Screening and diagnosing gestational diabetes mellitus.

Lisa Hartling, Donna M Dryden, Alyssa Guthrie, Melanie Muise, Ben Vandermeer, Walie M Aktary, Dion Pasichnyk, Jennifer C Seida, Lois Donovan
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Based on systematic reviews published in 2003 and 2008, the U.S. Preventive Services Task Force concluded that there was insufficient evidence upon which to make a recommendation regarding routine screening of all pregnant women.</p><p><strong>Objectives: </strong>(1) Identify properties of screening tests for GDM, (2) evaluate benefits and harms of screening for GDM, (3) assess the effects of different screening and diagnostic thresholds on outcomes for mothers and their offspring, and (4) determine the benefits and harms of treatment for a diagnosis of GDM.</p><p><strong>Data sources: </strong>We searched 15 electronic databases from 1995 to May 2012, including MEDLINE and Cochrane Central Register of Controlled Trials (which contains the Cochrane Pregnancy and Childbirth Group registry); gray literature; Web sites of relevant organizations; trial registries; and reference lists.</p><p><strong>Methods: </strong>Two reviewers independently conducted study selection and quality assessment. One reviewer extracted data, and a second reviewer verified the data. We included published randomized and nonrandomized controlled trials and prospective and retrospective cohort studies that compared any screening or diagnostic test with any other screening or diagnostic test; any screening with no screening; women who met various thresholds for GDM with those who did not meet various criteria, where women in both groups did not receive treatment; any treatment for GDM with no treatment. We conducted a descriptive analysis for all studies and meta-analyses when appropriate. Key outcomes included preeclampsia, maternal weight gain, birth injury, shoulder dystocia, neonatal hypoglycemia, macrosomia, and long-term metabolic outcomes for the child and mother.</p><p><strong>Results: </strong>The search identified 14,398 citations and included 97 studies (6 randomized controlled trials, 63 prospective cohort studies, and 28 retrospective cohort studies). Prevalence of GDM varied across studies and diagnostic criteria: American Diabetes Association (75 g) 2 to 19 percent; Carpenter and Coustan 3.6 to 38 percent; National Diabetes Data Group 1.4 to 50 percent; and World Health Organization 2 to 24.5 percent. Lack of a gold standard for the diagnosis of GDM and little evidence about the accuracy of screening strategies for GDM remain problematic. The 50 g oral glucose challenge test with a glucose threshold of 130 mg/dL versus 140 mg/dL improves sensitivity and reduces specificity. Both thresholds have high negative predictive values (NPV) but variable positive predictive values (PPVs) across a range of prevalence. There was limited evidence for the screening of GDM diagnosed less than 24 weeks' gestation (three studies). One study compared the International Association of Diabetes in Pregnancy Study Groups' (IADPSG) diagnostic criteria with a two-step strategy. Sensitivity was 82 percent, specificity was 94 percent. Only two studies examined the effects on health outcomes from screening for GDM. One retrospective cohort study (n=1,000) showed more cesarean deliveries in the screened group. A survey within a prospective cohort study (n=93) found the same incidence of macrosomia (≥4.3 kg) in screened and unscreened groups (7 percent each group). Thirty-eight studies examined health outcomes for women who met different criteria for GDM and did not undergo treatment. Methodologically strong studies showed a continuous positive relationship between increasing glucose levels and the incidence of primary cesarean section and macrosomia. One of these studies also found significantly fewer cases of preeclampsia, cesarean section, shoulder dystocia and/or birth injury, clinical neonatal hypoglycemia, and hyperbilirubinemia for women without GDM compared with those meeting IADPSG criteria. Among the other studies, fewer cases of preeclampsia were observed for women with no GDM and women who were false positive versus those meeting Carpenter and Coustan criteria. For maternal weight gain, few comparisons showed differences. For fetal birth trauma, single studies showed no differences for women with Carpenter and Coustan GDM and World Health Organization impaired glucose tolerance versus women without GDM. Women diagnosed based on National Diabetes Data Group GDM had more fetal birth trauma compared with women without GDM. Fewer cases of macrosomia were seen in the group without GDM compared with Carpenter and Coustan GDM, Carpenter and Coustan 1 abnormal oral glucose tolerance test, National Diabetes Data Group GDM, National Diabetes Data Group false positives, and World Health Organization impaired glucose tolerance. Fewer cases of neonatal hypoglycemia were found among patient groups without GDM compared with those meeting Carpenter and Coustan criteria. There was more childhood obesity for Carpenter and Coustan GDM versus patient groups with no GDM. Eleven studies compared diet modification, glucose monitoring, and insulin as needed with no treatment. Moderate evidence showed fewer cases of preeclampsia in the treated group. The evidence was insufficient for maternal weight gain and birth injury. Moderate evidence found less shoulder dystocia with treatment for GDM. Low evidence showed no difference for neonatal hypoglycemia between treated and untreated GDM. Moderate evidence showed benefits of treatment for reduction of macrosomia (>4,000 g). There was insufficient evidence for long-term metabolic outcomes among offspring. Five studies provided data on harms of treating GDM. No difference was found for cesarean delivery, induction of labor, small for gestational age, or admission to a neonatal intensive care unit. There were significantly more prenatal visits among those treated.</p><p><strong>Conclusions: </strong>While evidence supports a positive association with increasing plasma glucose on a 75 g or 100 g oral glucose tolerance test and macrosomia and primary cesarean section, clear thresholds for increased risk were not found. The 50 g oral glucose challenge test has high NPV but variable PPV. Treatment of GDM results in less preeclampsia and macrosomia. Current evidence does not show that treatment of GDM has an effect on neonatal hypoglycemia or future poor metabolic outcomes. There is little evidence of short-term harm from treating GDM other than an increased demand for services. 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引用次数: 0

