The Kinetics of Transtentorial Brain Herniation: Kernohan-Woltman Notch Phenomenon Revisited.

IF 4.8 2区 医学 Q1 CLINICAL NEUROLOGY
Debasish Roy, Ambar Chakravarty
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引用次数: 0

Abstract

Purpose of review: To critically review recent literature in understanding the pathological consequences of transtentorial brain herniation resulting from unilateral expanding supratentorial mass lesions.

Recent findings: Modern neuroimaging assists in understanding the consequences of transtentorial brain herniation with the development of the Kernohan-Woltman notch phenomenon. MRI studies in post-operative patients undergoing craniotomy and removal of expanding unilateral hemispheric mass lesions (usually an extradural or subdural hematoma) have shown striking findings in the contralateral crus cerebri suggestive of damage as a result of impact against the free margin of the opposite tentorium as suggested by Kernohan and Woltman nearly a century back in autopsy studies. MR changes include T1 hypointensity, T2 and fluid-attenuated inversion recovery (FLAIR) hyperintensity, DW1 hyperintensity with restriction of diffusion, presence of hypointensity in GRE sequences and evidence of axonal damage in the corticospinal tracts in the cerebral peduncle in diffusion tensor imaging and MR tractography. The pathological basis of such changes may be variable or a combination of several pathological processes, which may all be related to the impact/compression of the contralateral crus with the tentorial margin. These include contusion, compression, demyelination, and perhaps most importantly microvascular damage including microbleeds. The role of uncal herniation is debatable. It appears that as a result of massive lateral shift in the supratentorial compartment, there is a transient forceful impact of the opposite cerebral peduncle against the rigid tentorial border to induce one or more of the abovementioned phenomena to explain the imaging findings. The limitation of these studies is that most of them have been done in the post-operative periods and surgical manipulations can surely alter anatomical relationships between intracranial structures. The exact sequence of events happening intracranially in the face of rapidly expanding supratentorial mass lesions is largely unknown. Even with rapid progress in neuroimaging, documentation of such changes during life are difficult, principally for logistic reasons. Consequently, the very truth of the much taught about phenomenon of uncal herniation and the resultant Kernohan-Woltman notch phenomenon and the false localizing sign of unilateral motor weakness and contralateral pupillary dilation have been questioned. Animal experimentation and autopsy studies have not contributed much in our understanding of the actual process happening intracranially in such an emergent situation. The midbrain undoubtedly is the key structure bearing the brunt of the effect of brain shift which is more lateral than downward in cases with unilateral expanding lesions. Structural changes in the cerebral peduncles have now been visualized with modern neuroimaging. These alterations may result from the interplay of one or more factors which include compression, contusion, demyelination, and perhaps most importantly microvascular ischemia and hemorrhage resulting from a forceful yet transient impact of the cerebral peduncle with the tough tentorial margin. The last mentioned hypothesis would be in conformity with Kernohan and Woltman's concept of elastic deformation of the midbrain. In the present article an attempt is made to provide a historical account of the changing concepts in relation to brain herniation as systematically and chronologically as possible, and then, critically review recent neuroimaging observations with a view to hypothesize on the sequence of events during transtentorial brain herniation.

Abstract Image

经幕脑疝的动力学:Kernohan-Woltman缺口现象的再认识。
综述目的:批判性地回顾最近的文献,以了解单侧幕上扩大性肿块病变引起的经幕脑疝的病理后果。最近的发现:现代神经影像学有助于理解经幕脑疝与Kernohan-Woltman切迹现象发展的后果。对接受开颅手术并切除扩大的单侧半球肿块病变(通常是硬膜外或硬膜下血肿)的术后患者进行的MRI研究显示,对侧大脑脚的惊人发现表明,正如Kernohan和Woltman在近一个世纪前的尸检中所建议的那样,对侧小脑幕自由边缘的撞击会造成损伤学习MR变化包括T1低强度、T2和液体衰减反转恢复(FLAIR)高信号、DW1高信号伴扩散限制、GRE序列中存在低强度以及扩散张量成像和MR束成像中大脑脚皮质脊髓束轴突损伤的证据。这种变化的病理基础可能是可变的,也可能是几个病理过程的组合,这些病理过程都可能与对侧小腿与幕缘的撞击/压迫有关。这些包括挫伤、压迫、脱髓鞘,也许最重要的是微血管损伤,包括微出血。钩端疝的作用是有争议的。看来,由于幕上隔室的大规模横向移位,对面的大脑脚对坚硬的幕边界产生短暂的有力冲击,从而引起一种或多种上述现象,以解释成像结果。这些研究的局限性在于,大多数研究都是在术后进行的,手术操作肯定会改变颅内结构之间的解剖关系。面对迅速扩张的幕上肿块病变,颅内发生的确切事件序列在很大程度上是未知的。即使神经影像学进展迅速,记录生活中的这种变化也很困难,主要是出于逻辑原因。因此,人们对钩钩突出现象、由此产生的Kernohan-Woltman切迹现象以及单侧运动无力和对侧瞳孔扩张的错误定位征的真实性提出了质疑。动物实验和尸检研究对我们理解在这种紧急情况下大脑内发生的实际过程没有多大帮助。中脑无疑是首当其冲受到脑转移影响的关键结构,在单侧扩大病变的情况下,脑转移更多地是侧向的,而不是向下的。大脑脚的结构变化现在已经用现代神经成像技术可视化了。这些改变可能是由一个或多个因素相互作用引起的,这些因素包括压迫、挫伤、脱髓鞘,也许最重要的是,脑蒂与坚韧的幕缘强烈而短暂的撞击导致的微血管缺血和出血。最后提到的假设与Kernohan和Woltman关于中脑弹性变形的概念一致。在本文中,试图尽可能系统和按时间顺序提供与脑疝相关的概念变化的历史记录,然后批判性地回顾最近的神经影像学观察结果,以期对经幕脑疝期间的事件序列进行假设。
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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来源期刊
CiteScore
9.20
自引率
0.00%
发文量
73
审稿时长
6-12 weeks
期刊介绍: Current Neurology and Neuroscience Reports provides in-depth review articles contributed by international experts on the most significant developments in the field. By presenting clear, insightful, balanced reviews that emphasize recently published papers of major importance, the journal elucidates current and emerging approaches to the diagnosis, treatment, management, and prevention of neurological disease and disorders. Presents the views of experts on current advances in neurology and neuroscience Gathers and synthesizes important recent papers on the topic Includes reviews of recently published clinical trials, valuable web sites, and commentaries from well-known figures in the field.
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