Comparison between line and surface mesh models to represent the rotator cuff muscle geometry in musculoskeletal models
Accurate muscle geometry (muscle length and moment arm) is required to estimate muscle
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
Comparison between line and surface mesh models to represent the rotator cuff muscle geometry in musculoskeletal models.
M Hoffmann, D Haering, M Begon - Computer Methods in …, 2017 - europepmc.org
Accurate muscle geometry (muscle length and moment arm) is required to estimate muscle
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
Comparison between line and surface mesh models to represent the rotator cuff muscle geometry in musculoskeletal models
M Hoffmann, D Haering, M Begon - Computer Methods in …, 2017 - ideas.repec.org
Accurate muscle geometry (muscle length and moment arm) is required to estimate muscle
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
Comparison between line and surface mesh models to represent the rotator cuff muscle geometry in musculoskeletal models
M Hoffmann, D Haering, M Begon - Computer Methods in …, 2017 - hal.science
Accurate muscle geometry (muscle length and moment arm) is required to estimate muscle
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
Comparison between line and surface mesh models to represent the rotator cuff muscle geometry in musculoskeletal models
M Hoffmann, D Haering… - Computer methods in …, 2017 - pubmed.ncbi.nlm.nih.gov
Accurate muscle geometry (muscle length and moment arm) is required to estimate muscle
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
Comparison between line and surface mesh models to represent the rotator cuff muscle geometry in musculoskeletal models
M Hoffmann, D Haering… - Computer Methods in …, 2017 - univ-rennes.hal.science
Accurate muscle geometry (muscle length and moment arm) is required to estimate muscle
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
[PDF][PDF] Comparison between line and surface mesh models to represent the rotator cuff muscle geometry in musculoskeletal models
M Hoffmann, D Haering, M Begon - Computer methods in …, 2017 - researchgate.net
Accurate muscle geometry (muscle length and moment arm) is required to estimate muscle
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
Comparison between line and surface mesh models to represent the rotator cuff muscle geometry in musculoskeletal models
M Hoffmann, D Haering… - Computer Methods in …, 2017 - econpapers.repec.org
Accurate muscle geometry (muscle length and moment arm) is required to estimate muscle
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …
function when using musculoskeletal modelling. In shoulder, muscles are often modelled as …