Ultrastructural changes in arteries proximal to short-term experimental carotid-jugular arteriovenous fistulae in rabbits.

The afferent arteries of 10 carotid-jugular arteriovenous fistulae in rabbits were examined by transmission electron microscopy to determine the early ultrastructural changes in the vicinity of haemodynamically induced tears of the internal elastic lamina. No significant changes appeared to precede the development of the tears but radially orientated partial fractures were observed adjacent to some major tears. The elastic tissue tears became more numerous, extended proximally along the artery and with time involved the innermost medial elastic laminae. Endothelial discontinuities were present over only a few early tears and the small size suggested repair was rapid. Endothelial cells overlying the elastic tissue tears increased in density and thickness. They were adherent to the underlying matrix and eventually to the thickened and multilaminated basal lamina. In the floor of the tears between the edges of the torn internal elastic lamina there were some smooth muscle cells of the synthetic type, degenerative and necrotic muscle cells and areas devoid of matrix with scarce proteoglycan material suggestive of oedema. Sixteen days post-operatively the smooth muscle cells in the floor of the tears were all of the contractile variety with thickened basal laminae overlaid by a relatively normal endothelial layer. There was no suggestion that inflammatory cells were responsible for the elastic tissue tears. The abrupt edges and the adjacent microfractures are consistent with the concept of mechanical failure of the elastic tissue.