[Characteristics of cerebral blood flow and the electroencephalogram during experimental malignant hyperthermia].

E Kochs, H Nollen, J Schulte am Esch
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Abstract

It is generally assumed that the brain is not primarily involved in the development of a malignant hyperthermia syndrome (MH). However, spontaneous brain electrical activity (EEG) has not been related temporally to the development of haemodynamic, respiratory and metabolic changes during a fulminant MH crisis. In the present study cerebral blood flow (CBF) and spontaneous electroencephalogram (EEG) were recorded in 8 pigs susceptible (MHS) for the development of malignant hyperthermia and 8 non-susceptible pigs (nMHS) after exposure to 1% halothane. Power densities in selected frequency bands were calculated from the EEG. Additionally, body temperature and haemodynamic and blood gas parameters were studied over a period of 60 min. MH was triggered in all MHS animals. Following exposure to halothane initial EEG changes were noted after 20 to 30 min. They consisted of a decrease in total power and a shift to lower frequencies (delta-theta activity). At this time, CBF was significantly increased compared to control. In 4 animals an isoelectric EEG was noted at a PaO2 of 65-78 mmHg and PaCO2 of 52 to 64 mmHg. Characteristic changes for the development of an MH syndrome in haemodynamic and respiratory parameters as well as a rise in body temperature occurred after first EEG changes were seen. Our results do not support the hypothesis that early EEG changes during MH occur as a result of systemic hypotension, hypoxaemia, hypercapnia or cerebral ischaemia. Our data indicate that EEG monitoring in combination with monitoring of haemodynamic, respiratory and metabolic parameters may be of value for an early detection of an MH-crisis.

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[实验性恶性热疗期间脑血流及脑电图特征]。
一般认为,大脑并不主要参与恶性高热综合征(MH)的发展。然而,自发性脑电活动(EEG)与暴发性MH危象期间血流动力学、呼吸和代谢变化的发展在时间上并不相关。本研究记录了8头暴露于1%氟烷后发生恶性高热的易感猪(MHS)和8头不易感猪(nMHS)的脑血流量(CBF)和自发脑电图(EEG)。根据脑电信号计算各频段的功率密度。此外,在60分钟内研究体温、血流动力学和血气参数。所有MHS动物均触发MH。暴露于氟烷后,20至30分钟后可观察到初始脑电图变化。它们包括总功率下降和向较低频率(δ - θ活动)转移。此时,与对照组相比,CBF显著增加。在4只动物中,PaO2为65 ~ 78 mmHg, PaCO2为52 ~ 64 mmHg。在首次脑电图变化后,出现血流动力学和呼吸参数以及体温升高的MH综合征发展的特征性变化。我们的结果不支持MH期间早期脑电图变化是全身性低血压、低氧血症、高碳酸血症或脑缺血的结果的假设。我们的数据表明,脑电图监测与血流动力学、呼吸和代谢参数监测相结合,可能对mh危象的早期检测有价值。
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