癫痫,脑血流量和脑代谢率。

R Duncan
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引用次数: 0

摘要

彭菲尔德在20世纪30年代的观察提供了第一个与局灶性癫痫相关的区域脑血流量(rCBF)变化的系统证据。对人类和动物的进一步研究证实,在全面性癫痫发作期间,脑血流量和代谢增加,但随着体内成像技术的出现,如正电子发射断层扫描(PET)和单光子发射计算机断层扫描(SPECT),以及动物研究中的放射自显影术,在过去十年中,局灶性癫痫的间期、初期和后期变化已经开始得到阐明。大多数研究都是关于颞叶癫痫的。在发病期间,特征性的发现是受影响的颞叶或更广泛的同侧半球的血流量和/或代谢减少。迄今为止,使用SPECT对rCBF进行的临床或临床变化的研究很少。他们表现为整个颞叶的急性高灌注,海马体的高灌注,并伴有侧侧结构的低灌注。在后期,仅可见灌注不足。动物局灶性癫痫的研究表明,病灶部位的高灌注和高代谢常伴有同侧新皮层中这两个参数的广泛抑制。对人类血流量和代谢耦合的有限研究表明,癫痫发作期间的血流量足以满足代谢需求,尽管一些动物研究表明局部区域的血流量不耦合。现代体内成像技术对血流和新陈代谢的动态和动态变化的结果与彭菲尔德的观察结果相吻合,这些变化现在被用来帮助定位癫痫病灶,从而使他开创的手术治疗得到更广泛的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Epilepsy, cerebral blood flow, and cerebral metabolic rate.

Penfield's observations in the 1930s provided the first systematic evidence of changes in regional cerebral blood flow (rCBF) associated with focal seizures. Further studies in humans and animals confirmed increases in cerebral blood flow and metabolism during generalised seizures, but the interictal, ictal, and postictal changes in focal epilepsy have begun to be elucidated in the last decade with the advent of in vivo imaging techniques such as positron emission tomography (PET) and single photon emission computed tomography (SPECT) and, in the case of animal studies, of autoradiography. Most studies have been of temporal lobe epilepsy. Interictally, the characteristic finding has been reduced blood flow and/or metabolism in the affected temporal lobe, or more extensively in the ipsilateral hemisphere. The few studies to date of ictal or postictal changes have been of rCBF using SPECT. They show hyperperfusion of the whole temporal lobe ictally, hyperperfusion of the hippocampus, combined with hypoperfusion of lateral structures in the immediate postictal period. Later in the postictal period, hypoperfusion alone is seen. Studies of focal seizures in animals have shown hyperperfusion and hypermetabolism at the site of the focus often with widespread depression of both parameters in the ipsilateral neocortex. Limited studies of coupling between blood flow and metabolism in humans have suggested that flow during seizures is adequate for metabolic demand, although some animal studies have suggested localised areas of uncoupling. The results of modern in vivo imaging of ictal and postictal changes in blood flow and metabolism have correlated well with Penfield's observations, and these changes are now being used to help localise epileptic foci, allowing wider use of the surgical treatment he pioneered.

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