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CHAPTER V Movement disorders Part I: Anatomy and physiology of motor system
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Motor systems Motor systems are complex and include sophisticated control systems the purpose of which is to serve locomotion, posture and work.
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Several feedback systems monitor muscle activity The length of muscles and the strength of contractions are monitored by: –Input from proprioceptive receptors in muscles, joints and tendons –Local feedback from motor nerves (Renshaw inhibition)
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Posture Monitored by proprioceptors, vestibular system vision
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Causes of movement disorders More or less anatomically specific neural degeneration Injuries (trauma, strokes, surgery, etc) Chemicals (alcohol, drugs) Inflammations and infections (viral) Tumors Genetic Neural plasticity Genetic Idiopathic
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Motor disorders Lack of function Inadequate function Hyperactivity
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Disorders of motor systems Hypokinesia Hyperkinesia –Spasticity Ataxia Gait and balance disturbances
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Two different descending motor pathways: Lateral system –Fine movements Medial system –Posture etc.
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Lateral system
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Medial system
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Motor pathways The motoneurons (alpha motoneurons) are the final common pathways
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The alpha-motoneurons (common final pathway) receive many inputs Some are facilitating and some are inhibitory
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Motor pathways
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Somatotopic organization of the motor cortex
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Two motoneurons receiving input from cortical cells
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Motor areas Sensory areas Terminations of the corticospinal tract projections of sensory pathways
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Renshaw inhibition Fibers of the corticospinal tract terminate on motoneurons or interneurons
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Extensive processing of motor command occurs in the spinal cord (and brainstem) Spinal reflexes play an important role in all motor functions Some functions such as walking is programmed in the spinal cord
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Monosynaptic stretch reflex
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Hoffman reflex
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Reflexes are modulated from supraspinal sources
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Reciprocal spinal reflex
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Descending vestibular pathways
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Medial system Posture and automatic functions
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Tendon reflex
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Flexor reflex
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Convergence of excitatory inputs Convergence of inhibitory and excitatory inputs
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Input to propriospinal neurons of the forelimb of the cat
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From Rosler Fig 2B Magnetic stimulation of motor cortex in an awake individual
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Input to an Ia inhibitory interneuron
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Input to an Ib (inhibitory) interneuron
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BASAL GANGLIA Extrapyramidal system Pyramidal system
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Two descending motor tracts The alpha- motoneuron is the final common pathway
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Anatomical localization motor pathways
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Basal ganglia
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Parkinson’s disease
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Huntington’s disease
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Direct and indirect pathways
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Basal ganglia connect to supplementary motor areas and primary motor cortex SMA: Supplementary motor area STN: Subthalamic nucleus
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Involvement of the cerebellum
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Involvement of the cerebellum and pontine nuclei
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Overview of motor pathways
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ANATOMICAL LOCATIONS OF THE BASAL GANGLIA
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Middle cerebral artery
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BASAL GANGLIA
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ANATOMICAL LOCATION OF THE CAUDATE NUCLEUS
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Somatotopic organization of the motor cortex
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Cortical motor areas The central sulcus divides motor and sensory areas
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Overview of motor pathways
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Two descending motor tracts The alpha- motoneuron is the final common pathway
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Effect from spasticity Soleus H-reflex: Effect on Ib inhibition on reflex response Hemiplegic side Normal side
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Inhibitory supraspinal input to motoneuron pool
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Visceral afferent innervation in the lower body and motor (efferent) innervation.
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