Machine learning methods to support personalized neuromusculoskeletal modelling
Many biomedical, orthopaedic, and industrial applications are emerging that will benefit from
personalized neuromusculoskeletal models. Applications include refined diagnostics …
personalized neuromusculoskeletal models. Applications include refined diagnostics …
A review of musculoskeletal modelling of human locomotion
AD Sylvester, SG Lautzenheiser… - Interface …, 2021 - royalsocietypublishing.org
Locomotion through the environment is important because movement provides access to
key resources, including food, shelter and mates. Central to many locomotion-focused …
key resources, including food, shelter and mates. Central to many locomotion-focused …
How to build a dinosaur: Musculoskeletal modeling and simulation of locomotor biomechanics in extinct animals
The intersection of paleontology and biomechanics can be reciprocally illuminating, helping
to improve paleobiological knowledge of extinct species and furthering our understanding of …
to improve paleobiological knowledge of extinct species and furthering our understanding of …
A myoelectric digital twin for fast and realistic modelling in deep learning
Muscle electrophysiology has emerged as a powerful tool to drive human machine
interfaces, with many new recent applications outside the traditional clinical domains, such …
interfaces, with many new recent applications outside the traditional clinical domains, such …
[HTML][HTML] Generic scaled versus subject-specific models for the calculation of musculoskeletal loading in cerebral palsy gait: Effect of personalized musculoskeletal …
Background Musculoskeletal modelling is used to assess musculoskeletal loading during
gait. Linear scaling methods are used to personalize generic models to each participant's …
gait. Linear scaling methods are used to personalize generic models to each participant's …
Modern three-dimensional digital methods for studying locomotor biomechanics in tetrapods
Here, we review the modern interface of three-dimensional (3D) empirical (eg motion
capture) and theoretical (eg modelling and simulation) approaches to the study of terrestrial …
capture) and theoretical (eg modelling and simulation) approaches to the study of terrestrial …
[HTML][HTML] Automatic generation of personalised skeletal models of the lower limb from three-dimensional bone geometries
L Modenese, JB Renault - Journal of Biomechanics, 2021 - Elsevier
The generation of personalised and patient-specific musculoskeletal models is currently a
cumbersome and time-consuming task that normally requires several processing hours and …
cumbersome and time-consuming task that normally requires several processing hours and …
In silico-enhanced treatment and rehabilitation planning for patients with musculoskeletal disorders: can musculoskeletal modelling and dynamic simulations really …
Over the past decades, the use of computational physics-based models representative of the
musculoskeletal (MSK) system has become increasingly popular in many fields of clinically …
musculoskeletal (MSK) system has become increasingly popular in many fields of clinically …
Three-dimensional volumetric muscle reconstruction of the Australopithecus afarensis pelvis and limb, with estimations of limb leverage
ALA Wiseman - Royal Society Open Science, 2023 - royalsocietypublishing.org
To understand how an extinct species may have moved, we first need to reconstruct the
missing soft tissues of the skeleton, which rarely preserve, with an understanding of …
missing soft tissues of the skeleton, which rarely preserve, with an understanding of …
Musculoskeletal modelling of the Nile crocodile (Crocodylus niloticus) hindlimb: Effects of limb posture on leverage during terrestrial locomotion
We developed a three‐dimensional, computational biomechanical model of a juvenile Nile
crocodile (Crocodylus niloticus) pelvis and hindlimb, composed of 47 pelvic limb muscles, to …
crocodile (Crocodylus niloticus) pelvis and hindlimb, composed of 47 pelvic limb muscles, to …