Predicting osteoporosis by analyzing fracture risk factors and trabecular microarchitectures of the proximal femur from DXA images

Eun Byeol Jo; Ju Hwan Lee; Sung Yun Park; Sung Min Kim

doi:10.1007/978-3-642-41674-3_31

Predicting osteoporosis by analyzing fracture risk factors and trabecular microarchitectures of the proximal femur from DXA images

Eun Byeol Jo, Ju Hwan Lee, Sung Yun Park, Sung Min Kim

Department of Biomedical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This study aimed to identify the optimal threshold ranges for predicting osteoporosis and osteoporotic fractures by analyzing the correlations between trabecular patterns and fracture risk factors. We selected 85 post-menopausal women as experimental subjects and classified them into 29 normal and 56 osteoporotic groups. We proposed a novel thresholding algorithm that divides the threshold ranges from 0 to 95% based on trabecular bone area and assessed osteoporosis predictability for each range. Evaluation parameters were categorized into morphological parameters (Tb.Area, Sk.Length and fractal dimension) and fracture risk factors (MSCT, LSCT, FNW, TW, FNAL and HAL). Consequently, we found the clinical usefulness of our algorithm for discriminating patients with osteoporosis from those with normal bone. The significances between the morphological parameters and the fracture risk factors improved as bone mineral density decreased. Based on these results, we selected the optimal threshold conditions for predicting osteoporosis and osteoporotic fractures at thresholds of 40-80%.

Original language	English
Title of host publication	Advanced in Computer Science and Its Applications, CSA 2013
Publisher	Springer Verlag
Pages	209-216
Number of pages	8
ISBN (Print)	9783642416736
DOIs	https://doi.org/10.1007/978-3-642-41674-3_31
State	Published - 2014
Event	5th FTRA International Conference on Computer Science and its Applications, CSA 2013 - Danang, Viet Nam Duration: 18 Dec 2013 → 21 Dec 2013

Publication series

Name	Lecture Notes in Electrical Engineering
Volume	279 LNEE
ISSN (Print)	1876-1100
ISSN (Electronic)	1876-1119

Conference

Conference	5th FTRA International Conference on Computer Science and its Applications, CSA 2013
Country/Territory	Viet Nam
City	Danang
Period	18/12/13 → 21/12/13

Keywords

BMD (Bone Mineral Density)
DXA (Dual-energy X-ray Absorptiometry)
Osteoporosis
Osteoporotic Fracture
Threshold
Trabecular Bone

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10.1007/978-3-642-41674-3_31

Cite this

Jo, E. B., Lee, J. H., Park, S. Y., & Kim, S. M. (2014). Predicting osteoporosis by analyzing fracture risk factors and trabecular microarchitectures of the proximal femur from DXA images. In Advanced in Computer Science and Its Applications, CSA 2013 (pp. 209-216). (Lecture Notes in Electrical Engineering; Vol. 279 LNEE). Springer Verlag. https://doi.org/10.1007/978-3-642-41674-3_31

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title = "Predicting osteoporosis by analyzing fracture risk factors and trabecular microarchitectures of the proximal femur from DXA images",

abstract = "This study aimed to identify the optimal threshold ranges for predicting osteoporosis and osteoporotic fractures by analyzing the correlations between trabecular patterns and fracture risk factors. We selected 85 post-menopausal women as experimental subjects and classified them into 29 normal and 56 osteoporotic groups. We proposed a novel thresholding algorithm that divides the threshold ranges from 0 to 95% based on trabecular bone area and assessed osteoporosis predictability for each range. Evaluation parameters were categorized into morphological parameters (Tb.Area, Sk.Length and fractal dimension) and fracture risk factors (MSCT, LSCT, FNW, TW, FNAL and HAL). Consequently, we found the clinical usefulness of our algorithm for discriminating patients with osteoporosis from those with normal bone. The significances between the morphological parameters and the fracture risk factors improved as bone mineral density decreased. Based on these results, we selected the optimal threshold conditions for predicting osteoporosis and osteoporotic fractures at thresholds of 40-80%.",

