Experimental neurology
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Experimental neurology · Jun 1997
Delayed antagonism of AMPA/kainate receptors reduces long-term functional deficits resulting from spinal cord trauma.
Excitatory amino acid (EAA) receptors play a significant role in delayed neuronal death after ischemic and traumatic injury to the CNS. Focal microinjection experiments have demonstrated that 2,3-dihydro-6-nitro-7-sulfamoyl-benzo(f)quinoxaline (NBQX), a highly selective and potent antagonist of non-N-methyl-D-aspartate ionotropic EAA receptors, i.e., those preferring alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid (AMPA) or kainate, can reduce histopathology and functional deficits when administered at 15 min after traumatic spinal cord injury (SCI). Similarly, intravenous infusion of NBQX, beginning at 15 min postinjury (p.i.), results in a significant amelioration of the functional deficits produced by experimental SCI. ⋯ These results support a therapeutic potential for NBQX, and presumably other AMPA antagonists, in SCI by demonstrating effectiveness in a clinically relevant time frame. They indicate the importance of assessing chronic functional deficits in evaluating the therapeutic potential of a treatment paradigm. Further, they suggest the intriguing hypothesis that mechanisms underlying early functional recovery after SCI are, at least in part, distinct those from those involved in reducing chronic functional deficits.
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Experimental neurology · Dec 1996
Neuropeptide Y expression in the trigeminal ganglion and mandibular division of the trigeminal nerve after inferior alveolar nerve axotomy in young rats.
Neuropeptide Y (NPY) is a 36-amino-acid peptide residing in sympathetic nerve terminals, originating from the superior cervical ganglion in oral tissues. NPY exerts vasoconstrictor action together with noradrenalin and has been found to inhibit the release of neurotransmitters from primary afferent fibers. During regeneration of the axotomized inferior alveolar nerve (IAN), NPY-immunoreactive (IR) nerve fibers have been shown in the odontoblast layer and dentin, an area normally innervated by afferent nerve fibers. ⋯ Furthermore, retrograde tracing with Fluorogold revealed NPY-IR neurons projecting to the first molar pulp 3 weeks after axotomy. Hence, we conclude that after IAN axotomy NPY is produced in trigeminal ganglion neurons and transported in afferent regenerating fibers to the dental pulp. These results add further evidence for a plasticity in peptide transcription in sensory neurons after nerve injury and indicate a trigeminal origin of at least some of the pulpal NPY-IR fibers during nerve regeneration.
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Experimental neurology · Dec 1996
A quantitative spatial analysis of the blood-spinal cord barrier. I. Permeability changes after experimental spinal contusion injury.
Blood-spinal cord barrier (BSB) permeability was measured using quantitative autoradiography following contusion injury to the rat spinal cord. Permeability was assessed by calculating blood-to-tissue transfer constants (Ki values) for the vascular tracer [14C]-alpha-aminoisobutyric acid (AIB) in injured (3, 7, 14, and 28 days postinjury), laminectomy control, and uninjured control animals. Permeability was quantitated using four separate imaging techniques in gray and white matter throughout the rostro-caudal extents of the forming lesion. ⋯ Secondary elevations of AIB transfer in the spinal white matter between 14 and 28 days were colocalized with zones of immunohistochemically defined microglial clusters. The known plasticity of this cell type in response to changes in the extracellular microenvironment suggests that the spinal white matter at later survival times (14-28 days postinjury) is an area of dynamic vascular and/or axonal reconstruction. The implications of increased permeability to both tissue injury and neural regeneration are discussed.
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Experimental neurology · Aug 1996
Nerve growth factor promotes regeneration of sensory axons into adult rat spinal cord.
Injured adult mammalian axons are unable to regenerate spontaneously in the central nervous tissue. This study investigated in two adult rat models the effects of nerve growth factor (NGF) on the capacity of central primary sensory axons to regenerate back into the spinal cord. Sensory fibers were conditioned by transection of the peripheral nerve 1 week prior to the experiment and identified by anterograde tracing with cholera toxin B subunit injected in the sciatic nerve. ⋯ With vehicle, only 6% of the regenerating fibers at the transition zone had crossed the root-spinal cord barrier, but not farther than 0.5 mm into the spinal tissue. With NGF, 18% of the fibers at the transition zone were found at 0.5 mm, 9% at 1.5 mm, and 5% at 2.5 mm (the infusion site) from the transition zone. The present results demonstrate that NGF can promote the regeneration of adult sensory fibers into the otherwise nonpermissive spinal cord white matter.
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Experimental neurology · Jun 1996
Graded histological and locomotor outcomes after spinal cord contusion using the NYU weight-drop device versus transection.
Injury reproducibility is an important characteristic of experimental models of spinal cord injuries (SCI) because it limits the variability in locomotor and anatomical outcome measures. Recently, a more sensitive locomotor rating scale, the Basso, Beattie, and Bresnahan scale (BBB), was developed but had not been tested on rats with severe SCI complete transection. Rats had a 10-g rod dropped from heights of 6.25, 12.5, 25, and 50 mm onto the exposed cord at Tl 0 using the NYU device. ⋯ The SCI + TX group had a significantly greater frequency of HL movements during open field testing than the TX group (p < 0.005). There was also a trend for the SCI + TX group to have higher locomotor scores than the TX group (p > 0.05). Thus, spared descending systems appear to modify segmental systems which produce greater behavioral improvements than isolated cord systems.