Villarruz-Sulit Maria Vanessa, Forster Rachel, Dans Antonio L, Tan Flordeliza N, Sulit Dennis V
Asia-Pacific Center for Evidence-Based Healthcare, Ermita, Manila, Philippines.
Usher Institute, University of Edinburgh, Edinburgh, UK.
Cochrane Database Syst Rev. 2020 May 5;5(5):CD002785. doi: 10.1002/14651858.CD002785.pub2.
Chelation therapy is promoted and practiced around the world as a form of alternative medicine in the treatment of atherosclerotic cardiovascular disease. It has been suggested as a safe, relatively inexpensive, non-surgical method of restoring blood flow in atherosclerotic vessels. However, there is currently limited high-quality, adequately-powered research informing evidence-based medicine on the topic, specifically regarding clinical outcomes. Due to this limited evidence, the benefit of chelation therapy remains controversial at present. This is an update of a review first published in 2002.
To assess the effects of ethylene diamine tetra-acetic acid (EDTA) chelation therapy versus placebo or no treatment on clinical outcomes among people with atherosclerotic cardiovascular disease.
For this update, the Cochrane Vascular Information Specialist searched the Cochrane Vascular Specialised Register, Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE, Embase and Cumulative Index to Nursing and Allied Health Literature (CINAHL) databases, the World Health Organization International Clinical Trials Registry Platform and ClinicalTrials.gov trials register to 6 August 2019. We searched the bibliographies of the studies retrieved by the literature searches for further trials.
We included studies if they were randomised controlled trials of EDTA chelation therapy versus placebo or no treatment in participants with atherosclerotic cardiovascular disease. The main outcome measures we considered include all-cause or cause-specific mortality, non-fatal cardiovascular events, direct or indirect measurement of disease severity, and subjective measures of improvement or adverse events.
Two review authors independently extracted data and assessed trial quality using standard Cochrane procedures. A third author considered any unresolved issues, and we discussed any discrepancies until a consensus was reached. We contacted study authors for additional information.
We included five studies with a total of 1993 randomised participants. Three studies enrolled participants with peripheral vascular disease and two studies included participants with coronary artery disease, one of which specifically recruited people who had had a myocardial infarction. The number of participants in each study varied widely (from 10 to 1708 participants), but all studies compared EDTA chelation to a placebo. Risk of bias for the included studies was generally moderate to low, but one study had high risk of bias because the study investigators broke their randomisation code halfway through the study and rolled the placebo participants over to active treatment. Certainty of the evidence, as assessed by GRADE, was generally low to very low, which was mostly due to a paucity of data in each outcome's meta-analysis. This limited our ability to draw any strong conclusions. We also had concerns about one study's risk of bias regarding blinding and outcome assessment that may have biased the results. Two studies with coronary artery disease participants reported no evidence of a difference in all-cause mortality between chelation therapy and placebo (risk ratio (RR) 0.97, 95% CI 0.73 to 1.28; 1792 participants; low-certainty). One study with coronary artery disease participants reported no evidence of a difference in coronary heart disease deaths between chelation therapy and placebo (RR 1.02, 95% CI 0.70 to 1.48; 1708 participants; very low-certainty). Two studies with coronary artery disease participants reported no evidence of a difference in myocardial infarction (RR 0.81, 95% CI 0.57 to 1.14; 1792 participants; moderate-certainty), angina (RR 0.95, 95% CI 0.55 to 1.67; 1792 participants; very low-certainty), and coronary revascularisation (RR 0.46, 95% CI 0.07 to 3.25; 1792 participants). Two studies (one with coronary artery disease participants and one with peripheral vascular disease participants) reported no evidence of a difference in stroke (RR 0.88, 95% CI 0.40 to 1.92; 1867 participants; low-certainty). Ankle-brachial pressure index (ABPI; also known as ankle brachial index) was measured in three studies, all including participants with peripheral vascular disease; two studies found no evidence of a difference in the treatment groups after three months after treatment (mean difference (MD) 0.02, 95% CI -0.03 to 0.06; 181 participants; low-certainty). A third study reported an improvement in ABPI in the EDTA chelation group, but this study was at high risk of bias. Meta-analysis of maximum and pain-free walking distances three months after treatment included participants with peripheral vascular disease and showed no evidence of a difference between the treatment groups (MD -31.46, 95% CI -87.63 to 24.71; 165 participants; 2 studies; low-certainty). Quality of life outcomes were reported by two studies that included participants with coronary artery disease, but we were unable to pool the data due to different methods of reporting and varied criteria. However, there did not appear to be any major differences between the treatment groups. None of the included studies reported on vascular deaths. Overall, there was no evidence of major or minor adverse events associated with EDTA chelation treatment.
AUTHORS' CONCLUSIONS: There is currently insufficient evidence to determine the effectiveness or ineffectiveness of chelation therapy in improving clinical outcomes of people with atherosclerotic cardiovascular disease. More high-quality, randomised controlled trials are needed that assess the effects of chelation therapy on longevity and quality of life among people with atherosclerotic cardiovascular disease.
