@article{oai:shiga-med.repo.nii.ac.jp:00004376,
 author = {稲富, 絢子 and 村上, 節 and INATOMI, Ayako and NISHINAKA, Tomohiro and UMEKI, Akihide and TSUKIYA, Tomonori and KATAGIRI, Nobumasa and FUJII, Masahiko and KOBAYASHI, Futoshi and IMAOKA, Syusuke and TANAKA, Shun and MIZUNO, Toshihide and MURAKAMI, Takashi},
 journal = {Journal of artificial organs : the official journal of the Japanese Society for Artificial Organs},
 month = {Oct},
 note = {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., Journal Article},
 title = {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.},
 year = {2022}
}