Musculoskeletal System - OrthoSurgeryMusculoskeletal System Mechanical advantage Force Arm ÷...
Transcript of Musculoskeletal System - OrthoSurgeryMusculoskeletal System Mechanical advantage Force Arm ÷...
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Musculoskeletal System
Terms
Origin
Insertion
(Proximal Attachment)
(Distal Attachment)
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• Agonist- prime mover • Antagonist- provides a braking force • Synergist- assists indirectly in the movement
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Musculoskeletal System
Agonist Antagonist Synergist
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Levers in the Human Body
• Lever is a rigid bar rotating on an axis • Fulcrum (axis)- point of support, axis of rotation • Moment arm- perpendicular distance from line of action
of a force to the axis of rotation • Torque (moment)
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First Class Lever
A lever in which the muscular force and resistance force act on opposite sides of the fulcrum
(Force-Axis-Resistance)
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Second Class Lever
A lever in which the muscle force and resistance force act on the same side of the fulcrum, but the resistance force acts at a point closer to the fulcrum than the muscle force
(Force-Resistance-Axis)
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Third Class Lever
A lever in which the muscle force and resistance force act on the same side of the fulcrum, but the muscle force acts at a point closer to the fulcrum than the resistance force.
(Resistance-Force-Axis)
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Musculoskeletal System
Mechanical advantage Force Arm ÷ Resistance Arm Due the mechanical disadvantage, the body has to
exert much higher internal forces to act against external objects
Force versus speed - body is made more for speed production and range of motion instead of force production
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Musculoskeletal System
Elbow joint The mechanical advantage is
the greatest at 90° elbow flexion
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Human Strength and Power
Strength -- the force a muscle or muscle group can generate under a given set of conditions
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• Neural factors- recruitment and rate coding • Muscle cross-sectional area • Arrangement of muscle fibers • Muscle length • Joint angle • Point of tendon origin/insertion
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Biomechanical Factors of Human Strength
Neural control - muscle force increases when
More motor units are involved in a contraction
The motor units are greater in size The rate of firing is faster
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Muscle Structure
Muscle Fascicles Myofibers Sarcomeres
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Length-Tension Relationship
The tension a sarcomere can generate is a function of its length. When the sarcomeres are very long, only a few
of the myosin heads on each thick filament can reach a thin filament, so little force can be exerted.
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Length-Tension Relationship
At intermediate lengths, all of the myosin heads are within reach of the thin filaments, so maximum force can be exerted.
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Length-Tension Relationship
With further shortening, the ends of the thin filaments reach beyond the mid-points of the thick ones, to myosin heads that face the wrong direction and push on them instead of pulling. This reduces the force that the muscle fiber can exert.
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Length-Tension Relationship
Eventually, as shortening continues, the thick filaments collide with the Z-disks. Any further shortening distorts the filaments and the force falls rapidly.
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Length-Tension Relationship
The tension a sarcomere can generate is a function of its length.
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Length-Tension Relationship
There is an active and passive component to the L-T relationship.
This is at 2.2 µm for a frog. “Optimal length” is about 2.8 µm for humans.
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Biomechanical Factors of Human Strength
Muscle cross-sectional area- with all else equal, the force a muscle can exert is related to its cross-sectional area rather than to its volume
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Human Strength and Power
Muscle length Muscle can generate the most
force at about its resting length, and less force when elongated or shortened
Joint angle Changes in strength throughout
the joint range of motion affect force capability
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Human Strength and Power
Longest Muscle Length
Shortest Muscle Length
Short Long Short
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Human Strength and Power
Force-velocity relationship Greater velocity is generally
associated with a lower force capability
Can exert more force eccentrically than isometrically or concentrically
Concentric muscle contraction velocity
The faster a muscle contracts, the less force it can exert
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Velocity
Forc
e
Low resistance, high contraction velocity
High resistance, low contraction velocity
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Human Strength and Power
Power - the rate of doing work, which equals force times velocity
P = F x V
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Joint Moment
We will measure joint moment using a Biodex Dynometer Statically Dynamically
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EMG
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EMG and Muscle Force
EMG is related to muscle force The relationship is nonlinear
EMG to muscle activation Muscle force-length relationship Muscle force-velocity relationship
Mathematical models describing this relationship are the topic of my research (in part)