Omega-3脂肪酸与母婴健康:最新的系统综述。

Sydne J Newberry, Mei Chung, Marika Booth, Margaret A Maglione, Alice M Tang, Claire E O'Hanlon, Ding Ding Wang, Adeyemi Okunogbe, Christina Huang, Aneesa Motala, Martha Trimmer, Whitney Dudley, Roberta Shanman, Tumaini R Coker, Paul G Shekelle
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We also included prospective observational studies that analyzed the association between baseline n-3 FA intake or biomarker level and followup outcomes. Postnatal interventions began within a week of birth for term infants and within a week of beginning enteral or oral feeding for preterm infants. Standard methods were used for data abstraction and analysis, according to the Evidence-based Practice Center Methods Guide.</p><p><strong>Results: </strong>We identified 4,275 potentially relevant titles from our searches, of which 95 RCTs and 48 observational studies met the inclusion criteria. Risk of bias was a concern with both RCTs and observational studies. Outcomes for which evidence was sufficient to draw a conclusion are summarized here with the Strength of Evidence (SoE). 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引用次数: 41

摘要

目的:更新先前关于ω -3脂肪酸(n- 3fa)对孕产妇和儿童健康影响的系统综述,并评估其对其他结果的影响及其相关性的证据。数据来源:MEDLINE®,Embase®,Cochrane中央对照试验注册库,Cochrane系统评价数据库,以及2000年至2015年8月农业与生物科学中心(CAB)摘要;原始报告中符合条件的研究;以及相关的系统评价。回顾方法:我们纳入了随机对照试验(RCTs),将任何确定剂量的n- 3fa(或联合用药)与安慰剂、任何其他n- 3fa或替代剂量进行比较,并对孕妇或哺乳期妇女或新生儿(早产儿或足月新生儿)的结局感兴趣。我们还纳入了前瞻性观察性研究,分析了基线n-3 FA摄入量或生物标志物水平与随访结果之间的关系。产后干预对足月婴儿在出生一周内开始,对早产儿在开始肠内或口服喂养一周内开始。根据循证实践中心方法指南,采用标准方法进行数据抽象和分析。结果:我们从检索中确定了4275个可能相关的标题,其中95个随机对照试验和48个观察性研究符合纳入标准。随机对照试验和观察性研究都关注偏倚风险。证据足以得出结论的结果在这里用证据强度(SoE)进行总结。(证据不足以得出结论的结果在报告的附录G中进行了总结。)母体暴露和结果:妊娠期长短和早产风险:产前补充藻二十二碳六烯酸(DHA)或富含DHA的鱼油对妊娠期长短(中等SoE)有轻微的积极影响,但对早产风险(低SoE)没有影响。产前补充EPA(二十碳五烯酸)加dha鱼油对妊娠期(低SoE)没有影响。补充DHA,或EPA加DHA-,或DHA富集的鱼油不会降低早产的风险(低SoE)。出生体重和低出生体重风险:母亲n- 3fa生物标志物的变化与出生体重显著相关。产前补充藻类DHA或富含DHA的鱼油对健康足月婴儿(中等SoE)的出生体重有积极影响,但产前补充DHA对低出生体重(低SoE)的风险没有影响。产前补充EPA加DHA或α -亚麻酸(ALA)对出生体重(低SoE)没有影响。围产期抑郁风险:母体n- 3fa生物标志物与围产期抑郁风险无关联。母亲补充DHA、EPA或富含DHA的鱼油对围产期抑郁(低SoE)的风险没有影响。妊娠高血压/子痫前期风险:高危孕妇产前补充DHA对妊娠高血压或子痫前期风险无影响(中度SoE)。在正常风险的妇女中,产前补充任何n-3脂肪酸对妊娠期高血压或子痫前期(低SoE)的风险也没有显著影响。胎儿、婴儿和儿童暴露和结果:产后生长模式:母体鱼油或DHA加EPA补充剂在产前(中度SoE)或产前和产后(低SoE)使用时对产后生长模式(体重、身高和头围)没有影响。添加DHA和花生四烯酸(AA,一种n-6 FA)的婴儿配方奶粉对早产儿和足月儿(低SoE)的生长模式没有影响。视力:产前补充DHA对视力的发展没有影响(低SoE)。在早产儿配方奶粉中添加n-3脂肪酸对4或6个月矫正年龄(低SoE)时视觉诱发电位(VEP)评估的视力没有显著影响。关于为足月婴儿补充n-3脂肪酸的有效性的数据存在冲突,这取决于何时以及如何评估视力(即通过VEP或通过行为方法)以及所提供的基本脂肪酸的类型(低SoE)。神经发育:产前或产后补充n- 3fa对神经发育没有一致的影响(低SoE)。认知发展:产前DHA补充AA或EPA对认知发展没有影响(中度SoE)。给母乳喂养的妇女补充DHA和EPA对婴儿和儿童的认知发育也没有影响(低SoE)。在一些短期随访时间内,在早产儿配方奶粉中添加DHA + AA对婴儿认知有积极影响(中度SoE)。为足月婴儿补充或强化含有任何n-3脂肪酸的婴儿配方奶粉对认知发育(低SoE)没有影响。 证据不足以支持婴儿补充n- 3fa对长期认知结果的任何影响。自闭症谱系障碍、注意缺陷多动障碍(ADHD)和学习障碍:母亲或婴儿补充n-3脂肪酸对自闭症谱系障碍或ADHD的风险没有影响(低SoE)。未发现其他学习障碍的研究。特应性皮炎(AD)、过敏和呼吸系统疾病:产前和产后(母婴)补充n-3脂肪酸对AD/湿疹、过敏、哮喘和其他呼吸系统疾病(中度SoE)的风险没有一致的影响。生物标志物和摄入量与AD、过敏和呼吸系统疾病(低SoE)的风险没有一致的关联。不良事件:产前和婴儿补充n-3脂肪酸或强化n-3脂肪酸食品未导致任何严重或非严重不良事件(中度SoE);除了轻微胃肠道症状的风险增加。结论:本报告中的大多数研究都考察了鱼油(或DHA和EPA的其他组合)补充剂对孕妇或哺乳期妇女的影响,或强化了DHA和AA的婴儿配方奶粉的影响。与最初的报告一样,除了出生体重和妊娠期长度的轻微增加外,n- 3fa的补充或强化对围产期孕产妇或婴儿健康结果的影响没有一致的证据。未发现n- 3fa对妊娠期高血压、围产期抑郁或产后生长有影响。不同的评估方法和随访时间对婴儿视力、认知发育以及过敏和哮喘预防相关结果的明显影响不一致。未来的随机对照试验需要评估n-3和n-6 FA的标准化制剂,使用一组临床重要的结果,对基线n-3 FA摄入量与大多数西方人群典型的人群进行评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Omega-3 Fatty Acids and Maternal and Child Health: An Updated Systematic Review.

