Aher S, Ohlsson A
Chelsea and Westminster Hospital, Department of Neonatology, 369 Fulham Road, London, UK SW10 9NH.
Cochrane Database Syst Rev. 2006 Jul 19(3):CD004868. doi: 10.1002/14651858.CD004868.pub2.
Hematocrit falls after birth in preterm infants due to physiological factors and blood letting. Low plasma levels of erythropoietin (EPO) in preterm infants provide a rationale for the use of EPO to prevent or treat anemia.
To assess the effectiveness and safety of late initiation of EPO (initiated at 8 days after birth or later) in reducing the use of red blood cell transfusions in preterm and/or low birth weight infants.
Subgroup analyses of low (< 500 IU/kg/week) and high (> 500 IU/kg/week) doses of EPO and within these subgroups analyses of the use of low (< 5 mg/kg/day) and high (> 5 mg/kg/day) doses of supplemental iron, in reducing the use of red blood cell transfusions in these infants.
MEDLINE, EMBASE, CINAHL, abstracts from scientific meetings published in Pediatric Research and reference lists of identified trials and reviews were searched in November 2005/April 2006 and the Cochrane Central Register of Controlled Trials (CENTRAL, The Cochrane Library, Issue 2, 2006). No language restrictions were applied.
Randomised or quasi-randomized controlled trials of late initiation of EPO treatment (started at eight days of age or later) vs. placebo or no intervention in preterm (< 37 weeks) and/or low birth weight (< 2500 g) neonates. For inclusion the studies needed to provide information on at least one outcome of interest.
Data were abstracted by the two authors on pre-tested data collection forms. Data were entered by one review author (AO) and checked for accuracy by the other (SA). Data were analysed using RevMan 4.2.8. The statistical methods included relative risk (RR), risk difference (RD), number needed to treat to benefit (NNTB), number needed to treat to harm (NNTH) for dichotomous outcomes and weighted mean difference (WMD) for continuous outcomes reported with their 95% confidence intervals (CI). A fixed effects model was used for meta-analyses. Heterogeneity tests including the I squared (I(2)) statistic were performed to assess the appropriateness of pooling the data.
Twenty-eight studies enrolling 1302 preterm infants in 21 countries were included. The quality of the trials varied. Most trials were of small sample size. Only one study clearly stated that infants were excluded if they had received red blood cell transfusion prior to study entry (Samanci 1996). A total of 19 studies including 912 infants reported on the primary outcome of "Use of one or more red cell transfusions". The meta-analysis showed a significant effect [typical RR; 0.66 (95% CI; 0.59, 0.74); typical RD -0.21 (95% CI; -0.26, -0.16); typical NNTB of 5 (95% CI 4, 6)]. There was statistically significant heterogeneity [for RR (p < 0.00001), I(2 )= 74.0% and for RD (p = 0.0006), I(2 )=58.9%]. Similar results were obtained in secondary analyses based on different combinations of high/low doses of EPO and iron supplementation. There was a significant reduction in the total volume (ml/kg) of blood transfused per infant (four studies enrolling 177 infants) [typical WMD = -7 ml (95% CI -12, -3)] and in the number of transfusions per infant (nine studies enrolling 567 infants); [typical WMD -0.78 (-0.97, -0.59)]. The effect size was less in a post hoc analyses of high quality studies compared to studies in which the quality was uncertain and in studies that used strict guidelines for red blood cell transfusions vs. studies that did not. There were no significant differences in mortality, retinopathy of prematurity, sepsis, intraventricular haemorrhage, periventricular leukomalacia, necrotizing enterocolitis, bronchopulmonary dysplasia, SIDS, neutropenia, hypertension, or length of hospital stay. Long-term neurodevelopmental outcomes were not reported.
AUTHORS' CONCLUSIONS: Late administration of EPO reduces the use of one or more red blood cell transfusions, the number of red blood cell transfusions per infant and the total volume of red blood cell transfused per infant. The clinical importance of the results for the latter two outcomes is marginal (< 1 transfusion per infant and 7 ml/kg of transfused red blood cells). Any donor exposure is likely not avoided as most studies included infants who had received red cell transfusions prior to trial entry. Late EPO does not significantly reduce or increase any of many important neonatal adverse outcomes including mortality and retinopathy of prematurity. Further research of the use of late EPO treatment to prevent donor exposure is not indicated. Research efforts should focus on limiting donor exposure during the first few days of life in sick neonates, when red blood cell requirements are most likely to be required and cannot be prevented by late EPO treatment.
