Systemic management of cerebral edema based on a new concept in severe head injury patients.

Acta neurochirurgica. Supplementum Pub Date : 1994-01-01 DOI:10.1007/978-3-7091-9334-1_149

N Hayashi, T Hirayama, A Udagawa, W Daimon, M Ohata

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引用次数: 70

Abstract

Cerebral hypothermia treatment of critical brain injury patients was studied based on the management and control of cerebral thermo-pooling, synaptic excitation, hypermetabolic demand, and the systemic critical condition of the metabolic reserve. The initial pathophysiological changes after trauma included a progressive increase in brain tissue temperature. Such cerebral thermo-pooling, which reached a maximum of 43.8 degrees C, can change or damage the vascular proteins directly. The brain tissue temperature was influenced by four factors: 1. the cerebral metabolism, 2. the systemic excess energy metabolism, 3. the CPP that carries the systemic energy to the brain tissue, and 4. the cerebral blood flow that leads to washout of brain tissue temperature. Mild cerebral hypothermia (32-33 degrees C) managed by the whole body compartment cooling technique in the critical conditions of diffuse brain injury patients (GCS < 4) produced a good recovery in 8 of 10 patients. Continuous monitoring of the jugular venous oxygen saturation and BTT/TMT was effective for evaluating cerebral ischemia and oxygen metabolic disturbances even during cerebral hypothermia treatment.

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基于新概念的重型颅脑损伤患者脑水肿的全身管理。

从脑热池、突触兴奋、高代谢需求和全身代谢储备危急状态的管理和控制出发，研究脑低温治疗危重性脑损伤患者。创伤后最初的病理生理变化包括脑组织温度的进行性升高。这种最高可达43.8摄氏度的脑热池可以直接改变或损害血管蛋白。脑组织温度受四个因素的影响:1。2.脑代谢;2 .全身多余能量代谢;3 .将全身能量输送到脑组织的CPP。导致脑组织温度下降的脑血流量。在弥漫性脑损伤危重(GCS < 4)患者中，采用全身腔室降温技术进行轻度脑低温(32-33℃)治疗，10例患者中有8例恢复良好。即使在脑低温治疗期间，持续监测颈静脉氧饱和度和BTT/TMT也可有效评估脑缺血和氧代谢紊乱。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Acta neurochirurgica. Supplementum

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