Objectives: To update a prior systematic review on the effects of omega-3 fatty acids (n-3 FA) on maternal and child health and to assess the evidence for their effects on, and associations with, additional outcomes.

Data sources: MEDLINE®, Embase®, the Cochrane Central Register of Controlled Trials, Cochrane Database of Systematic Reviews, and Centre for Agriculture and Biosciences (CAB) Abstracts from 2000 to August 2015; eligible studies from the original report; and relevant systematic reviews.

Review methods: We included randomized controlled trials (RCTs) of any defined dose of n-3 FA (or combination) compared to placebo, any other n-3 FA, or alternative dose with an outcome of interest conducted in pregnant or breastfeeding women or neonates (preterm or term). We also included prospective observational studies that analyzed the association between baseline n-3 FA intake or biomarker level and followup outcomes. Postnatal interventions began within a week of birth for term infants and within a week of beginning enteral or oral feeding for preterm infants. Standard methods were used for data abstraction and analysis, according to the Evidence-based Practice Center Methods Guide.

Results: We identified 4,275 potentially relevant titles from our searches, of which 95 RCTs and 48 observational studies met the inclusion criteria. Risk of bias was a concern with both RCTs and observational studies. Outcomes for which evidence was sufficient to draw a conclusion are summarized here with the Strength of Evidence (SoE). (Outcomes for which the evidence was insufficient to draw a conclusion are summarized in Appendix G of the report.).

Maternal Exposures and Outcomes: Gestational length and risk for preterm birth: Prenatal algal docosahexaenoic acid (DHA) or DHA-enriched fish oil supplementation had a small positive effect on length of gestation (moderate SoE), but no effect on risk for preterm birth (low SoE). Prenatal EPA (eicosapentaenoic acid) plus DHA-containing fish oil supplementation has no effect on length of gestation (low SoE). Supplementation with DHA, or EPA plus DHA-, or DHA-enriched fish oil does not decreaserisk for preterm birth (low SoE).

