Physics-based predictive simulations to explore the differential effects of motor control and musculoskeletal deficits on gait dysfunction in cerebral palsy: a …
Model-based simulations of walking have the theoretical potential to support clinical
decision making by predicting the functional outcome of treatments in terms of walking …
decision making by predicting the functional outcome of treatments in terms of walking …
Physics-based predictive simulations to explore the differential effects of motor control and musculoskeletal deficits on gait dysfunction in cerebral palsy: a …
A Falisse, L Pitto, H Kainz, H Hoang, M Wesseling… - 2019 - europepmc.org
Model-based simulations of walking have the theoretical potential to support clinical
decision making by predicting the functional outcome of treatments in terms of walking …
decision making by predicting the functional outcome of treatments in terms of walking …
[引用][C] Physics-based predictive simulations to explore the differential effects of motor control and musculoskeletal deficits on gait dysfunction in cerebral palsy: a …
A Falisse, L Pitto, H Kainz, H Hoang, M Wesseling… - 2019 - research.tudelft.nl
Physics-based predictive simulations to explore the differential effects of motor control and
musculoskeletal deficits on gait dysfunction in cerebral palsy: a retrospective case study — TU …
musculoskeletal deficits on gait dysfunction in cerebral palsy: a retrospective case study — TU …
[PDF][PDF] Physics-based predictive simulations to explore the differential effects of motor control and musculoskeletal deficits on gait dysfunction in cerebral palsy: a …
A Falisse, L Pitto, H Kainz, H Hoang, M Wesseling… - scholar.archive.org
Cerebral palsy (CP) is the most common cause of motor disability amongst children,
affecting 2 to 3 25 per 1000 live births in Europe (Surveillance of Cerebral Palsy in Europe …
affecting 2 to 3 25 per 1000 live births in Europe (Surveillance of Cerebral Palsy in Europe …