Distal radius sections offer accurate and precise estimates of forearm fracture load

Hosseinitabatabaei, Seyedmahdi; Kawalilak, Chantal E.; McDonald, Matthew P.; Kontulainen, Saija A.; Johnston, James D.

doi:10.1016/j.clinbiomech.2020.105144

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Journal Article

Distal radius sections offer accurate and precise estimates of forearm fracture load
Citation	Hosseinitabatabaei S, Kawalilak CE, McDonald MP, Kontulainen SA, Johnston JD. Clin. Biomech. 2020; 80: e105144.
Copyright	(Copyright © 2020, Elsevier Publishing)
DOI	10.1016/j.clinbiomech.2020.105144
PMID	32829235
Abstract	BACKGROUND: Forearm fracture risk can be estimated via factor-of-risk: the ratio of applied impact force to forearm fracture load. Simple techniques are available for estimating impact force associated with a fall; estimating forearm fracture load is more challenging. Our aim was to assess whether failure load estimates of sections of the distal radius (acquired using High-Resolution peripheral Quantitative Computed Tomography and finite element modeling) offer accurate and precise estimates of forearm fracture load. METHODS: We scanned a section of the distal radius of 19 cadaveric forearms (female, mean age 83.7, SD 8.3), and 34 women (75.0, 7.7). Sections were converted to finite element models and failure loads were acquired for different failure criteria. We assessed forearm fracture load using experimental testing simulating a fall on the outstretched hand. We used linear regression to derive relationships between ex vivo forearm fracture load and finite element derived distal radius failure load. We used derived regression coefficients to estimate forearm fracture load, and assessed explained variance and prediction error. We used root-mean-squared coefficients of variation to assess in vivo precision errors of estimated forearm fracture load. FINDINGS: Failure load estimates of sections of the distal radius, used in conjunction with derived regression coefficients, explained 89-90% of the variance in experimentally-measured forearm fracture load with prediction errors <6.8% and precision errors <5.0%. INTERPRETATION: Failure load estimates of distal radius sections can reliably estimate forearm fracture load experienced during a fall. Forearm fracture load estimates can be used to improve factor-of-risk predictions for forearm fracture. Language: en
Keywords	Precision; Distal radius; Factor-of-risk; Finite element analysis; Forearm; HR-pQCT