Fractal dimension analysis of weight-bearing bones of rats during skeletal unloading
Fractal analysis was used to quantify changes in trabecular bone induced through the use of a rat tail-suspension model to simulate microgravity-induced osteopenia. Fractal dimensions were estimated from digitized radiographs obtained from tail-suspended and ambulatory rats. Fifty 4-month-old male S...
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th-mahidol.264522018-09-07T16:46:48Z Fractal dimension analysis of weight-bearing bones of rats during skeletal unloading S. Pornprasertsuk J. B. Ludlow R. L. Webber D. A. Tyndall A. I. Sanhueza M. Yamauchi University of North Carolina School of Dentistry Mahidol University Biochemistry, Genetics and Molecular Biology Medicine Fractal analysis was used to quantify changes in trabecular bone induced through the use of a rat tail-suspension model to simulate microgravity-induced osteopenia. Fractal dimensions were estimated from digitized radiographs obtained from tail-suspended and ambulatory rats. Fifty 4-month-old male Sprague-Dawley rats were divided into groups of 24 ambulatory (control) and 26 suspended (test) animals. Rats of both groups were killed after periods of 1, 4, and 8 weeks. Femurs and tibiae were removed and radiographed with standard intraoral films and digitized using a flatbed scanner. Square regions of interest were cropped at proximal, middle, and distal areas of each bone. Fractal dimensions were estimated from slopes of regression lines fitted to circularly averaged plots of log power vs. log spatial frequency. The results showed that the computed fractal dimensions were significantly greater for images of trabecular bones from tail-suspended groups than for ambulatory groups (p < 0.01) at 1 week. Periods between 1 and 4 weeks likewise yielded significantly different estimates (p < 0.05), consistent with an increase in bone loss. In the tibiae, the proximal regions of the suspended group produced significantly greater fractal dimensions than other regions (p < 0.05), which suggests they were more susceptible to unloading. The data are consistent with other studies demonstrating osteopenia in microgravity environments and the regional response to skeletal unloading. Thus, fractal analysis could be a useful technique to evaluate the structural changes of bone. Copyright © 2001 Elsevier Science Inc. 2018-09-07T09:37:49Z 2018-09-07T09:37:49Z 2001-08-21 Article Bone. Vol.29, No.2 (2001), 180-184 10.1016/S8756-3282(01)00493-8 87563282 2-s2.0-0034902771 https://repository.li.mahidol.ac.th/handle/123456789/26452 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=0034902771&origin=inward |
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Biochemistry, Genetics and Molecular Biology Medicine S. Pornprasertsuk J. B. Ludlow R. L. Webber D. A. Tyndall A. I. Sanhueza M. Yamauchi Fractal dimension analysis of weight-bearing bones of rats during skeletal unloading |
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Fractal analysis was used to quantify changes in trabecular bone induced through the use of a rat tail-suspension model to simulate microgravity-induced osteopenia. Fractal dimensions were estimated from digitized radiographs obtained from tail-suspended and ambulatory rats. Fifty 4-month-old male Sprague-Dawley rats were divided into groups of 24 ambulatory (control) and 26 suspended (test) animals. Rats of both groups were killed after periods of 1, 4, and 8 weeks. Femurs and tibiae were removed and radiographed with standard intraoral films and digitized using a flatbed scanner. Square regions of interest were cropped at proximal, middle, and distal areas of each bone. Fractal dimensions were estimated from slopes of regression lines fitted to circularly averaged plots of log power vs. log spatial frequency. The results showed that the computed fractal dimensions were significantly greater for images of trabecular bones from tail-suspended groups than for ambulatory groups (p < 0.01) at 1 week. Periods between 1 and 4 weeks likewise yielded significantly different estimates (p < 0.05), consistent with an increase in bone loss. In the tibiae, the proximal regions of the suspended group produced significantly greater fractal dimensions than other regions (p < 0.05), which suggests they were more susceptible to unloading. The data are consistent with other studies demonstrating osteopenia in microgravity environments and the regional response to skeletal unloading. Thus, fractal analysis could be a useful technique to evaluate the structural changes of bone. Copyright © 2001 Elsevier Science Inc. |
| author2 |
University of North Carolina School of Dentistry |
| author_facet |
University of North Carolina School of Dentistry S. Pornprasertsuk J. B. Ludlow R. L. Webber D. A. Tyndall A. I. Sanhueza M. Yamauchi |
| format |
Article |
| author |
S. Pornprasertsuk J. B. Ludlow R. L. Webber D. A. Tyndall A. I. Sanhueza M. Yamauchi |
| author_sort |
S. Pornprasertsuk |
| title |
Fractal dimension analysis of weight-bearing bones of rats during skeletal unloading |
| title_short |
Fractal dimension analysis of weight-bearing bones of rats during skeletal unloading |
| title_full |
Fractal dimension analysis of weight-bearing bones of rats during skeletal unloading |
| title_fullStr |
Fractal dimension analysis of weight-bearing bones of rats during skeletal unloading |
| title_full_unstemmed |
Fractal dimension analysis of weight-bearing bones of rats during skeletal unloading |
| title_sort |
fractal dimension analysis of weight-bearing bones of rats during skeletal unloading |
| publishDate |
2018 |
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https://repository.li.mahidol.ac.th/handle/123456789/26452 |
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1763497131646124032 |