Spatial arrangement of the heart structure: Application of second-order stereology in diabetic rats

Abstract

The present study explored three-dimensional spatial arrangements of the cardiomyocytes and microvessels within the heart of rats and evaluated the arrangement for differences after diabetes using second-order stereology. Isector method was applied to obtain isotropic uniform random sections of the heart. The pair correlation g(r) and cross-correlation functions were estimated by counting dipole probes (with length of 3.57 μm) superimposed on histological sections of the heart. The co-variograms indicated that the curve of g(r) for the cardiomyocyte showed a gap between cardiomyocytes at r=21-25 μm in the control rats and a wider gap at r=18-50 μm in diabetic hearts. Estimates of g(r) for the vessels also showed a wider gap (at r=25-39 μm) in diabetic hearts compared to the control rats (r=25-32 μm). These indicate a negative correlation (repulsion) between the cardiomyocytes and microvessels in the diabetic hearts. Evaluation of the cross-correlation function of the cardiomyocytes and microvessels showed that at 32-36 μm, both structures had a negative correlation in the control group, but not in the diabetic rats. Dissociation of the cardiomyocytes at some places can be seen in diabetic heart. This can be seen also in microvessels. Neither cardiomyocytes nor microvessels are arranged normally after diabetes.