loss, and to lamivudine in ALT normalization. With regard to reducing HBV DNA levels, telbivudine demonstrated superior efficacy as compared to adefovir and lamivudine, and similar efficacy to entecavir. Outcomes at 1 year showed that tenofovir was superior to telbivudine in suppressing HBV DNA levels. However, there were only two studies with tenofovir which reported undetectable HBV DNA at the 1-year time point. Data from an earlier meta-analysis showed that compared to other NAs, tenofovir had the highest probability of achieving HBeAg seroconversion after 1 year of treatment. Tenofovir also showed significantly higher HBV DNA reduction than the other NAs. Entecavir was significantly superior to adefovir and lamivudine, whereas telbivudine showed superior efficacy than lamivudine [8]. However, this meta-analysis by Wiens et al. has two major limitations that were acknowledged by the authors. First, a random-effect meta-analysis software (ADDIS) was used, unlike the current analysis that was performed using WinBUGS 1.4, a widely accepted software for conducting Bayesian NMA. Second, the previously published analysis included data from only nine RCTs of 48–52 weeks duration. Hence, results from this published analysis cannot be extrapolated or generalized to real-life situations.

Results from a prospective study showed that treatment intensification (Roadmap approach) with adefovir add-on therapy in patients with suboptimal virologic response (HBV DNA ≥300 copies/mL) after 24 weeks of telbivudine treatment significantly improved efficacy outcomes at 2 years. This shows that adjustment of treatment strategy may be useful for patients with suboptimal virologic response to telbivudine treatment [23]. An earlier study with Roadmap approach in HBeAg-positive, nucleoside-naïve patients with CHB appeared to be an effective treatment approach. Telbivudine with conditional tenofovir intensification resulted in high rates of undetectable HBV DNA, ALT normalization, HBeAg/HBsAg clearance, and HBeAg seroconversion. There was neither virologic breakthrough nor resistance observed over 52 weeks of treatment [26]. Therefore, telbivudine and tenofovir add-on therapy, based on Roadmap approach, may be a useful strategy to optimize antiviral treatment outcomes in patients with suboptimal virologic response.

The superiority of telbivudine over entecavir with regard to HBeAg loss and HBeAg seroconversion in this 1-year NMA was in accordance with a previously published meta-analysis that directly compared telbivudine versus entecavir in treatment-naïve HBeAg-positive patients with CHB [10]. The published direct meta-analysis concluded that in nucleos(t)ide-naïve Asian patients with CHB, assessed at 12, 24, and 48 weeks after starting the treatment, telbivudine was as effective as entecavir in HBV DNA suppression, but had higher rates of HBeAg loss and seroconversion as compared to entecavir [10]. In the long-term analysis at the 2-year time point, the relative efficacies of telbivudine versus other NAs with regard to HBeAg loss and HBeAg seroconversion were not statistically significant. The analysis was not conducted for other outcomes due to the limited number of studies reporting data at 2 years. Earlier, 2-year results from the GLOBE study (ClinicalTrials.gov identifier: NCT00057265) showed that a subgroup of HBeAg-positive patients with baseline HBV DNA <9 log₁₀ copies/mL, ALT level ≥2× upper limit of normal, and undetectable HBV DNA at week 24 achieved high rates of undetectable HBV DNA (89%) and HBeAg seroconversion (52%) with low rate of telbivudine resistance (1.8%) at 2 years. Therefore, the baseline characteristics of patients with CHB and undetectable serum HBV DNA at treatment week 24 (early virologic response) may be considered as the strongest predictors of long-term outcomes of telbivudine treatment [27].

Several studies have shown that high HBV DNA levels, high ALT levels, and HBeAg-positivity are independent risk factors for the development of HCC and cirrhosis [28, 29]. Thus, effective antiviral therapy and induction of HBeAg seroconversion may lower the risk of developing HCC. The possible mode of action for the telbivudine-mediated high rate of HBeAg seroconversion is through direct inhibition of viral replication and stimulation of the host immune response [30]. This suggests that telbivudine provides potential benefits for patients with HBeAg-positive CHB. It is important to note that newer-generation oral NAs need to be developed with the objective of inducing higher rates of HBeAg loss and seroconversion that are sustained over a long period of time after the end of treatment. This can provide the possibility of a finite therapy for HBeAg-positive patients with CHB [6].

There are some limitations to this analysis. It primarily evaluated HBeAg seroconversion and other efficacy data. However, viral resistance and adverse events due to NA treatment were not assessed, although these are key factors when selecting a particular therapy for CHB. An evaluation of the cost-effectiveness of NAs was not part of this NMA. The analysis mainly reported results from RCTs with 1-year of treatment. A limited number of studies reported outcomes at the 2-year time point; therefore, a more robust comparison was not feasible. Hence, the NMA results are not reliable at the 2-year time point due to the small number of studies. Furthermore, the long-term (≥5 years) efficacies of NAs and the potential benefits in the reduction of liver-related complications were not determined. A previous review on the use of NAs in HBeAg-positive CHB patients reported that rates of HBeAg loss increased up to 50% and anti-HBe seroconversion up to 37% at year 6 of treatment [31]. Given the chronic nature of the disease, cohort studies to evaluate the long-term outcomes after treatment with different NAs would be important.

This SLR and NMA demonstrated that in nucleos(t)ide-naïve HBeAg-positive patients with CHB, telbivudine was superior to adefovir, entecavir, and lamivudine in HBeAg seroconversion, and to entecavir and lamivudine in HBeAg loss at 1 year of treatment. Telbivudine also showed a superior response as compared to lamivudine in ALT normalization and to adefovir and lamivudine in suppressing HBV DNA levels.