Balk Ethan M, Adams Gaelen P, Langberg Valerie, Halladay Christopher, Chung Mei, Lin Lin, Robertson Sarah, Yip Agustin, Steele Dale, Smith Bryant T, Lau Joseph, Lichtenstein Alice H, Trikalinos Thomas A
Brown Evidence-based Practice Center.
Evid Rep Technol Assess (Full Rep). 2016 Aug(223):1-1252. doi: 10.23970/AHRQEPCERTA223.
The effect and association of omega-3 fatty acids (n-3 FA) intake and biomarker levels with cardiovascular (CV) clinical and intermediate outcomes remains controversial. We update prior Evidence Reports of n-3 FA and clinical and intermediate CV disease (CVD) outcomes.
Evaluate the effect of n-3 FA on clinical and selected intermediate CV outcomes and the association of n-3 FA intake and biomarkers with CV outcomes. The n-3 FA under review include eicosapentaenoic acid (EPA), docosahexaenoic acid (DHA), docosapentaenoic acid (DPA), stearidonic acid (SDA), and alphalinolenic acid (ALA).
MEDLINE®, Embase®, the Cochrane Central Register of Controlled Trials, Cochrane Database of Systematic Reviews, and CAB Abstracts from 2000 or 2002 to June 8, 2015, and eligible studies from the original reports and relevant existing systematic reviews.
We included randomized controlled trials (RCTs) of any n-3 FA intake compared to no, lower, or other n-3 FA intake with an outcome of interest conducted in healthy adults, those at risk for CVD, or those with CVD. We also included prospective observational studies of the association between baseline n-3 FA intake or biomarker level and followup outcomes. We required 1 year or more of followup for clinical outcomes and 4 weeks for intermediate outcomes (blood pressure [BP] and lipids).
From 11,440 citations (from electronic literature searches and existing systematic reviews), 829 abstracts met basic eligibility criteria; 61 RCTs and 37 longitudinal observational studies (in 147 articles) were included. Most RCTs and observational studies had few risk-of-bias concerns.
Total n-3 FA: There is low strength of evidence (SoE) of no association between total n-3 FA intake and stroke death or myocardial infarction. There is insufficient evidence for other outcomes.
Marine oils, total: There is moderate to high SoE that higher marine oil intake lowers triglycerides (Tg), raises high density lipoprotein cholesterol (HDL-c), and lowers the ratio of total cholesterol to HDL-c but raises low density lipoprotein cholesterol (LDL-c); also that higher marine oil intake does not affect major adverse CV events, all-cause death, total stroke, sudden cardiac death, coronary revascularization, atrial fibrillation, or BP. There is low SoE of associations between higher marine oil intake and decreased risk of CVD death, coronary heart disease (CHD), myocardial infarction, ischemic stroke, and congestive heart failure (CHF). There is low SoE of no association with CHD death or hemorrhagic stroke. There is insufficient evidence for other outcomes.
Marine oil FA individually: There is low SoE of no associations between EPA or DHA intake (separately) and CHD, and between EPA or DPA and atrial fibrillation. There is low SoE of no association between EPA biomarkers and atrial fibrillation, but moderate SoE of no effect of purified DHA supplementation on BP or LDL-c. There is insufficient evidence for other specific marine oil FA and outcomes.
ALA: There is moderate SoE of no effect of ALA intake on BP, LDL-c, HDL-c, or Tg. There is low SoE of no association between ALA intake or biomarker level and CHD, CHD death, atrial fibrillation, and CHF. There is insufficient evidence for other outcomes.
Other n-3 FA analyses: There is insufficient evidence comparing n-3 FA with each other or for SDA.
Subgroup analyses: Nineteen of 22 studies found no interaction of sex on any effect of n-3 FA. Likewise, 19 of 20 studies found no differential effect by statin co-use. Within 16 studies evaluating diabetes subgroups, 2 found statistically significant beneficial effects of n-3 FA in those with diabetes but not in those without diabetes, but no test of interaction was reported.
The 61 RCTs mostly compared marine oil supplements with placebo on CVD outcomes in populations at risk for CVD or with CVD, while the 37 observational studies mostly examined associations between various individual n-3 FA and long-term CVD events in generally healthy populations. Compared with the prior report on n-3 FA and CVD, there is more robust RCT evidence on ALA and on clinical CV outcomes; also, by design there are newly added data on associations between n-3 FA biomarkers and CV outcomes. However, conclusions regarding the effect of n-3 FA intake on CV outcomes or associations with outcomes remain substantially unchanged. Marine oils statistically significantly raise HDL-c and LDL-c by similar amounts (≤2 mg/dL), while lowering Tg in a dose-dependent manner, particularly in individuals with elevated Tg; they have no significant effect on BP. ALA has no significant effect on intermediate outcomes. Limited data were available from RCTs on the effect of n-3 FA on clinical CVD outcomes. Observational studies suggest that higher marine oil intake (including from dietary fish) is associated with lower risk of several CVD outcomes. No clear differences in effects or associations were evident based on population, demographic features, or cointerventions. Future RCTs would be needed to establish adequate evidence of the effect of n-3 FA on CVD outcomes or to clarify differential effects in different groups of people. However, future trials are unlikely to alter conclusions about the effects of n-3 FA supplementation on intermediate cardiovascular outcomes (BP, LDL-c, HDL-c, or Tg).
