早产产后适应中的过渡性胎儿血流动力学和气体交换：即刻与延迟脐带结扎

Transitional fetal hemodynamics and gas exchange in premature postpartum adaptation: immediate vs. delayed cord clamping.

作者信息

Yigit Berk, Tutsak Ece, Yıldırım Canberk, Hutchon David, Pekkan Kerem

机构信息

1Department of Biomedical Engineering, Carnegie Mellon University, Pittsburgh, PA USA.

2Department of Biomedical Engineering, Politecnico di Milano, Milan, Italy.

出版信息

Matern Health Neonatol Perinatol. 2019 Apr 12;5:5. doi: 10.1186/s40748-019-0100-1. eCollection 2019.

DOI:10.1186/s40748-019-0100-1

PMID:31011431

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6460527/

Abstract

BACKGROUND

Recent studies suggest that delayed cord clamping (DCC) is advantageous for achieving hemodynamic stability and improving oxygenation compared to the immediate cord clamping (ICC) during fetal-to-neonatal transition yet there is no quantitative information on hemodynamics and respiration, particularly for pre-term babies and fetal disease states. Therefore, the objective of this study is to investigate the effects of ICC and DCC on hemodynamics and respiration of the newborn preterm infants in the presence of common vascular pathologies.

METHODS

A computational lumped parameter model (LPM) of the placental and respiratory system of a fetus is developed to predict blood pressure, flow rates and oxygen saturation. Cardiovascular system at different gestational ages (GA) are modeled using scaling relations governing fetal growth with the LPM. Intrauterine growth restriction (GR), patent ductus arteriosus (PDA) and respiratory distress syndrome (RDS) were modeled for a newborn at 30 weeks GA. We also formulated a "severity index ()" which is a weighted measure of ICC vs. DCC based on the functional parameters derived from our model and existing neonatal disease scoring systems.

RESULTS

Our results show that transitional hemodynamics is smoother in DCC compared to ICC for all GAs. Blood volume of the neonate increases by 10% for moderately preterm and term infants (32-40 wks) and by 15% for very and extremely preterm infants (22-30 wks) with DCC compared to ICC. DCC also improves the cardiac output and the arterial blood pressure by 17% in term (36-40 wks), by 18% in moderately preterm (32-36 wks), by 21% in very preterm (28-32 wks) and by 24% in extremely preterm (20-28 wks) births compared to the ICC. A decline in oxygen saturation is observed in ICC received infants by 20% compared to the DCC received ones. At 30 weeks GA, SI were calculated for healthy newborns (1.18), and newborns with GR (1.38), PDA (1.22) and RDS (1.2) templates.

CONCLUSION

Our results suggest that DCC provides superior hemodynamics and respiration at birth compared to ICC. This information will help preventing the complications associated with poor oxygenation arising in premature births and pre-screening the more critical babies in terms of their cardiovascular severity.

摘要

背景

近期研究表明，与胎儿向新生儿过渡期间立即钳夹脐带（ICC）相比，延迟钳夹脐带（DCC）有利于实现血流动力学稳定并改善氧合，但尚无关于血流动力学和呼吸的定量信息，尤其是对于早产儿和胎儿疾病状态。因此，本研究的目的是调查ICC和DCC对存在常见血管病变的新生儿早产儿血流动力学和呼吸的影响。

方法

建立胎儿胎盘和呼吸系统的计算集总参数模型（LPM）以预测血压、流速和血氧饱和度。使用LPM中控制胎儿生长的比例关系对不同孕周（GA）的心血管系统进行建模。对30周GA的新生儿模拟宫内生长受限（GR）、动脉导管未闭（PDA）和呼吸窘迫综合征（RDS）。我们还制定了一个“严重程度指数（SI）”，它是基于我们模型和现有新生儿疾病评分系统得出的功能参数对ICC与DCC的加权衡量。

结果

我们的结果表明，对于所有孕周，DCC的过渡血流动力学比ICC更平稳。与ICC相比，中度早产和足月儿（32 - 40周）采用DCC时新生儿血容量增加10%，极早早产儿（22 - 30周）增加15%。与ICC相比，足月（36 - 40周）出生采用DCC时心输出量和动脉血压提高17%，中度早产（32 - 36周）提高18%，极早产（28 - 32周）提高21%，极早早产（20 - 28周）提高24%。与接受DCC的婴儿相比，接受ICC的婴儿血氧饱和度下降20%。在30周GA时，计算了健康新生儿（1.18）以及患有GR（1.38）、PDA（1.22）和RDS（1.2）模板的新生儿的SI。

结论

我们的结果表明，与ICC相比，DCC在出生时提供了更好的血流动力学和呼吸功能。这些信息将有助于预防早产中因氧合不良引起的并发症，并根据心血管严重程度对更危急的婴儿进行预筛查。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cfb3/6460527/90f41d0c24c3/40748_2019_100_Fig1_HTML.jpg

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早产产后适应中的过渡性胎儿血流动力学和气体交换：即刻与延迟脐带结扎

Transitional fetal hemodynamics and gas exchange in premature postpartum adaptation: immediate vs. delayed cord clamping.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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