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Anatomically Aligned Loading During Falls: Influence of Fall Protocol, Sex and Trochanteric Soft Tissue Thickness.

Authors :
Pretty SP
Levine IC
Laing AC
Source :
Annals of biomedical engineering [Ann Biomed Eng] 2021 Dec; Vol. 49 (12), pp. 3267-3279. Date of Electronic Publication: 2021 Sep 07.
Publication Year :
2021

Abstract

Fall simulations provide insight into skin-surface impact dynamics but have focused on vertical force magnitude. Loading direction and location (relative to the femur) likely influence stress generation. The current study characterized peak impact vector magnitude, orientation, and center of pressure over the femur during falls, and the influence of biological sex and trochanteric soft tissue thickness (TSTT). Forty young adults completed fall simulations including a vertical pelvis release, as well as kneeling and squat releases, which incorporate lateral/rotational motion. Force magnitude and direction varied substantially across fall simulations. Kneeling and squat releases elicited 57.4 and 38.8% greater force than pelvis release respectively, with differences accentuated in males. With respect to the femoral shaft, kneeling release had the most medially and squat release the most distally directed loading vectors. Across all fall simulations, sex and TSTT influenced force magnitude and center of pressure. Force was 28.0% lower in females and was applied more distally than in males. Low-TSTT participants had 16.8% lower force, applied closer to the greater trochanter than high-TSTT participants. Observed differences in skin-surface impact dynamics likely interact with underlying femur morphology to influence stress generation. These data should serve as inputs to tissue-level computational models assessing fracture risk.<br /> (© 2021. Crown.)

Details

Language :
English
ISSN :
1573-9686
Volume :
49
Issue :
12
Database :
MEDLINE
Journal :
Annals of biomedical engineering
Publication Type :
Academic Journal
Accession number :
34494215
Full Text :
https://doi.org/10.1007/s10439-021-02852-6