Weis Sebastian, Franke Annegret, Berg Thomas, Mössner Joachim, Fleig Wolfgang E, Schoppmeyer Konrad
Gastroenterology and Rheumatology, Department of Internal Medicine, Neurology and Dermatology, University of Leipzig Hospitals and Clinics, AöR, Leipzig, Germany, 04103.
Cochrane Database Syst Rev. 2015 Jan 26;1(1):CD006745. doi: 10.1002/14651858.CD006745.pub3.
Hepatocellular carcinoma (HCC) is the fifth most common global cancer. When HCC is diagnosed early, interventions such as percutaneous ethanol injection (PEI), percutaneous acetic acid injection (PAI), or radiofrequency (thermal) ablation (RF(T)A) may have curative potential and represent less invasive alternatives to surgery.
To evaluate the beneficial and harmful effects of PEI or PAI in adults with early HCC defined according to the Milan criteria, that is, one cancer nodule up to 5 cm in diameter or up to three cancer nodules up to 3 cm in diameter compared with no intervention, sham intervention, each other, other percutaneous interventions, or surgery.
We searched the Cochrane Hepato-Biliary Group Controlled Trials Register (July 2014), the Cochrane Central Register of Controlled Trials (CENTRAL) (2014, Issue 6), MEDLINE (1946 to July 2014), EMBASE (1976 to July 2014), and Science Citation Index Expanded (1900 to July 2014). We handsearched meeting abstracts of six oncological and hepatological societies and references of articles to July 2014. We contacted researchers in the field.
We considered randomised clinical trials comparing PEI or PAI versus no intervention, sham intervention, each other, other percutaneous interventions, or surgery for the treatment of early HCC regardless of blinding, publication status, or language. We excluded studies comparing RFA or combination of different interventions as such interventions have been or will be addressed in other Cochrane Hepato-Biliary Group systematic reviews.
Two review authors independently selected trials for inclusion, and extracted and analysed data. We calculated the hazard ratios (HR) for median overall survival and recurrence-free survival using the Cox regression model with Parmar's method. We reported type and number of adverse events descriptively. We assessed risk of bias by The Cochrane Collaboration domains to reduce systematic errors and risk of play of chance by trial sequential analysis to reduce random errors. We assessed the methodological quality with GRADE.
We identified three randomised trials with 261 participants for inclusion. The risk of bias was low in one and high in two trials.Two of the randomised trials compared PEI versus PAI; we included 185 participants in the analysis. The overall survival (HR 1.47; 95% confidence interval (CI) 0.68 to 3.19) and recurrence-free survival (HR 1.42; 95% CI 0.68 to 2.94) were not statistically significantly different between the intervention groups of the two trials. Trial sequential analysis for the comparison PEI versus PAI including two trials revealed that the number of participants that were included in the trials were insufficient in order to judge a relative risk reduction of 20%. Data on the duration of hospital stay were available from one trial for the comparison PEI versus PAI showing a significantly shorter hospital stay for the participants treated with PEI (mean 1.7 days; range 2 to 3 days) versus PAI (mean 2.2 days; range 2 to 5 days). Quality of life was not reported. There were only mild adverse events in participants treated with either PEI or PAI such as transient fever, flushing, and local pain.One randomised trial compared PEI versus surgery; we included 76 participants in the analyses. There was no significant difference in the overall survival (HR 1.57; 95% CI 0.53 to 4.61) and recurrence-free survival (HR 1.35; 95% CI 0.69 to 2.63). No serious adverse events were reported in the PEI group while three postoperative deaths occurred in the surgery group.In addition to the three randomised trials, we identified one quasi-randomised study comparing PEI versus PAI. Due to methodological flaws of the study, we extracted only the data on adverse events and presented them in a narrative way.We found no randomised trials that compared PEI or PAI versus no intervention, best supportive care, sham intervention, or other percutaneous local ablative therapies excluding RFTA. We found also no randomised clinical trials that compared PAI versus other interventional treatments or surgery. We identified two ongoing randomised clinical trials. One of these two trials compares PEI versus surgery and the other PEI versus transarterial chemoembolization. To date, it is unclear whether the trials will be eligible for inclusion in this meta-analysis as the data are not yet available. This review will not be updated until new randomised clinical trials are published and can be used for analysis.
AUTHORS' CONCLUSIONS: PEI versus PAI did not differ significantly regarding benefits and harms in people with early HCC, but the two included trials had only a limited number of participants and one trial was judged a high risk of bias. Thus, the current evidence precludes us from making any firm conclusions.There was also insufficient evidence to determine whether PEI versus surgery (segmental liver resection) was more effective, because conclusions were based on a single randomised trial. While some data from this single trial suggested that PEI was safer, the high risk of bias and the lack of any confirmatory evidence make a reliable assessment impossible.We found no trials assessing PEI or PAI versus no intervention, best supportive care, or sham intervention.There is a need for more randomised clinical trials assessing interventions for people with early stage HCC. Such trials should be conducted with low risks of systematic errors and random errors.
