Your search keyword '"Afsharpour S"' showing total 2 results

1. Light microscopic analysis of Golgi-impregnated rat subthalamic neurons.

Author

Afsharpour S

Subjects

Animals, Dendrites cytology, Neurons, Afferent cytology, Nissl Bodies cytology, Rats, Rats, Inbred Strains, Golgi Apparatus ultrastructure, Neurons cytology, Thalamic Nuclei cytology

Abstract

The neuronal morphology of the rat subthalamic nucleus (STH) was studied using Golgi techniques and Nissl stain. The results show that the somatic shapes of STH neurons vary from fusiform to oval or polygonal. Somatic cross-sectional areas vary between 140 microns2 and 440 microns2. Some of the cells have a few somatic spines. Two to six primary dendrites gave rise to tapering daughter dendrites which extend up to 500 microns. These dendrites are sparsely covered with spines. Some distal dendrites and primary dendrites of the STH also bear filiform appendages. Neurons located in the deep portion of the STH have oval dendritic fields whose long axis is parallel to the long axis of the nucleus in frontal or sagittal planes. Some of these neurons have one or two dendrites which cross the borders of the STH into the zona incerta, the lateral hypothalamus, or the cerebral peduncle. Generally, neurons located at the borders of the STH have their dendritic fields extending parallel to the borders and are confined to the nucleus. However, some neurons adjacent to the ventrolateral border of the nucleus have some dendrites extending into the cerebral peduncle. Quantitative analysis of the STH neurons showed a unimodal distribution of somatic sizes as well as the number of primary dendrites. No neurons with obvious Golgi type II characteristics were found. Two types of afferent fibers were observed entering the STH. One type consists of axon collaterals arising from the cerebral peduncle ventrolaterally, or the internal capsule rostrally, while the other enters the nucleus after crossing the internal capsule rostrally. These results suggest that the rat STH is an open nucleus in contrast to other species such as man, monkey, and cat, where it is closed, and that the rat STH may contain only one type of neuron.

Published

1985

2. Topographical projections of the cerebral cortex to the subthalamic nucleus.

Author

Afsharpour S

Subjects

Animals, Autoradiography, Axonal Transport, Histocytochemistry, Male, Rats, Rats, Inbred Strains, Cerebral Cortex cytology, Thalamic Nuclei cytology

Abstract

Corticosubthalamic projections in the rat were investigated using the autoradiographic anterograde axonal tracing technique. After unilateral injections of tritiated amino acids in the cerebral cortex, projections to the ipsilateral subthalamic nucleus (STH) could be found arising only from the frontal agranular cortex and the zone of MI-SI overlap. Injections into granular areas of the cortex (e.g., somatosensory and visual areas) did not result in labeling in STH. Following injections in the frontal agranular cortex, labeling was present in the ipsilateral but not the contralateral STH. In general, injections that involved the lateral agranular field of frontal cortex, as defined by Donoghue and Wise ('82), resulted in a greater amount of labeling in STH than injections within the medial agranular area or the zone of MI-SI overlap. The projection from the frontal agranular areas to STH is topographically organized. The rostral part of the lateral agranular cortex projects to the lateral portion of the rostral two-thirds of STH, and the caudal part of this field projects to the ventral aspect of the middle third of STH. Injections in the rostral part of the medial agranular cortex resulted in labeling throughout the ventral two-thirds of the medial half of STH. The caudal part of the medial agranular cortex projects to the dorsolateral part of the caudal two-thirds of STH. The present results reveal projections from only the frontal agranular cortex and the zone of MI-SI overlap to STH in the rat. The cortico-STH projection is ipsilateral and terminates in a topographical manner in all parts of STH.

Published

1985