Guild Sarah-Jane, Eppel Gabriela A, Malpas Simon C, Rajapakse Niwanthi W, Stewart Alistair, Evans Roger G
Circulatory Control Laboratory, Department of Physiology, University of Auckland, Auckland, New Zealand.
Am J Physiol Regul Integr Comp Physiol. 2002 Nov;283(5):R1177-86. doi: 10.1152/ajpregu.00151.2002.
We tested for regional differences in perfusion responses, within the renal medulla and cortex, to renal nerve stimulation in pentobarbital sodium-anesthetized rabbits. Laser-Doppler flux (LDF) was monitored at various depths below the cortical surface (1-15 mm). Basal cortical LDF (1-3 mm, approximately 200-450 U) was greater than medullary LDF (5-15 mm, approximately 70-160 U), but there were no statistically significant differences in basal LDF within these regions. The background LDF signal during aortic occlusion was similar in the cortex (2 mm, 31 U) and outer medulla (7 mm, 31 U), but slightly greater in the inner medulla (12 mm, 44 U). During electrical stimulation of the renal nerves (0.5-8 Hz), cortical LDF and total renal blood flow were similarly progressively reduced with increasing stimulus frequency. Medullary LDF (measured between 5 and 15 mm) was overall less responsive than cortical LDF. For example, 4-Hz stimulation reduced inner medullary LDF (9 mm) by 19 +/- 6% but reduced cortical LDF (1 mm) by 54 +/- 11%. However, medullary LDF responses to nerve stimulation were similar at all depths measured. Our results indicate that while the vascular elements controlling medullary perfusion are less sensitive to the effects of electrical stimulation of the renal nerves than are those controlling cortical perfusion, sensitivity within these vascular territories appears to be relatively homogeneous.
我们在戊巴比妥钠麻醉的兔体内,测试了肾髓质和皮质对肾神经刺激的灌注反应的区域差异。在皮质表面以下不同深度(1 - 15毫米)监测激光多普勒血流(LDF)。皮质基底LDF(1 - 3毫米,约200 - 450单位)大于髓质LDF(5 - 15毫米,约70 - 160单位),但这些区域内的基底LDF在统计学上无显著差异。主动脉阻断期间的背景LDF信号在皮质(2毫米,31单位)和外髓质(7毫米,31单位)相似,但在内髓质(12毫米,44单位)略高。在肾神经电刺激(0.5 - 8赫兹)期间,皮质LDF和肾总血流量随刺激频率增加而类似地逐渐降低。髓质LDF(在5至15毫米之间测量)总体上比皮质LDF反应性低。例如,4赫兹刺激使内髓质LDF(9毫米)降低19±6%,但使皮质LDF(1毫米)降低54±11%。然而,在所有测量深度,髓质LDF对神经刺激的反应相似。我们的结果表明,虽然控制髓质灌注的血管成分对肾神经电刺激的作用比控制皮质灌注的血管成分更不敏感,但这些血管区域内的敏感性似乎相对均匀。
