Moggia Elisabetta, Koti Rahul, Belgaumkar Ajay P, Fazio Federico, Pereira Stephen P, Davidson Brian R, Gurusamy Kurinchi Selvan
Department of General and Digestive Surgery, IRCCS Humanitas Research Hospital, Via Manzoni 56, 20089 Rozzano, Milan, Italy, 20089.
Department of Surgery, Royal Free Campus, UCL Medical School, Royal Free Hospital, Pond Street, London, UK, NW3 2QG.
Cochrane Database Syst Rev. 2017 Apr 21;4(4):CD011384. doi: 10.1002/14651858.CD011384.pub2.
In people with acute pancreatitis, it is unclear what the role should be for medical treatment as an addition to supportive care such as fluid and electrolyte balance and organ support in people with organ failure.
To assess the effects of different pharmacological interventions in people with acute pancreatitis.
We searched the Cochrane Central Register of Controlled Trials (CENTRAL, 2016, Issue 9), MEDLINE, Embase, Science Citation Index Expanded, and trial registers to October 2016 to identify randomised controlled trials (RCTs). We also searched the references of included trials to identify further trials.
We considered only RCTs performed in people with acute pancreatitis, irrespective of aetiology, severity, presence of infection, language, blinding, or publication status for inclusion in the review.
Two review authors independently identified trials and extracted data. We did not perform a network meta-analysis as planned because of the lack of information on potential effect modifiers and differences of type of participants included in the different comparisons, when information was available. We calculated the odds ratio (OR) with 95% confidence intervals (CIs) for the binary outcomes and rate ratios with 95% CIs for count outcomes using a fixed-effect model and random-effects model.
We included 84 RCTs with 8234 participants in this review. Six trials (N = 658) did not report any of the outcomes of interest for this review. The remaining 78 trials excluded 210 participants after randomisation. Thus, a total of 7366 participants in 78 trials contributed to one or more outcomes for this review. The treatments assessed in these 78 trials included antibiotics, antioxidants, aprotinin, atropine, calcitonin, cimetidine, EDTA (ethylenediaminetetraacetic acid), gabexate, glucagon, iniprol, lexipafant, NSAIDs (non-steroidal anti-inflammatory drugs), octreotide, oxyphenonium, probiotics, activated protein C, somatostatin, somatostatin plus omeprazole, somatostatin plus ulinastatin, thymosin, ulinastatin, and inactive control. Apart from the comparison of antibiotics versus control, which included a large proportion of participants with necrotising pancreatitis, the remaining comparisons had only a small proportion of patients with this condition. Most trials included either only participants with severe acute pancreatitis or included a mixture of participants with mild acute pancreatitis and severe acute pancreatitis (75 trials). Overall, the risk of bias in trials was unclear or high for all but one of the trials.
seven trials were not funded or funded by agencies without vested interest in results. Pharmaceutical companies partially or fully funded 21 trials. The source of funding was not available from the remaining trials.Since we considered short-term mortality as the most important outcome, we presented only these results in detail in the abstract. Sixty-seven studies including 6638 participants reported short-term mortality. There was no evidence of any differences in short-term mortality in any of the comparisons (very low-quality evidence). With regards to other primary outcomes, serious adverse events (number) were lower than control in participants taking lexipafant (rate ratio 0.67, 95% CI 0.46 to 0.96; N = 290; 1 study; very low-quality evidence), octreotide (rate ratio 0.74, 95% CI 0.60 to 0.89; N = 770; 5 studies; very low-quality evidence), somatostatin plus omeprazole (rate ratio 0.36, 95% CI 0.19 to 0.70; N = 140; 1 study; low-quality evidence), and somatostatin plus ulinastatin (rate ratio 0.30, 95% CI 0.15 to 0.60; N = 122; 1 study; low-quality evidence). The proportion of people with organ failure was lower in octreotide than control (OR 0.51, 95% CI 0.27 to 0.97; N = 430; 3 studies; very low-quality evidence). The proportion of people with sepsis was lower in lexipafant than control (OR 0.26, 95% CI 0.08 to 0.83; N = 290; 1 study; very low-quality evidence). There was no evidence of differences in any of the remaining comparisons in these outcomes or for any of the remaining primary outcomes (the proportion of participants experiencing at least one serious adverse event and the occurrence of infected pancreatic necrosis). None of the trials reported heath-related quality of life.
AUTHORS' CONCLUSIONS: Very low-quality evidence suggests that none of the pharmacological treatments studied decrease short-term mortality in people with acute pancreatitis. However, the confidence intervals were wide and consistent with an increase or decrease in short-term mortality due to the interventions. We did not find consistent clinical benefits with any intervention. Because of the limitations in the prognostic scoring systems and because damage to organs may occur in acute pancreatitis before they are clinically manifest, future trials should consider including pancreatitis of all severity but power the study to measure the differences in the subgroup of people with severe acute pancreatitis. It may be difficult to power the studies based on mortality. Future trials in participants with acute pancreatitis should consider other outcomes such as complications or health-related quality of life as primary outcomes. Such trials should include health-related quality of life, costs, and return to work as outcomes and should follow patients for at least three months (preferably for at least one year).
