Moore Jean K
Department of Neuroanatomy, House Ear Institute, Los Angeles, California 90057, USA.
Ann Otol Rhinol Laryngol Suppl. 2002 May;189:7-10. doi: 10.1177/00034894021110s502.
This project traced the maturation of the human auditory cortex from midgestation to young adulthood, using immunostaining of axonal neurofilaments to determine the time of onset of rapid conduction. The study identified 3 developmental periods, each characterized by maturation of a different axonal system. During the perinatal period (3rd trimester to 4th postnatal month), neurofilament expression occurs only in axons of the marginal layer. These axons drive the structural and functional development of cells in the deeper cortical layers, but do not relay external stimuli. In early childhood (6 months to 5 years), maturing thalamocortical afferents to the deeper cortical layers are the first source of input to the auditory cortex from lower levels of the auditory system. During later childhood (5 to 12 years), maturation of commissural and association axons in the superficial cortical layers allows communication between different subdivisions of the auditory cortex, thus forming a basis for more complex cortical processing of auditory stimuli.
本项目利用轴突神经丝免疫染色来确定快速传导开始的时间,追踪了人类听觉皮层从中孕期到青年期的成熟过程。该研究确定了3个发育阶段,每个阶段的特征是不同轴突系统的成熟。在围产期(妊娠晚期至出生后第4个月),神经丝表达仅出现在边缘层的轴突中。这些轴突驱动深层皮质层细胞的结构和功能发育,但不传递外部刺激。在幼儿期(6个月至5岁),向深层皮质层成熟的丘脑皮质传入神经是听觉系统较低水平向听觉皮层输入的首个来源。在儿童后期(5至12岁),表层皮质层连合轴突和联合轴突的成熟使得听觉皮层的不同亚区之间能够进行交流,从而为更复杂的听觉刺激皮质处理奠定了基础。