Yeahwa Hong, Suji Shin, Umar Nasim, Kalliope G Roberts, Alexander S Potchernikov, Kimberly Y Liu, Keith A Dufendach, David J Skoog, Matthew Bacchetta, Keith E Cook
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引用次数: 0
摘要
肺辅助系统(PAS)是一种可穿戴式呼吸辅助系统,目前正在开发中。本研究在急性绵羊模型中比较了 PAS 的轴流式机械泵 (AFP) 与其他当代机械泵的血液相容性。在静脉配置中,使用三种泵中的一种将 PAS 连接到正常绵羊身上:1)AFP;2)ReliantHeart HeartAssist 5(对照组);或 3)Abbott Pedimag(对照组)(每组 5 只)。每只羊在 PAS 上支撑 12 小时,血流量为 2 升/分钟,扫气为 4 升/分钟。比较各组之间的溶血、凝血、炎症、血小板活化和丢失情况。在这项研究中,各组的无血浆血红蛋白(pfHb)均低于 10 毫克/分升。与其他组相比,AFP 组的 pfHb 明显较低。各组的泵和氧合器中都没有明显的血凝块形成。此外,在凝血(氧合器阻力、纤维蛋白肽 A)、炎症(白细胞计数、IL-8)、血小板活化和丢失(p-选择素、血小板计数)方面,各组间也未观察到明显差异(均为 p > 0.05)。这项研究表明,PAS 的 AFP 与其他当代机械泵具有同等的血液相容性,而且启动时的溶血程度更低。
Hemocompatibility Evaluation of a Novel Ambulatory Pulmonary Assist System Using a Lightweight Axial-Flow Pump.
The Pulmonary Assist System (PAS) is currently under development as a wearable respiratory assist system. In this study, the hemocompatibility of the PAS's axial-flow mechanical pump (AFP) was compared to other contemporary mechanical pumps in an acute ovine model. The PAS was attached to a normal sheep in a venovenous configuration using one of three pumps: 1) AFP, 2) ReliantHeart HeartAssist 5 (control), or 3) Abbott Pedimag (control) (n = 5 each). Each sheep was supported on the PAS for 12 hours with two L/minute of blood flow and four L/minute of sweep gas. Hemolysis, coagulation, inflammation, and platelet activation and loss were compared among the groups. In this study, the plasma-free hemoglobin (pfHb) was less than 10 mg/dl in all groups. The pfHb was significantly lower in the AFP group compared to other groups. There was no significant clot formation in the pumps and oxygenators in all groups. Furthermore, no significant differences in coagulation (oxygenator resistance, fibrinopeptide A), inflammation (white blood cell counts, IL-8), and platelet activation and loss (p-selectin, platelet counts) were observed among the groups (all, p > 0.05). This study demonstrates equivalent hemocompatibility of the PAS's AFP to other contemporary mechanical pumps with a reduced level of hemolysis on startup.
期刊介绍:
ASAIO Journal is in the forefront of artificial organ research and development. On the cutting edge of innovative technology, it features peer-reviewed articles of the highest quality that describe research, development, the most recent advances in the design of artificial organ devices and findings from initial testing. Bimonthly, the ASAIO Journal features state-of-the-art investigations, laboratory and clinical trials, and discussions and opinions from experts around the world.
The official publication of the American Society for Artificial Internal Organs.