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Neurology. Charles H. ClarkeЧитать онлайн книгу.

Neurology - Charles H. Clarke


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      Cortex: Movement Force, Direction and Synergy

      Movements are produced by neuronal groups in the motor cortex. These groups act synergistically to control force, direction and timing – and they communicate with sensation – to produce fine, skilled movements.

      Pyramidal System Anatomy

      Note:

       Pyramid: within rostral medulla

       Decussation of the pyramids: within caudal medulla

       Cortico‐spinal axons synapse on cord anterior horn cells.

      Extrapyramidal System and Basal Ganglia Region

Schematic illustration of descending corticospinal pathways.

      Source: Champney (2016).

Schematic illustration of oblique coronal section: putamen, caudate, Globus pallidus, subthalamic nucleus, substantia nigra.

      Source: Champney (2016).

       The striatum (caudate nucleus, putamen of lentiform nucleus, nucleus accumbens);

       Globus pallidus (GP) – lateral and medial parts. The GP extends into the pars reticularis of the substantia nigra;

       Subthalamic nucleus

       Pars compacta of the substantia nigra.

Schematic illustration of a striatal motor loop.

      Source: Fitzgerald (2010).

       Basal Ganglia Circuits

      Neuronal servo‐loops commence and end in the motor cortex. All pass through the striatum (putamen + caudate nucleus) and return via the thalamus, and within each loop there are two pathways: direct and indirect.

      Transmission through each loop is controlled via the pars compacta of the substantia nigra to the lateral globus pallidus, where axons make two principal types of synapse, on excitatory D1 (dopaminergic, direct pathway) and inhibitory D2 (indirect pathway) receptors. Further receptors are now recognised in the D receptor series.

      Such servo‐loops modulate, for example:

       Cognition/motor intention, contraction strength, suppression, speed control, storage of programmes

       Limbic (memory) loop: cortex→nucleus accumbens→ventral pallidum→thalamus→cortex.

Schematic illustration of zones of the cerebellum.

      Source: Fitzgerald (2010).

Schematic illustration of cerebellar peduncles and nuclei: posterior view.

      Source: Champney (2016).

Schematic illustration of cerebellum: cortical micro-anatomy.

      Source: Fitzgerald (2010).

      Afferent and Efferent Cerebellar Pathways

      Afferent pathways include:

       Spino‐cerebellar: posterior and anterior spino‐cerebellar tracts – proprioceptive data from spinal cord.

       Ponto‐cerebellar: originates in the cerebral cortex, and enters via middle cerebellar peduncle.

       Vestibulo‐cerebellar: vestibular nuclei, enters via inferior peduncle.

      Efferent pathways project to the vestibular system, to the cord, thalamus, motor cortex and to the red nucleus,.

      The cerebellum and red nucleus in the midbrain tegmentum have a role in learned movement. The system modulates new motor activity:

       The red nucleus is a relay between cerebral cortex and the olive – the red nucleus is inhibitory, to the ipsilateral olive.

       When there is imbalance between movement intended (cerebral cortex) and movement already learned (cerebellum), the red nucleus is thought to modulate, to achieve harmony.

       A


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