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Professor Lindboom-Broberg (LB)

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spinal cord anatomy biology human anatomy nervous system

Summary

These are lecture notes on spinal cord gross anatomy. The notes cover important topics such as spinal cord anatomy and organization, spinal meninges, spinal nerves, and spinal reflexes. The document includes diagrams and illustrations.

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Professor Lindboom-Broberg (LB) Spinal Cord Gross Anatomy Spinal Cord Anatomy & Organization Spinal Meninges Spinal Nerves Spinal Reflexes Nervous System Independence Spinal Cord Organization  Adult length ~ 45 cm (18 in.) Ends at L1–L2  31 sets of spinal...

Professor Lindboom-Broberg (LB) Spinal Cord Gross Anatomy Spinal Cord Anatomy & Organization Spinal Meninges Spinal Nerves Spinal Reflexes Nervous System Independence Spinal Cord Organization  Adult length ~ 45 cm (18 in.) Ends at L1–L2  31 sets of spinal nerves: 8 cervical 12 thoracic 5 lumbar 5 sacral 1 coccygeal Spinal Cord Structure  Conus medullaris Cone-shaped end of spinal cord at L1–L2  Cauda equina (horse tail) Extended anterior and posterior roots of spinal segments L2 to S5  Filum terminale Fibrous tissue strands from conus medullaris to S2 Longitudinal support to spinal cord Spinal Cord Structure Cross-sectional spinal cord anatomy  White matter: Superficial; myelinated axons  Gray matter: Deep; forms an H, or butterfly shape Mostly neuron cell bodies, neuroglia, unmyelinated axons  Central canal: Contains cerebrospinal fluid Spinal Cord Structure Cross-sectional spinal cord anatomy  Posterior median sulcus: Shallow, longitudinal groove on posterior surface  Anterior median fissure: Deep groove on anterior surface Spinal Nerves Spinal Nerve Structure  Anterior root contains axons of motor neurons  Posterior root contains axons of sensory neurons  Posterior root ganglion (spinal ganglion) contains cell bodies of sensory neurons in posterior root  Spinal nerve: Axons of sensory and motor neurons Professor Lindboom-Broberg (LB) Spinal Meninges Central Nervous System Covering Spinal Cord Covering Spinal meninges  3 membranes surrounding the CNS  Functions Stability Shock absorption Carry blood supply (oxygen and nutrients) The layers PAD the CNS (P-A-D)  P – Pia Mater  A – Arachnoid Mater  D – Dura Mater Spinal Cord Covering Spinal meninges  Dura mater (dura, hard + mater, mother) Outermost covering Tough, fibrous Dense collagen fibers oriented along the longitudinal axis of the spinal cord Spinal Cord Covering Spinal meninges  Arachnoid mater (arachne, spider + mater, mother) Middle meningeal layer Connects dura and pia Spinal Cord Covering Spinal meninges  Pia mater (pia, delicate + mater, mother) Innermost meningeal layer Meshwork of elastic and collagen fibers Anchored to neural tissue Spinal Cord Covering Spinal Cord Covering Spinal meninges  Supporting ligaments maintain position of spinal cord  Lateral Movements Denticulate ligaments extend from pia mater through arachnoid mater to dura mater; prevent lateral movement  Vertical Movements Dural connections at foramen magnum and coccygeal ligaments at sacrum prevent superior–inferior movements Spinal Cord Covering Lumbar puncture, or spinal tap  Withdraw sample of cerebrospinal fluid  Needle inserted into subarachnoid space, lumbar region, below conus medullaris (L3–L4) to avoid spinal cord Sagittal view of the lumbar spine, showing proper placement of a lumbar puncture needle. X-ray of the lumbar vertebrae, showing the cauda equina Professor Lindboom-Broberg (LB) Spinal Nerves Spinal Cord Extensions into PNS Spinal Nerves Spinal nerve anatomy  From the inside out… Neuron Neuron is wrapped in myelin (or not) Myelinated (or not) neuron is wrapped in endoneurium Multiple endoneurium wrapped neurons collected together into a fascicle Each fascicle is wrapped in perineurium Multiple fascicles are collected together and wrapped in epineurium This is a nerve Spinal Nerves Spinal nerve organization  Spinal nerve rami Each spinal neve divides to form rami which serve body regions – Posterior ramus: Serves posterior trunk – Anterior ramus: Serves lateral & anterior trunk; limbs – Rami communicantes: In spinal nerves T1–L2, carry motor output of sympathetic division of ANS (responsible for “fight- or-flight” response) Spinal Nerves Spinal nerve organization  Dermatome: A specific bilateral area of skin supplied by pair of spinal nerves  Shingles Attacks neurons in posterior roots and sensory ganglia Painful rash/blisters along dermatome of affected nerve Spinal Nerves Sensory information in  Anterior ramus: From ventrolateral surface, body wall, and limbs  Posterior ramus: From skin/skeletal muscles of back  Rami  spinal nerve  posterior root  spinal cord Spinal Nerves Motor commands out  Spinal cord  anterior root  spinal nerve  rami  Posterior ramus: Somatic/visceral motor fibers to skin/skeletal muscles of back  Anterior ramus: Ventrolateral body surface, body wall, limbs Professor Lindboom-Broberg (LB) Spinal Reflexes Automatic Homoeostatic Reflex Arcs Spinal Reflex Reflexes Classification of reflexes  4 ways to classify reflexes: Development: Innate or acquired Nature of response: Somatic or visceral Complexity of circuit: Monosynaptic or polysynaptic Processing site: Spinal or cranial Reflexes Development of reflexes  Innate reflexes Basic neural reflexes formed before birth Appear in predictable developmental sequence from simplest to more complex Example: Sucking, palmar grasp, patellar  Acquired reflexes (conditioned reflexes) Rapid, automatic learned motor patterns Repetition enhances them Reflexes Nature of response  Somatic reflexes Involuntary control of skeletal muscles Immediate – important in emergencies Example: withdrawal, patellar  Visceral reflexes (autonomic reflexes) Control involuntary effectors – Smooth muscle – Cardiac muscle – Glands – Adipose tissue Reflexes Complexity of circuit  Monosynaptic reflexes (two neuron) No interneuron Fast response Example: Patellar  Polysynaptic reflexes (three neuron) 1+ interneuron Slower response Example: Withdrawal Reflexes Processing site  Spinal reflexes Processing occurs in spinal cord  Cranial reflexes Processing occurs in brain Reflexes The brain can influence reflexes  Can facilitate/reinforce or inhibit motor neurons or interneurons  Example: Jendrassik maneuver facilitates patellar reflex

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