妊娠期糖尿病孕妇运动对改善母婴结局的作用
Exercise for pregnant women with gestational diabetes for improving maternal and fetal outcomes.
作者信息
Brown Julie, Ceysens Gilles, Boulvain Michel
机构信息
Liggins Institute, The University of Auckland, Park Rd, Grafton, Auckland, New Zealand, 1142.
出版信息
Cochrane Database Syst Rev. 2017 Jun 22;6(6):CD012202. doi: 10.1002/14651858.CD012202.pub2.
BACKGROUND
Gestational diabetes mellitus (GDM) is associated with both short- and long-term complications for the mother and her baby. Exercise interventions may be useful in helping with glycaemic control and improve maternal and infant outcomes.The original review on Exercise for diabetic pregnant women has been split into two new review titles reflecting the role of exercise for pregnant women with gestational diabetes and for pregnant women with pre-existing diabetes. Exercise for pregnant women with gestational diabetes for improving maternal and fetal outcomes (this review) Exercise for pregnant women with pre-existing diabetes for improving maternal and fetal outcomes OBJECTIVES: To evaluate the effects of exercise interventions for improving maternal and fetal outcomes in women with GDM.
SEARCH METHODS
We searched the Cochrane Pregnancy and Childbirth Group's Trials Register (27 August 2016), ClinicalTrials.gov, the WHO International Clinical Trials Registry Platform (ICTRP) (18th August 2016), and reference lists of retrieved studies.
SELECTION CRITERIA
We included randomised controlled trials (RCTs) comparing an exercise intervention with standard care or another intervention in pregnant women diagnosed with gestational diabetes. Quasi-randomised and cross-over studies, and studies including women with pre-existing type 1 or type 2 diabetes were not eligible for inclusion.
DATA COLLECTION AND ANALYSIS
All selection of studies, assessment of trial quality and data extraction was conducted independently by two review authors. Data were checked for accuracy.
MAIN RESULTS
We included 11 randomised trials, involving 638 women. The overall risk of bias was judged to be unclear due to lack of methodological detail in the included studies.For the mother, there was no clear evidence of a difference between women in the exercise group and those in the control group for the risk of pre-eclampsia as the measure of hypertensive disorders of pregnancy (risk ratio (RR) 0.31, 95% confidence interval (CI) 0.01 to 7.09; two RCTs, 48 women; low-quality evidence), birth by caesarean section (RR 0.86, 95% CI 0.63 to 1.16; five RCTs, 316 women; I = 0%; moderate-quality evidence), the risk of induction of labour (RR 1.38, 95% CI 0.71 to 2.68; one RCT, 40 women; low-quality evidence) or maternal body mass index at follow-up (postnatal weight retention or return to pre-pregnancy weight) (mean difference (MD) 0.11 kg/m, 95% CI -1.04 to 1.26; three RCTs, 254 women; I = 0%; high-quality evidence). Development of type 2 diabetes, perineal trauma/tearing and postnatal depression were not reported as outcomes in the included studies.For the infant/child/adult, a single small (n = 19) trial reported no perinatal mortality (stillbirth and neonatal mortality) events in either the exercise intervention or control group (low-quality evidence). There was no clear evidence of a difference between groups for a mortality and morbidity composite (variously defined by trials, e.g. perinatal or infant death, shoulder dystocia, bone fracture or nerve palsy) (RR 0.56, 95% CI 0.12 to 2.61; two RCTs, 169 infants; I = 0%; moderate-quality evidence) or neonatal hypoglycaemia (RR 2.00, 95% CI 0.20 to 20.04; one RCT, 34 infants; low-quality evidence). None of the included trials pre-specified large-for-gestational age, adiposity (neonatal/infant, childhood or adulthood), diabetes (childhood or adulthood) or neurosensory disability (neonatal/infant) as trial outcomes.Other maternal outcomes of interest: exercise interventions were associated with both reduced fasting blood glucose concentrations (average standardised mean difference (SMD) -0.59, 95% CI -1.07 to -0.11; four RCTs, 363 women; I = 73%; T = 0.19) and a reduced postprandial blood glucose concentration compared with control interventions (average SMD -0.85, 95% CI -1.15 to -0.55; three RCTs, 344 women; I = 34%; T = 0.03).
AUTHORS' CONCLUSIONS: Short- and long-term outcomes of interest for this review were poorly reported. Current evidence is confounded by the large variety of exercise interventions. There was insufficient high-quality evidence to be able to determine any differences between exercise and control groups for our outcomes of interest. For the woman, both fasting and postprandial blood glucose concentrations were reduced compared with the control groups. There are currently insufficient data for us to determine if there are also benefits for the infant. The quality of the evidence in this review ranged from high to low quality and the main reason for downgrading was for risk of bias and imprecision (wide CIs, low event rates and small sample size). Development of type 2 diabetes, perineal trauma/tearing, postnatal depression, large-for-gestational age, adiposity (neonate/infant, childhood or adulthood), diabetes (childhood or adulthood) or neurosensory disability (neonate/infant) were not reported as outcomes in the included studies.Further research is required comparing different types of exercise interventions with control groups or with another exercise intervention that reports on both the short- and long-term outcomes (for both the mother and infant/child) as listed in this review.
