深度低温旁路术中pH管理对脑微循环的影响:α - stat与pH- stat

L. Duebener, I. Hagino, T. Sakamoto, L. Mime, C. Stamm, D. Zurakowski, H. Schäfers, R. Jonas
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Circulating leukocytes were labeled and observed in postcapillary venules for adhesion before and up to 120 minutes after CPB. Cerebral tissue oxygenation was evaluated by quantification of NADH autofluorescence, which increases during ischemia. ResultsAt the end of normothermic bypass diameter of cerebrocortical microvessels increased to 116±9% (alpha) versus 119±10% (pH) of pre-CPB baseline values. During cooling microvascular diameter decreased in group alpha and significantly increased in group pH (89±11% (alpha) versus 132±13% (pH) at the end of cooling;P <0.001). During the first 10 minutes of rewarming, the cerebral microvascular diameter was significantly larger when the pH stat strategy was used. Tissue oxygenation at the end of cooling was significantly greater in the pH-stat group (P =0.008). 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引用次数: 92

摘要

目的关于儿童深度低温旁路手术的最佳pH策略存在争议。我们使用活体荧光显微镜直接观察了pH-stat和α -stat策略对仔猪模型脑微循环(包括白细胞/内皮细胞相互作用)的影响。方法两组5头猪(平均体重9.6±1.3 kg),颅窗位于大脑顶叶皮层上方,分别进行10分钟常温转流、40分钟体外循环冷却([CPB] Hct 30%, 100 mL/kg/min)、60分钟15℃停搏、40分钟α -stat (α组)或pH-stat (pH组)复温。血浆用荧光素- itc -葡聚糖标记以评估微血管直径。循环白细胞在CPB前和CPB后120分钟内被标记并观察毛细血管后小静脉的粘附情况。脑缺血时NADH自身荧光定量测定脑组织氧合。结果常温下脑皮质微血管绕道结束时,其内径从cpb前基线值的119±10% (pH)增加到116±9% (alpha)。冷却过程中,alpha组微血管直径减小,pH组微血管直径显著增加(冷却结束时,alpha组为89±11% (alpha), pH组为132±13% (pH), P <0.001)。在复温前10分钟,采用pH值启动策略时,脑微血管直径明显增大。pH-stat组冷却结束时组织氧合显著高于对照组(P =0.008)。在再灌注时,pH-stat策略导致组织氧合明显更快地恢复到基线水平,尽管在再灌注结束时,两组的代谢恢复都完成了。pH启动策略显著降低了早期复温时的全身乳酸。在整个实验过程中,各组间的粘附白细胞数量无显著差异。结论sph -stat管理可增加深度低温旁路术和循环停止后的组织氧合。在低温旁路期间,白细胞/内皮细胞的相互作用是轻微的,α -stat和pH-stat都是轻微的。
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Effects of pH Management During Deep Hypothermic Bypass on Cerebral Microcirculation: Alpha-Stat Versus pH-Stat
ObjectiveThere is controversy regarding the optimal pH strategy during deep hypothermic bypass in children. We directly visualized the effects of the pH-stat and alpha-stat strategy on cerebral microcirculation (including leukocyte/endothelial cell interactions) in a piglet model using intravital fluorescence microscopy. MethodsTwo groups of 5 piglets (mean weight 9.6±1.3 kg) with a cranial window over parietal cerebral cortex underwent 10-minute normothermic bypass, 40-minute cooling on cardiopulmonary bypass ([CPB] Hct 30%, 100 mL/kg/min), 60-minute circulatory arrest at 15°C, and 40-minute rewarming with alpha-stat (group alpha) or pH-stat (group pH). Plasma was labeled with fluorescein-ITC-dextran for assessment of microvascular diameter. Circulating leukocytes were labeled and observed in postcapillary venules for adhesion before and up to 120 minutes after CPB. Cerebral tissue oxygenation was evaluated by quantification of NADH autofluorescence, which increases during ischemia. ResultsAt the end of normothermic bypass diameter of cerebrocortical microvessels increased to 116±9% (alpha) versus 119±10% (pH) of pre-CPB baseline values. During cooling microvascular diameter decreased in group alpha and significantly increased in group pH (89±11% (alpha) versus 132±13% (pH) at the end of cooling;P <0.001). During the first 10 minutes of rewarming, the cerebral microvascular diameter was significantly larger when the pH stat strategy was used. Tissue oxygenation at the end of cooling was significantly greater in the pH-stat group (P =0.008). On reperfusion, the pH-stat strategy resulted in significantly more rapid return of tissue oxygenation toward baseline although at the end of rewarming the metabolic recovery was complete in both groups. The whole body lactate during early rewarming was significantly less with the pH stat strategy. There was no significant difference between the groups regarding the number of adherent leukocytes throughout the time course of the experiment. ConclusionspH-stat management increases tissue oxygenation during deep hypothermic bypass and after circulatory arrest. Leukocyte/endothelial cell interactions during hypothermic bypass are mild with both alpha-stat and pH-stat.
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