[Critical & comparative evaluation of Denny-Brown's article "Interpretation of the electromyogram"].
Neurologie a psychiatrie ceskoslovenska
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Foreword Preface Acknowledgments Occupational Biomechanics as a Specialty Definition of Occupational Biomechanics Historical Development of Occupational Biomechanics Kinesiological Developments Developments in Biomechanical Modelling Developments in Anthropometry Methods for Evaluating Mechanical Work Capacity Developments in Bioinstrumentation Developments in Motion Classification and Time Prediction Systems The Need for an Occupational Biomechanics Specialty Epidemiological Support for Occupational Biomechanics Social and Legal Support for Occupational Biomechanics Ergonomic Support for Occupational Biomechanics Who Uses Occupational Biomechanics? Organization of The Book Review Questions References The Structure and Function of the Musculoskeletal System Introduction Connective Tissue Ligaments, Tendons, and Fascia Cartilage Bone Skeletal Muscle The Structure of Muscles The Molecular Basis of Muscle Contraction The Energy Metabolism of Muscle The Nerve Impulse Causing Muscle Contraction Mechanical Aspects of Muscle Contraction Muscle Fatigue Quantification and Prediction of Fatigue Joints The Synovial Joint Joint Lubrication Osteoarthritis Intervertebral Discs Review Questions References Anthropometry in Occupational Biomechanics Measurement of Physical Properties of Body Segments Body-Segment Link Length Measurement Methods Body-Segment Volume and Weight Body-Segment Locations of Center of Mass Body-Segment Inertial Property Measurement Methods Anthropometric Data for Biomechanical Studies in Industry Segment Link Length Data Segment Weight Data Segment Mass-Center Location Data Segment Moment-of-inertia and Radius-of-Gyration Data Summary Of Anthropometry in Occupational Biomechanics Review Questions References Mechanical Work Capacity Evaluation Introduction Joint Motion: Methods and Data Methods of Measuring Joint Motion Normal Ranges of Joint Motion Factors Affecting Range-of-Motion Data Muscle Strength Evaluation Definition of Muscular Strength Static and Dynamic Strength-Testing Methods Population Muscle Strength Values Personal Factors Affecting Strength Summary and Limitations of Mechanical Work-Capacity Data Review Questions References Bioinstrumentation for Occupational Biomechanics Introduction Human Motion Analysis Systems Basis for Measuring Human Motion Muscle Activity Measurement 1 Applied Electromyography Mechanomyography Intra Muscular Pressure Muscle Strength Measurement Systems Localized Static Strength Measurement Systems Whole-body Static Strength Measurement System Whole-body Dynamic Strength Measurement System Intradiscal Pressure Measurement Measurement Concept Intradiscal Pressure Measurement System Applications and Limitations in Occupational Biomechanics Intra-abdominal (Intragastric) Measurements Measurement Development Measurement System Applications and Limitations in Occupational Biomechanics Seat Pressure Measurement Systems Stature Measurement System Force Platform System Foot and Hand Force Measurement Systems Measurement of Vibration in Humans Review Questions References Occupational Biomechanical Models Why Model? Planar Static Biomechanical Models Single-Body-Segment Static Model Two-Body-Segment Static Model Static Planar Model of Nonparallel Forces Planar Static Analysis of Internal Forces Multiple-link Coplanar Static Modeling Three-dimensional Modeling of Static Strength Dynamic Biomechanical Models Single-Segment Dynamic Biomechanical Model Multiple-Segment Biodynamic Model of Load Lifting Coplanar Biomechanical Models of Foot Slip Potential While Pushing a Cart Special-purpose Biomechanical Models of Occupational Tasks Low-Back Biomechanical Models Biomechanical Models of the Wrist and Hand Modeling Muscle Strength Future Developments in Occupational Biomechanical Models Review Questions References Methods Of Classifying And Evaluating Manual Work Traditional Methods Historical Perspective Traditional Work Analysis System MTM: An Example of a Predetermined Motion?Time System Benefits and Limitations in Contemporary Work Analysis Systems Contemporary Biomechanical Job Analysis Identification of Musculoskeletal Injury Problems Analyzing Biomechanical Risk Factors Specialized Biomechanical Risk Factor Evaluation EMGs in Job Evaluation
Sep 06, 2017