Abstract

Background: There is uncertainty as to the optimal approach for screening and diagnosis of gestational diabetes mellitus (GDM). Based on systematic reviews published in 2003 and 2008, the U.S. Preventive Services Task Force concluded that there was insufficient evidence upon which to make a recommendation regarding routine screening of all pregnant women.

Objectives: (1) Identify properties of screening tests for GDM, (2) evaluate benefits and harms of screening for GDM, (3) assess the effects of different screening and diagnostic thresholds on outcomes for mothers and their offspring, and (4) determine the benefits and harms of treatment for a diagnosis of GDM.

Data sources: We searched 15 electronic databases from 1995 to May 2012, including MEDLINE and Cochrane Central Register of Controlled Trials (which contains the Cochrane Pregnancy and Childbirth Group registry); gray literature; Web sites of relevant organizations; trial registries; and reference lists.

Methods: Two reviewers independently conducted study selection and quality assessment. One reviewer extracted data, and a second reviewer verified the data. We included published randomized and nonrandomized controlled trials and prospective and retrospective cohort studies that compared any screening or diagnostic test with any other screening or diagnostic test; any screening with no screening; women who met various thresholds for GDM with those who did not meet various criteria, where women in both groups did not receive treatment; any treatment for GDM with no treatment. We conducted a descriptive analysis for all studies and meta-analyses when appropriate. Key outcomes included preeclampsia, maternal weight gain, birth injury, shoulder dystocia, neonatal hypoglycemia, macrosomia, and long-term metabolic outcomes for the child and mother.

