聚乙二醇干扰素联合利巴韦林与干扰素联合利巴韦林治疗慢性丙型肝炎的比较
Peginterferon plus ribavirin versus interferon plus ribavirin for chronic hepatitis C.
作者信息
Hauser Goran, Awad Tahany, Brok Jesper, Thorlund Kristian, Štimac Davor, Mabrouk Mahasen, Gluud Christian, Gluud Lise Lotte
出版信息
Cochrane Database Syst Rev. 2014 Feb 28;2014(2):CD005441. doi: 10.1002/14651858.CD005441.pub3.
BACKGROUND
Pegylated interferon (peginterferon) plus ribavirin is the recommended treatment for patients with chronic hepatitis C, but systematic assessment of the effect of this treatment compared with interferon plus ribavirin is needed.
OBJECTIVES
To systematically evaluate the benefits and harms of peginterferon plus ribavirin versus interferon plus ribavirin for patients with chronic hepatitis C.
SEARCH METHODS
We searched the Cochrane Hepato-Biliary Group Controlled Trials Register, the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE, EMBASE, Science Citation Index-Expanded, and LILACS. We also searched conference abstracts, journals, and grey literature. The last searches were conducted in September 2013.
SELECTION CRITERIA
We included randomised clinical trials comparing peginterferon plus ribavirin versus interferon plus ribavirin with or without co-intervention(s) (e.g., other antiviral drugs) for chronic hepatitis C. Quasi-randomised and observational studies retrieved through the searches for randomised clinical trials were also considered for reports of harms. Our primary outcomes were liver-related morbidity, all-cause mortality, serious adverse events, adverse events leading to treatment discontinuation, other adverse events, and quality of life. Our secondary outcome was sustained virological response in serum, that is, undetectable hepatitis C virus RNA in serum by sensitive tests six months after the end of treatment.
DATA COLLECTION AND ANALYSIS
Two review authors independently used a standardised data collection form. We meta-analysed data with both fixed-effect and random-effects models. For each outcome, we calculated the odds ratio (OR) (for liver-related morbidity or all-cause mortality) or the risk ratio (RR) along with 95% confidence interval (CI) based on intention-to-treat analysis. We used domains of the trials to assess the risk of systematic errors (bias) and trial sequential analyses to assess the risk of random errors (play of chance).For each outcome, we calculated the RR with 95% CI based on intention-to-treat analysis. Effects of interventions on outcomes were assessed according to GRADE.
MAIN RESULTS
We included 27 randomised trials with 5938 participants. All trials had high risk of bias. We considered that the risk of bias did not impact on the quality of evidence for liver-related mortality and adverse event outcomes, but it did for virological response. All trials compared peginterferon alpha-2a or peginterferon alpha-2b plus ribavirin versus interferon plus ribavirin for participants with chronic hepatitis C. Three trials administered co-interventions (amantadine hydrochloride 200 mg daily to both intervention groups), and 24 trials were conducted without co-interventions. The effect observed between the two intervention groups regarding