Calcification in aging canine aortic valve.

Scanning electron microscopy Pub Date : 1986-01-01
K M Kim, S H Chang, B F Trump, H Spurgeon
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Abstract

Aging changes of aortic valves are thought to underlie the mechanism of calcification, which leads to calcific aortic stenosis in humans. The study of calcification in the aging valvular connective tissue has been hindered by the lack of a suitable animal model. In search of the model, canine aortic valves demonstrated age changes including calcification remarkably similar to those in humans. The mechanism of calcification was studied in the aortic valves of aged Beagles by electron microscopy. Fibroblasts in the canine aortic valves showed the most prominent age changes. The cells accumulated numerous residual bodies and appeared to disintegrate. The resultant membranous cellular degradation products which sequestered in the extracellular space were the nidi of calcification. It appeared that the membrane of cell debris played an important role in calcification. Canine aortic valve is an ideal model for the study of calcification in relation to aging of the valvular connective tissue.

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衰老犬主动脉瓣的钙化。
主动脉瓣的老化变化被认为是钙化机制的基础,钙化导致人类主动脉钙化狭窄。由于缺乏合适的动物模型,对老化瓣膜结缔组织钙化的研究一直受到阻碍。为了寻找模型,犬主动脉瓣显示出年龄变化,包括与人类非常相似的钙化。用电镜研究了老年比格犬主动脉瓣钙化的机理。犬主动脉瓣成纤维细胞年龄变化最明显。细胞堆积了许多残体,似乎要瓦解了。所产生的膜细胞降解产物被隔离在细胞外空间是钙化的尼迪。可见细胞碎片膜在钙化过程中起重要作用。犬主动脉瓣是研究与瓣膜结缔组织老化有关的钙化的理想模型。
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