Abstract
Hyperglycemia has adverse effects on neuronal recovery after brain injury, but its effects after spinal cord injury (SCI) are understudied. This retrospective cohort study examined the potential effects on outcomes of hyperglycemia in the hyperacute stage after acute traumatic SCI. This study included all individuals enrolled in the National Acute Spinal Cord Injury Study 3 (NASCIS-3). Glycemic levels at 24 h, at 48 h, and at day 7 after acute SCI were examined as potential determinants of survival, neurological outcomes (using NASCIS motor, sensory, and pain scores), and functional outcome (using the Functional Independence Measure [FIM]) within the first year post-SCI. Hyperglycemia was defined using two thresholds (140 mg/dL and 180 mg/dL). Study subjects were 76 females and 423 males with an overall mean age of 36 years who sustained mostly cervical SCI due to motor vehicle accidents or falls. Hyperglycemia diagnosed at day 7 post-injury was associated with significantly greater mortality rates post-SCI. Among the survivors, hyperglycemia during the hyperacute stage was not significantly correlated with neurological recovery post-SCI. Hyperglycemia persistent until day 7 was significantly correlated with lower functional scores post-SCI. These results suggest that hyperglycemia at day 7 is correlated with greater mortality rates within the first year post-SCI. Although hyperglycemia during the hyperacute stage was not associated with neurological recovery, hyperglycemia at day 7 may adversely affect functional recovery within the first year post-SCI. Future investigations are needed to determine the optimal glycemic target in the management of patients with SCI.
Highlights
Traumatic spinal cord injury (SCI) remains an important cause of disability due to motor, sensory, and autonomic impairment that has a significant worldwide health impact on individuals and society
Hyperglycemia defined as a blood glucose level >140 mg/dL The majority of the individuals (78.76%) presented hyperglycemia within 24 h after the SCI onset
Hyperglycemia at day 7 post-injury was significantly correlated with greater degree of disability as assessed using the Functional Independence Measure (FIM) score in the sub-acute and chronic stages following traumatic SCI
Summary
Traumatic spinal cord injury (SCI) remains an important cause of disability due to motor, sensory, and autonomic impairment that has a significant worldwide health impact on individuals and society. The worldwide incidence rate of traumatic SCI varies from 8 to 246 cases per million inhabitants per year, and in the literature its global prevalence rate ranges from 236 to 1298 per million inhabitants per year.[1] Promising scientific discoveries on neuroprotective and cell-based therapies for SCI have not yet been translated into clinical practice, and currently the best outcomes from the management of individuals with acute traumatic SCI rely on recent advancements in pre-hospital care, acute care, and rehabilitation.[2,3,4] In the acute care setting, early surgical decompression of the spinal cord and maintenance of spinal cord pressure have become best practice in the management of patients with acute traumatic SCI.[5,6,7,8] a better understanding of other predictors of outcomes after injury is of the utmost importance to further improve the initial care of patients with acute traumatic SCI. The potential effects of hyperglycemia after neurotrauma have been studied primarily in patients with traumatic brain injury (TBI).
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