Fariborz Nobandegani scite author profile

Fariborz Nobandegani

2Publications

49Citation Statements Received

0Citation Statements Given

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Noncommunicating syringomyelia following occlusion of central canal in rats

Milhorat¹,

Nobandegani²,

Miller³

et al. 1993

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This report describes a new and reliable technique for producing experimental noncommunicating syringomyelia. In 30 rats, 1.2 to 1.6 microliters of kaolin was microinjected into the dorsal columns and central gray matter of the spinal cord at C-6. The inoculations caused transient neurological deficits in four animals and no deficits in 26 animals. Within 24 hours, kaolin and polymorphonuclear leukocytes entered the central canal and drained rostrally. The clearance of inflammatory products induced a proliferation of ependymal cells and periependymal fibrous astrocytes, which formed synechiae and obstructed the canal at the level of injection and at one or more levels up to C-1. In 22 animals followed for 48 hours or longer, the upper end of the central canal became acutely dilated and formed an ependyma-lined syrinx that enlarged to massive dimensions within 6 weeks. The rostral syrinxes did not communicate with the fourth ventricle and were not associated with hydrocephalus. The histological findings in acute noncommunicating syringomyelia were characterized by progressive stretching and thinning of the ependyma, elongation of intracanalicular septae, and the formation of periependymal edema. After 3 weeks, there was progressive compression of the periependymal tissues associated with stretching of axons, fragmentation of myelin sheaths, and the formation of myelin droplets. These findings and the sequence in which they evolved were identical in most respects to those occurring in acute and subacute noncommunicating hydrocephalus.

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Ultrastructural evidence of sink function of central canal of spinal cord as demonstrated by clearance of horseradish peroxidase

Milhorat¹,

Nakamura²,

Heger³

et al. 1992

Proc. annu. meet. Electron Microsc. Soc. Am.

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It has been recently reported that when Evan’s blue dye is microinjected into the spinal cord, or when it is injected into blood following freeze lesioning of the spinal cord, the marker passes rapidly from the parenchyma into the central canal, and drains rostrally to the fourth ventricle. This pattern of clearance is similar to the clearance of blood and blood products in experimental hematomyelia, and suggests that the central canal functions as a sink for the extracellular compartment of the spinal cord.

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