Structural organization of pulmonary arteries in the rat lung
- PMID: 7677256
- DOI: 10.1007/BF00186738
Structural organization of pulmonary arteries in the rat lung
Abstract
The structure of the normal pulmonary arteries in the rat was studied with light and electron microscopy after use of a newly devised technique of perfusion fixation and tissue preparation. We distinguished two main types of artery in the rat lung on the basis of the structure of the media, an elastic artery and a muscular artery. The elastic artery was characterized by an abundance of extracellular matrix in the media and by an oblique arrangement of smooth muscle cells to connect neighboring elastic laminae. It was subdivided into two segments, a classical elastic and a transitional elastic segment. The muscular artery was distinguished by a paucity of extracellular matrix in the media and by a circumferential arrangement of smooth muscle cells (or pericytes) enclosing the lumina, and was subdivided into four segments, a thick muscular, an ordinary muscular, a partially muscular and a nonmuscular segment. The smooth muscle cells in the muscular artery contained well-developed microfilament bundles compared with those in the elastic artery. Structural differences in smooth muscle cells and in extracellular matrix in the media between the elastic and muscular arteries may reflect the functional heterogeneity of pulmonary arteries in response to hypoxic pulmonary vasoconstriction and to vasoactive substances such as endothelium-derived relaxing and hyperpolarizing factors, and endothelin.
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