|Mathematical relationships between bone density and mechanical properties: a literature review|
B Helgason, E Perilli, E Schileo, F Taddei, S Brynjólfsson, M Viceconti
Clinical biomechanics 23 (2), 135-146, 2008
|The material mapping strategy influences the accuracy of CT-based finite element models of bones: an evaluation against experimental measurements|
F Taddei, E Schileo, B Helgason, L Cristofolini, M Viceconti
Medical engineering & physics 29 (9), 973-979, 2007
|A modified method for assigning material properties to FE models of bones|
B Helgason, F Taddei, H Pálsson, E Schileo, L Cristofolini, M Viceconti, ...
Medical engineering & physics 30 (4), 444-453, 2008
|Risk of failure during gait for direct skeletal attachment of a femoral prosthesis: a finite element study|
B Helgason, H Pálsson, TP Rúnarsson, L Frossard, M Viceconti
Medical engineering & physics 31 (5), 595-600, 2009
|Muscle, tendons, and bone: structural changes during denervation and FES treatment|
P Gargiulo, P Jens Reynisson, B Helgason, H Kern, W Mayr, P Ingvarsson, ...
Neurological Research 33 (7), 750-758, 2011
|Interactive graph-cut segmentation for fast creation of finite element models from clinical ct data for hip fracture prediction|
Y Pauchard, T Fitze, D Browarnik, A Eskandari, I Pauchard, W Enns-Bray, ...
Computer methods in biomechanics and biomedical engineering 19 (16), 1693-1703, 2016
|The influence of the modulus–density relationship and the material mapping method on the simulated mechanical response of the proximal femur in side-ways fall loading configuration|
B Helgason, S Gilchrist, O Ariza, P Vogt, W Enns-Bray, RP Widmer, T Fitze, ...
Medical engineering & physics 38 (7), 679-689, 2016
|Development of a balanced experimental–computational approach to understanding the mechanics of proximal femur fractures|
B Helgason, S Gilchrist, O Ariza, JD Chak, G Zheng, RP Widmer, ...
Medical engineering & physics 36 (6), 793-799, 2014
|Comparison of explicit finite element and mechanical simulation of the proximal femur during dynamic drop-tower testing|
O Ariza, S Gilchrist, RP Widmer, P Guy, SJ Ferguson, PA Cripton, ...
Journal of biomechanics 48 (2), 224-232, 2015
|In vitro bioactivity of different degree of deacetylation chitosan, a potential coating material for titanium implants|
R Lieder, M Darai, MB Thor, CH Ng, JM Einarsson, S Gudmundsson, ...
Journal of Biomedical Materials Research Part A 100 (12), 3392-3399, 2012
|Material mapping strategy to improve the predicted response of the proximal femur to a sideways fall impact|
WS Enns-Bray, H Bahaloo, I Fleps, O Ariza, S Gilchrist, R Widmer, P Guy, ...
Journal of the mechanical behavior of biomedical materials 78, 196-205, 2018
|Morphology based anisotropic finite element models of the proximal femur validated with experimental data|
WS Enns-Bray, O Ariza, S Gilchrist, RPW Soyka, PJ Vogt, H Palsson, ...
Medical engineering & physics 38 (11), 1339-1347, 2016
|Monitoring of muscle and bone recovery in spinal cord injury patients treated with electrical stimulation using three‐dimensional imaging and segmentation techniques …|
P Gargiulo, T Helgason, PJ Reynisson, B Helgason, H Kern, W Mayr, ...
Artificial organs 35 (3), 275-281, 2011
|On the mechanical stability of porous coated press fit titanium implants: a finite element study of a pushout test|
B Helgason, M Viceconti, TP Rúnarsson, S Brynjólfsson
Journal of biomechanics 41 (8), 1675-1681, 2008
|Empirical relationships between bone density and ultimate strength: a literature review|
I Fleps, H Bahaloo, PK Zysset, SJ Ferguson, H Pálsson, B Helgason
journal of the mechanical behavior of biomedical materials 110, 103866, 2020
|On the internal reaction forces, energy absorption, and fracture in the hip during simulated sideways fall impact|
I Fleps, WS Enns-Bray, P Guy, SJ Ferguson, PA Cripton, B Helgason
PLoS one 13 (8), e0200952, 2018
|Explicit finite element models accurately predict subject‐specific and velocity‐dependent kinetics of sideways fall impact|
I Fleps, P Guy, SJ Ferguson, PA Cripton, B Helgason
Journal of bone and mineral research 34 (10), 1837-1850, 2019
|The compressive modulus and strength of saturated calcium sulphate dihydrate cements: implications for testing standards|
I Koh, A López, B Helgason, SJ Ferguson
Journal of the mechanical behavior of biomedical materials 34, 187-198, 2014
|Compressive mechanical properties and cytocompatibility of bone-compliant, linoleic acid-modified bone cement in a bovine model|
A López, G Mestres, MK Ott, H Engqvist, SJ Ferguson, C Persson, ...
Journal of the mechanical behavior of biomedical materials 32, 245-256, 2014
|Biofidelic finite element models for accurately classifying hip fracture in a retrospective clinical study of elderly women from the AGES Reykjavik cohort|
WS Enns-Bray, H Bahaloo, I Fleps, Y Pauchard, E Taghizadeh, ...
Bone 120, 25-37, 2019