Results: The search identified 14,398 citations and included 97 studies (6 randomized controlled trials, 63 prospective cohort studies, and 28 retrospective cohort studies). Prevalence of GDM varied across studies and diagnostic criteria: American Diabetes Association (75 g) 2 to 19 percent; Carpenter and Coustan 3.6 to 38 percent; National Diabetes Data Group 1.4 to 50 percent; and World Health Organization 2 to 24.5 percent. Lack of a gold standard for the diagnosis of GDM and little evidence about the accuracy of screening strategies for GDM remain problematic. The 50 g oral glucose challenge test with a glucose threshold of 130 mg/dL versus 140 mg/dL improves sensitivity and reduces specificity. Both thresholds have high negative predictive values (NPV) but variable positive predictive values (PPVs) across a range of prevalence. There was limited evidence for the screening of GDM diagnosed less than 24 weeks' gestation (three studies). One study compared the International Association of Diabetes in Pregnancy Study Groups' (IADPSG) diagnostic criteria with a two-step strategy. Sensitivity was 82 percent, specificity was 94 percent. Only two studies examined the effects on health outcomes from screening for GDM. One retrospective cohort study (n=1,000) showed more cesarean deliveries in the screened group. A survey within a prospective cohort study (n=93) found the same incidence of macrosomia (≥4.3 kg) in screened and unscreened groups (7 percent each group). Thirty-eight studies examined health outcomes for women who met different criteria for GDM and did not undergo treatment. Methodologically strong studies showed a continuous positive relationship between increasing glucose levels and the incidence of primary cesarean section and macrosomia. One of these studies also found significantly fewer cases of preeclampsia, cesarean section, shoulder dystocia and/or birth injury, clinical neonatal hypoglycemia, and hyperbilirubinemia for women without GDM compared with those meeting IADPSG criteria. Among the other studies, fewer cases of preeclampsia were observed for women with no GDM and women who were false positive versus those meeting Carpenter and Coustan criteria. For maternal weight gain, few comparisons showed differences. For fetal birth trauma, single studies showed no differences for women with Carpenter and Coustan GDM and World Health Organization impaired glucose tolerance versus women without GDM. Women diagnosed based on National Diabetes Data Group GDM had more fetal birth trauma compared with women without GDM. Fewer cases of macrosomia were seen in the group without GDM compared with Carpenter and Coustan GDM, Carpenter and Coustan 1 abnormal oral glucose tolerance test, National Diabetes Data Group GDM, National Diabetes Data Group false positives, and World Health Organization impaired glucose tolerance. Fewer cases of neonatal hypoglycemia were found among patient groups without GDM compared with those meeting Carpenter and Coustan criteria. There was more childhood obesity for Carpenter and Coustan GDM versus patient groups with no GDM. Eleven studies compared diet modification, glucose monitoring, and insulin as needed with no treatment. Moderate evidence showed fewer cases of preeclampsia in the treated group. The evidence was insufficient for maternal weight gain and birth injury. Moderate evidence found less shoulder dystocia with treatment for GDM. Low evidence showed no difference for neonatal hypoglycemia between treated and untreated GDM. Moderate evidence showed benefits of treatment for reduction of macrosomia (>4,000 g). There was insufficient evidence for long-term metabolic outcomes among offspring. Five studies provided data on harms of treating GDM. No difference was found for cesarean delivery, induction of labor, small for gestational age, or admission to a neonatal intensive care unit. There were significantly more prenatal visits among those treated.

Conclusions: While evidence supports a positive association with increasing plasma glucose on a 75 g or 100 g oral glucose tolerance test and macrosomia and primary cesarean section, clear thresholds for increased risk were not found. The 50 g oral glucose challenge test has high NPV but variable PPV. Treatment of GDM results in less preeclampsia and macrosomia. Current evidence does not show that treatment of GDM has an effect on neonatal hypoglycemia or future poor metabolic outcomes. There is little evidence of short-term harm from treating GDM other than an increased demand for services. Research is needed on the long-term metabolic outcome for offspring as a result of GDM and its treatment, and the "real world" effects of GDM treatment on use of care.

