Peter F. Banitt scite author profile

Background The endogenous nucleoside adenosine plays an important role in the regulation of vascular tone, especially during ischemia. Experimental data derived from animal m od els suggest that nitric oxide (NO) contributes to the vasodilator effect of adenosine. The primary purpose of this investigation was to determine whether the endothelial release of NO contributes to adenosine-induced vasodilation in humans.Methods and Results Venous occlusion plethysmography was used to assess the forearm blood flow (FBF) responses to graded intra-arterial infusions of adenosine (1.5 to 500 ju,g/ min). Dose-response curves were constructed before and dur ing intra-arterial infusion of the N O synthase inhibitor N a-

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Activation of ATP-sensitive potassium channels contributes to reactive hyperemia in humans

Banitt

Smits

Williams

et al. 1996

American Journal of Physiology-Heart and Circulatory Physiology

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Characteristics of canine coronary resistance arteries: importance of endothelium

Myers

Banitt

Guerra

et al. 1989

American Journal of Physiology-Heart and Circulatory Physiology

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Canine coronary resistance vessels were studied in vitro to examine the role of the endothelium in modulating responses to acetylcholine, vasopressin, and thrombin and to compare these responses to those found in large epicardial vessels. Acetylcholine had no effect on passively distended microvessels; however, after preconstriction with the thromboxane analogue, U 46619 caused dose-dependent vasodilation [50% effective concentration (EC50), 0.05 microM; maximum response, 97.9 +/- 2.1% relaxation]. Large epicardial arterial rings studied in organ chambers similarly relaxed to acetylcholine (EC50, 0.07 microM; maximum response, 79 +/- 5% relaxation). Hemoglobin was utilized to inactivate endothelium-derived relaxing factor (EDRF), resulting in reversal of acetylcholine vasodilation in both the microvessels (92 +/- 3.2% reversal) and the large epicardial vessels (117 +/- 9%). Hemoglobin had no effect on passively distended or preconstricted microvessels. Vasopressin constricted resistance vessels by 22.3 +/- 5.9 microns at 500 microU/ml. Hemoglobin potentiated this response by 100%, suggesting that vasopressin elicited EDRF release. In large coronary arteries, however, vasopressin elicited endothelium-dependent dilation with maximal relaxation of 36 +/- 9% at 3,000 microU/ml. Thrombin produced endothelium-dependent relaxation of large epicardial arterial rings but only constricted coronary microvessels. The response to thrombin was not altered by hemoglobin. This study demonstrates that the endothelium of coronary microvessels, like that of larger vessels, importantly modulates vascular reactivity to selected agents. Furthermore, major differences exist between large and small coronary arteries in their response to vasopressin and thrombin.

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The Effect of Norepinephrine on the Coronary Microcirculation

Quillen

Sellke²,

Banitt³

et al. 1992

J Vasc Res

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The role of the sympathetic nervous system in the regulation of large coronary artery tone has been well defined. Studies of adrenergic regulation of coronary-resistance vessels have largely been limited to indirect inferences based on flow measurement obtained in vivo. The purpose of the present study was to determine the effects of norepinephrine (NE) on the coronary microcirculation using direct in vitro approaches. Porcine coronary microvessels (80-200 µm in diameter) were pressurized in isolated organ chambers. Diameters were measured using a Halpern microvessel imaging apparatus. After preconstriction with leukotriene D₄, NE caused complete relaxation. Relaxations to NE were inhibited by propranolol. Relaxations to NE were also inhibited by LY83583 (which depletes cGMP) and hemoglobin (which binds endothelium-derived relaxing factor, EDRF). NE caused minimal or no constriction in both preconstricted and nonpreconstricted microvessels even in the presence of hemoglobin and propranolol. In conclusion, NE predominantly dilates porcine coronary microvessels, both by β-adrenoceptor activation and by stimulating release of EDRF. There is minimal α-adrenoceptor-mediated constriction of coronary microvessels.

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Role of the endothelium in modulation of the acetylcholine vasoconstrictor response in porcine coronary microvessels

Myers

Banitt²,

Guerra³

et al. 1991

Cardiovascular Research

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The results show the microvessels and large coronary arteries are similar in their vasoconstrictor response to acetylcholine, that both release EDRF basally, and that vasoconstriction to acetylcholine is importantly modulated by the endothelium. In large arteries, acetylcholine does not stimulate EDRF release and, in contrast to microvessels, a cyclo-oxygenase product influences the vasoconstrictor action of acetylcholine.

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Peter F. Banitt

Endothelial Release of Nitric Oxide Contributes to the Vasodilator Effect of Adenosine in Humans

Activation of ATP-sensitive potassium channels contributes to reactive hyperemia in humans

Characteristics of canine coronary resistance arteries: importance of endothelium

The Effect of Norepinephrine on the Coronary Microcirculation

Role of the endothelium in modulation of the acetylcholine vasoconstrictor response in porcine coronary microvessels

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