Add to ORKGEssential hypertension in humans and most experimental animal models of hypertension is hemodynamically characterized by an increased vascular resistance. The site of resistance increase has been localized by recent intravital microscopic studies in most vascular beds primarily in the microcirculation, i.e. in arterioles smaller than 150 microns. Three mechanisms are held responsible for the resistance increase: (1) a rarefaction of the smallest arterioles and capillaries, (2) an increased wall to lumen ratio and (3) a decreased internal diameter. The latter two effects have been localized primarily in the larger arterioles and arteries. The contribution of each of the three factors to the rise in total peripheral resistance depends on the ...
The characteristics of the response to pressor and depressor drugs in hypertensive animals suggest t...
The release of 5-hydroxytryptamine (5-HT) from aggregating platelets may trigger acute vasospastic e...
Abstract—Large arteries from hypertensive subjects are hyperresponsiveness to 5-hydroxytryptamine (5...
AIM: To review published evidence on the effects of arteriolar changes in primary and secondary hype...
Serotonin has complex effects on the cardiovascular system. In the intact animal it may cause increa...
Aincrease in the vascular resistance of virtually every organ system is a well-known characteristic ...
SUMMARY Information concerning the microcirculation has been obtained largely by intravital microsco...
Increased peripheral vascular resistance is the hemodynamic characteristic of essential hypertension...
Studies on hypertension in both human beings and animals have shown an increased response to vasopre...
Vascular pressures were measured in the principal (Al) arteriole and in upstream small arteries of t...
Serotonin causes contraction of the vascular smooth muscle cells in most blood vessels studied in vi...
The microcirculation plays a critical role in the pathophys-iology of hypertension.1,2 The increase ...
The major target for circulating serotonin (released from aggregating platelets) appears to be the b...
The goal of this study was to determine whether responses of cerebral vessels to intravascular admin...
The vasoconstrictor effects of serotonin can be explained by (a) activation of serotonergic receptor...
The characteristics of the response to pressor and depressor drugs in hypertensive animals suggest t...
The release of 5-hydroxytryptamine (5-HT) from aggregating platelets may trigger acute vasospastic e...
Abstract—Large arteries from hypertensive subjects are hyperresponsiveness to 5-hydroxytryptamine (5...
AIM: To review published evidence on the effects of arteriolar changes in primary and secondary hype...
Serotonin has complex effects on the cardiovascular system. In the intact animal it may cause increa...
Aincrease in the vascular resistance of virtually every organ system is a well-known characteristic ...
SUMMARY Information concerning the microcirculation has been obtained largely by intravital microsco...
Increased peripheral vascular resistance is the hemodynamic characteristic of essential hypertension...
Studies on hypertension in both human beings and animals have shown an increased response to vasopre...
Vascular pressures were measured in the principal (Al) arteriole and in upstream small arteries of t...
Serotonin causes contraction of the vascular smooth muscle cells in most blood vessels studied in vi...
The microcirculation plays a critical role in the pathophys-iology of hypertension.1,2 The increase ...
The major target for circulating serotonin (released from aggregating platelets) appears to be the b...
The goal of this study was to determine whether responses of cerebral vessels to intravascular admin...
The vasoconstrictor effects of serotonin can be explained by (a) activation of serotonergic receptor...
The characteristics of the response to pressor and depressor drugs in hypertensive animals suggest t...
The release of 5-hydroxytryptamine (5-HT) from aggregating platelets may trigger acute vasospastic e...
Abstract—Large arteries from hypertensive subjects are hyperresponsiveness to 5-hydroxytryptamine (5...