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Spinal Cord Enclosed within the vertebral column Contiguous with and extends from the medulla oblongata at the foramen magnum to 1st lumbar vertebra Provides two-way communication to and from the brain Protected by vertebrae, meninges, and CSF Epidural space between vertebrae and dura mater filled with fat and blood vessels Spinal Cord Dorsal roots Ventral root Dorsal root Cauda equina Conus medullari s Filum terminale Embryonic Development of the Spinal Cord Figure 12.27 Cross-Sectional Anatomy of the Spinal Cord Gray matter located centrally, white matter peripherally Dorsal roots – entry point of sensory neuron axons Ventral roots – exit point of motor neuron axons Gray Matter and Spinal Roots Gray commissure connecting gray matter horns Posterior horns – interneurons Anterior horns – interneurons & somatic motor neurons Lateral horns – sympathetic nerve fibers Gray Matter: Organization Dorsal half – sensory roots and ganglia Ventral half – motor roots Dorsal and ventral roots fuse laterally to form spinal nerves Four zones are evident within the gray matter – somatic sensory (SS), visceral sensory (VS), visceral motor (VM), and somatic motor (SM) White Matter in the Spinal Cord Axonal tract directionalities Ascending, descending, and transverse fibers Pathways decussate (cross midline) Tract positions Posterior, lateral, and anterior columns exhibit somatotopy are paired Composition Each column contains several tracts composed of axons with similar destinations & functions consist of two or three neurons White Matter: Major Columns Spinocerebellar – from spine to cerebellum Reticulospinal – from reticular nuclei to spine Etc… Neuronal Composition of Ascending Pathways 1st order neurons Soma in ganglion of dorsal root or cranial nerve Synapse with 2nd order neuron 2nd order neurons Soma in dorsal horn or medullary nuclei Extend axons to thalamus or cerebellum 3rd order neurons Soma in thalamus and extend axons to cerebrum Three Ascending Pathways Nonspecific (anterolateral) Conducts pain, temperature & course touch stimuli Specific (medial lemniscal) conducts stretch & fine touch impulses to the sensory cortex Spinocerebellar conducts impulses to the cerebellum Nonspecific Ascending Pathway Pain, temperature, & crude touch Lateral spinothalamic tract 1st, 2nd & 3rd order neurons Decussation at level of spinal nerve 2nd order neuron axons Axons of 1st order neurons Specific Ascending Pathways Stretch & fine touch impulses 1st order bundled in posterior tracts Pelvic level in gracilis Pectoral level in cuneatus Decussate in medulla into medial lemniscal tract Allows discriminative touch and proprioception Uses 1st, 2nd, & 3rd order neurons 1st order neurons synapse with interneruons at level of spine entry creating reflex arcs Spinocerebellar Tracts Muscle stretch stimuli to cerebellum Spinocerebellar tracts 1st & 2nd order neurons Don’t decussate Don’t provide conscious awareness of stimulus because they do not conduct to cerebrum White Matter: Major Columns Descending (Motor) Pathways Efferent impulses from brain to the spinal neurons Two pathways Direct or pyramidal tract Indirect tract Involve 2 or 3 neurons Upper –cerebral cortex or midbrain to spinal nerve Lower – soma in spine where motor nerve exits Interneurons – in gray matter of at level of spinal nerve The Direct (Pyramidal) Tract Pyramidal neuron soma in precentral gyri (motor cortex) Synapse with interneurons in anterior horn at level of exit Corticobulbar tracts innervate cranial nerves Regulates fast and fine movements Indirect (Extrapyramidal) Tract Brain stem motor nuclei rubrospinal, vestibulospinal, reticulospinal, & tectospinal tracts motor components of cranial nerves Regulate Axial muscles maintaining balance and posture Muscles controlling coarse movements of proximal limbs Head, neck, and eye movement