Litcius/Paper detail

The future of in-field sports biomechanics: wearables plus modelling compute real-time <i>in vivo</i> tissue loading to prevent and repair musculoskeletal injuries

David G. Lloyd

2021Sports Biomechanics53 citationsDOI

Abstract

This paper explores the use of biomechanics in identifying the mechanistic causes of musculoskeletal tissue injury and degeneration. It appraises how biomechanics has been used to develop training programmes aiming to maintain or recover tissue health. Tissue health depends on the functional mechanical environment experienced by tissues during daily and rehabilitation activities. These environments are the result of the interactions between tissue motion, loading, biology, and morphology. Maintaining health of and/or repairing musculoskeletal tissues requires targeting the “ideal” in vivo tissue mechanics (i.e., loading and deformation), which may be enabled by appropriate real-time biofeedback. Recent research shows that biofeedback technologies may increase their quality and effectiveness by integrating a personalised neuromusculoskeletal modelling driven by real-time motion capture and medical imaging. Model personalisation is crucial in obtaining physically and physiologically valid predictions of tissue biomechanics. Model real-time execution is crucial and achieved by code optimisation and artificial intelligence methods. Furthermore, recent work has also shown that laboratory-based motion capture biomechanical measurements and modelling can be performed outside the laboratory with wearable sensors and artificial intelligence. The next stage is to combine these technologies into well-designed easy to use products to guide training to maintain or recover tissue health in the real-world.

Topics & Concepts

BiomechanicsWearable computerField (mathematics)Sports biomechanicsComputer sciencePhysical medicine and rehabilitationMedicineSimulationHuman–computer interactionMathematicsAnatomyEmbedded systemPure mathematicsKnee injuries and reconstruction techniquesLower Extremity Biomechanics and PathologiesSports injuries and prevention