在急性胰腺炎患者中,对于在诸如液体和电解质平衡以及器官衰竭患者的器官支持等支持性治疗基础上增加药物治疗的作用尚不清楚。
评估不同药物干预对急性胰腺炎患者的影响。
我们检索了Cochrane对照试验中心注册库(CENTRAL,2016年第9期)、MEDLINE、Embase、科学引文索引扩展版以及截至2016年10月的试验注册库,以识别随机对照试验(RCT)。我们还检索了纳入试验的参考文献以识别更多试验。
我们仅考虑在急性胰腺炎患者中进行的RCT,无论病因、严重程度、是否存在感染、语言、是否设盲或发表状态,均纳入本综述。
两位综述作者独立识别试验并提取数据。由于缺乏关于潜在效应修饰因素的信息以及不同比较中纳入的参与者类型差异(当有可用信息时),我们未按计划进行网状Meta分析。我们使用固定效应模型和随机效应模型计算二分类结局的比值比(OR)及其95%置信区间(CI),以及计数结局的率比及其95%CI。
本综述纳入了84项RCT,共8234名参与者。六项试验(N = 658)未报告本综述感兴趣的任何结局。其余78项试验在随机分组后排除了210名参与者。因此,78项试验中的7366名参与者为该综述的一个或多个结局做出了贡献。这78项试验中评估的治疗方法包括抗生素、抗氧化剂、抑肽酶、阿托品、降钙素、西咪替丁、乙二胺四乙酸(EDTA)、加贝酯、胰高血糖素、益比普利、来昔帕泛、非甾体抗炎药(NSAIDs)、奥曲肽、奥芬溴铵、益生菌、活化蛋白C、生长抑素、生长抑素加奥美拉唑、生长抑素加乌司他丁、胸腺肽、乌司他丁以及无活性对照。除了抗生素与对照的比较(其中大部分参与者为坏死性胰腺炎患者)外,其余比较中患有这种疾病的患者比例很小。大多数试验仅纳入了重症急性胰腺炎患者,或者纳入了轻度急性胰腺炎和重症急性胰腺炎患者的混合群体(75项试验)。总体而言,除一项试验外,所有试验的偏倚风险均不明确或较高。
七项试验未获资助或由对结果无既得利益的机构资助。制药公司部分或完全资助了21项试验。其余试验的资金来源不详。由于我们认为短期死亡率是最重要的结局,因此我们仅在摘要中详细呈现了这些结果。67项研究(包括6638名参与者)报告了短期死亡率。在任何比较中均未发现短期死亡率存在差异的证据(极低质量证据)。关于其他主要结局,服用来昔帕泛的参与者严重不良事件(数量)低于对照组(率比0.67,95%CI 0.46至0.96;N = 290;1项研究;极低质量证据),奥曲肽(率比0.74,95%CI 0.60至0.89;N = 770;5项研究;极低质量证据),生长抑素加奥美拉唑(率比0.36,95%CI 0.19至0.70;N = 140;1项研究;低质量证据),以及生长抑素加乌司他丁(率比0.30,95%CI 0.15至0.60;N = 122;1项研究;低质量证据)。奥曲肽组器官衰竭患者的比例低于对照组(OR 0.51,95%CI 0.27至0.97;N = 430;3项研究;极低质量证据)。来昔帕泛组脓毒症患者的比例低于对照组(OR 0.26,95%CI 0.08至0.83;N = 290;1项研究;极低质量证据)。在这些结局的任何其他比较中,或在任何其他主要结局(经历至少一次严重不良事件的参与者比例和感染性胰腺坏死的发生率)方面,均未发现差异的证据。没有试验报告与健康相关的生活质量。
极低质量证据表明,所研究的药物治疗均未降低急性胰腺炎患者的短期死亡率。然而,置信区间较宽,且与干预导致短期死亡率增加或降低一致。我们未发现任何干预措施具有一致的临床益处。由于预后评分系统存在局限性,且急性胰腺炎可能在器官出现临床症状之前就已受损,未来试验应考虑纳入所有严重程度的胰腺炎患者,但应具备足够的样本量以测量重症急性胰腺炎亚组中的差异。基于死亡率进行试验可能难以保证足够的样本量。未来针对急性胰腺炎患者的试验应考虑将其他结局,如并发症或与健康相关的生活质量作为主要结局。此类试验应将与健康相关的生活质量、成本和重返工作作为结局,并应至少随访患者三个月(最好至少一年)。