由于生理因素和放血,早产儿出生后血细胞比容会下降。早产儿血浆促红细胞生成素(EPO)水平较低,这为使用EPO预防或治疗贫血提供了理论依据。
评估晚期开始使用EPO(出生8天后或更晚开始)在减少早产和/或低出生体重婴儿红细胞输血使用方面的有效性和安全性。
对低剂量(<500 IU/kg/周)和高剂量(>500 IU/kg/周)EPO以及在这些亚组中对低剂量(<5 mg/kg/天)和高剂量(>5 mg/kg/天)补充铁剂进行亚组分析,以减少这些婴儿的红细胞输血使用。
2005年11月/2006年4月检索了MEDLINE、EMBASE、CINAHL、发表于《儿科研究》的科学会议摘要以及已识别试验和综述的参考文献列表,以及Cochrane对照试验中心注册库(CENTRAL,Cochrane图书馆,2006年第2期)。未设语言限制。
对晚期开始EPO治疗(出生8天及以后开始)与安慰剂或无干预措施对比,纳入早产(<37周)和/或低出生体重(<2500 g)新生儿的随机或半随机对照试验。为纳入研究,需要提供至少一项感兴趣结局的信息。
两位作者在预先测试的数据收集表上提取数据。数据由一位综述作者(AO)录入,并由另一位作者(SA)检查准确性。使用RevMan 4.2.8进行数据分析。统计方法包括二分类结局的相对危险度(RR)、危险差(RD)、受益所需治疗人数(NNTB)、伤害所需治疗人数(NNTH)以及连续结局的加权均数差(WMD)及其95%置信区间(CI)。荟萃分析采用固定效应模型。进行异质性检验,包括I²(I(2))统计量,以评估合并数据的适宜性。
纳入了21个国家的28项研究,共1302名早产儿。试验质量参差不齐。大多数试验样本量较小。只有一项研究明确指出,如果婴儿在研究入组前接受过红细胞输血则被排除(Samanci,1996年)。共有19项研究(912名婴儿)报告了“使用一次或多次红细胞输血”的主要结局。荟萃分析显示有显著效果[典型RR;0.66(95%CI;0.59,0.74);典型RD -0.21(95%CI;-0.26,-0.16);典型NNTB为5(95%CI 4,6)]。存在统计学显著异质性[对于RR(p < 0.00001),I² = 74.0%,对于RD(p = 0.0006),I² = 58.9%]。基于不同高/低剂量EPO和铁补充剂组合的亚组分析也得到了类似结果。每名婴儿输血的总体积(ml/kg)显著减少(4项研究,共177名婴儿)[典型WMD = -7 ml(95%CI -12,-3)],每名婴儿的输血次数也显著减少(9项研究,共567名婴儿);[典型WMD -0.78(-0.97,-0.59)]。与质量不确定的研究以及未使用严格红细胞输血指南的研究相比,高质量研究的事后分析中效应量较小。在死亡率、早产儿视网膜病变、败血症、脑室内出血、脑室周围白质软化、坏死性小肠结肠炎、支气管肺发育不良、婴儿猝死综合征、中性粒细胞减少症、高血压或住院时间方面无显著差异。未报告长期神经发育结局。
晚期给予EPO可减少一次或多次红细胞输血的使用、每名婴儿的红细胞输血次数以及每名婴儿红细胞输血的总体积。后两个结局结果的临床重要性较小(每名婴儿<1次输血和7 ml/kg的输血红细胞)。由于大多数研究纳入了在试验入组前已接受红细胞输血的婴儿,可能无法避免任何供体暴露。晚期EPO不会显著降低或增加包括死亡率和早产儿视网膜病变在内的许多重要新生儿不良结局中的任何一项。不建议进一步研究使用晚期EPO治疗以避免供体暴露。研究工作应集中于限制患病新生儿出生后最初几天的供体暴露,此时最有可能需要红细胞输血且晚期EPO治疗无法预防。
