Experimental neurology
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Experimental neurology · Aug 2003
Novel intrathecal delivery system for treatment of spinal cord injury.
A novel, localized method for potential delivery of therapeutic agents to the injured spinal cord was investigated. The strategy consists of a polymeric drug solution that gels after injection into the subarachnoid space (SAS). By dispersing therapeutic agents in the polymeric solution, a method is provided for localized delivery to the spinal cord. ⋯ Long-term functional behavior was evaluated with the Basso, Beattie, and Bresnahan (BBB) scale weekly for 8 weeks. Functional behavior was similar in the collagen and aCSF groups, also indicating that the DDS was safe. This minimally invasive DDS may provide an alternative, safe method to deliver therapeutic agents intrathecally.
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Experimental neurology · Jul 2003
An animal model of nociceptive peripheral neuropathy following repeated cisplatin injections.
We report the assessment of motor and sensory behaviors using an electrophysiologic and an histologic approach, in a rat model of cisplatin peripheral neuropathy. Cisplatin was injected intraperitoneally one (3 mg/ kg), two (2 mg/kg), or three (1 mg/kg) times a week up to a cumulative dose of 15 or 20 mg/kg. With regard to nociceptive signs, we observed mechanical and thermal (cold stimuli) hyperalgesia and allodynia associated with minor motor disorders for the 3 mg/kg dose. ⋯ In addition, the histologic approach revealed that large axons were more frequently affected than the small ones, and nonmyelinated axons were unaffected. However, even in the most severe cases, myelin sheaths remained within normal limits. This animal model of nociceptive neuropathy would be suitable to study the pathophysiologic mechanisms of neuropathic pain and to test potential neuroprotective agents.
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Experimental neurology · Jul 2003
Axonal regeneration of Clarke's neurons beyond the spinal cord injury scar after treatment with chondroitinase ABC.
We have previously demonstrated that enzymatic digestion of chondroitin sulfate proteoglycan (CSPG) at the scar promotes the axonal regrowth of Clarke's nucleus (CN) neurons into an implanted peripheral nerve graft after hemisection of the spinal cord. The present study examined whether degradation of CSPG using chondroitinase ABC promoted the regeneration of CN neurons through the scar into the rostral spinal cord in neonatal and adult rats. Following hemisection of the spinal cord at T11, either vehicle or chondroitinase ABC was applied onto the lesion site. ⋯ The immunoreactivity for the carbohydrate epitope of CSPG was dramatically decreased around the lesion site after treatment with chondroitinase ABC compared to sham control in both neonatal and adult animals. Our results show that axonal regeneration in the spinal cord can be promoted by degradation of CSPG with chondroitinase ABC. This result further suggests that CSPG is inhibitory to the regeneration of neurons in the spinal cord after traumatic injury.
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Experimental neurology · Jun 2003
Effects of seizure severity and seizure repetition on postictal cardiac arrhythmia following maximal electroshock.
Convulsive seizures triggered by maximal electroshock (MES) induce profound abnormalities in neural regulation of cardiac rhythm that are manifested by a period of marked cardiac arrhythmia in the immediate postictal state. It is not known whether seizure severity or seizure experience may influence the duration of cardiac arrhythmia in the postictal state. We varied the duration of MES administered to rats to vary seizure severity, as measured by the extensor to flexion (E/F) ratio. ⋯ Blocking of the hindlimb extension by ketamine abolished arrhythmia suggesting that the arrhythmia is not caused directly by MES. Severity of tonic convulsive seizures is a determinant of disordered cardiac autonomic regulation and directly influences the duration of cardiac arrhythmia during the immediate postictal state following MES. Seizure repetition also increases abnormalities of postictal neural regulation of the heart, but further studies are needed to determine whether this effect is independent of seizure severity increases.
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Experimental neurology · May 2003
The bisphosphonate clodronate depletes microglial cells in excitotoxically injured organotypic hippocampal slice cultures.
The bisphosphonate clodronate, clinically used in the treatment of osteoporosis, is known to deplete cells of the monocytic lineage. Using an in vitro model of excitotoxic damage in organotypic hippocampal slice cultures (OHSC), we investigated whether clodronate can also prevent microglial activation that occurs in CNS pathologies. Lesioning of OHSC was performed by application of 50 microM N-methyl-D-aspartate (NMDA) for 4 h after 6 days in vitro (div). ⋯ However, the number of PI(+) neurons in lesioned OHSC that received continuous clodronate treatment for 9 div was significantly higher when compared to NMDA-lesioned OHSC. In summary, clodronate is able to reduce microglial activation induced by excitotoxic neuronal injury. Our results demonstrate that clodronate is a useful tool in the investigation of neuron-glia interactions because it induces an efficient depletion of microglial cells that are activated after excitotoxic CNS injury.