ω-3脂肪酸(n-3 FA)摄入量及生物标志物水平与心血管(CV)临床结局和中间结局之间的作用及关联仍存在争议。我们更新了之前关于n-3 FA与临床及中间心血管疾病(CVD)结局的证据报告。
评估n-3 FA对临床及选定的中间CV结局的作用,以及n-3 FA摄入量和生物标志物与CV结局的关联。所审查的n-3 FA包括二十碳五烯酸(EPA)、二十二碳六烯酸(DHA)、二十二碳五烯酸(DPA)、硬脂酸(SDA)和α-亚麻酸(ALA)。
MEDLINE®、Embase®、Cochrane对照试验中心注册库、Cochrane系统评价数据库以及2000年或2002年至2015年6月8日的CAB文摘,以及原始报告和相关现有系统评价中的符合条件的研究。
我们纳入了将任何n-3 FA摄入量与不摄入、较低摄入量或其他n-3 FA摄入量进行比较的随机对照试验(RCT),这些试验在健康成年人、有CVD风险的人群或患有CVD的人群中进行,且有感兴趣的结局。我们还纳入了关于基线n-3 FA摄入量或生物标志物水平与随访结局之间关联的前瞻性观察性研究。临床结局需要1年或更长时间的随访,中间结局(血压[BP]和血脂)需要4周的随访。
从11440条引文(来自电子文献检索和现有系统评价)中,829篇摘要符合基本纳入标准;纳入了61项RCT和37项纵向观察性研究(在147篇文章中)。大多数RCT和观察性研究几乎没有偏倚风险问题。
总n-3 FA:总n-3 FA摄入量与中风死亡或心肌梗死之间无关联的证据强度较低。其他结局的证据不足。
海洋油,总体:有中等到高的证据强度表明,较高的海洋油摄入量可降低甘油三酯(Tg)、升高高密度脂蛋白胆固醇(HDL-c)并降低总胆固醇与HDL-c的比值,但会升高低密度脂蛋白胆固醇(LDL-c);还表明较高的海洋油摄入量不影响主要不良CV事件、全因死亡、总中风、心源性猝死、冠状动脉血运重建、心房颤动或BP。较高的海洋油摄入量与CVD死亡、冠心病(CHD)、心肌梗死、缺血性中风和充血性心力衰竭(CHF)风险降低之间的关联证据强度较低。与CHD死亡或出血性中风无关联的证据强度较低。其他结局的证据不足。
海洋油脂肪酸个体:EPA或DHA摄入量(分别)与CHD之间以及EPA或DPA与心房颤动之间无关联的证据强度较低。EPA生物标志物与心房颤动之间无关联的证据强度较低,但纯化DHA补充剂对BP或LDL-c无影响的证据强度中等。其他特定海洋油脂肪酸及其结局的证据不足。
ALA:ALA摄入量对BP、LDL-c、HDL-c或Tg无影响的证据强度中等。ALA摄入量或生物标志物水平与CHD、CHD死亡、心房颤动和CHF之间无关联的证据强度较低。其他结局的证据不足。
其他n-3 FA分析:比较n-3 FA相互之间或SDA的证据不足。
亚组分析:22项研究中的19项发现性别对n-3 FA的任何作用均无交互作用。同样,20项研究中的19项发现他汀类药物联合使用无差异作用。在评估糖尿病亚组的16项研究中,2项发现n-3 FA对糖尿病患者有统计学显著的有益作用,但对非糖尿病患者无此作用,但未报告交互作用检验。
61项RCT大多在有CVD风险或患有CVD的人群中比较了海洋油补充剂与安慰剂对CVD结局的影响,而37项观察性研究大多在一般健康人群中研究了各种单个n-3 FA与长期CVD事件之间的关联。与之前关于n-3 FA与CVD的报告相比,关于ALA和临床CV结局有更强有力的RCT证据;此外,从设计上看,有关于n-3 FA生物标志物与CV结局之间关联的新增加数据。然而,关于n-3 FA摄入量对CV结局的作用或与结局的关联的结论基本未变。海洋油在统计学上显著升高HDL-c和LDL-c的幅度相似(≤2 mg/dL),同时以剂量依赖方式降低Tg,尤其是在Tg升高的个体中;它们对BP无显著影响。ALA对中间结局无显著影响。关于n-3 FA对临床CVD结局的影响,RCT提供的数据有限。观察性研究表明,较高的海洋油摄入量(包括来自食用鱼类)与几种CVD结局风险较低相关。基于人群、人口统计学特征或联合干预,在作用或关联方面未发现明显差异。未来需要进行RCT以确立n-3 FA对CVD结局影响的充分证据,或阐明不同人群中的差异作用。然而,未来试验不太可能改变关于n-3 FA补充剂对中间心血管结局(BP、LDL-c、HDL-c或Tg)影响的结论。
