Towards Noninvasive Accurate Detection of Intrapartum Fetal Hypoxic Distress.

Begum Kasap, Kourosh Vali, Weitai Qian, Herman L Hedriana, Aijun Wang, Diana L Farmer, Soheil Ghiasi
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引用次数: 2

Abstract

Current intrapartum fetal well-being assessment is performed using electronic fetal monitoring (EFM), technically referred to as cardiotocography (CTG), which transabdominally monitors fetal heart rate (FHR) in relationship to maternal uterine contractions. Sometimes the deceleration in FHR following a uterine contraction can be sign of fetal hypoxic distress, but it may also be a normal physiological response. Multiple studies have shown that EFM has a high false positive rate for detecting fetal hypoxia. This has caused a rise in emergency Cesarean section (C-section) deliveries performed in the US over the years, while the rates of various conditions associated with anoxic brain injury at birth remain unchanged. The underlying problem is that many factors other than hypoxia can cause non-reassuring CTG traces and a more objective measure of oxygen supply to the fetal brain is not conveniently available. We are working to develop a transabdominal fetal pulse oximetry (TFO) system to non-invasively measure fetal arterial blood oxygen saturation (FSpO2) in order to enhance intrapartum fetal monitoring. This paper gives an overview of the past and ongoing work performed to develop TFO, highlights the main engineering and clinical challenges faced and presents preliminary results that demonstrate feasibility of TFO in both pregnant sheep models and human subjects.

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无创准确检测分娩期胎儿缺氧窘迫。
目前的产时胎儿健康评估是使用电子胎儿监测(EFM)进行的,技术上称为心脏分娩描记术(CTG),它通过腹部监测胎儿心率(FHR)与母体宫缩的关系。有时,子宫收缩后FHR的减速可能是胎儿缺氧窘迫的迹象,但也可能是一种正常的生理反应。多项研究表明,EFM在检测胎儿缺氧方面具有较高的假阳性率。这导致了美国多年来紧急剖腹产(剖腹产)的增加,而与出生时缺氧性脑损伤相关的各种情况的发生率保持不变。潜在的问题是,除了缺氧之外,许多因素都会导致不令人放心的CTG痕迹,而且无法方便地获得更客观的胎儿大脑氧气供应测量。我们正在开发一种经腹部胎儿脉搏血氧计(TFO)系统,以非侵入性测量胎儿动脉血氧饱和度(FSpO2),从而加强产时胎儿监测。本文概述了过去和正在进行的开发TFO的工作,强调了面临的主要工程和临床挑战,并提出了初步结果,证明了TFO在怀孕绵羊模型和人类受试者中的可行性。
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