背景
妊娠期糖尿病(GDM)与母亲及其婴儿的短期和长期并发症相关。运动干预可能有助于控制血糖并改善母婴结局。关于糖尿病孕妇运动的原始综述已分为两个新的综述标题,分别反映运动对妊娠期糖尿病孕妇和孕前糖尿病孕妇的作用。改善妊娠期糖尿病孕妇母婴结局的运动干预(本综述) 改善孕前糖尿病孕妇母婴结局的运动干预 目的:评估运动干预对改善GDM女性母婴结局的效果。
检索方法
我们检索了Cochrane妊娠与分娩组试验注册库(2016年8月27日)、ClinicalTrials.gov、世界卫生组织国际临床试验注册平台(ICTRP)(2016年8月18日)以及检索到的研究的参考文献列表。
选择标准
我们纳入了将运动干预与标准护理或另一种干预措施进行比较的随机对照试验(RCT),这些试验的对象为被诊断为妊娠期糖尿病的孕妇。半随机和交叉研究,以及包括孕前1型或2型糖尿病女性的研究均不符合纳入标准。
数据收集与分析
所有研究的选择、试验质量评估和数据提取均由两位综述作者独立进行。对数据的准确性进行了检查。
主要结果
我们纳入了11项随机试验,涉及638名女性。由于纳入研究中缺乏方法学细节,总体偏倚风险被判定为不清楚。对于母亲而言,但以先兆子痫风险作为妊娠高血压疾病的衡量指标时,运动组和对照组女性之间没有明显差异(风险比(RR)0.31,95%置信区间(CI)0.01至7.09;两项RCT,48名女性;低质量证据);剖宫产分娩(RR 0.86,95%CI 0.63至1.16;五项RCT,316名女性;I=0%;中等质量证据);引产风险(RR 1.38,95%CI 0.71至2.68;一项RCT,40名女性;低质量证据);或随访时的母亲体重指数(产后体重保留或恢复到孕前体重)(平均差(MD)0.11kg/m²,95%CI -1.04至1.26;三项RCT,254名女性;I=0%;高质量证据)。纳入研究未将2型糖尿病的发生、会阴创伤/撕裂和产后抑郁作为结局进行报告。对于婴儿/儿童/成人,一项小型(n=19)试验报告运动干预组和对照组均未发生围产期死亡(死产和新生儿死亡)事件(低质量证据)。两组在死亡率和发病率综合指标(试验定义各异,如围产期或婴儿死亡、肩难产、骨折或神经麻痹)方面没有明显差异(RR 0.56,95%CI 0.12至2.61;两项RCT,169名婴儿;I=0%;中等质量证据),或新生儿低血糖(RR 2.00,95%CI 0.20至20.04;一项RCT,34名婴儿;低质量证据)。纳入试验均未预先将大于胎龄儿、肥胖(新生儿/婴儿、儿童期或成年期)、糖尿病(儿童期或成年期)或神经感觉障碍(新生儿/婴儿)作为试验结局。其他感兴趣的母亲结局:与对照干预相比,运动干预与空腹血糖浓度降低相关(平均标准化均数差(SMD)-0.59,95%CI -1.07至-0.11;四项RCT,363名女性;I=73%;T=0.19),餐后血糖浓度也降低(平均SMD -0.85,95%CI -1.15至-0.55;三项RCT,344名女性;I=34%;T=0.03)。
作者结论
本综述所关注的短期和长期结局报告不佳。当前证据因运动干预的种类繁多而受到混淆影响。没有足够的高质量证据能够确定运动组和对照组在我们感兴趣的结局方面存在任何差异。对于女性而言,与对照组相比,空腹和餐后血糖浓度均降低。目前我们没有足够的数据来确定对婴儿是否也有好处。本综述中的证据质量从高到低不等,降级的主要原因是偏倚风险和不精确性(宽置信区间、低事件发生率和小样本量)。纳入研究未将2型糖尿病的发生、会阴创伤/撕裂、产后抑郁、大于胎龄儿、肥胖(新生儿/婴儿、儿童期或成年期)、糖尿病(儿童期或成年期)或神经感觉障碍(新生儿/婴儿)作为结局进行报告。需要进一步开展研究,将不同类型的运动干预与对照组或另一种报告本综述中列出的短期和长期结局(针对母亲和婴儿/儿童)的运动干预进行比较。
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