The effect of sphenopalatine postganglionic neurotomy on the alteration of local cerebral blood flow of normotensive and hypertensive rats in acute cold stress.

Y C Wang, J S Kuo, S Z Lin
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Abstract

The cold season of a year has been reported to have the highest incidence of strokes. Present studies were designed to test whether the parasympathetic denervation plays any role in the regulation of local cerebral blood flow (LCBF) in anesthetized animals exposed to a cold environment. Each species of Wistar-Kyoto rats (WKY) and spontaneously hypertensive rats (SHR) was divided into four groups: sphenopalatine postganglionic neurotomy (SPNx) or a control group at room temperature (20 degrees C) or in a cold environment (5 degrees C), respectively. LCBF in 14 brain structures was measured using the [14C] iodoantipyrine technique and tissue dissecting methods. Our results show that SPNx did not significantly alter physiological parameters and LCBF in WKY and SHR kept at either 20 degrees C or 5 degrees C. However, 30 minutes of cold exposure caused a significant decrease in the core body temperature of both the WKY and SHR groups (P < 0.05, Student's paired t-test) and a significant decrease in LCBF in 3 of 14 brain areas: the temporal cortex (TC), inferior colliculus (IC) and vermis (VER) of both WKY and SHR (P < 0.05, MANOVA). The percentages of decrease were 24% (TC), 12% (IC), 12% (VER) and 19% (TC), 16% (IC), 15% (VER), respectively. Our findings indicate that in a cold environment, the lower LCBFs in some areas of the brain may be related to decreased body temperature. Whether they are related to the higher prevalence of stroke in winter needs further investigation.

蝶帕丁节后神经切断术对急性冷应激下正常、高血压大鼠局部脑血流变化的影响。
据报道,一年中寒冷的季节中风的发病率最高。目前的研究旨在测试副交感神经去神经是否在暴露于寒冷环境的麻醉动物局部脑血流量(LCBF)的调节中发挥任何作用。将Wistar-Kyoto大鼠(WKY)和自发性高血压大鼠(SHR)分为4组,分别在室温(20℃)和低温环境(5℃)下进行蝶腭神经节后神经切开术(SPNx)组和对照组。采用[14C]碘安替比林技术和组织解剖法测量14个脑结构的LCBF。我们的结果表明,SPNx没有显著改变生理参数和LCBF WKY和月保持在20摄氏度或5度C。然而,30分钟的寒冷暴露导致的核心体温明显降低WKY和月组(P < 0.05,学生的配对t检验),显著降低LCBF 3 14个大脑区域:颞皮层(TC),下丘(IC)和小脑蚓体(版本)WKY和月(P < 0.05, MANOVA)。下降百分比分别为24% (TC)、12% (IC)、12% (VER)和19% (TC)、16% (IC)、15% (VER)。我们的研究结果表明,在寒冷的环境中,大脑某些区域的低LCBFs可能与体温降低有关。它们是否与冬季中风的高发有关还有待进一步调查。
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