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人类听觉皮层切除术后的空间定位

Spatial localization after excision of human auditory cortex.

作者信息

Zatorre R J, Penhune V B

机构信息

Montreal Neurological Institute, McGill University, Montreal, Quebec, Canada H3A 2B4.

出版信息

J Neurosci. 2001 Aug 15;21(16):6321-8. doi: 10.1523/JNEUROSCI.21-16-06321.2001.

Abstract

Neurophysiological and animal ablation studies concur that primary auditory cortex is necessary for computation of the spatial coordinates of a sound source. Human studies have reported conflicting findings but have often suffered from inadequate psychophysical measures and/or poor lesion localization. We tested patients with unilateral temporal lobe excisions either encroaching on or sparing Heschl's gyrus (HG), quantifying lesion extent using anatomical magnetic resonance imaging measures. Subjects performed two tasks. In the localization task, they heard single clicks in a free-field spatial array subtending 180 degrees of azimuth and indicated the perceived location with a laser pointer. In the discrimination task, two clicks were presented, and subjects indicated if they were in the same or different position. As a group, patients with right temporal excision, either encroaching onto HG or not, were significantly impaired in both hemifields in both tasks, although this was not true for all individuals. Patients with left temporal resections generally performed normally, although some of the patients with left HG excision showed impaired performance bilaterally, especially in the discrimination task. This pattern stands in marked contrast to previous studies showing significant preservation of localization in hemispherectomized patients. We conclude that (1) contrary to hypotheses derived from animal studies, human auditory spatial processes are dependent primarily on cortical areas within right superior temporal cortex, which encompass both spatial hemifields; (2) functional reorganization may not take place after restricted focal damage but only after more extensive early damage; and (3) the existence of individual differences likely illustrates differential patterns of functional lateralization and/or recovery.

摘要

神经生理学和动物脑损毁研究一致认为,初级听觉皮层对于声源空间坐标的计算是必要的。人体研究报告的结果相互矛盾,但往往存在心理物理学测量不充分和/或病变定位不佳的问题。我们对单侧颞叶切除术侵犯或未侵犯颞横回(HG)的患者进行了测试,使用解剖磁共振成像测量方法量化病变范围。受试者执行两项任务。在定位任务中,他们在一个张角为180度方位角的自由场空间阵列中听到单次点击,并使用激光指针指出感知到的位置。在辨别任务中,呈现两次点击,受试者指出它们是在相同还是不同的位置。总体而言,右侧颞叶切除术患者,无论是否侵犯HG,在两项任务的两个半视野中均有显著损伤,尽管并非所有个体都是如此。左侧颞叶切除术患者通常表现正常,尽管一些左侧HG切除术患者在双侧表现受损,尤其是在辨别任务中。这种模式与之前显示半球切除患者定位功能显著保留的研究形成鲜明对比。我们得出以下结论:(1)与从动物研究得出的假设相反,人类听觉空间处理主要依赖于右侧颞上叶皮质内的皮质区域,该区域涵盖两个空间半视野;(2)在局限性局灶性损伤后可能不会发生功能重组,而只会在更广泛的早期损伤后发生;(3)个体差异的存在可能说明了功能侧化和/或恢复的不同模式。

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