| 临界关闭压对于正常大鼠脑血流自动调节的作用 |
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| 引用本文: | 王文君,高庆春,陈建文,郭健,张伟劲,傅贤,李现亮.临界关闭压对于正常大鼠脑血流自动调节的作用[J].中国卒中杂志,2016,11(1):34-41. |
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| 作者姓名: | 王文君 高庆春 陈建文 郭健 张伟劲 傅贤 李现亮 |
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| 作者单位: | 1 510260 广州广州医科大学附属第二医院神经内科2 中山大学药理实验室 |
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| 基金项目: | 广东省科学技术厅资助项目(2012B031800435)国家自然科学基金委员会资助项目(81371573) |
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| 摘 要: | 目的 探讨正常大鼠脑血流自动调节范围内和超出自动调节范围后,临界关闭压(critical closing
pressure,CCP)对脑血流的调控作用。
方法 健康雄性SD大鼠随机分为升压组和降压组各70只,除去手术失败的动物,完整采集数据升压
组69只,降压组54只。分别以10~15 mmHg为一级逐步升高、降低血压,同步记录大鼠大脑中动脉血
流速度(cerebral blood flow velocity,CBFV)和有创血压,绘制自动调节曲线,并按照CCP理论计算CCP
和血管面积阻力指数(resistance area product,RAP),分析血流动力参数之间,以及血流动力学参数
与血压变化间的关系。
结果 动脉血压升高或降低过程中,正常大鼠的脑血流自动调节上、下限分别为(148.12±7.49)mmHg、
(62.96±3.34)mmHg。脑血流自动调节范围内,CBFV随动脉血压改变轻微,超出自动调节范围后,CBFV
随动脉血压升高明显增加(r =0.896,P =0.000),或随动脉血压降低明显减小(r =0.945,P<0.001)。
CCP变化恰好与CBFV相反,自动调节范围内随动脉血压改变明显,与平均动脉压呈明显正相关(升压
r =0.967、降压r =0.969,P均<0.001),超出自动调节范围后改变量明显减小。RAP也有CCP的类似趋势,
但数值变化量不是很明显,只有降压过程自动调节范围内的改变量明显大于超出自动调节范围后。
结论 大鼠脑血流调控过程中,自动调节有效范围内,脑血流的稳定与CCP和RAP密切相关,尤其是
CCP。微动脉血管紧张度和微动脉直径变化共同参与了脑血流的调控。
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| 关 键 词: | 脑血流 自动调节 临界关闭压 经颅多普勒 |
| 收稿时间: | 2015-03-10 |
Role of Critical Closing Pressure to Cerebral Blood Flow Autoregulation on Normal Rats |
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| WANG Wen-Jun,GAO Qing-Chun,CHEN Jian-Wen,et al..Role of Critical Closing Pressure to Cerebral Blood Flow Autoregulation on Normal Rats[J].Chinese Journal of Stroke,2016,11(1):34-41. |
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| Authors: | WANG Wen-Jun GAO Qing-Chun CHEN Jian-Wen |
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| Abstract: | Objective To validate the role of the model of critical closing pressure (CCP) of normal rats on
cerebral blood regulation in and out the range of cerebral blood flow autoregulation (CBFA).
Methods Total 123 rats were randomly divided into rising blood pressure group (69) and lowering
blood pressure group (54), after excluding unsuccessful operating animals. Higher and lower blood
pressure were induced by gradually increasing or decreasing mean arterial blood pressure (MABP)
per 10~15 mmHg. The cerebral blood flow velocity (CBFV) and artery pressure were monitored
simultaneously and the curves of CBFA were analyzed. The values of CCP and resistance area
product (RAP) were worked out according to CCP theory. The relationship between hemodynamics
parameters and the association between hemodynamics and the changes of blood pressure were
evaluated.
Results The upper limit of autoregulation (ULA) and the lower limit of autoregulation (LLA)
of normal rats were (148.12±7.49) mmHg and (62.96±3.34) mmHg, respectively. The rising and
lowering blood pressure group, when MABP changed in the range of CBFA, the CBFV changed
little. Beyond the limits of CBFA, CBFV increased (r =0.869, P <0.001) following MABP rising, and
CBFV decreased (r =0.945, P <0.001) when MABP declining. CCP correlated with MABP positively
(r =0.967, 0.969, P =0.000). RAP had a similar tendency of CCP. But only in the hypotensive process,the variable quantity of RAP in the range of CBFA was greater than out the range.
Conclusion In the range of CBFA, cerebral blood flow is closely related to CCP and RAP,
especially CCP. Cerebrovascular tone and the changes of arterioles’ diameter contribute to the
process of cerebral autoregulation. |
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| Keywords: | Cerebral blood flow Autoregulation Critical closing pressure Transcranial Doppler |
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