17284608

pubmed:Citation

7

The concept of fractal geometry is useful for the analysis of irregular and complex structures often seen in nature. Here we apply this concept to investigate the structural mechanism of the development of pulmonary emphysema in the klotho mouse, which, after milk feeding, exhibits characteristics resembling aging and develops emphysema. We calculated the relationships between perimeter and size characterizing shape and between cumulative frequency and size of the terminal air spaces identified from histologic slides and found that both relations followed a power law with fractal properties. However, the fractal dimensions related to the shape and size (Dsn) in the klotho mice were significantly lower than in controls. Additionally, in the klotho mice, Dsn decreased with age without significant change in mean linear intercept. These abnormal morphological changes were restored when the klotho mice were fed with a vitamin D-deficient diet. Previously undescribed morphological model simulations showed that a random destruction, in which the destruction process occurs homogeneously in the lungs, was more consistent with the data than a correlated destruction that is usually seen in smoking-related human emphysema. These results suggest that the pathological changes in the lungs of the klotho mice are derived not from localized causes, but from systemic causes that are related to abnormal activation of vitamin D. The morphogenesis of emphysema in the klotho mice and morphological analyses using fractal geometry may contribute to the understanding of the progressive nature and cause of parenchymal destruction in human emphysema.

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http://linkedlifedata.com/resource/pubmed/journal/7505876

http://linkedlifedata.com/resource/pubmed/chemical/Glucuronidase, http://linkedlifedata.com/resource/pubmed/chemical/Vitamin D, http://linkedlifedata.com/resource/pubmed/chemical/klotho protein

Feb

pubmed-author:HiraiToyohiroT, pubmed-author:ImuraAkihiroA, pubmed-author:IwanoAkikoA, pubmed-author:KitaNaokoN, pubmed-author:MishimaMichiakiM, pubmed-author:MuroShigeoS, pubmed-author:NabeshimaYo-ichiY, pubmed-author:SatoAtsuyasuA, pubmed-author:SukiBelaB

13

NLM

2361-5

pubmed-meshheading:17284608-Aging, pubmed-meshheading:17284608-Animals, pubmed-meshheading:17284608-Disease Models, Animal, pubmed-meshheading:17284608-Disease Progression, pubmed-meshheading:17284608-Fractals, pubmed-meshheading:17284608-Glucuronidase, pubmed-meshheading:17284608-Lung, pubmed-meshheading:17284608-Mice, pubmed-meshheading:17284608-Models, Biological, pubmed-meshheading:17284608-Pulmonary Emphysema, pubmed-meshheading:17284608-Vitamin D

Morphological mechanism of the development of pulmonary emphysema in klotho mice.

Journal Article, Research Support, Non-U.S. Gov't, Research Support, N.I.H., Extramural