血红蛋白
脂质体
换血
输血
化学
医学
生物医学工程
材料科学
内科学
纳米技术
作者
Hitoshi Ikegawa,Yasuyuki Kuwagata,Koichi Hayakawa,Kazuo Noguchi,Hiroshi Ogura,Hisashi Sugimoto
标识
DOI:10.1111/j.1525-1594.2011.01405.x
摘要
Abstract We clarified the effect of exchange transfusion with liposome‐encapsulated hemoglobin (neo red cells, NRCs) with low O 2 affinity (P 50 O 2 = 50 mm Hg) on O 2 metabolism. Rabbits were randomly assigned to receive serial exchange transfusions with NRC (NRC group, n = 5), shed blood diluted 1:1 with saline (red blood cell (RBC) group, n = 5), or saline alone (plasma group, n = 4) under hemodynamic monitoring. Cardiac tamponade was then induced and successively reversed to determine relationships between O 2 consumption (VO 2 ) and O 2 delivery (DO 2 ) using the dual‐line method. Mean values of Hb concentration after exchange transfusion were 5.7 (NRC), 6.0 (RBC), and 1.5 (plasma) g/dL. The plasma group could not even survive the initial exchange hemodilution due to a critical decrease in DO 2 . The NRC, but not the RBC group, developed progressive metabolic acidosis and lactatemia, as well as increases in PaCO 2 and decreases in tissue PO 2 in skeletal muscle after exchange transfusion. Nonetheless, systemic O 2 uptake indices obtained from an analysis of the VO 2 /DO 2 relationship in the NRC and RBC groups were comparable. These findings suggested that systemic O 2 uptake was maintained in rabbits after exchange transfusion with NRC, although progressive tissue hypoxia with systemic acidosis is indicative of inadequate peripheral circulation and insufficient aerobic metabolism during extended hemodilution in which 86% of the circulating blood is replaced.
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