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Brunnstrom’s Clinical Kinesiology Sixth Edition CHAPTER 4 Muscle Activity and Strength Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Introduction Discussion of muscles on a macroscopic level Last chapter: physiology of motion Present chapter: mechanics of motion Presentation of both active and passive tissue influences on motion Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Muscle Activity Recording muscle activity Electromyography Electrodes—surface, needle, indwelling Record contraction/relaxation patterns Record relative amount of muscle activity Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Muscle Activity Muscle activation Isometric Concentric Eccentric Isotonic Isokinetic Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Muscle Activity—Anatomic Muscle actions Typical scenario: 1. Proximal attachment is stabilized. 2. Distal attachment moves toward proximal. 3. Distal segment moves against gravity. Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Open (OKC) vs. Closed Kinetic Chain OKC Distal segment free to move Uninfluenced by other segments or joints Non-weight-bearing CKC Distal segment fixed Proximal and distal segments affected Weight-bearing Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Muscle Activity—Anatomic Reverse actions Muscles sometimes have “reverse” actions: 1. Proximal attachments move toward distal attachments (closed kinematic chain [CKC]). 1. Such as flexion of the thigh at the knee while sitting down. 2. Eccentric actions are typical in reverse actions that go with gravity. Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Muscle Activity—Functional Agonist Antagonist Synergist Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Muscle Strength Muscle size Cross-sectional area (CSA) Larger CSA—greater force-generating capability Hypertrophy Atrophy Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Muscle Strength Fiber architecture Fusiform Fascicles long and parallel Example: Sartorius Greater range of motion and speed capability Pennate (uni-, bi-, or multi-) Attach at oblique angles to a common tendon Greater force-producing capability Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Muscle Strength Length Resting length Crossbridge activity as a function of length Length-tension relationship Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Muscle Strength Moment arm 100% of muscle force rotates joint when insertion is perpendicular to bone segment Example: elbow at 90°, biceps insertion Angle of insertion influences torque Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Muscle Strength Active tension Number of motor units Type of muscle fibers (motor units) recruited Rate (frequency) of firing of motor units Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Muscle Strength Age and gender Increase in strength from birth to adolescence; peak between 20 and 30 years of age Males generally stronger than females Copyright © 2012 F.A. Davis Company Brunnstrom’s Clinical Kinesiology Sixth Edition Insufficiencies Applies only to multi-articulate muscles: Passive insufficiency Can’t be stretched to full ROM at all joints simultaneously Active insufficiency Can’t contract to full ROM at all joints simultaneously Copyright © 2012 F.A. Davis Company
