Gait, Balance, and Mobility Analysis
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Gait, Balance, and Mobility Analysis
Theoretical, Technical, and Clinical Applications
Morris, Rosie; Stuart, Samuel
Elsevier Science Publishing Co Inc
12/2024
500
Mole
9780443214844
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Section 1: Background / theory 1. Underlying control of gait and mobility 2. Underlying control of balance 3. Motor control development and decline 4. A breakdown of the gait cycle: biomechanics basics 5. Biomechanics of balance Section 2: Methods / Technical Application 6. A history of gait and mobility analysis methods and techniques 7. A history of balance analysis methods and techniques 8. An overview of clinical gait, balance, and mobility assessments 9. Modern video-based gait and balance analysis 10. Wearable sensors for gait, balance, and mobility 11. Algorithms for gait and balance: technical and clinical validity Section 3: Clinical Application 12. Gait and mobility assessment in musculoskeletal conditions 13. Gait and mobility assessment in neurological conditions 14. Gait and mobility assessment in cardio-respiratory conditions 15. Balance assessment in musculoskeletal conditions 16. Balance assessment in neurological conditions 17. Balance assessment in cardio-respiratory conditions 18. Future directions in clinical application of gait, balance, and mobility analysis
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Activity; Ageing; Ageing and motor control; Algorithms; Analytical validation; Anticipatory postural adjustments; Artificial intelligence; Assessment; Asymmetry; Automatic postural responses; Balance; Biomechanical system; Biomechanics; Brain function; Brain structure; Cardio-respiratory diseases; Centre of mass; Centre of pressure; Chronic disorder; Chronic lung disease; Clinical assessment; Clinical gait; Clinical neuroscience; Clinical validation; Clinical validity; Computer science; Computer vision; Dementia; Developmental milestones; Diagnostic procedure; Digital biomarker; Digital clinical outcome assessment; Digital endpoints; Digital health technology; Digital mobility outcomes; Exercise; Exercise therapy; Eye-tracking; Fixations; Force platforms; Fundamental movement skills; Gait; Gait analysis; Gait and mobility parameters; Gait domain; Gait impairment; Gait model; Gross motor development; Human movement studies; Huntington's disease; Inertial measurement unit; Insole pressure sensors; Internal models; Kinematic; Kinematics; Kinetic; Knee pain; Machine learning; Measurement outcome; Medical device; Mobility; Motor assessment; Motor skill acquisition; Movement disorders; Multiple sclerosis; Musculoskeletal disorder; Musculoskeletal function; Musculoskeletal system; Neural mechanisms; Neural networks; Neurodegeneration; Neuroimaging; Neurologic finding; Neurology; Neurotransmitters; Pace; Parkinson's disease; Pathology; Perturbation-based balance training; Physical activity; Physiology; Physiotherapy; Pose estimation; Postural balance; Postural control; Postural stability; Prognostic capacity; Reflexes; Rehabilitation; Remote monitoring; Rhythm; Running; Saccades; Sensitivity to intervention; Sensor; Sensory input; Sensory integration; Stroke; Surface electromyography; Technical validation
Section 1: Background / theory 1. Underlying control of gait and mobility 2. Underlying control of balance 3. Motor control development and decline 4. A breakdown of the gait cycle: biomechanics basics 5. Biomechanics of balance Section 2: Methods / Technical Application 6. A history of gait and mobility analysis methods and techniques 7. A history of balance analysis methods and techniques 8. An overview of clinical gait, balance, and mobility assessments 9. Modern video-based gait and balance analysis 10. Wearable sensors for gait, balance, and mobility 11. Algorithms for gait and balance: technical and clinical validity Section 3: Clinical Application 12. Gait and mobility assessment in musculoskeletal conditions 13. Gait and mobility assessment in neurological conditions 14. Gait and mobility assessment in cardio-respiratory conditions 15. Balance assessment in musculoskeletal conditions 16. Balance assessment in neurological conditions 17. Balance assessment in cardio-respiratory conditions 18. Future directions in clinical application of gait, balance, and mobility analysis
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Activity; Ageing; Ageing and motor control; Algorithms; Analytical validation; Anticipatory postural adjustments; Artificial intelligence; Assessment; Asymmetry; Automatic postural responses; Balance; Biomechanical system; Biomechanics; Brain function; Brain structure; Cardio-respiratory diseases; Centre of mass; Centre of pressure; Chronic disorder; Chronic lung disease; Clinical assessment; Clinical gait; Clinical neuroscience; Clinical validation; Clinical validity; Computer science; Computer vision; Dementia; Developmental milestones; Diagnostic procedure; Digital biomarker; Digital clinical outcome assessment; Digital endpoints; Digital health technology; Digital mobility outcomes; Exercise; Exercise therapy; Eye-tracking; Fixations; Force platforms; Fundamental movement skills; Gait; Gait analysis; Gait and mobility parameters; Gait domain; Gait impairment; Gait model; Gross motor development; Human movement studies; Huntington's disease; Inertial measurement unit; Insole pressure sensors; Internal models; Kinematic; Kinematics; Kinetic; Knee pain; Machine learning; Measurement outcome; Medical device; Mobility; Motor assessment; Motor skill acquisition; Movement disorders; Multiple sclerosis; Musculoskeletal disorder; Musculoskeletal function; Musculoskeletal system; Neural mechanisms; Neural networks; Neurodegeneration; Neuroimaging; Neurologic finding; Neurology; Neurotransmitters; Pace; Parkinson's disease; Pathology; Perturbation-based balance training; Physical activity; Physiology; Physiotherapy; Pose estimation; Postural balance; Postural control; Postural stability; Prognostic capacity; Reflexes; Rehabilitation; Remote monitoring; Rhythm; Running; Saccades; Sensitivity to intervention; Sensor; Sensory input; Sensory integration; Stroke; Surface electromyography; Technical validation