肝细胞癌(HCC)是全球第五大常见癌症。早期诊断出HCC时,诸如经皮乙醇注射(PEI)、经皮乙酸注射(PAI)或射频(热)消融(RF(T)A)等干预措施可能具有治愈潜力,并且是比手术侵入性更小的替代方法。
评估根据米兰标准定义的早期HCC成人患者接受PEI或PAI的有益和有害影响,即与不干预、假干预、彼此、其他经皮干预或手术相比,单个直径达5 cm的癌结节或最多三个直径达3 cm的癌结节。
我们检索了Cochrane肝胆疾病组对照试验注册库(2014年7月)、Cochrane对照试验中央注册库(CENTRAL)(2014年第6期)、MEDLINE(1946年至2014年7月)、EMBASE(1976年至2014年7月)以及科学引文索引扩展版(1900年至2014年7月)。我们手工检索了六个肿瘤学和肝病学学会的会议摘要以及截至2014年7月的文章参考文献。我们联系了该领域的研究人员。
我们纳入比较PEI或PAI与不干预、假干预、彼此、其他经皮干预或手术治疗早期HCC的随机临床试验,无论是否设盲、发表状态或语言。我们排除比较RFA或不同干预措施组合的研究,因为此类干预措施已在或将会在Cochrane肝胆疾病组的其他系统评价中涉及。
两位综述作者独立选择纳入试验,并提取和分析数据。我们使用Cox回归模型和Parmar方法计算中位总生存期和无复发生存期的风险比(HR)。我们以描述性方式报告不良事件的类型和数量。我们根据Cochrane协作网的领域评估偏倚风险以减少系统误差,并通过试验序贯分析评估机遇影响风险以减少随机误差。我们用GRADE评估方法学质量。
我们纳入三项随机试验,共261名参与者。一项试验的偏倚风险低,两项试验的偏倚风险高。两项随机试验比较了PEI与PAI;我们纳入185名参与者进行分析。两项试验的干预组之间的总生存期(HR 1.47;95%置信区间(CI)0.68至3.19)和无复发生存期(HR 1.42;95%CI 0.68至2.94)无统计学显著差异。对包括两项试验的PEI与PAI比较进行试验序贯分析显示,纳入试验的参与者数量不足以判断相对风险降低20%。有一项比较PEI与PAI的试验提供了住院时间数据,结果显示接受PEI治疗的参与者住院时间显著短于接受PAI治疗的参与者(平均1.7天;范围2至3天)与PAI(平均2.2天;范围2至5天)。未报告生活质量情况。接受PEI或PAI治疗的参与者仅出现轻度不良事件,如短暂发热、潮红和局部疼痛。一项随机试验比较了PEI与手术;我们纳入76名参与者进行分析。总生存期(HR 1.57;95%CI 0.53至4.61)和无复发生存期(HR 1.35;95%CI 0.69至2.63)无显著差异。PEI组未报告严重不良事件,而手术组发生三例术后死亡。
除了这三项随机试验,我们还识别出一项比较PEI与PAI的半随机研究。由于该研究存在方法学缺陷,我们仅提取了不良事件数据并以叙述方式呈现。
我们未找到比较PEI或PAI与不干预、最佳支持治疗、假干预或排除RFTA的其他经皮局部消融疗法的随机试验。我们也未找到比较PAI与其他介入治疗或手术的随机临床试验。我们识别出两项正在进行的随机临床试验。这两项试验中的一项比较PEI与手术,另一项比较PEI与经动脉化疗栓塞。迄今为止,由于数据尚未可得,尚不清楚这些试验是否符合纳入本荟萃分析的条件。在有新的随机临床试验发表并可用于分析之前,本综述将不会更新。
对于早期HCC患者,PEI与PAI在益处和危害方面无显著差异,但纳入的两项试验参与者数量有限,且一项试验被判定偏倚风险高。因此,目前的证据使我们无法得出任何确凿结论。
也没有足够的证据确定PEI与手术(肝段切除术)相比是否更有效,因为结论基于一项随机试验。虽然该单一试验的一些数据表明PEI更安全,但偏倚风险高且缺乏任何确证性证据使得无法进行可靠评估。
我们未找到评估PEI或PAI与不干预、最佳支持治疗或假干预的试验。需要更多评估早期HCC患者干预措施的随机临床试验。此类试验应在系统误差和随机误差风险较低的情况下进行。