N Thorin-Trescases1, J A Bevan. 1. Totman Laboratory for Cerebrovascular Research, Department of Pharmacology, College of Medicine, University of Vermont, Burlington, USA.
Abstract
BACKGROUND AND PURPOSE: Pressure and shear stress exerted by flowing blood are two mechanical forces that play a major role in the regulation of vascular tone. We sought to evaluate the interaction between pressure and flow in isolated rabbit cerebral arteries. METHODS: Responses to intraluminal flow of isolated pressurized rabbit posterior cerebral arteries were investigated at low, medium, and high levels of myogenic tone by setting the luminal pressure at 40, 60, and 80 mm Hg, respectively. RESULTS: At both low and medium levels of myogenic tone, flow induced dilation. The response was significantly larger at 40 than at 60 mm Hg. At the high level of myogenic tone, the response to flow consisted of a combination of an initial transient dilation followed by sustained constriction. Flow-induced dilation but not flow-induced constriction response was endothelium dependent. Removal of the endothelium inhibited the dilator response by approximately 80%. Flow-induced dilation was inhibited (approximately 40%) by N omega-nitro-L-arginine (100 mumol/L) but not by indomethacin (10 mumol/L). Endothelium removal not only decreased the amplitude of flow-induced dilation but also promoted the appearance of flow-induced constriction at low and medium levels of myogenic tone. CONCLUSIONS: The intraluminal pressure and in consequence the level of myogenic tone at which flow is applied determine the nature of the response of the smooth muscle cells of the blood vessel wall.
BACKGROUND AND PURPOSE: Pressure and shear stress exerted by flowing blood are two mechanical forces that play a major role in the regulation of vascular tone. We sought to evaluate the interaction between pressure and flow in isolated rabbit cerebral arteries. METHODS: Responses to intraluminal flow of isolated pressurized rabbit posterior cerebral arteries were investigated at low, medium, and high levels of myogenic tone by setting the luminal pressure at 40, 60, and 80 mm Hg, respectively. RESULTS: At both low and medium levels of myogenic tone, flow induced dilation. The response was significantly larger at 40 than at 60 mm Hg. At the high level of myogenic tone, the response to flow consisted of a combination of an initial transient dilation followed by sustained constriction. Flow-induced dilation but not flow-induced constriction response was endothelium dependent. Removal of the endothelium inhibited the dilator response by approximately 80%. Flow-induced dilation was inhibited (approximately 40%) by N omega-nitro-L-arginine (100 mumol/L) but not by indomethacin (10 mumol/L). Endothelium removal not only decreased the amplitude of flow-induced dilation but also promoted the appearance of flow-induced constriction at low and medium levels of myogenic tone. CONCLUSIONS: The intraluminal pressure and in consequence the level of myogenic tone at which flow is applied determine the nature of the response of the smooth muscle cells of the blood vessel wall.
Authors: Bijoy K Menon; Billy O'Brien; Andrew Bivard; Neil J Spratt; Andrew M Demchuk; Ferdinand Miteff; Xuewen Lu; Christopher Levi; Mark W Parsons Journal: J Cereb Blood Flow Metab Date: 2012-11-14 Impact factor: 6.200
Authors: E J Belin de Chantemèle; K Retailleau; F Pinaud; E Vessières; A Bocquet; A L Guihot; B Lemaire; V Domenga; C Baufreton; L Loufrani; A Joutel; D Henrion Journal: Arterioscler Thromb Vasc Biol Date: 2008-09-25 Impact factor: 8.311