University Paris Diderot, Sorbonne Paris Cité, INSERM U676 and NICU, Robert Debré Children's Hospital, 48 Bd Sérurier 75019 Paris, France.
Stroke. 2012 Nov;43(11):3078-84. doi: 10.1161/STROKEAHA.112.664243. Epub 2012 Sep 4.
We recently demonstrated that endogenous nitric oxide (NO) modulates collateral blood flow in a neonatal stroke model in rats. The inhalation of NO (iNO) has been found to be neuroprotective after ischemic brain damage in adults. Our objective was to examine whether iNO could modify cerebral blood flow during ischemia-reperfusion and reduce lesions in the developing brain.
In vivo variations in cortical NO concentrations occurring after 20-ppm iNO exposure were analyzed using the voltammetric method in P7 rat pups. Inhaled NO-mediated blood flow velocities were measured by ultrasound imaging with sequential Doppler recordings in both internal carotid arteries and the basilar trunk under basal conditions and in a neonatal model of ischemia-reperfusion. The hemodynamic effects of iNO (5 to 80 ppm) were correlated with brain injury 48 hours after reperfusion.
Inhaled NO (20 ppm) significantly increased NO concentrations in the P7 rat cortex and compensated for the blockade of endogenous NO synthesis under normal conditions. Inhaled NO (20 ppm) during ischemia increased blood flow velocities and significantly reduced lesion volumes by 43% and cellular damage. In contrast, both 80 ppm iNO given during ischemia and 5 or 20 ppm iNO given 30 minutes after reperfusion were detrimental.
Our findings strongly indicate that, with the appropriate timing, 20 ppm iNO can be transported into the P7 rat brain and mediated blood flow redistribution during ischemia leading to reduced infarct volume and cell injury.
我们最近证明,内源性一氧化氮(NO)可调节大鼠新生卒中模型中的侧支血流。在成人缺血性脑损伤后,吸入一氧化氮(iNO)已被证明具有神经保护作用。我们的目的是研究 iNO 是否可以调节缺血再灌注期间的脑血流并减少发育中大脑的损伤。
在 P7 幼鼠中使用伏安法分析 20ppm iNO 暴露后皮质 NO 浓度的体内变化。在基础条件下和新生缺血再灌注模型中,通过超声成像和连续多普勒记录测量双侧颈内动脉和基底干中的血流速度。iNO(5 至 80ppm)的血液动力学效应与再灌注后 48 小时的脑损伤相关。
吸入的 iNO(20ppm)可显著增加 P7 大鼠皮质中的 NO 浓度,并在正常条件下补偿内源性 NO 合成的阻断。在缺血期间吸入的 iNO(20ppm)增加了血流速度,并通过 43%显著减少了病变体积和细胞损伤。相比之下,缺血时给予的 80ppm iNO 和再灌注后 30 分钟给予的 5 或 20ppm iNO 均有害。
我们的研究结果强烈表明,在适当的时间内,20ppm iNO 可以转运到 P7 大鼠的大脑中,并在缺血期间介导血流重新分布,从而减少梗死体积和细胞损伤。
