SummaryIn this study we compare the quality of vascular casts, obtained from organs of several animal species from different sources and sacrified under different conditions. Organs from healthy animals were injected with two different polymers such as Mercox and Batson No. 17. When the specimens were observed under a scanning electron microscope structural elements such as endothelial nuclear impressions on vessels and capillaries, endothelial cell borders, venous valves, imprints of smooth muscle cells and intra-arterial cushions were identified. Organs excised post mortem from large animals can be used for microvascular corrosion casting studies with optimal results.
A corrosion casting technique was used to study differences in the microvascular architecture of the pars cardiaca, the fundus ventriculi, the corpus ventriculi and the pars pylorica of the canine gastric mucosa. This technique revealed an unusual arrangement of the microvascular architecture in the nonglandular region surrounding the esophageal opening. Capillaries run tortuously along the mucosal surface parallel to the long axis of the esophagus, and some capillaries form a polygonal network that extends around the seromucous glands. In contrast, the mucosal capillaries of the glandular regions of the stomach are arranged in a symmetric pattern associated with the gastric glands. There are also differences in the mucosal microvessels of the cardiac and fundic areas compared to the corpus and the antrum. In the cardiac and fundic regions, a sparse microvascular pattern was observed and fewer capillaries drained into a single venule. However, the vessels surrounding the gastric glands in the corpus and antral areas drained into venules perpendicular to the hexagonal arrangement of the capillaries.
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