The Motor Systems. What s the motor system? Plan
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1 The Motor Systems What s the motor system? Parts of CNS and PNS specialized for control of limb, trunk, and eye movements Also holds us together From simple reflexes (knee jerk) to voluntary movements (96mph fast ball) Remarkable: Muscles only contract Plan Components of the motor systems Focus on spinal control of limbs and trunk Same principles apply to to head control via brain stem Basic principles of movement control What is helpful for understanding basic motor system organization Motor programs for voluntary movement Descending motor pathways Note about motor system s bad rep
2 Motor Systems Cortical motor areas Basal ganglia Descending cortical motor paths Spinal cord: Intermediate zone Ventral horn Cerebellum Descending brain stem paths Muscle Functional Hierarchy of Motor Paths Cortical motor areas Functional Hierarchy of Motor Paths Cortical motor areas
3 Functional Hierarchy of Motor Paths Motor execution: force & direction Functional Hierarchy of Motor Paths Motor execution: force & direction Parallel Organization Association & limbic cortex Basal ganglia Cerebellum
4 Motor Cortical areas Internal capsule from Basal ganglia from Cerebellum Hierarchical & Parallel Organization of the motor systems Top down organization of the motor pathways-- opposite that of sensory paths Subcortical motor centers--cerebellum & basal ganglia--access cortical motor areas via the thalamus (not just sensory) Organization of multiple subcortical and cortical motor circuits-reminiscent of parallel sensory pathways Organization of Movements Hierarchical: 3 major types Reflexes Postural adjustments Voluntary movements from simple to complex Diverse & adaptive Purposeful
5 Organization of Movements Hierarchical: 3 major types Reflexes Spinal cord circuits Postural adjustments Spinal & Brain stem Voluntary movements Spinal cord, Brain stem, & cortex Postural adjustments & voluntary movements depend more on cerebellar and basal ganglia function than reflexes Dual purpose: 1) upcoming lectures; 2) context for motor pathways Reflexes Stimulus-evoked involuntary muscle contraction Monosynaptic (+) reflex Knee- jerk Jaw- jerk Simple neural representation (circuit) Knee Jerk From muscle stretch receptors Ventral horn to muscle
6 Reflexes Stimulus-evoked involuntary motor muscle contraction Monosynaptic (+) reflex Knee- jerk Jaw- jerk Disynaptic reflex (+) withdrawal Why Disynaptic? Greater control (neural gate) Very simple context More complex response Greater control: from periphery Intermediate zone from higher centers to muscle Response inhibited by inhibition
7 Greater control: from periphery from higher centers to muscle Response blocked by inhibition Motor I/O Knee-jerk Motor I/O Knee-jerk Automatic postural adjustments Balance Limb support Flexible than reflexes (greater #; each w/control) Constrained than voluntary
8 Postural adjustments Context important Can reorganize depending on context Feedback control- reactive Error correction Response lags stimulus; sometimes too late; sometimes vicious circle Feed- forward control- predictive Response anticipates stimulus More timely, but depends on practice Depends on cerebellum, brain stem pathways & spinal cord More complex neural representation Voluntary movements Organized around purposeful acts Flexible input- output relationships Limitless Price to pay: whole brain Voluntary movements Organized around purposeful acts Flexible input- output relationships Limitless Price to pay: whole brain Recruits all motor systems components & much of the association cortex Discuss: Goal representation Motor programs
9 The goal of voluntary movements is represented somewhere Motor equivalence Individual motor actions share important characteristics even when performed in different ways Abstract representation; effector independent Hand writing Soccer Goal representation??association & Premotor cortex Voluntary movements are organized by motor programs Translate goal into action Formation of a movement representation, or motor program??premotor cortex --> Primary motor cortex Program To produce the desired goal, which muscles should contract and when 2 Key movement characteristics that are programmed Spatial (hand path; joint angles) Kinematic program Force Dynamic program Kinematic & Dynamic Programs in Reaching Reach to target--(sensation to Action) Visual cortex-->association cortex-->premotor-->1 motor Distinct kinematic and dynamic programs Reach up Against gravity More force to achieve goal Reach down Gravity assists Less force to achieve goal Flexible control
10 Summary Motor behavior hierarchy Reflexes Postural adjustments Voluntary movements Internal/neural representations Reflexes simple; invariant Postural adjustments Voluntary movements complex; flexible Voluntary movements Goal representation Kinematic and dynamic programs No wonder why voluntary movement recruit entire motor system Motor Pathways Cortical motor areas Basal ganglia Descending cortical motor paths Spinal cord: Intermediate zone Ventral horn Cerebellum Descending brain stem paths Muscle Motor Pathways Cortical motor areas 1 motor cortex Premotor cortex Descending cortical motor paths Spinal cord: Intermediate zone Ventral horn Red nucleus Reticular formation Vestibular nuclei Superior colliculus Descending brain stem paths Muscle
11 Origins of motor paths Premotor areas Direct Indirect Motor Pathways Hierarchy Motor pathways organized around the motor nuclei Spinal Motor Columns From brain Segmental interneuron Motor neuron Short Long Motor columns (motor neurons) Propriospinal-- Intersegmental-- neurons
12 Lateral pathways: limb control Medial pathways: trunk control Ventral Horn Organization: Proximal - distal rule Lateral pathways: limb control Medial pathways: trunk control Ventral Horn Organization: Proximal - distal rule Brain Stem Motor Paths Medial Lateral Vestibular nuclei Vestibulospinal tracts Tectum Reticular formation Tectospinal tract Reticulospinal tracts Red nucleus Rubrospinal tract Bilateral Contralateral
13 Brain Stem Pathways Lateral Rubrospinal tract: distal limb control; crude Medial Tectospinal tract: eye-head coordination Reticulospinal tract: automatic postural adjustments and movements (hip; shoulder) Vestibulospinal tract: balance (axial muscles); automatic postural adjustments Brain stem nuclei Superior colliculus Tectospinal tract Red nucleus Rubrospinal tract Vestibular nuclei Vestibulospinal tracts Reticular formation Reticulospinal tracts Cortical Motor Paths Medial Lateral Vestibular & Reticular nuclei Medial brain stem paths Ventral corticospinal tract Bilateral Red nucleus Rubrospinal tract Pyramidal X Lateral Corticospinal tract Contralateral
14 Cortical motor paths Lateral corticospinal tract Limb control mostly Ventral corticospinal tract Proximal muscle control; mostly upper body For cranial muscle control: Corticobulbar tract with medial and lateral components Primary motor Lateral and ventral CST Corticobulbar tract Cortical Motor Areas
15 PMC Primary motor Lateral and ventral CST Corticobulbar tract Primary motor SMA CMA Lateral and ventral CSTs Corticobulbar tract Why bother study the motor pathways? Anatomical substrates: How it works Multiple parallel paths & diversity of spinal connections Damage to 1 motor cortex and pre-motor cortex projections recover some lost functions Damage to cortex and brain stem paths recover some lost functions With spinal cord injury. loss of monosynaptic connections and alternate paths via segmental and intersegmental interneurons can recover some lost functions
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