Cardiovascular measurements relevant to heart size in copper-deficient rats.

Dietary copper deficiency in animals is often associated with cardiac enlargement and anemia. In this study we examined the hypothesis that anemia leads to a high cardiac output state that results in work-induced (physiological) cardiac hypertrophy. Blood pressure was measured by carotid cannulation and cardiac output was measured by aortic flow probe in anesthetized, open-chested rats that had been subjected to various degrees of dietary copper deficiency for five weeks. Cardiac output was unaffected by dietary copper deficiency. However, the components of cardiac output were found to vary reciprocally, heart rate decreasing and stroke volume increasing with copper deficiency. Further, total peripheral resistance, calculated as the ratio of mean arterial blood pressure and cardiac output, was depressed by dietary copper deficiency. These findings suggest that bradycardia and depression of vascular resistance induced by copper deficiency contribute to increased venous filling and a resultant increase in stroke volume; these factors may lead to cardiac hypertrophy. A significant correlation between stroke volume and heart weight in rats of varying copper status supports this conclusion.