W. George Bingham scite author profile

The authors used indicator fractionation techniques to determine blood flow in normal and bluntly traumatized spinal cords of Macaca rhesus monkeys. Normal flow rates were determined for several levels of spinal cord as well as differential values for white and gray matter from representative areas. Flow rates in traumatized tissue, obtained at several different time intervals up to 4 hours after injury, demonstrated marked differences in regional perfusion of the white matter and gray matter after trauma. Gray matter perfusion was nearly obliterated while white matter blood flow persisted and in fact was higher than uninjured controls. The findings do not support the concept of ischemia as a factor in white matter failure. If toxic pathobiochemical alterations are induced by trauma, it may be possible to reverse these changes by exploiting the preserved white matter blood flow for chemotherapeutic intervention.

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Platelet Aggregation in Experimental Spinal Cord Injury

Goodman¹,

Bingham²,

Hunt³

1979

Arch Neurol

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Ultrastructural blood-brain barrier alterations and edema formation in acute spinal cord trauma

Goodman¹,

Bingham²,

Hunt³

1976

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Endothelial changes leading to edema formation are examined in the primate spinal cord (Macaca mulatta) following a lesion created by a 20-gm weight falling 15 cm onto the exposed dura. Intravascular perfusion of a paraformaldehydeglutaraldehyde solution followed by carbon black provides adequate fixation of vascular structures and glial elements. Myelin is poorly preserved. Ultrastructural alterations of the blood-brain barrier consist of loss of integrity of the endothelial tight junctions. Edema caused by vascular disruption and parenchymatous extravasation of intravascular contents is observed along with glial swelling. Interglial gap junctions persist in areas of marked cellular seperation and do not impede the migration of edema fluid.

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Cerebral function during profound oligemic hypotension in the dog

Yashon¹,

Locke²,

Bingham³

et al. 1971

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✓ Electrocortigraphic activity and common carotid blood flow were studied in 12 dogs during and following profound oligemic hypotension. Five animals survived but seven died within 75 min of hypotension. Although an 80% to 90% reduction in both mean arterial pressure and common carotid blood flow was observed, only a 20% diminution of intracranial pressure occurred and there was little change in electrocorticographic function. The preservation of cerebral function in the presence of profound systemic hypotension was demonstrated. When death occurred during shock, no prior change in central nervous system function was noted. With reinfusion, no change in parameters was noted, but common carotid blood flow was depressed to 35% to 50% of control levels for up to 2½ hrs of observation.

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Descending monoaminergic pathways in the primate spinal cord

Crutcher

Bingham

1978

Am. J. Anat.

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The distribution of monoamine axons and terminals within the spinal cord of a primate (Macaca mulatta) was studied with the Falck-Hillarp histofluorescence technique for the demonstration of biogenic amines. Catecholamine and indoleamine varicosities appeared qualitatively similar to those previously reported for the rat although the indoleamine terminals were difficult to visualize and were not studied in great detail. Catecholamine fibers innervate the substantia gelatinosa, marginal layer, intermediolateral cell column, ventral horn and the region surrounding the central canal. The location of monoamine axons, as revealed by spinal cord ligation, corresponds to that in the rat and cat with the exception of the dorsolateral region of white matter where fluorescent axons are not visible in the primate.

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W. George Bingham

Blood flow in normal and injured monkey spinal cord

Platelet Aggregation in Experimental Spinal Cord Injury

Ultrastructural blood-brain barrier alterations and edema formation in acute spinal cord trauma

Cerebral function during profound oligemic hypotension in the dog

Descending monoaminergic pathways in the primate spinal cord

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