Physics-informed deep learning for musculoskeletal modeling: Predicting muscle forces and joint kinematics from surface EMG
Musculoskeletal models have been widely used for detailed biomechanical analysis to
characterise various functional impairments given their ability to estimate movement …
characterise various functional impairments given their ability to estimate movement …
Rectus femoris hyperreflexia contributes to Stiff-Knee gait after stroke
Abstract Background Stiff-Knee gait (SKG) after stroke is often accompanied by decreased
knee flexion angle during the swing phase. The decreased knee flexion has been …
knee flexion angle during the swing phase. The decreased knee flexion has been …
Kinematic comparison of single degree-of-freedom robotic gait trainers
Single degree-of-freedom mechanized gait trainers employing linkage mechanisms can
imitate the gait trajectory of the human user at a potentially lower cost than current …
imitate the gait trajectory of the human user at a potentially lower cost than current …
Understanding post-stroke movement by means of motion capture and musculoskeletal modeling: a scoping review of methods and practices
Research of post-stroke locomotion via musculoskeletal (MSK) modeling has offered an
unprecedented insight into pathological muscle function and its interplay with skeletal …
unprecedented insight into pathological muscle function and its interplay with skeletal …
Relationship between gait quality measures and modular neuromuscular control parameters in chronic post-stroke individuals
Background Recent evidence suggests that disinhibition and/or hyperexcitation of the
brainstem descending pathways and intraspinal motor network diffuse spastic synergistic …
brainstem descending pathways and intraspinal motor network diffuse spastic synergistic …
Isolating the energetic and mechanical consequences of imposed reductions in ankle and knee flexion during gait
Background Weakness of ankle and knee musculature following injury or disorder results in
reduced joint motion associated with metabolically expensive gait compensations to enable …
reduced joint motion associated with metabolically expensive gait compensations to enable …
The Importance of Hip Abductor and Adductor Muscles in Balance and Mobility Tasks After a Stroke: A Systematic Review
MB Lanza, N Frakes, K Callaghan… - Journal of Stroke …, 2023 - journals.sagepub.com
The aim of this systematic review was to identify the association between muscle strength,
activation, and structure of the hip abductor-adductor muscles and balance and mobility …
activation, and structure of the hip abductor-adductor muscles and balance and mobility …
Sensitivity comparison of inertial to optical motion capture during gait: implications for tracking recovery
Wearable sensors provide a foundation for development of wearable robotic technology to
be used in clinical applications. Inertial motion capture (IMC) has emerged as a viable …
be used in clinical applications. Inertial motion capture (IMC) has emerged as a viable …
Predictive simulation of single-leg landing scenarios for ACL injury risk factors evaluation
E Moustridi, K Risvas, K Moustakas - Plos one, 2023 - journals.plos.org
The Anterior Cruciate Ligament (ACL) rupture is a very common knee injury during sport
activities. Landing after jump is one of the most prominent human body movements that can …
activities. Landing after jump is one of the most prominent human body movements that can …
Evaluating the Repeatability of Musculoskeletal Modelling Force Outcomes in Gait among Chronic Stroke Survivors: Implications for Contemporary Clinical Practice
G Giarmatzis, S Fotiadou, E Giannakou, E Karakasis… - Biomechanics, 2024 - mdpi.com
This study aims to evaluate the consistency of musculoskeletal modelling outcomes during
walking in chronic post-stroke patients, focusing on both affected and unaffected sides …
walking in chronic post-stroke patients, focusing on both affected and unaffected sides …