liver-related morbidity plus all-cause mortality (5/907 (0.55%) versus 4/882 (0.45%) was imprecise: OR 1.14 ( 95% CI 0.38 to 3.42; five trials; low quality of evidence), as was the risk of adverse events leading to treatment discontinuation (332/2692 (12.3%) versus 409/2176 (18.8%); RR 0.86, 95% CI 0.68 to 1.09; 15 trials; low quality of evidence) or regarding adverse events leading to treatment discontinuation (332/2692 (12.3%) versus 409/2176 (18.8%); RR 0.86, 95% CI 0.66 to 1.12; 17 trials; low quality of evidence). However, peginterferon plus ribavirin versus interferon plus ribavirin significantly increased the risk of neutropenia (332/2202 (15.1%) versus 117/1653 (7.1%); RR 2.15, 95% CI 1.76 to 2.61; 13 trials), thrombocytopenia (65/1113 (5.8%) versus 23/1082 (2.1%); RR 2.63, 95% CI 1.68 to 4.11; 10 trials), arthralgia (517/1740 (29.7%) versus 282/1194 (23.6%); RR 1.19, 95% CI 1.05 to 1.35; four trials), injection site reaction (627/1168 (53.7%) versus 186/649 (28.7%); RR 1.71, 95% CI 1.50 to 1.93; four trials), and nausea (606/1784 (34.0%) versus 354/1239 (28.6%); RR 1.13, 95% CI 1.01 to 1.26; four trials). The most frequent adverse event was fatigue, which occurred in 57% of participants (2024/3608). No significant difference was noted between peginterferon plus ribavirin versus interferon plus ribavirin in terms of fatigue (1177/2062 (57.1%) versus 847/1546 (54.8%); RR 1.01, 95% CI 0.96 to 1.07; 12 trials). No significant differences were reported between the two treatment groups regarding anaemia, headache, rigours, myalgia, pyrexia, weight loss, asthenia, depression, insomnia, irritability, alopecia, pruritus, skin rash, thyroid malfunction, decreased appetite, or diarrhoea. We were unable to identify any data on quality of life. Peginterferon plus ribavirin versus interferon plus ribavirin seemed to significantly increase the number of participants achieving sustained virological response (1673/3300 participants (50.7%) versus 1081/2804 patients (36.7%); RR 1.39, 95% CI 1.25 to 1.56; I2 = 64%; 27 trials; very low quality of evidence). However, the risk of bias in the 13/27 (48.1%) trials reporting on this outcome was high and was considered only 'lower' in the remainder. Because the conventional meta-analysis did not reach its required information size (n = 14,486 participants), we used trial sequential analysis to control for risks of random errors. Again, in this analysis, the estimated effect was statistically significant in favour of peginterferon. Subgroup analyses according to risk of bias, viral genotype, baseline viral load, past treatment history, and type of intervention yielded similarly significant results favouring peginterferon over interferon on the outcome of sustained virological response.
