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Kersh, Mariana E.
1,2
Resolving nanoscale strains in whole joints
Nat Biomed Eng
. March 2020;4(3):257-258
Affiliations
1
Department of Mechanical Science and Engineering,
University of Illinois at Urbana-Champaign
, Urbana, IL, USA
2
Beckman Institute for Advanced Science and Technology,
University of Illinois at Urbana-Champaign
, Urbana, IL, USA
Abstract
Nanoscale strains in the intact whole joints of young, old and osteoarthritic mice can be resolved ex vivo via synchrotron X-ray tomography when combined with nanometrically precise mechanical loading.
Links
DOI:
10.1038/s41551-020-0531-z
PubMed:
32165728
WoS:
000519440200007
History
Online: 2020-03-12
Cited Works (4)
Year
Entry
2019
Song H, Polk JD, Kersh ME. Rat bone properties and their relationship to gait during growth.
J Exp Biol
. September 2019;222(18):jeb203554.
2014
Dall’Ara E, Barber D, Viceconti M. About the inevitable compromise between spatial resolution and accuracy of strain measurement for bone tissue: a 3D zero-strain study.
J Biomech
. September 22, 2014;47(12):2956-2963.
2013
Kersh ME, Pandy MG, Bui QM, Jones AC, Arns CH, Knackstedt MA, Seeman E, Zebaze RMD. The heterogeneity in femoral neck structure and strength.
J Bone Miner Res
. May 2013;28(5):1022-1028.
2018
Kersh ME, Martelli S, Zebaze R, Seeman E, Pandy MG. Mechanical loading of the femoral neck in human locomotion.
J Bone Miner Res
. November 2018;33(11):1999-2006.
Cited By (1)
Year
Entry
2021
Kusins J.
A Multi-Level Mechanical Assessment of the Shoulder Coupled With Evaluation of Upper Extremity Predictive Finite Element Models
[PhD thesis]. University of Western Ontario; 2021.