Neural Regeneration Research (Jan 2024)
Reduction of epinephrine in the lumbar spinal cord following repetitive blast-induced traumatic brain injury in rats
Abstract
Traumatic brain injury-induced unfavorable outcomes in human patients have independently been associated with dysregulated levels of monoamines, especially epinephrine, although few preclinical studies have examined the epinephrine level in the central nervous system after traumatic brain injury. Epinephrine has been shown to regulate the activities of spinal motoneurons as well as increase the heart rate, blood pressure, and blood flow to the hindlimb muscles. Therefore, the purpose of the present study was to determine the impact of repeated blast-induced traumatic brain injury on the epinephrine levels in several function-specific central nervous system regions in rats. Following three repeated blast injuries at 3-day intervals, the hippocampus, motor cortex, locus coeruleus, vestibular nuclei, and lumbar spinal cord were harvested at post-injury day eight and processed for epinephrine assays using a high-sensitive electrochemical detector coupled with high-performance liquid chromatography. Our results showed that the epinephrine levels were significantly decreased in the lumbar spinal cord tissues of blast-induced traumatic brain injury animals compared to the levels detected in age- and sex-matched sham controls. In other function-specific central nervous system regions, although the epinephrine levels were slightly altered following blast-induced traumatic brain injury, they were not statistically significant. These results suggest that blast injury-induced significant downregulation of epinephrine in the lumbar spinal cord could negatively impact the motor and cardiovascular function. This is the first report to show altered epinephrine levels in the spinal cord following repetitive mild blast-induced traumatic brain injury.
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