Feasibility study of an artificial placenta system consisting of a loop circuit configuration extracorporeal membrane oxygenation with a bridge circuit in the form of the umbilical arterial-venous connection.

IF 1.1 4区 医学 Q4 ENGINEERING, BIOMEDICAL
Journal of Artificial Organs Pub Date : 2023-12-01 Epub Date: 2022-10-13 DOI:10.1007/s10047-022-01370-z
Ayako Inatomi, Tomohiro Nishinaka, Akihide Umeki, Tomonori Tsukiya, Nobumasa Katagiri, Masahiko Fujii, Futoshi Kobayashi, Syusuke Imaoka, Shun Tanaka, Toshihide Mizuno, Takashi Murakami
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Abstract

We developed a new artificial placenta (AP) system consisting of a loop circuit configuration extracorporeal membrane oxygenation (ECMO) with a bridge circuit designed to be applied to the fetus in the form of an umbilical arterial-venous connection. We aimed to evaluate the feasibility of the AP system by performing a hydrodynamic simulation using a mechanical mock circulation system and fetal animal experiment. The effect of the working condition of the AP system on the fetal hemodynamics was evaluated by hydrodynamic simulation using a mechanical mock circulation system, assuming the weight of the fetus to be 2 kg. The AP system was introduced to two fetal goats at a gestational age of 135 days. The general conditions of the experimental animals were evaluated. The mock simulation showed that in an AP system with ECMO in the form of an umbilical arterial-venous connection in series, it could be difficult to maintain fetal hemodynamics when high ECMO flow was applied. The developed AP system could have high ECMO flow with less umbilical blood flow; however, the possibility of excessive load on the fetal right-sided heart should be noted. In the animal experiment, kid 1 (1.9 kg) was maintained on the AP system for 12 days and allowed to grow to term. In kid 2 (1.6 kg), the AP system could not be established because of the occlusion of the system by a thrombus. The developed AP system was feasible under both in vitro and in vivo conditions. Improvements in the AP system and management of the general fetal conditions are essential.

Abstract Image

人工胎盘系统的可行性研究,该系统由环路配置体外膜氧合和以脐动-静脉连接形式的桥式电路组成。
我们开发了一种新的人工胎盘(AP)系统,该系统由环路配置的体外膜氧合(ECMO)和桥式电路组成,设计用于以脐带动静脉连接的形式应用于胎儿。我们的目的是通过机械模拟循环系统和胎儿动物实验进行水动力学模拟来评估AP系统的可行性。假设胎儿体重为2kg,采用机械模拟循环系统进行流体动力学模拟,评估AP系统工作状态对胎儿血流动力学的影响。将AP系统应用于2只胎龄为135天的山羊。对实验动物的一般情况进行了评价。模拟结果表明,在采用脐动静脉串联ECMO的AP系统中,高ECMO流量可能难以维持胎儿血流动力学。开发的AP系统可以实现高ECMO流量和低脐血流量;然而,应注意胎儿右侧心脏负荷过大的可能性。动物实验中,1号幼仔(1.9 kg)在AP系统中维持12 d,并让其生长至足月。在儿童2 (1.6 kg)中,由于系统被血栓阻塞,AP系统无法建立。所建立的AP系统在体外和体内条件下均是可行的。改进AP系统和对一般胎儿状况的管理是必不可少的。
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来源期刊
Journal of Artificial Organs
Journal of Artificial Organs 医学-工程:生物医学
CiteScore
2.80
自引率
15.40%
发文量
68
审稿时长
6-12 weeks
期刊介绍: The aim of the Journal of Artificial Organs is to introduce to colleagues worldwide a broad spectrum of important new achievements in the field of artificial organs, ranging from fundamental research to clinical applications. The scope of the Journal of Artificial Organs encompasses but is not restricted to blood purification, cardiovascular intervention, biomaterials, and artificial metabolic organs. Additionally, the journal will cover technical and industrial innovations. Membership in the Japanese Society for Artificial Organs is not a prerequisite for submission.
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