The role of fetal hemoglobin in the artificial placenta: A premature ovine model.

IF 1.1 4区医学 Q4 CARDIAC & CARDIOVASCULAR SYSTEMS Perfusion-Uk Pub Date : 2025-03-01 Epub Date: 2024-03-22 DOI:10.1177/02676591241240725

Brianna L Spencer, Brian P Fallon, Jennifer S McLeod, Marie Cornell, Erin E Perrone, David M Manthei, Alvaro Rojas-Peña, Ronald B Hirschl, Robert H Bartlett, George B Mychaliska

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Abstract

Introduction: A radical paradigm shift in the treatment of premature infants failing conventional treatment is to recreate fetal physiology using an extracorporeal Artificial Placenta (AP). The aim of this study is to evaluate the effects of changing fetal hemoglobin percent (HbF%) on physiology and circuit function during AP support in an ovine model.

Methods: Extremely premature lambs (n = 5) were delivered by cesarean section at 117-121 d estimated gestational age (EGA) (term = 145d), weighing 2.5 ± 0.35 kg. Lambs were cannulated using 10-14Fr cannulae for drainage via the right jugular vein and reinfusion via the umbilical vein. Lambs were intubated and lungs were filled with perfluorodecalin to a meniscus with a pressure of 5-8 cm H₂O. The first option for transfusion was fetal whole blood from twins followed by maternal red blood cells. Arterial blood gases were used to titrate AP support to maintain fetal blood gas values.

Results: The mean survival time on circuit was 119.6 ± 39.5 h. Hemodynamic parameters and lactate were stable throughout. As more adult blood transfusions were given to maintain hemoglobin at 10 mg/dL, the HbF% declined, reaching 40% by post operative day 7. The HbF% was inversely proportional to flow rates as higher flows were required to maintain adequate oxygen saturation and perfusion.

Conclusions: Transfusion of adult blood led to decreased fetal hemoglobin concentration during AP support. The HbF% was inversely proportional to flow rates. Future directions include strategies to decrease the priming volume and establishing a fetal blood bank to have blood rich in HbF.

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胎儿血红蛋白在人工胎盘中的作用：早产绵羊模型

简介在治疗常规治疗失败的早产儿方面，一个根本性的范式转变是利用体外人工胎盘（AP）重建胎儿的生理机能。本研究的目的是在绵羊模型中评估胎儿血红蛋白百分比（HbF%）的变化对人工胎盘支持过程中生理和回路功能的影响：极早产羔羊（n = 5）于估计胎龄（EGA）117-121 d（足月 = 145 d）时经剖腹产分娩，体重为 2.5 ± 0.35 kg。羔羊使用 10-14Fr 插管经右颈静脉引流，再经脐静脉回输。给羔羊插管，用全氟萘烷充填肺部至半月板，压力为 5-8 cm H2O。首先输注的是双胞胎的胎儿全血，然后是母体红细胞。使用动脉血气滴定 AP 支持以维持胎儿血气值：血液动力学参数和乳酸在整个过程中保持稳定。随着输注更多成人血液以维持血红蛋白在 10 mg/dL 的水平，HbF% 有所下降，在术后第 7 天达到 40%。HbF% 与流速成反比，因为需要更高的流速来维持足够的血氧饱和度和血流灌注：结论：在 AP 支持期间，输注成人血液会导致胎儿血红蛋白浓度下降。HbF%与流速成反比。未来的发展方向包括减少引血量和建立胎儿血库以获得富含 HbF 的血液。

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来源期刊

Perfusion-Uk 医学-外周血管病

CiteScore

3.00

自引率

8.30%

发文量

203

审稿时长

6-12 weeks

期刊介绍： Perfusion is an ISI-ranked, peer-reviewed scholarly journal, which provides current information on all aspects of perfusion, oxygenation and biocompatibility and their use in modern cardiac surgery. The journal is at the forefront of international research and development and presents an appropriately multidisciplinary approach to perfusion science.