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抑制Nogo-A可促使大鼠从忽视状态中恢复。

Nogo-A inhibition induces recovery from neglect in rats.

作者信息

Brenneman Miranda M, Wagner Steven J, Cheatwood Joseph L, Heldt Scott A, Corwin James V, Reep Roger L, Kartje Gwendolyn L, Mir Anis K, Schwab Martin E

机构信息

Department of Psychology, Northern Illinois University, Dekalb, IL, USA.

出版信息

Behav Brain Res. 2008 Mar 5;187(2):262-72. doi: 10.1016/j.bbr.2007.09.018. Epub 2007 Sep 20.

DOI:10.1016/j.bbr.2007.09.018
PMID:17963852
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3932712/
Abstract

Neglect is a complex human cognitive spatial disorder typically induced by damage to prefrontal or posterior parietal association cortices. Behavioral treatments for neglect rarely generalize outside of the therapeutic context or across tasks within the same therapeutic context. Recovery, when it occurs, is spontaneous over the course of weeks to months, but often it is incomplete. A number of studies have indicated that anti-Nogo-A antibodies can be used to enhance plasticity and behavioral recovery following damage to motor cortex, and spinal cord. In the present studies the anti-Nogo-A antibodies IN-1, 7B12, or 11C7 were applied intraventricularly to adult rats demonstrating severe neglect produced by unilateral medial agranular cortex lesions in rats. The three separate anti-Nogo-A antibody groups were treated immediately following the medial agranular cortex lesions. Each of the three antibodies induced dramatic significant behavioral recovery from neglect relative to controls. Severing the corpus callosum to destroy inputs from the contralesional hemisphere resulted in reinstatement of severe neglect, pointing to a possible role of interhemispheric mechanisms in behavioral recovery from neglect.

摘要

忽视是一种复杂的人类认知空间障碍,通常由前额叶或顶叶后联合皮质受损引起。针对忽视的行为治疗很少能在治疗环境之外或同一治疗环境中的不同任务之间普遍适用。恢复情况(如果发生的话)在数周数月内是自发的,但往往并不完全。多项研究表明,抗Nogo - A抗体可用于增强运动皮质和脊髓损伤后的可塑性及行为恢复。在本研究中,将抗Nogo - A抗体IN - 1、7B12或11C7经脑室注射给成年大鼠,这些大鼠因单侧内侧无颗粒皮质损伤而表现出严重忽视。三个单独的抗Nogo - A抗体组在内侧无颗粒皮质损伤后立即接受治疗。相对于对照组,三种抗体中的每一种都使忽视症状产生了显著的行为恢复。切断胼胝体以破坏对侧半球的输入导致严重忽视症状再次出现,这表明半球间机制在忽视行为恢复中可能发挥作用。

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