螯合疗法作为替代医学的一种形式,在全球范围内被推广并应用于动脉粥样硬化性心血管疾病的治疗。它被认为是一种安全、相对廉价的非手术方法,可恢复动脉粥样硬化血管中的血流。然而,目前关于该主题的高质量、有足够样本量的研究有限,特别是关于临床结局的研究。由于证据有限,螯合疗法的益处目前仍存在争议。这是对2002年首次发表的一篇综述的更新。
评估乙二胺四乙酸(EDTA)螯合疗法与安慰剂或不治疗相比,对动脉粥样硬化性心血管疾病患者临床结局的影响。
对于本次更新,Cochrane血管信息专家检索了Cochrane血管专业注册库、Cochrane对照试验中央注册库(CENTRAL)、MEDLINE、Embase以及护理学与健康相关文献累积索引(CINAHL)数据库、世界卫生组织国际临床试验注册平台和ClinicalTrials.gov试验注册库,检索截至2019年8月6日的文献。我们还检索了文献检索所获研究的参考文献,以查找更多试验。
如果研究是在动脉粥样硬化性心血管疾病参与者中进行的EDTA螯合疗法与安慰剂或不治疗的随机对照试验,我们将其纳入。我们考虑的主要结局指标包括全因死亡率或特定病因死亡率、非致命性心血管事件、疾病严重程度的直接或间接测量,以及改善或不良事件的主观测量。
两名综述作者独立提取数据,并使用标准的Cochrane程序评估试验质量。第三名作者审议任何未解决的问题,我们讨论任何分歧,直至达成共识。我们联系研究作者以获取更多信息。
我们纳入了5项研究,共1993名随机参与者。3项研究纳入了外周血管疾病参与者,2项研究纳入了冠状动脉疾病参与者,其中1项专门招募了心肌梗死患者。每项研究的参与者数量差异很大(从10名到1708名参与者),但所有研究均将EDTA螯合疗法与安慰剂进行了比较。纳入研究的偏倚风险一般为中度至低度,但有1项研究存在高偏倚风险,因为研究调查人员在研究中途打破了随机分组编码,并将安慰剂组参与者转为接受积极治疗。根据GRADE评估,证据的确定性一般为低至极低,这主要是由于每个结局的荟萃分析中数据匮乏。这限制了我们得出任何有力结论的能力。我们还对1项研究在盲法和结局评估方面的偏倚风险表示担忧,这可能使结果产生偏差。两项纳入冠状动脉疾病参与者的研究报告称,螯合疗法与安慰剂在全因死亡率方面无差异(风险比(RR)0.97,95%置信区间0.73至1.28;1792名参与者;低确定性)。一项纳入冠状动脉疾病参与者的研究报告称,螯合疗法与安慰剂在冠心病死亡方面无差异(RR 1.02,95%置信区间0.70至1.48;1708名参与者;极低确定性)。两项纳入冠状动脉疾病参与者的研究报告称,螯合疗法与安慰剂在心肌梗死(RR 0.81,95%置信区间0.57至1.14;1792名参与者;中度确定性)、心绞痛(RR 0.95,95%置信区间0.55至1.67;1792名参与者;极低确定性)和冠状动脉血运重建(RR 0.46,95%置信区间0.07至3.25;1792名参与者)方面无差异。两项研究(一项纳入冠状动脉疾病参与者,一项纳入外周血管疾病参与者)报告称,螯合疗法与安慰剂在中风方面无差异(RR 0.88,95%置信区间0.40至1.92;1867名参与者;低确定性)。三项研究测量了踝肱压力指数(ABPI;也称为踝臂指数),所有研究均纳入了外周血管疾病参与者;两项研究发现治疗三个月后治疗组之间无差异(平均差(MD)0.02,95%置信区间-0.03至0.06;181名参与者;低确定性)。第三项研究报告称EDTA螯合组的ABPI有所改善,但该研究存在高偏倚风险。对治疗三个月后的最大步行距离和无痛步行距离进行的荟萃分析纳入了外周血管疾病参与者,结果显示治疗组之间无差异(MD -31.46,95%置信区间-87.63至24.71;165名参与者;2项研究;低确定性)。两项纳入冠状动脉疾病参与者的研究报告了生活质量结局,但由于报告方法不同和标准各异,我们无法合并数据。然而,治疗组之间似乎没有任何重大差异。纳入的研究均未报告血管性死亡情况。总体而言,没有证据表明EDTA螯合治疗会导致重大或轻微不良事件。
目前尚无足够证据确定螯合疗法在改善动脉粥样硬化性心血管疾病患者临床结局方面是否有效或无效。需要更多高质量的随机对照试验来评估螯合疗法对动脉粥样硬化性心血管疾病患者寿命和生活质量的影响。