Birth weight and risk for low birth weight: Changes in maternal n-3 FA biomarkers were significantly associated with birth weight. Prenatal algal DHA or DHA-enriched fish oil supplementation had a positive effect on birth weight among healthy term infants (moderate SoE), but prenatal DHA supplementation had no effect on risk for low birth weight (low SoE). Prenatal EPA plus DHA or alpha-linolenic acid (ALA) supplementation had no effect on birth weight (low SoE).

Risk for peripartum depression: Maternal n-3 FA biomarkers had no association with risk for peripartum depression. Maternal DHA, EPA, or DHA-enriched fish oil supplementation had no effect on risk for peripartum depression (low SoE).

Risk for gestational hypertension/preeclampsia: Prenatal DHA supplementation among high-risk pregnant women had no effect on the risk for gestational hypertension or preeclampsia (moderate SoE). Prenatal supplementation of any n-3 FA in normal-risk women also had no significant effect on risk for gestational hypertension or preeclampsia (low SoE).

Fetal, Infant, and Child Exposures and Outcomes: Postnatal growth patterns: Maternal fish oil or DHA plus EPA supplementation had no effect on postnatal growth patterns (attainment of weight, length, and head circumference) when administered prenatally (moderate SoE) or both pre- and postnatally (low SoE). Fortification of infant formulas with DHA plus arachidonic acid (AA, an n-6 FA) had no effect on growth patterns of preterm or term infants (low SoE).

Visual acuity: Prenatal supplementation with DHA had no effect on development of visual acuity (low SoE). Supplementing or fortifying preterm infant formula with any n-3 FA had no significant effect on visual acuity assessed by visual evoked potentials (VEP) at 4 or 6 months corrected age (low SoE). Data conflicted on the effectiveness of supplementing infant formula for term infants with n-3 FA depending on when and how visual acuity was assessed (i.e. by VEP or by behavioral methods) and the type of essential FA provided (low SoE).

Neurological development: Prenatal or postnatal n-3 FA supplementation had no consistent effect on neurological development (low SoE).

Cognitive development: Prenatal DHA supplementation with AA or EPA had no effect on cognitive development (moderate SoE). Supplementing breastfeeding women with DHA plus EPA also had no effect on cognitive development in infants and children (low SoE). Supplementing or fortifying preterm infants' formula with DHA plus AA had a positive effect on infant cognition at some short-term followup times (moderate SoE). Supplementing or fortifying infant formula for term infants with any n-3 FA had no effect on cognitive development (low SoE). Evidence is insufficient to support any effect of n-3 FA infant supplementation on long-term cognitive outcomes.

Autism spectrum disorder, attention deficit hyperactivity disorder (ADHD), and learning disorders: Maternal or infant n-3 FA supplementation had no effect on risk for autism spectrum disorders or ADHD (low SoE). No studies on other learning disorders were identified.

Atopic dermatitis (AD), allergies, and respiratory disorders: Pre- and postnatal (maternal and infant) n-3 FA supplementation had no consistent effect on the risk for AD/eczema, allergies, asthma, and other respiratory illnesses (moderate SoE). Biomarkers and intakes had no consistent association with the risk for AD, allergies, and respiratory disorders (low SoE).

Adverse events: Prenatal and infant supplementation with n-3 FA or fortification of foods with n-3 FA did not result in any serious or nonserious adverse events (moderate SoE); with the exception of an increased risk for mild gastrointestinal symptoms.

Conclusions: Most studies in this report examined the effects of fish oil (or other combinations of DHA and EPA) supplements on pregnant or breastfeeding women or the effects of infant formula fortified with DHA plus AA. As with the original report, with the exception of small increases in birth weight and length of gestation,n-3 FA supplementation or fortification has no consistent evidence of effects on peripartum maternal or infant health outcomes. No effects of n-3 FA were seen on gestational hypertension, peripartum depression, or postnatal growth. Apparent effects of n-3 FA supplementation were inconsistent across assessment methods and followup times for outcomes related to infant visual acuity, cognitive development and prevention of allergy and asthma. Future RCTs need to assess standardized preparations of n-3 and n-6 FA, using a select group of clinically important outcomes, on populations with baseline n-3 FA intakes typical of those of most western populations.

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