Dempsey R J, Combs D J, Maley M E, Cowen D E, Roy M W, Donaldson D L
Division of Neurosurgery, Veterans Administration Hospital, Lexington, Kentucky.
Neurosurgery. 1987 Aug;21(2):177-81. doi: 10.1227/00006123-198708000-00007.
Using the bilateral carotid artery occlusion model of cerebral ischemia in the gerbil, we studied the effect of moderate hypothermia (30 to 31 degrees C) on the postischemic production of prostanoids (cyclooxygenase pathway) and leukotrienes (lipoxygenase pathway) and accompanying changes in cerebral edema formation. Hypothermia capable of slowing central evoked potential conduction time was studied over the course of 40 minutes of cerebral ischemia and for up to 2 hours of reperfusion. The successful induction of cerebral ischemia was confirmed by somatosensory evoked potential amplitude changes. Measurements of 6-ketoprostaglandin F1 alpha (PGF1 alpha) and leukotriene B4 (LTB4) (radioimmunoassay) and cerebral edema (specific gravity) were made at early (10 minutes) and late (2 hours) reperfusion times. Although both white and gray matter showed no early significant difference in edema accumulation between normothermic and hypothermic gerbils at 10 minutes of reperfusion, hypothermic animals demonstrated significantly less white matter edema (specific gravity, 1.0397 +/- 0.0010 vs. 1.0341 +/- 0.0012, P less than 0.01) and gray matter edema (specific gravity, 1.0408 +/- 0.0009 vs. 1.0365 +/- 0.0008, P less than 0.01) by 2 hours of reperfusion. Production of PGF1 alpha was not significantly different between normothermic and hypothermic animals during the reperfusion period; however, hypothermic gerbils demonstrated significantly lower production of LTB4 at 10 minutes reperfusion time compared to normothermic animals (1.49 +/- 0.79 vs. 5.28 +/- 1.49 pg/mg of protein, P less than 0.05). This difference between the two groups in LTB4 levels was no longer detectable at 2 hours of reperfusion time.(ABSTRACT TRUNCATED AT 250 WORDS)
我们使用沙鼠双侧颈动脉闭塞性脑缺血模型,研究了中度低温(30至31摄氏度)对缺血后前列腺素(环氧化酶途径)和白三烯(脂氧化酶途径)生成的影响以及伴随的脑水肿形成变化。在40分钟脑缺血及长达2小时再灌注过程中,研究了能够减慢中枢诱发电位传导时间的低温情况。体感诱发电位幅度变化证实了脑缺血的成功诱导。在再灌注早期(10分钟)和晚期(2小时),对6-酮前列腺素F1α(PGF1α)和白三烯B4(LTB4)进行放射免疫测定,并测量脑水肿(比重)。尽管在再灌注10分钟时,正常体温和低温沙鼠的白质和灰质在水肿积聚方面早期无显著差异,但在再灌注2小时时,低温动物的白质水肿(比重,1.0397±0.0010对1.0341±0.0012,P<0.01)和灰质水肿(比重,1.0408±0.0009对1.0365±0.0008,P<0.01)明显较少。在再灌注期间,正常体温和低温动物之间PGF1α的生成无显著差异;然而,与正常体温动物相比,低温沙鼠在再灌注10分钟时LTB4的生成显著降低(1.49±0.79对5.28±1.49 pg/mg蛋白质,P<0.05)。在再灌注2小时时,两组之间LTB4水平的这种差异不再能检测到。(摘要截短于250字)