AUTHORS' CONCLUSIONS: Peginterferon plus ribavirin versus interferon plus ribavirin seems to significantly increase the proportion of patients with sustained virological response, as well as the risk of certain adverse events. However, we have insufficient evidence to recommend or reject peginterferon plus ribavirin for liver-related morbidity plus all-cause mortality compared with interferon plus ribavirin. The clinical consequences of achieved sustained virological response are unknown, as sustained virological response is still an unvalidated surrogate outcome. We found no evidence of the potential benefits on quality of life in patients with achieved sustained virological response. Further high-quality research is likely to have an important impact on our confidence in the estimate of patient-relevant outcomes and is likely to change our estimates.There is very low quality evidence that peginterferon plus ribavirin increases the proportion of patients with sustained virological response in comparison with interferon plus ribavirin. There is evidence that it also increases the risk of certain adverse events.
背景
聚乙二醇化干扰素(peginterferon)联合利巴韦林是慢性丙型肝炎患者的推荐治疗方案,但需要对该治疗方案与干扰素联合利巴韦林的效果进行系统评估。
目的
系统评价聚乙二醇化干扰素联合利巴韦林与干扰素联合利巴韦林治疗慢性丙型肝炎患者的利弊。
检索方法
我们检索了Cochrane肝胆疾病组对照试验注册库、Cochrane对照试验中心注册库(CENTRAL)、医学期刊数据库(MEDLINE)、荷兰医学文摘数据库(EMBASE)、科学引文索引扩展版(Science Citation Index-Expanded)和拉丁美洲及加勒比地区卫生科学数据库(LILACS)。我们还检索了会议摘要、期刊和灰色文献。最近一次检索于2013年9月进行。
入选标准
我们纳入了比较聚乙二醇化干扰素联合利巴韦林与干扰素联合利巴韦林(有无联合干预措施,如其他抗病毒药物)治疗慢性丙型肝炎的随机临床试验。通过检索随机临床试验获得的半随机和观察性研究也纳入危害报告。我们的主要结局包括肝脏相关发病率、全因死亡率、严重不良事件、导致治疗中断的不良事件、其他不良事件和生活质量。我们的次要结局是血清学持续病毒学应答,即在治疗结束后6个月通过敏感检测血清中丙型肝炎病毒RNA不可检测。
数据收集与分析
两位综述作者独立使用标准化数据收集表。我们使用固定效应和随机效应模型对数据进行荟萃分析。对于每个结局,我们基于意向性分析计算比值比(OR)(用于肝脏相关发病率或全因死亡率)或风险比(RR)以及95%置信区间(CI)。我们使用试验领域评估系统误差(偏倚)风险,并使用试验序贯分析评估随机误差(机遇作用)风险。对于每个结局,我们基于意向性分析计算RR及其95%CI。根据GRADE评估干预措施对结局的影响。
主要结果
我们纳入了27项随机试验,共5938名参与者。所有试验的偏倚风险都很高。我们认为偏倚风险不影响肝脏相关死亡率和不良事件结局的证据质量,但对病毒学应答的证据质量有影响。所有试验均比较了聚乙二醇化干扰素α-2a或聚乙二醇化干扰素α-2b联合利巴韦林与干扰素联合利巴韦林治疗慢性丙型肝炎患者的效果。三项试验给予联合干预措施(两个干预组均每日服用200mg盐酸金刚烷胺),24项试验未给予联合干预措施。两个干预组之间在肝脏相关发病率加全因死亡率方面观察到的效果不精确(5/907(0.55%)对4/882(0.45%)):OR为1.14(95%CI 0.38至3.42;五项试验;低质量证据),导致治疗中断的不良事件风险也是如此(332/2692(12.3%)对409/2176(18.8%);RR 0.86,95%CI 0.68至1.09;15项试验;低质量证据)或导致治疗中断的不良事件(332/2692(12.3%)对409/2176(18.8%);RR 0.86,95%CI 0.66至1.12;17项试验;低质量证据)。然而,聚乙二醇化干扰素联合利巴韦林与干扰素联合利巴韦林相比,显著增加了中性粒细胞减少的风险(332/2202(15.1%)对117/1653(7.1%);RR 2.15,95%CI 1.76至2.61;13项试验)、血小板减少的风险(65/1113(5.8%)对23/1082(2.1%);RR 2.63,95%CI 1.68至4.11;10项试验)、关节痛的风险(517/1740(29.7%)对282/1194(23.6%);RR 1.19,95%CI 1.05至1.35;四项试验)、注射部位反应的风险(627/1168(53.7%)对186/649(28.7%);RR 1.71,95%CI 1.50至1.93;四项试验)和恶心的风险(606/1784(34.0%)对354/1239(28.6%);RR 1.13,95%CI 1.01至1.26;四项试验)。最常见的不良事件是疲劳,57%的参与者(2024/3608)出现疲劳。聚乙二醇化干扰素联合利巴韦林与干扰素联合利巴韦林在疲劳方面未观察到显著差异(1177/2062(57.1%)对847/1546(54.8%);RR 1.01,95%CI 0.96至1.07;12项试验)。两个治疗组在贫血、头痛、寒战、肌痛、发热、体重减轻、乏力、抑郁、失眠、易怒、脱发、瘙痒、皮疹、甲状腺功能异常、食欲减退或腹泻方面均未报告显著差异。我们未能识别出任何关于生活质量的数据。聚乙二醇化干扰素联合利巴韦林与干扰素联合利巴韦林相比,似乎显著增加了实现持续病毒学应答的参与者数量(1673/3300名参与者(50.7%)对1081/2804名患者(36.7%);RR 1.39,95%CI 1.25至1.56;I² = 64%;27项试验;极低质量证据)。然而,在报告该结局的13/27(48.1%)项试验中,偏倚风险很高,其余试验仅被认为“较低”。由于传统荟萃分析未达到所需的信息规模(n = 14486名参与者),我们使用试验序贯分析来控制随机误差风险。同样,在该分析中,估计效应在统计学上显著支持聚乙二醇化干扰素。根据偏倚风险、病毒基因型、基线病毒载量、既往治疗史和干预类型进行的亚组分析在持续病毒学应答结局方面也得出了类似的显著结果,支持聚乙二醇化干扰素优于干扰素。
作者结论
聚乙二醇化干扰素联合利巴韦林与干扰素联合利巴韦林相比,似乎显著增加了持续病毒学应答患者的比例,以及某些不良事件的风险。然而,与干扰素联合利巴韦林相比,我们没有足够的证据推荐或拒绝聚乙二醇化干扰素联合利巴韦林用于肝脏相关发病率加全因死亡率。实现持续病毒学应答的临床后果尚不清楚,因为持续病毒学应答仍然是一个未经证实的替代结局。我们没有发现实现持续病毒学应答的患者在生活质量方面潜在益处的证据。进一步的高质量研究可能会对我们对患者相关结局估计的信心产生重要影响,并可能改变我们的估计。有极低质量证据表明,与干扰素联合利巴韦林相比,聚乙二醇化干扰素联合利巴韦林增加了持续病毒学应答患者的比例。有证据表明它也增加了某些不良事件的风险。
Zotero 插件