Department of Neurology, Columbia University College of Physicians and Surgeons, 177 Fort Washington Ave, New York, NY 10032, USA.
Stroke. 2011 Nov;42(11):3087-92. doi: 10.1161/STROKEAHA.111.623165. Epub 2011 Aug 18.
Limited data exist to recommend specific cerebral perfusion pressure (CPP) targets in patients with intracerebral hemorrhage. We sought to determine the feasibility of brain multimodality monitoring for optimizing CPP and potentially reducing secondary brain injury after intracerebral hemorrhage.
We retrospectively analyzed brain multimodality monitoring data targeted at perihematomal brain tissue in 18 comatose intracerebral hemorrhage patients (median monitoring, 164 hours). Physiological measures were averaged over 1-hour intervals corresponding to each microdialysis sample. Metabolic crisis was defined as a lactate/pyruvate ratio >40 with a brain glucose concentration <0.7 mmol/L. Brain tissue hypoxia (BTH) was defined as P(bt)O(2) <15 mm Hg. Pressure reactivity index and oxygen reactivity index were calculated.
Median age was 59 years, median Glasgow Coma Scale score was 6, and median intracerebral hemorrhage volume was 37.5 mL. The risk of BTH, and to a lesser extent metabolic crisis, increased with lower CPP values. Multivariable analyses showed that CPP <80 mm Hg was associated with a greater risk of BTH (odds ratio, 1.5; 95% confidence interval, 1.1-2.1; P=0.01) compared to CPP >100 mm Hg as a reference range. Six patients died (33%). Survivors had significantly higher CPP and P(bt)O(2) and lower ICP values starting on postbleed day 4, whereas lactate/pyruvate ratio and pressure reactivity index values were persistently lower, indicating preservation of aerobic metabolism and pressure autoregulation.
P(bt)O(2) monitoring can be used to identify CPP targets for optimal brain tissue oxygenation. In patients who do not undergo multimodality monitoring, maintaining CPP >80 mm Hg may reduce the risk of BTH.
目前关于脑出血患者特定脑灌注压(CPP)目标的推荐数据有限。我们旨在确定脑多模态监测优化 CPP 的可行性,以潜在减少脑出血后的继发性脑损伤。
我们回顾性分析了 18 例昏迷脑出血患者(中位数监测时间 164 小时)的脑多模态监测数据。生理指标在对应每个微透析样本的 1 小时间隔内进行平均。代谢危象定义为乳酸/丙酮酸比值>40 且脑葡萄糖浓度<0.7 mmol/L。脑组织缺氧(BTH)定义为 P(bt)O(2)<15 mm Hg。计算压力反应性指数和氧反应性指数。
中位年龄为 59 岁,中位格拉斯哥昏迷量表评分为 6 分,中位脑出血量为 37.5 mL。BTH 的风险,以及在较小程度上代谢危象的风险,随 CPP 值降低而增加。多变量分析显示,CPP<80 mm Hg 与 BTH 的风险增加相关(比值比,1.5;95%置信区间,1.1-2.1;P=0.01),与 CPP>100 mm Hg 作为参考范围相比。6 名患者死亡(33%)。存活者从出血后第 4 天开始 CPP 和 P(bt)O(2)显著升高,而 ICP 值降低,而乳酸/丙酮酸比值和压力反应性指数持续较低,表明有氧代谢和压力自动调节得到了保护。
P(bt)O(2)监测可用于确定最佳脑组织氧合的 CPP 目标。在未进行多模态监测的患者中,维持 CPP>80 mm Hg 可能会降低 BTH 的风险。