Journal of neurotrauma
-
Early investigations involving central nervous system (CNS) temperature lowering to protect against the detrimental effects of hypoxia and ischemia were based on the observation that hypothermia reduces brain metabolism and energy consumption. The protective effects of hypothermia have been demonstrated in numerous experimental models of cerebral ischemia and recently in models of brain trauma. These observations also led to the application of hypothermia, in the form of local spinal cord cooling (LSCC), in animal models of experimental spinal cord injury (SCI). ⋯ The application of the technique itself is fraught with difficulties. It requires acute surgery in a traumatized patient, a wide multilevel laminectomy, and minimizing the time interval between injury and the application of spinal cord cooling. Recent studies in experimental brain ischemia strongly suggest that a drastic lowering of CNS temperature may be unnecessary to lessen the degree of tissue damage occurring following an ischemic brain injury.(ABSTRACT TRUNCATED AT 250 WORDS)
-
The recent finding that small variations in brain temperature can critically determine the extent of histopathological injury in animal models of brain injury has generated renewed interest in hypothermic brain protection. Whereas mild hypothermia protects the brain from ischemic and traumatic brain injury, mild hyperthermia worsens ischemic outcome. ⋯ The purpose of this article is to review and discuss recent findings demonstrating the importance of brain temperature in ischemic and traumatic brain injury. Potential mechanisms by which mild hypothermia may attenuate and mild hyperthermia accentuate the detrimental consequences of brain injury are reviewed.
-
Journal of neurotrauma · May 1992
Randomized Controlled Trial Comparative Study Clinical TrialSystemic hypothermia in treatment of brain injury.
An extensive literature suggests that there are minimal complications of systemic hypothermia in humans at and above 30 degrees C for periods of several days. Intracranial hemorrhage has been found to complicate profound hypothermia (10-15 degrees C), and ventricular arrhythmias occur at temperatures below 30 degrees C. Our initial clinical studies were with 21 patients undergoing elective craniotomy cooled to 30-32 degrees C for 1-8 h (mean 4 h). ⋯ No intracranial hemorrhage or other complications were found. With surface cooling, intravascular temperature dropped at 1.6 degrees C/h. Based on the safety of surface cooling to a core temperature of 32 degrees C for 48 h, we are conducting a randomized study of this level of hypothermia in patients with severe brain injury, cooled within 6 h of injury.