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妊娠期糖尿病的筛查与诊断。
背景:妊娠期糖尿病(GDM)的最佳筛查和诊断方法尚不确定。根据2003年和2008年发表的系统评论,美国预防服务工作组得出结论,没有足够的证据可以建议对所有孕妇进行常规筛查。目的:(1)确定GDM筛查试验的特性;(2)评估GDM筛查的利弊;(3)评估不同筛查和诊断阈值对母亲及其后代结局的影响;(4)确定GDM诊断治疗的利弊。资料来源:我们检索了1995年至2012年5月的15个电子数据库,包括MEDLINE和Cochrane中央对照试验注册库(其中包含Cochrane妊娠和分娩组注册库);灰色文献;有关机构网站;实验注册;还有参考书目。方法:两名审稿人独立进行研究选择和质量评估。一个审稿人提取数据,另一个审稿人验证数据。我们纳入了已发表的随机和非随机对照试验以及前瞻性和回顾性队列研究,这些研究将任何筛查或诊断测试与任何其他筛查或诊断测试进行了比较;没有筛选的任何筛选;符合各种GDM阈值的妇女与不符合各种标准的妇女,两组妇女均未接受治疗;没有治疗的GDM的任何治疗。我们对所有研究进行了描述性分析,并在适当时进行了meta分析。主要结局包括先兆子痫、母亲体重增加、出生损伤、肩难产、新生儿低血糖、巨大儿和儿童和母亲的长期代谢结局。结果:检索到14398条引用,包括97项研究(6项随机对照试验、63项前瞻性队列研究和28项回顾性队列研究)。GDM的患病率因研究和诊断标准而异:美国糖尿病协会(75 g) 2 - 19%;卡彭特和考斯坦分别占3.6%和38%;国家糖尿病数据组1.4% - 50%;世界卫生组织的比例为2%至24.5%。缺乏诊断GDM的金标准和关于GDM筛查策略准确性的证据仍然存在问题。葡萄糖阈值为130 mg/dL和140 mg/dL的50g口服葡萄糖激发试验提高了敏感性,降低了特异性。这两个阈值在患病率范围内具有较高的负预测值(NPV),但具有可变的正预测值(ppv)。妊娠24周以下诊断为GDM的筛查证据有限(3项研究)。一项研究比较了国际妊娠糖尿病研究小组协会(IADPSG)的诊断标准和两步策略。敏感性为82%,特异性为94%。只有两项研究考察了GDM筛查对健康结果的影响。一项回顾性队列研究(n= 1000)显示,筛查组的剖宫产率更高。一项前瞻性队列研究(n=93)的调查发现,筛查组和未筛查组的巨大儿(≥4.3 kg)发生率相同(每组7%)。38项研究调查了符合不同GDM标准且未接受治疗的妇女的健康结果。方法学上强有力的研究表明,血糖水平升高与原发性剖宫产和巨大儿的发生率之间存在持续的正相关关系。其中一项研究还发现,与符合IADPSG标准的女性相比,没有GDM的女性发生子痫前期、剖宫产、肩难产和/或分娩损伤、临床新生儿低血糖和高胆红素血症的病例明显减少。在其他研究中,与符合Carpenter和Coustan标准的女性相比,没有GDM的女性和假阳性的女性患先兆子痫的病例较少。对于母亲体重增加,几乎没有比较显示出差异。对于胎儿出生创伤,单个研究显示患有卡彭特和库斯坦型GDM和世界卫生组织糖耐量受损的妇女与没有GDM的妇女没有差异。根据国家糖尿病数据组诊断为GDM的妇女与没有GDM的妇女相比有更多的胎儿出生创伤。与Carpenter and Coustan GDM、Carpenter and Coustan 1口服糖耐量试验异常、国家糖尿病数据组GDM、国家糖尿病数据组假阳性和世界卫生组织糖耐量异常相比,无GDM组出现巨大儿的病例较少。与符合Carpenter和Coustan标准的患者组相比,非GDM患者组中发现的新生儿低血糖病例较少。与非GDM患者组相比,Carpenter和Coustan GDM患者的儿童肥胖发生率更高。 11项研究比较了饮食调整、血糖监测和胰岛素治疗与不治疗的情况。中度证据显示,治疗组的子痫前期病例较少。证据不足以证明母亲体重增加和出生伤害。中度证据发现GDM治疗后肩部难产减少。低证据显示GDM治疗和未治疗的新生儿低血糖无差异。中度证据显示治疗对减少巨大儿(>4,000 g)有好处。后代的长期代谢结果证据不足。五项研究提供了治疗GDM危害的数据。剖宫产、引产、小于胎龄或入住新生儿重症监护病房没有发现差异。在接受治疗的人群中,产前检查明显增多。结论:虽然有证据支持75 g或100 g口服葡萄糖耐量试验中血糖升高与巨大儿和初次剖宫产呈正相关,但没有发现明确的风险增加阈值。50g口服葡萄糖激发试验NPV高,但PPV变化。治疗GDM可减少先兆子痫和巨大儿。目前没有证据表明GDM的治疗对新生儿低血糖或未来不良代谢结局有影响。除了增加对服务的需求外,几乎没有证据表明治疗GDM会带来短期伤害。需要研究GDM及其治疗对后代的长期代谢结果,以及GDM治疗对护理使用的“现实世界”影响。
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