Prophylactic Riluzole Attenuates Oxidative Stress Damage in Spinal Cord Distraction

Spinal cord injury (SCI) without radiographical abnormalities (SCIWORA) presents a significant challenge because of the loss of function despite an apparent normal anatomy. The cause of dysfunction is not understood, and specific treatment options are lacking. Some scoliosis corrective surgeries res...

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Veröffentlicht in:	Journal of neurotrauma 2018-06, Vol.35 (12), p.1319-1328
Hauptverfasser:	Shimizu, Eileen N, Seifert, Jennifer L, Johnson, Kevin J, Romero-Ortega, Mario I
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino acids Animals Antibiotics Apoptosis Bioengineering Edema Female Gait Hypoplasia Hypoxia Kinases Laboratory animals Medical imaging Metabolic disorders Metabolism Motor Neurons - metabolism Motor Neurons - pathology Neurons Neuroprotection Neuroprotective agents Neuroprotective Agents - pharmacology Oxidative stress Oxidative Stress - drug effects Rats Rats, Long-Evans Riluzole - pharmacology Rodents Scoliosis Sodium Spinal cord injuries Spinal Cord Injuries - metabolism Spinal Cord Injuries - pathology Surgery Trauma
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creator	Shimizu, Eileen N Seifert, Jennifer L Johnson, Kevin J Romero-Ortega, Mario I
description	Spinal cord injury (SCI) without radiographical abnormalities (SCIWORA) presents a significant challenge because of the loss of function despite an apparent normal anatomy. The cause of dysfunction is not understood, and specific treatment options are lacking. Some scoliosis corrective surgeries result in SCIWORA, where stretching of the spinal cord can lead to vascular compromise and hypoxia. The iatrogenic nature of this injury allows for the implantation of neuroprotective strategies that are designed to prevent damage. We utilized a model of atraumatic SCI to evaluate the efficacy of the sodium-channel blocker, riluzole, as a prophylactic neuroprotectant. As expected, the stretch injury caused a significant reduction in intraparenchymal oxygen in distraction (-53.09 ± 22.23%) and riluzole pre-treated distraction animals (-43.04 ± 22.86%). However, in contrast to the oxidative stress and metabolic impairments observed in vehicle-treated distraction animals, in which protein carbonylation increased significantly (5.88 ± 1.3 nmol/mL), riluzole kept these levels within the normal range (1.8 ± 1.0 nmol/mL). This neurprotection also prevented ventral motor neuron hypoplasia and pyknosis, characteristic features of this atraumatic SCI model, and maintained normal gait function (e.g., stride length and stance time). This study provides evidence for the use of prophylactic neuroprotective strategies in which thoracic or spine surgeries present the risk of causing atraumatic SCI.
doi_str_mv	10.1089/neu.2017.5494
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The cause of dysfunction is not understood, and specific treatment options are lacking. Some scoliosis corrective surgeries result in SCIWORA, where stretching of the spinal cord can lead to vascular compromise and hypoxia. The iatrogenic nature of this injury allows for the implantation of neuroprotective strategies that are designed to prevent damage. We utilized a model of atraumatic SCI to evaluate the efficacy of the sodium-channel blocker, riluzole, as a prophylactic neuroprotectant. As expected, the stretch injury caused a significant reduction in intraparenchymal oxygen in distraction (-53.09 ± 22.23%) and riluzole pre-treated distraction animals (-43.04 ± 22.86%). However, in contrast to the oxidative stress and metabolic impairments observed in vehicle-treated distraction animals, in which protein carbonylation increased significantly (5.88 ± 1.3 nmol/mL), riluzole kept these levels within the normal range (1.8 ± 1.0 nmol/mL). This neurprotection also prevented ventral motor neuron hypoplasia and pyknosis, characteristic features of this atraumatic SCI model, and maintained normal gait function (e.g., stride length and stance time). 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The cause of dysfunction is not understood, and specific treatment options are lacking. Some scoliosis corrective surgeries result in SCIWORA, where stretching of the spinal cord can lead to vascular compromise and hypoxia. The iatrogenic nature of this injury allows for the implantation of neuroprotective strategies that are designed to prevent damage. We utilized a model of atraumatic SCI to evaluate the efficacy of the sodium-channel blocker, riluzole, as a prophylactic neuroprotectant. As expected, the stretch injury caused a significant reduction in intraparenchymal oxygen in distraction (-53.09 ± 22.23%) and riluzole pre-treated distraction animals (-43.04 ± 22.86%). However, in contrast to the oxidative stress and metabolic impairments observed in vehicle-treated distraction animals, in which protein carbonylation increased significantly (5.88 ± 1.3 nmol/mL), riluzole kept these levels within the normal range (1.8 ± 1.0 nmol/mL). This neurprotection also prevented ventral motor neuron hypoplasia and pyknosis, characteristic features of this atraumatic SCI model, and maintained normal gait function (e.g., stride length and stance time). 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This neurprotection also prevented ventral motor neuron hypoplasia and pyknosis, characteristic features of this atraumatic SCI model, and maintained normal gait function (e.g., stride length and stance time). This study provides evidence for the use of prophylactic neuroprotective strategies in which thoracic or spine surgeries present the risk of causing atraumatic SCI.</abstract><cop>United States</cop><pub>Mary Ann Liebert, Inc</pub><pmid>29295647</pmid><doi>10.1089/neu.2017.5494</doi><tpages>10</tpages></addata></record>
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subjects	Amino acids Animals Antibiotics Apoptosis Bioengineering Edema Female Gait Hypoplasia Hypoxia Kinases Laboratory animals Medical imaging Metabolic disorders Metabolism Motor Neurons - metabolism Motor Neurons - pathology Neurons Neuroprotection Neuroprotective agents Neuroprotective Agents - pharmacology Oxidative stress Oxidative Stress - drug effects Rats Rats, Long-Evans Riluzole - pharmacology Rodents Scoliosis Sodium Spinal cord injuries Spinal Cord Injuries - metabolism Spinal Cord Injuries - pathology Surgery Trauma
title	Prophylactic Riluzole Attenuates Oxidative Stress Damage in Spinal Cord Distraction
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