Abstract

Spasm of medium-sized arteries is recognized as the pathogenetic mechanism underlying Prinzmetal's variant angina, as well as contributing to coronary ischemia of angina pectoris and myocardial infarction; it also accounts for Raynaud's phenomenon. Despite the documentation that spasm occurs clinically in otherwise normal vessels, the factors which cause an artery to constrict and to close its lumen are not understood. Since maximal contraction of the smooth muscle of perfused coronary arteries does not result in vessel closure, factors other than smooth muscle contractility must play a role in clinical spasm. The hypothesis of this proposal is that physical conditions acting on the blood vessel wall must cooperate with smooth muscle contraction to facilitate spasm. The goal of the study is to analyze systematically the response of isolated canine and human coronary and peripheral arteries to local physical, humoral, and nervous influences to which they might be exposed in normal and abnormal circumstances, to determine if separately, or in combination, vasospasm can be documented in vitro. Since blood vessels are normally exposed to substances from inside and outside the vessel, the isolated arteries will be perfused in an organ bath so that they may be exposed to intraluminal or extraluminal agents. Hemodynamic factors of perfusion pressure, flow, lumen size, and blood viscosity will be varied to determine those physical conditions which most favor spasm. The arterial smooth muscle will be stimulated under pathologic conditions known, or suspected, to initiate vasospasm: aggregating platelets, stimulation of adrenergic nerves, anoxia, cooling, and vibration. Since the endothelium plays and important role in modulating the responses to vaso-active agents, studies will be conducted before, and after removal of, the endothelium. Since closure of the vessel lumen implies that smooth muscle contraction has overcome the hymodynamic forces maintaining the vessel patent, a direct measurement of vascular transmural pressure, the closing pressure, will be used to determine how each condition or stimulus affects the blood vessel to close.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL030668-03
Application #
3341698
Study Section
Experimental Cardiovascular Sciences Study Section (ECS)
Project Start
1984-04-01
Project End
1988-03-31
Budget Start
1986-04-01
Budget End
1988-03-31
Support Year
3
Fiscal Year
1986
Total Cost
Indirect Cost

  Institution

Name
Boston University
Department
Type
DUNS #
City
Boston
State
MA
Country
United States
Zip Code
02118

  Publications

Tesfamariam, B; Weisbrod, R M; Cohen, R A (1989) Augmented adrenergic contractions of carotid arteries from cholesterol-fed rabbits due to endothelial cell dysfunction. J Cardiovasc Pharmacol 13:820-5
Cohen, R A; Weisbrod, R M (1988) Endothelium inhibits norepinephrine release from adrenergic nerves of rabbit carotid artery. Am J Physiol 254:H871-8
Cohen, R A; Zitnay, K M; Weisbrod, R M et al. (1988) Influence of the endothelium on tone and the response of isolated pig coronary artery to norepinephrine. J Pharmacol Exp Ther 244:550-5
Tesfamariam, B; Cohen, R A (1988) Inhibition of adrenergic vasoconstriction by endothelial cell shear stress. Circ Res 63:720-5
Cohen, R A; Zitnay, K M; Haudenschild, C C et al. (1988) Loss of selective endothelial cell vasoactive functions caused by hypercholesterolemia in pig coronary arteries. Circ Res 63:903-10
Tesfamariam, B; Weisbrod, R M; Cohen, R A (1987) Endothelium inhibits responses of rabbit carotid artery to adrenergic nerve stimulation. Am J Physiol 253:H792-8
Cohen, R A; Zitnay, K M; Weisbrod, R M (1987) Accumulation of 5-hydroxytryptamine leads to dysfunction of adrenergic nerves in canine coronary artery following intimal damage in vivo. Circ Res 61:829-33
Cohen, R A; Zitnay, K M (1987) Adenosine diphosphate potentiates the inhibition of norepinephrine-induced relaxation by 5-hydroxytryptamine in canine coronary arteries. Eur J Pharmacol 133:335-40
Cohen, R A (1987) Inhibition of adrenergic neurotransmission in canine tibial artery after exposure to 5-hydroxytryptamine in vitro. J Pharmacol Exp Ther 242:493-9
Cohen, R A (1986) Adenine nucleotides and 5-hydroxytryptamine released by aggregating platelets inhibit adrenergic neurotransmission in canine coronary artery. J Clin Invest 77:369-75

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