The effect of fall biomechanics on risk for hip fracture in older adults: a cohort study of video-captured falls in long-term care

Yang, Yijian; Komisar, Vicki; Shishov, Nataliya; Lo, Bryan; Korall, Alexandra Mb; Feldman, Fabio; Robinovitch, Stephen N.

doi:10.1002/jbmr.4048

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The effect of fall biomechanics on risk for hip fracture in older adults: a cohort study of video-captured falls in long-term care
Citation	Yang Y, Komisar V, Shishov N, Lo B, Korall AM, Feldman F, Robinovitch SN. J. Bone Miner. Res. 2020; ePub(ePub): ePub.
Affiliation	School of Engineering, Simon Fraser University, Burnaby, British Columbia, Canada.
Copyright	(Copyright © 2020, American Society for Bone and Mineral Research)
DOI	10.1002/jbmr.4048
PMID	32402136
Abstract	Over 95% of hip fractures in older adults are caused by falls, yet only 1-2% of falls result in hip fracture. Our current understanding of the types of falls that lead to hip fracture is based on reports by the faller or witness. We analyzed videos of real-life falls in long-term care to provide objective evidence on the factors that separate falls that result in hip fracture from falls that do not. Between 2007-2018, we video-captured 2377 falls by 646 residents in two long-term care facilities. Hip fracture was documented in 30 falls. We analyzed each video with a structured questionnaire, and used Generalized Estimating Equations to determine relative risk ratios (RRs) for hip fracture associated with various fall characteristics. All hip fractures involved falls from standing height, and pelvis impact with the ground. After excluding falls from less than standing height, risk for hip fracture was higher for sideways landing configurations (RR = 5.50; 95%CI: 2.36-12.78) than forward or backward, and for falls causing hip impact (3.38; 1.49-7.67). However, hip fracture risk was just as high in falls initially directed sideways as forward (1.14; 0.49-2.67), due to the tendency for rotation during descent. Falling while using a mobility aid was associated with lower fracture risk (0.30; 0.09-1.00). 70% of hip fractures involved impact to the posterolateral aspect of the pelvis. Hip protectors were worn in 73% of falls, and hip fracture risk was lower in falls where hip protectors were worn (0.45; 0.21-0.99). Age and sex were not associated with fracture risk. There was no evidence of spontaneous fractures. In this first study of video-captured falls causing hip fracture, we show that the biomechanics of falls involving hip fracture were different than non-fracture falls for fall height, fall direction, impact locations, and use of hip protectors. This article is protected by copyright. All rights reserved. Language: en
Keywords	Biomechanics; Falls; Hip fracture; Hip protectors; Video capture