Yutaka Kikkawa scite author profile

SUMMARY. To determine the compensatory reserve capacity of the ventricular myocardium following infarction, the left coronary artery in rats was ligated, and the animals were killed 40 days later. Infarcts affecting an average 23% of the left ventricle were characterized by a 27% hypertrophic growth of the remaining myocardium that produced a complete replacement of the necrotic tissue. In contrast, infarcts with an average 50% loss of mass resulted in 83% expansion of the spared myocardium that was inadequate for a complete restoration of ventricular tissue. Myocyte hypertrophy was 26% and 78% in small and large infarcts, respectively. Cellular hypertrophy in both cases involved significant increases in myocyte transverse area and myocyte length. After large infarcts, there was an 18% reduction in capillary surface and a 16% increase in the diffusion distance. Corresponding values for small infarcts were -10% and 9%. These alterations combined with the deficient reconstitution of myocardial mass following large infarcts resulted in 25%, 29%, and 30% deficits in the absolute amounts of capillary lumen, surface, and length per ventricle respectively. Even with small infarcts, a deficit was seen in capillary luminal surface (-16%), and length (-19%). In conclusion, we have demonstrated that cardiac hypertrophy following myocardial infarction is consistent with cellular shape changes characteristic of a combination of concentric and eccentric hypertrophic growth. However, cardiac muscle cells appear to be unable to compensate for the loss of mass induced by a 50% infarct. The inadequate adaptation of the capillary vasculature in the infarcted hearts suggests that the injured ventricle is more vulnerable to additional ischemic episodes. (Circ Res 58: 26-37, 1986)

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Morphometry of exercise-induced right ventricular hypertrophy in the rat.

Anversa¹,

Levicky²,

Beghi³

et al. 1983

Circulation Research

143

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In our morphometric study of the effects of exercise on the heart, male Wistar-Kyoto rats at 5 weeks of age were subjected daily to a moderate treadmill running program that lasted for 7 weeks. The heart responded to physical conditioning by different magnitudes of tissue growth of the right (22%) and left (7%) ventricular myocardium, the latter change not statistically significant. The increase in right ventricular volume was associated with a 25% enlargement of ventricular area, a 26% average lengthening of the myocytes, and no change in sarcomere length and in ventricular midwall thickness. Exercise produced significant alterations in the quantitative parameters of the microvasculature of the right ventricle, but no appreciable changes in the left ventricle. Right ventricular hypertrophy was characterized by an absolute 44% growth of the endothelial luminal surface brought about through a 16% increase in capillary numerical density, and a 41% augmentation of the total length of the capillary network. Maximum diffusion distance from the capillary wall to the mitochondria of myocytes decreased 10% as a result of capillary proliferation and the lack of lateral expansion of myocyte cross-sectional area. Evaluation of the subcellular constituents of myocytes showed no change in the mitochondria:myofibrils volume ratio, indicating a growth of these components proportional to each other and to the growth of the myocyte population as a whole. It was concluded that, as a result of running exercise, right ventricular growth is analogous to eccentric hypertrophy in which the structural adaptations of the capillary bed can be expected to improve the diffusion and transport of oxygen within the tissue.

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The Effect of Thyroxine on the Maturation of Fetal Rabbit Lungs

et al. 1973

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The effect of thyroxine on the development of fetal rabbit lungs was evaluated. In the first series of experiments involving 26 animals, thyroxine was given intramuscularly to pregnant does for two days prior to premature delivery of fetuses at 26 to 28 days gestation (full term: 30 days). There was no evidence of accelerated lung maturation in the fetuses treated with thyroxine. In a second series of experiments of 20 pregnant does, thyroxine was injected directly into the fetuses and amniotic sacs in one uterine horn at 24 to 25 day gestation: saline was given to the fetuses in the other horn which served as controls. When delivered two days later, thyroxine treated fetuses in comparison to the controls showed a significant increase in surface activity of the lung although there was no appreciable difference in body length and weight, and lung weight. Electronmicroscopy revealed accelerated maturation of the fetal lung evidenced by an increase in the number of inclusion bodies and early disappearance of glycogen in the Type II alveolar cells in the treated fetuses.

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Morphometry of right ventricular hypertrophy induced by strenuous exercise in rat

Anversa¹,

Beghi²,

Levicky³

et al. 1982

American Journal of Physiology-Heart and Circulatory Physiology

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Effects on the myocardium, particularly those structural properties of the capillary network relevant to tissue oxygenation, were studied morphometrically in rats subjected to a severe running program. Physical conditioning produced a 31% increase in right ventricular weight and only a 12% increase in the weight of the left ventricle. Quantitative analysis of right ventricular myocardium demonstrated relative decreases in capillary luminal volume density (-27%) and capillary luminal surface density (-20%) and an increase in the average maximum distance from the capillary wall to the mitochondria of myocytes (14%). In contrast, the contractile mass expanded in proportion to the growth of the ventricle through augmentation of the cross-sectional area (17%) and length (19%) of the average myocyte. Evaluation of the subcellular constituents of myocytes showed no change in the mitochondria-to-myofibril volume ratio. In conclusion, the capillary bed controlling oxygen availability, diffusion, and transport suggests that excessive physical activity may be detrimental to the myocardium.

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Yutaka Kikkawa

Myocardial infarction in rats. Infarct size, myocyte hypertrophy, and capillary growth.

Morphometry of exercise-induced right ventricular hypertrophy in the rat.

The Effect of Thyroxine on the Maturation of Fetal Rabbit Lungs

Morphometry of right ventricular hypertrophy induced by strenuous exercise in rat

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