keywords = "BMD (Bone Mineral Density), DXA (Dual-energy X-ray Absorptiometry), Osteoporosis, Osteoporotic Fracture, Threshold, Trabecular Bone",

author = "Jo, {Eun Byeol} and Lee, {Ju Hwan} and Park, {Sung Yun} and Kim, {Sung Min}",

year = "2014",

doi = "10.1007/978-3-642-41674-3_31",

language = "English",

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series = "Lecture Notes in Electrical Engineering",

publisher = "Springer Verlag",

pages = "209--216",

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Jo, EB, Lee, JH, Park, SY & Kim, SM 2014, Predicting osteoporosis by analyzing fracture risk factors and trabecular microarchitectures of the proximal femur from DXA images. in Advanced in Computer Science and Its Applications, CSA 2013. Lecture Notes in Electrical Engineering, vol. 279 LNEE, Springer Verlag, pp. 209-216, 5th FTRA International Conference on Computer Science and its Applications, CSA 2013, Danang, Viet Nam, 18/12/13. https://doi.org/10.1007/978-3-642-41674-3_31

Predicting osteoporosis by analyzing fracture risk factors and trabecular microarchitectures of the proximal femur from DXA images. / Jo, Eun Byeol; Lee, Ju Hwan; Park, Sung Yun et al.
Advanced in Computer Science and Its Applications, CSA 2013. Springer Verlag, 2014. p. 209-216 (Lecture Notes in Electrical Engineering; Vol. 279 LNEE).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Jo, Eun Byeol

AU - Lee, Ju Hwan

AU - Park, Sung Yun

AU - Kim, Sung Min

PY - 2014

Y1 - 2014

N2 - This study aimed to identify the optimal threshold ranges for predicting osteoporosis and osteoporotic fractures by analyzing the correlations between trabecular patterns and fracture risk factors. We selected 85 post-menopausal women as experimental subjects and classified them into 29 normal and 56 osteoporotic groups. We proposed a novel thresholding algorithm that divides the threshold ranges from 0 to 95% based on trabecular bone area and assessed osteoporosis predictability for each range. Evaluation parameters were categorized into morphological parameters (Tb.Area, Sk.Length and fractal dimension) and fracture risk factors (MSCT, LSCT, FNW, TW, FNAL and HAL). Consequently, we found the clinical usefulness of our algorithm for discriminating patients with osteoporosis from those with normal bone. The significances between the morphological parameters and the fracture risk factors improved as bone mineral density decreased. Based on these results, we selected the optimal threshold conditions for predicting osteoporosis and osteoporotic fractures at thresholds of 40-80%.

AB - This study aimed to identify the optimal threshold ranges for predicting osteoporosis and osteoporotic fractures by analyzing the correlations between trabecular patterns and fracture risk factors. We selected 85 post-menopausal women as experimental subjects and classified them into 29 normal and 56 osteoporotic groups. We proposed a novel thresholding algorithm that divides the threshold ranges from 0 to 95% based on trabecular bone area and assessed osteoporosis predictability for each range. Evaluation parameters were categorized into morphological parameters (Tb.Area, Sk.Length and fractal dimension) and fracture risk factors (MSCT, LSCT, FNW, TW, FNAL and HAL). Consequently, we found the clinical usefulness of our algorithm for discriminating patients with osteoporosis from those with normal bone. The significances between the morphological parameters and the fracture risk factors improved as bone mineral density decreased. Based on these results, we selected the optimal threshold conditions for predicting osteoporosis and osteoporotic fractures at thresholds of 40-80%.

KW - BMD (Bone Mineral Density)

KW - DXA (Dual-energy X-ray Absorptiometry)

KW - Osteoporosis

KW - Osteoporotic Fracture

KW - Threshold

KW - Trabecular Bone

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BT - Advanced in Computer Science and Its Applications, CSA 2013

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Y2 - 18 December 2013 through 21 December 2013

ER -

Predicting osteoporosis by analyzing fracture risk factors and trabecular microarchitectures of the proximal femur from DXA images

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Keywords

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