脑积水的神经病理学和结构改变

Developmental Disabilities Research Reviews Pub Date : 2010-04-20 DOI:10.1002/ddrr.94

Marc R. Del Bigio

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引用次数: 22

摘要

在脊柱裂的情况下，脑积水通常是由后窝拥挤和脑脊液从第四脑室流出阻塞引起的，较少是由脑导水管畸形引起的。脑室增大导致脑室周围白质轴突的逐渐破坏。运动、感觉、视觉和记忆系统可能因长投射轴突、脑室周围结构(包括胼胝体)和穹窿通道的参与而受到干扰。继发性变化发生在神经元细胞体和突触，但神经元的死亡很少。因此，脑积水性脑功能障碍的临床综合征是由于皮质下断开。一些脑功能障碍是可以通过分流逆转的，可能是通过恢复脑血流和使细胞外环境正常化。然而，被破坏的轴突不能恢复。©2010 Wiley-Liss, IncDev disability Res 2010; 16:16-22。

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Neuropathology and structural changes in hydrocephalus†

In the context of spina bifida, hydrocephalus is usually caused by crowding of the posterior fossa with obstruction to cerebrospinal fluid flow from the forth ventricle, and less often by malformation of the cerebral aqueduct. Enlargement of the cerebral ventricles causes gradual destruction of periventricular white matter axons. Motor, sensory, visual, and memory systems may be disturbed through involvement of the long projection axons, periventricular structures including the corpus callosum, and the fimbria-fornix pathway. Secondary changes occur in neuronal cell bodies and synapses, but there is minimal death of neurons. The clinical syndrome of hydrocephalic brain dysfunction is thus due to subcortical disconnection. Some of the brain dysfunction is reversible by shunting, probably through restoration of cerebral blood flow and normalization of the extracellular environment. However, destroyed axons cannot be restored. © 2010 Wiley-Liss, Inc. Dev Disabil Res Rev 2010;16:16–22.

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Developmental Disabilities Research Reviews 医学-精神病学

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