M. Sanders scite author profile

The relationship between phasic systolic and diastolic coronary blood flow and its transmural distribution has been studied in 29 Yucatan miniature pigs at rest and during heavy exercise, with and without adenosine infusion (1.5 mg . kg-1 . min-1) and with and without a subtotal coronary artery occlusion. Altered factors that affected coronary flow included vascular resistance, perfusion pressure, myocardial oxygen demand, and extra-vascular pressure. The data indicate that, at rest, endomural perfusion is significantly dependent on diastolic blood flow. However, the ability of the myocardial vessels to autoregulate during systole as well as during diastole was clearly shown with the use of adenosine infusion. This ability to regulate flow intrinsically appeared to transcend the endocardial dependency on diastolic perfusion under certain stressful conditions, e.g., during heavy exercise, when the diastolic duration was significantly reduced. Systolic transmural perfusion may then become a significant factor in meeting the blood flow demands of the myocardium. However, due to gradients in vascular resistance, perfusion pressure, and oxygen demand, the coronary reserve of the epicardium appears to be greater than that of the endocardium under any condition.

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Myocardial blood flow distribution in miniature pigs during exercise

Sanders

White

Bloor

1977

Basic Res Cardiol

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Total and regional myocardial blood flow was measured in miniature pigs at rest and during two levels of treadmill exercise, including maximal exercise. Exercise increased the myocardial blood flow in a linear manner with heart rate (r = 0.87). At rest the endocardial/epicardial blood flow ratio was significantly greater than unity with flow favoring the endocardium. Exercise failed to appreciably alter the distribution of coronary blood flow. Thus the myocardium was capable of further dilatation and perfusion of blood without compromising endocardial flow even during the most severe level of exercise when maximal heart rates were attained.

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The impact of type 2 diabetes and peripheral arterial disease on quality of life

Oka¹,

Sanders²

2005

Journal of Vascular Nursing

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Cardiovascular responses of dogs and pigs exposed to similar physiological stress

Sanders

White

Bloor

1977

Comparative Biochemistry and Physiology Part A: Physiology

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M. Sanders

Regional redistribution of myocardial blood flow after coronary occlusion and reperfusion in the conscious dog

Characteristics of coronary blood flow and transmural distribution in miniature pigs

Myocardial blood flow distribution in miniature pigs during exercise

The impact of type 2 diabetes and peripheral arterial disease on quality of life

Cardiovascular responses of dogs and pigs exposed to similar physiological stress

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