Geometry and bone mineral density determinants of femoral neck strength changes following exercise

O’Rourke, Dermot; Beck, Belinda Ruth; Harding, Amy T; Watson, Steven L; Pivonka, Peter; Martelli, Saulo

doi:10.1007/s10237-022-01642-w

Cited by 3 publications

(1 citation statement)

References 36 publications

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“…In all these cases, 3D-DXA has been postulated as a good tool for following up bone strength and the effects of different therapies. Considering these previous data on this topic, we believe that 3D-DXA modeling might be a promising approach to quantify cortical thickness and vBMD using clinical routine imaging techniques to be applied in the sports field 37 .…”

Section: Discussionmentioning

confidence: 99%

Femur 3D-DXA Assessment in Female Football Players, Swimmers, and Sedentary Controls

Amani

Bellver

Río³

et al. 2022

Int J Sports Med

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Cortical and trabecular volumetric bone mineral density (vBMD), cortical thickness and surface BMD (sBMD, density-to-thickness ratio) were analysed in the proximal femur of elite female football players and artistic swimmers using a three-dimensional dual-energy X-ray absorptiometry (3D-DXA) new software, and compared to sedentary controls. Football players had significantly higher (p<0.05) vBMD (mg/cm3) in trabecular (263±44) and cortical femur (886±69) than artistic swimmers (224±43 and 844±89) and sedentary controls (215±51 and 841±85). Football players had also higher (p<0.05) cortical thickness (2.12±0.19 mm) and sBMD (188±22 mg/cm2) compared to artistic swimmers (1.85±0.15 and 156±21) and sedentary controls (1.87±0.16 and 158±23). Artistic swimmers did not show significant differences in any parameter analysed for 3D-DXA when compared to sedentary controls. The 3D-DXA modelling revealed statistical differences in cortical thickness and vBMD between female athletes engaged in weight-bearing (football) and non-weight bearing (swimming) sports and did not show differences between the non-weight bearing sport and the sedentary controls. 3D-DXA modelling could provide insight into bone remodelling in sports field, allowing to evaluate femoral trabecular and cortical strength from standard DXA scans.

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Section: Discussionmentioning

confidence: 99%

Femur 3D-DXA Assessment in Female Football Players, Swimmers, and Sedentary Controls

Amani

Bellver

Río³

et al. 2022

Int J Sports Med

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Application of resistance exercise training combined with CT image evaluation in postoperative functional rehabilitation and fracture risk prediction of elderly femurs

Chen,

Liu,

et al. 2024

Journal of Radiation Research and Applied Sciences

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2D-3D reconstruction of the proximal femur from DXA scans: Evaluation of the 3D-Shaper software

Dudle

Gugler

Pretterklieber

et al. 2023

Front. Bioeng. Biotechnol.

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Introduction: Osteoporosis is currently diagnosed based on areal bone mineral density (aBMD) computed from 2D DXA scans. However, aBMD is a limited surrogate for femoral strength since it does not account for 3D bone geometry and density distribution. QCT scans combined with finite element (FE) analysis can deliver improved femoral strength predictions. However, non-negligible radiation dose and high costs prevent a systematic usage of this technique for screening purposes. As an alternative, the 3D-Shaper software (3D-Shaper Medical, Spain) reconstructs the 3D shape and density distribution of the femur from 2D DXA scans. This approach could deliver a more accurate estimation of femoral strength than aBMD by using FE analysis on the reconstructed 3D DXA.Methods: Here we present the first independent evaluation of the software, using a dataset of 77 ex vivo femora. We extend a prior evaluation by including the density distribution differences, the spatial correlation of density values and an FE analysis. Yet, cortical thickness is left out of this evaluation, since the cortex is not resolved in our FE models.Results: We found an average surface distance of 1.16 mm between 3D DXA and QCT images, which shows a good reconstruction of the bone geometry. Although BMD values obtained from 3D DXA and QCT correlated well (r2 = 0.92), the 3D DXA BMD were systematically lower. The average BMD difference amounted to 64 mg/cm3, more than one-third of the 3D DXA BMD. Furthermore, the low correlation (r2 = 0.48) between density values of both images indicates a limited reconstruction of the 3D density distribution. FE results were in good agreement between QCT and 3D DXA images, with a high coefficient of determination (r2 = 0.88). However, this correlation was not statistically different from a direct prediction by aBMD. Moreover, we found differences in the fracture patterns between the two image types. QCT-based FE analysis resulted mostly in femoral neck fractures and 3D DXA-based FE in subcapital or pertrochanteric fractures.Discussion: In conclusion, 3D-Shaper generates an altered BMD distribution compared to QCT but, after careful density calibration, shows an interesting potential for deriving a standardized femoral strength from a DXA scan.

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Geometry and bone mineral density determinants of femoral neck strength changes following exercise

Cited by 3 publications

References 36 publications

Femur 3D-DXA Assessment in Female Football Players, Swimmers, and Sedentary Controls

Femur 3D-DXA Assessment in Female Football Players, Swimmers, and Sedentary Controls

Application of resistance exercise training combined with CT image evaluation in postoperative functional rehabilitation and fracture risk prediction of elderly femurs

2D-3D reconstruction of the proximal femur from DXA scans: Evaluation of the 3D-Shaper software

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