Journal of neurotrauma
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Journal of neurotrauma · Jan 1996
Thresholds for cerebral ischemia after severe head injury: relationship with late CT findings and outcome.
Cerebral ischemic insults in at least 30% of severely head injured patients at a very early stage following trauma and are associated with early death. To date, the threshold for ischemia of 18 mL/100g/min used in human head injury studies has been adopted from animal studies (by temporary occlusion of the middle cerebral artery). Since the traumatized brain becomes more susceptible to irreversible damage if accompanied by ischemia one may question whether the threshold for ischemic vulnerability is higher than 18 mL/100 g/min. ⋯ The difference in the proportions was significant at p < 0.001 (chi-square test). We conclude that a measure of atrophy does not correlate with ultra-early CBF. However, based on the clear distinction between survivors and nonsurvivors, we suggest the threshold for ischemia after head injury be redefined as a CBF of 20 mL/100 g/min.
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Journal of neurotrauma · Jan 1996
Comparative StudyMild pre- and posttraumatic hypothermia attenuates blood-brain barrier damage following controlled cortical impact injury in the rat.
Recent studies have demonstrated a neuroprotective effect of mild/moderate hypothermia in models of cerebral trauma and ischemia. In contrast, hypotension is known to exacerbate CNS injury. To better understand the mechanisms whereby hypothermia and hypotension influence secondary neural injury, the present study assessed the effects of these two variables upon blood-brain barrier (BBB) permeability following controlled cortical impact injury. ⋯ Previous results, using this same model, have shown that the progressive posttraumatic increase in BBB permeability is preceded by an increase in cortical. OH and lipid hydroperoxides at the site of injury and is attenuated by the lipid peroxidation inhibitor tirilazad mesylate. Thus, the present results are discussed in terms of the role of free radical-induced lipid peroxidation in the genesis of posttraumatic BBB damage and the possible effects of hypothermia upon this injury process.
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Journal of neurotrauma · Dec 1995
Severe controlled cortical impact in rats: assessment of cerebral edema, blood flow, and contusion volume.
Controlled cortical impact (CCI) is a contemporary model of experimental cerebral contusion. We examined the cerebrovascular and neuropathologic effects of a severe CCI in rats. The utility of magnetic resonance imaging (MRI) for the assessment of contusion volume after severe CCI was also established. ⋯ Estimates of contusion volume by MRI and histology were closely correlated (r = 0.941, p < 0.017). Severe CCI in rats is accompanied by contusion, reproducible edema, and marked hypoperfusion, involving over 14% of the injured hemisphere, and can be produced with minimal mortality. T2-weighted MRI successfully and noninvasively identifies contusion volume in this model.
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Journal of neurotrauma · Dec 1995
Regional concentrations of cyclic nucleotides after experimental brain injury.
Regional concentrations of lactate, glucose, cAMP, and cGMP were measured after lateral fluid percussion brain injury in rats. At 5 min after injury, while tissue concentrations of lactate were elevated in the cortices and hippocampi of both the ipsilateral and contralateral hemispheres, those of glucose were decreased in these brain regions. By 20 min after injury, increases of lactate concentrations and decreases of glucose concentrations were observed only in the cortices and in the hippocampus of the ipsilateral hemisphere. ⋯ The tissue concentrations of cGMP were found to be elevated only in the ipsilateral hippocampus at 5 min after injury. The present observation that tissue glucose decreases in the injured cortex and the ipsilateral hippocampus are consistent with the published findings of increased hyperglycolysis and oxidative metabolism in brain immediately after injury. The present findings that the concentrations of cAMP and cGMP change in the cortex and hippocampus provide biochemical evidence for the neurotransmitter's surge after brain injury.
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Journal of neurotrauma · Oct 1995
ReviewSystemic hypothermia in treatment of severe brain injury: a review and update.
Laboratory studies of moderate hypothermia (30-33 degrees C) after injury show diminished neuronal loss after ischemia, diminished excessive neurotransmitter release after ischemia, prevention of blood-brain barrier disruption after ischemia and brain injury, and behavioral improvement after brain injury. Clinical literature suggests that brief periods of moderate hypothermia (> or = 30 degrees C) in humans are not associated with cardiovascular, hematologic, metabolic, or neurological toxicity. Clinical studies were, therefore, organized to investigate the potential application of moderate systemic hypothermia in patients after severe brain injury. ⋯ A randomized study of moderate hypothermia in 46 patients with Glasgow Coma Score (GCS) 4-7 gave an indication of improved neurologic outcome in the hypothermia group. A multicenter, randomized protocol to test the effect of moderate systemic hypothermia in patients with severe brain injury is in progress. Funded by the National Institutes of Health, The National Acute Brain Injury Study: Hypothermia tests the hypothesis that systemic hypothermia to 32-33 degrees C if rendered within 6 h of injury improves Glasgow Outcome Scores (GOS) at 6 months after injury in patients with severe brain injury (GCS 3-8).