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Control of Body Movement

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Control of Body Movement. Dr. Jena Hamra. Classification of Reflex Pathways. Efferent division ... Muscle tone. Muscle Spindles. Stretch Reflex. Muscle ... – PowerPoint PPT presentation

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Title: Control of Body Movement


1
Control of Body Movement
  • Dr. Jena Hamra

2
Classification of Reflex Pathways
  • Efferent division
  • Somatic reflexes
  • Autonomic (visceral) reflexes
  • Location of CNS integration
  • Spinal reflexes
  • Cranial (supraspinal) reflexes
  • Innate or learned reflexes
  • Number of neurons in pathway
  • Monosynaptic
  • Polysynaptic

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Autonomic Reflexes
  • Without conscious thought
  • Integration
  • Hypothalamus
  • Thalamus
  • Brain stem
  • Polysynaptic
  • Tonic control

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Skeletal Muscle Reflexes
  • Control of skeletal muscles
  • Excited by alpha motor neurons
  • Inhibited by inhibiting alpha motor neurons
  • Extrafusal muscle fibers contractile fibers
  • Muscle sensory receptors
  • Muscle spindles
  • Golgi tendon organs
  • Joint capsule mechanoreceptors
  • Gamma motor neurons
  • Associated with intrafusal muscle fibers

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Muscle Spindles
  • Stretch receptors
  • Intrafusal fibers
  • Modified muscle fibers without myofibrils
  • Sensory neurons wrap around middle of intrafusal
    fibers
  • Project to spinal cord and synapse with alpha
    motor neuron
  • Fire when center of intrafusal fiber stretches
  • Tonically active
  • Muscle tone

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Muscle Spindles
  • Stretch Reflex
  • Muscle stretches
  • Intrafusal fibers stretch
  • Sensory neurons fire more rapidly
  • Reflex contraction of muscle
  • Contraction decreases stretch
  • Stimulus removed

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Muscle Spindles
  • Alpha-gamma coactivation
  • Gamma motor neurons activated with alpha motor
    neurons
  • Gamma motor neurons
  • Cause contraction of ENDS of intrafusal fibers
  • Lengthens central section
  • Intrafusal fibers remain stretched while
    extrafusal fibers contract

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Golgi Tendon Organ
  • Stretch Receptor
  • Free nerve endings
  • Inside connective tissue capsule
  • Respond to stretch and contraction
  • Stretched muscle ? Pinched sensory fiber fires
  • Contracted muscle ? Pulls tendons ? sensory
    neurons fires
  • Activated Golgi tendon organ inhibits alpha motor
    neurons
  • Decreases muscle contraction

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Stretch Reflexes
  • Myotatic unit
  • Collection of nervous pathways controlling a
    single joint
  • Monosynaptic stretch reflex
  • One sensory neuron and one somatic motor neuron
  • ONE SYNAPSE!!
  • Reciprocal inhibition
  • Antagonistic muscle pairs
  • Knee jerk reflex

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Flexion Reflexes
  • Polysynaptic reflex pathway
  • Pulls limb away
  • Divergent pathways
  • Excitatory interneurons ? alpha motor neurons ?
    flexor contraction
  • Inhibitory interneurons ? relaxes antagonistic
    muscle
  • Crossed extensor reflex
  • Extensor contracts in supporting leg
  • Flexors relax

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Reflex Movement
  • Reflex movement
  • Least complex
  • Spinal integration
  • Modulated by higher brain centers
  • Postural reflexes
  • Continuous sensory input
  • Visual
  • Vestibular
  • Muscles
  • Brain stem integration

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Voluntary Movement
  • Most complex
  • Cerebral cortex integration
  • Initiated at without external stimuli
  • Can become involuntary
  • Riding a bicycle

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Rhythmic Movement
  • Combination of reflex and voluntary
  • Initiated and terminated by input from cerebral
    cortex
  • After initiation becomes reflexive
  • Maintained by spinal interneurons
  • Example Running

28
CNS Integration
  • 3 levels of control
  • Spinal cord
  • Brain stem and cerebellum
  • Cerebral cortex and basal nuclei
  • Thalamus relay station
  • Simple movements
  • Spinal reflexes
  • Postural reflexes
  • Both can have cerebellar input

29
Integration of Voluntary Movement
  • Coordination between
  • Cerebral cortex
  • Cerebellum
  • Basal ganglia
  • 3 steps
  • Decision making and planning
  • Initiating movement
  • Executing movement
  • Feedforward postural reflexes
  • Adjustment in anticipation of changes

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Visceral Muscle Control
  • Reflex control
  • Nervous and chemical
  • Gap junctions
  • Self generation of action potentials
  • Pacemakers
  • Cardiac and smooth muscle
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