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BASAL NUCLEI

BASAL NUCLEI. Basal Ganglia Functions. Compare proprioceptive information and movement commands. Sequence movements. Regulate muscle tone and muscle force. May be involved in selecting and inhibiting specific motor synergies. Basal Ganglia Functions.

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BASAL NUCLEI

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  1. BASAL NUCLEI

  2. Basal Ganglia Functions • Compare proprioceptive information and movement commands. • Sequence movements. • Regulate muscle tone and muscle force. • May be involved in selecting and inhibiting specific motor synergies.

  3. Basal Ganglia Functions • Basal ganglia are vital for normal movement but they have no direct connections with lower motor neurons. • Influence LMNs: Through planning areas of cerebral cortex. Pedunculopontine nucleus of midbrain.

  4. Basal Ganglia Functions • Basal nuclei set organism’s level of responsiveness to stimuli. • Extrapyramidal disorders are associated with basal nuclei pathology: Negative symptoms of underresponsiveness: Akinesias i.e. Parkinson disease Positive symptoms of over-responsiveness: Choreas, athetoses, ballisms i.e. Huntington’s chorea

  5. Basal Nuclei Components • Corpus striatum • Substantia nigra (within the midbrain) • Subthalamic nuclei (diencephalon) • Red nucleus (?) • Claustrum (?) • Nucleus accumbens (?)

  6. Corpus Striatum • Composed of caudate nucleus + lentiform nucleus: Striatum = caudate nucleus + putamen. Pallidum = globus pallidus. Putamen + globus pallidus = lentiform nucleus. • Controls large subconscious movements of the skeletal muscles. • The globus pallidus regulates muscle tone.

  7. Corpus Striatum

  8. Substantia Nigra Subdivisions • Dorsal pars compacta: Has melanin containing neurons and dopaminergic neurons. • Ventral pars reticularis: Has iron-containing glial cells. Has serotonin and GABA (no melanin).

  9. Substantial Nigra

  10. Input Nuclei • Striatum Caudate nucleus Putamen Nucleus accumbens • Receive widespread input from: Neocortex Intralaminar nuclei Substantia nigra Dorsal raphe nucleus

  11. Input Nuclei • Striatum projects to: Globus pallidus Substantia nigra Pars reticularis Via gabaminergic fibers • Motor and sensory cortices project to putamen. • Association areas of all lobes project to caudate nucleus.

  12. Output Nuclei • Globus pallidus (medial part) • Substantia nigra: Pars reticularis • Ventral pallidum • Fibers project to: VA/VL nuclei Mostly inhibitory

  13. General Core Circuit • Cerebral cortex to: • Striatum to: • Globus pallidus to: • Thalamus to: • Portions of motor cortex to: • Upper motor neurons

  14. Thalamic Fasciculi • Ansa lenticularis: Consists of fibers from dorsal portion of globus pallidus. Loops under internal capsule. To VA/VL complex.

  15. Thalamic Fasciculi • Lenticular fasciculus: Consists of fibers from ventral portion of globus pallidus. Passes across the internal capsule. To VA/VL complex.

  16. Dopamine Neuronal System • Consists of nigrostriatal fibers • From pars compacta of substantia nigra • To striatum • Dopaminergic

  17. Direct Basal Ganglia Circuit • Motor cortex projects to putamen: Excitatory (glutamate) • Putamen projects to output nuclei (globus pallidus internus and substantia nigra reticularis): Inhibitory (GABA and substance P)

  18. Direct Basal Ganglia Circuit • Output nuclei project to motor thalamus (VA-VL) and pedunculopontine nuclei: Inhibitory (GABA) • Ventrolateral (VA-VL) thalamus projects to motor cortex: Excitatory • Therefore: Increasing input to putamen increases activity in corticofugal fibers

  19. Direct Basal Ganglia Circuit • Pedunculopontine nuclei project to reticulospinal and vestibulospinal pathways. • Stimulation of pedunculopontine nuclei elicit rhythmical behaviors such as locomotor patterns.

  20. Indirect Basal Ganglia Circuit • Motor cortex to putamen: Excitatory (glutamate) • Putamen to globus pallidus externus: Inhibitory (GABA and enkephalins) • Globus pallidus externus to subthalamic nuclei: Inhibition (GABA)

  21. Indirect Basal Ganglia Circuit • Subthalamic nuclei to output nuclei (substantia nigra reticularis) Excitatory (glutamate) • Output nuclei to VA-VL complex (motor thalamus) Inhibitory (GABA)

  22. Indirect Basal Ganglia Circuit • VA-VL complex to motor cortex: Excitatory • Therefore: decrease in corticofugal pathways.

  23. Input from Substantia Nigra Compacta • Projects to putamen: Excitatory (dopamine) Two kinds of receptors in basal ganglia circuit: D1: facilitates activity in direct pathway D2: inhibits activity in indirect pathway

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