Prediction of lumbar vertebral body compressive strength of overweight and obese older adults using morphed subject-specific finite-element models to evaluate the effects of weight loss

Background Diet and exercise can promote weight loss in older adults; however, there is potential to increase fracture risk due to loss of bone mineral density (BMD) known to accompany weight loss. Weight loss effects on measures of bone quality and strength are currently unknown. Aims The purpose o...

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Bibliographic Details
Published in:Aging clinical and experimental research 2019-04, Vol.31 (4), p.491-501
Main Authors: Schoell, Samantha L., Beavers, Kristen M., Beavers, Daniel P., Lenchik, Leon, Marsh, Anthony P., Rejeski, W. Jack, Stitzel, Joel D., Weaver, Ashley A.
Format: Article
Language:English
Subjects:
Aged
Biomechanical Phenomena
Bone density
Bone Density - physiology
Compressive Strength - physiology
Exercise
Female
Finite Element Analysis
Fractures
Geriatrics/Gerontology
Humans
Intervention
Lumbar Vertebrae - diagnostic imaging
Male
Medical imaging
Medicine
Medicine & Public Health
Middle Aged
Obesity
Obesity - physiopathology
Older people
Original Article
Osteoporosis
Software
Tomography, X-Ray Computed
Vertebrae
Weight control
Weight Loss - physiology
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Summary:Background Diet and exercise can promote weight loss in older adults; however, there is potential to increase fracture risk due to loss of bone mineral density (BMD) known to accompany weight loss. Weight loss effects on measures of bone quality and strength are currently unknown. Aims The purpose of this study is to develop subject-specific finite-element (FE) models of the lumbar spine and study the effect of intentional weight loss on bone strength in a pilot data set. Methods Computed tomography (CT) scans of the lumbar spine of 30 overweight and obese (mean BMI = 29.7 ± 3.9 kg/m 2 ), older adults (mean age = 65.9 ± 4.6 years) undergoing an 18-month intentional weight loss intervention were obtained at baseline and post-intervention. Measures of volumetric BMD (vBMD) and variable cortical thickness were derived from each subject CT scan. Development of the subject-specific FE models of the lumbar spine involved model morphing techniques to accelerate the development of the models. vBMD-derived material properties and cortical thickness measures were directly mapped to baseline and post-intervention models. Bone strength was estimated through simulation of a quasi-static uniaxial compression test. Results From baseline to 18-month post-weight loss intervention, there were statistically significant decreases in estimated bone strength (6.5% decrease; p  
ISSN:1720-8319
1594-0667
1720-8319
DOI:10.1007/s40520-018-1010-1