Finite element models of the human shoulder complex: a review of their clinical implications and modelling techniques
The human shoulder is a complicated musculoskeletal structure and is a perfect
compromise between mobility and stability. The objective of this paper is to provide a …
compromise between mobility and stability. The objective of this paper is to provide a …
[HTML][HTML] Neuromuscular control: from a biomechanist's perspective
Understanding neural control of movement necessitates a collaborative approach between
many disciplines, including biomechanics, neuroscience, and motor control. Biomechanics …
many disciplines, including biomechanics, neuroscience, and motor control. Biomechanics …
Automated muscle segmentation from clinical CT using Bayesian U-Net for personalized musculoskeletal modeling
We propose a method for automatic segmentation of individual muscles from a clinical CT.
The method uses Bayesian convolutional neural networks with the U-Net architecture, using …
The method uses Bayesian convolutional neural networks with the U-Net architecture, using …
Neural data-driven musculoskeletal modeling for personalized neurorehabilitation technologies
Objectives: The development of neurorehabilitation technologies requires the profound
understanding of the mechanisms underlying an individual's motor ability and impairment. A …
understanding of the mechanisms underlying an individual's motor ability and impairment. A …
Comparison of measurements of medial gastrocnemius architectural parameters from ultrasound and diffusion tensor images
In vivo measurements of muscle architecture provide insight into inter-individual differences
in muscle function and could be used to personalise musculoskeletal models. When muscle …
in muscle function and could be used to personalise musculoskeletal models. When muscle …
Development of a finite element musculoskeletal model with the ability to predict contractions of three-dimensional muscles
Abstract Representation of realistic muscle geometries is needed for systematic
biomechanical simulation of musculoskeletal systems. Most of the previous musculoskeletal …
biomechanical simulation of musculoskeletal systems. Most of the previous musculoskeletal …
Automated muscle segmentation from CT images of the hip and thigh using a hierarchical multi-atlas method
Purpose Patient-specific quantitative assessments of muscle mass and biomechanical
musculoskeletal simulations require segmentation of the muscles from medical images. The …
musculoskeletal simulations require segmentation of the muscles from medical images. The …
A fast multi-obstacle muscle wrapping method using natural geodesic variations
Musculoskeletal simulation has become an essential tool for understanding human
locomotion and movement disorders. Muscle-actuated simulations require methods that …
locomotion and movement disorders. Muscle-actuated simulations require methods that …
The muscle cross-sectional area on MRI of the shoulder can predict muscle volume: an MRI study in cadavers
Background Muscle volume is important in shoulder function. It can be used to estimate
shoulder muscle balance in health, pathology, and repair and is indicative of strength based …
shoulder muscle balance in health, pathology, and repair and is indicative of strength based …
[HTML][HTML] Unifying system identification and biomechanical formulations for the estimation of muscle, tendon and joint stiffness during human movement
In vivo joint stiffness estimation during time-varying conditions remains an open challenge.
Multiple communities, eg system identification and biomechanics, have tackled the problem …
Multiple communities, eg system identification and biomechanics, have tackled the problem …