Transcript Chapter 3
CHAPTER 13 The Spinal Cord & Spinal Nerves 1 INTRODUCTION • Mediate reactions to environmental changes. • Process reflexes • Site for integration of EPSPs and IPSPs that arise locally or are triggered by nerve impulses from periphery and brain • Conduction pathway for sensory & motor nerve impulses 2 I. SPINAL CORD ANATOMY • Protective structures – vertebral column provides a bony covering of spinal cord • vertebral foramen form vertebral cavity • added protection from vertebral ligaments & CSF – meninges • CT layers surrounding brain & spinal cord • 3 layers – dura mater = outermost layer » epidural space – arachnoid mater = middle layer » subdural space contains ISF – pia mater = innermost layer » vascularized » subarachnoid space contains CSF – denticulate ligaments prevent displacement of cord 3 Applications • Subarachnoid space is between the arachnoid mater & pia mater and contains cerebrospinal fluid (CSF). • Inflammation of the meninges is known as meningitis. • Removal of CSF from the subarachnoid space is called a spinal tap (lumbar puncture). – used to diagnose pathologies and to introduce antibiotics, contrast media, anesthetics, and chemotherapeutic drugs. 4 I-B. Ext. Anat. of Spinal Cord • Begins as a continuation of medulla oblongata and terminates at about L2 vertebra in an adult • Spinal nerves – 31 pair emerge @ regular intervals from vertebral cav. – roots = bundles of axons that connect nerves to cord • posterior (dorsal) root contains only sensory neurons – sensory info from skin, muscles, organs to CNS – post. (dorsal) root ganglion = swelling of root that contains cell bodies of sensory neurons • anterior (ventral) root contains axons of motor neurons – CNS to effector organs – no ventral ganglion 5 I-C. Internal Anat. of Spinal Cord • Gray matter surrounded by white matter • Gray matter – cell bodies, unmyelinated axons and dendrites – central canal = center of gray matter • filled with CSF • extends entire length of spinal cord – nuclei = functional groups of neuronal cell bodies • sensory • motor – horns • anterior gray horns contain somatic motor neurons • posterior gray horns contain autonomic/somatic sensory neurons • lateral gray horns contain autonomic motor neurons 6 I-C. Internal Anat. of Spinal Cord • White matter – bundles of myelinated axons of w/ common origin/destination form tracts in CNS • sensory (ascending) tracts carry sensory info to brain • motor (descending) tracts carry impulses from brain to effector 7 Sensory and Motor Tracts • Figure 13.4 shows the principal sensory and motor tracts in the spinal cord. (detailed in Chapter 16) • Sensory (ascending) tracts conduct nerve impulses toward the brain. – the lateral and anterior spinothalamic tracts and the posterior column tract. • Motor (descending) tracts conduct impulses down the cord. – Direct pathways include lateral and anterior corticospinal and corticobulbar tracts. – Indirect pathways include rubrospinal, tectospinal, and vestibulospinal tracts. 8 II. SPINAL NERVES • Spinal nerves are part of the PNS!!! • Connective tissue coverings – endoneurium covers individual axons (superficial to myelin sheath) – perineurium surrounds groups of axons (fascicles) – epineurium is outer covering of entire nerve – blood vessels associated w/ peri-/epineuria • Distribution – branches arise just outside vertebral column • posterior (dorsal) ramus • anterior (ventral) ramus 9 II. SPINAL NERVES • Distribution – plexuses • network of interlacing, adjacent axons • do not directly connect to structures they innervate • 5 plexuses – cervical: skin/muscles of head/neck/upper chest – brachial: shoulders/upper limbs – lumbar: lower limbs/abdominal wall – sacral: buttocks/perineum/lower limbs – coccygeal: small area of skin in coccygeal region – intercostal nerves • T2-T12 rami do not form plexuses • directly connected to structures they supply • Dermatomes provide sensory input from regions of skin 10 III. SPINAL CORD PHYSIOLOGY • Sensory & motor tracts – naming of tracts indicates direction of information flow • example = anterior spinothalamic tract • impulses travel from spinal cord toward brain – two routes for sensory input from spinal cord to brain • spinothalamic tracts • posterior columns – sensory systems keep CNS apprised of Δ in environ. – motor pathways • direct: info from cortex; results in controlled voluntary movements (corticospinal/corticobulbar) • indirect: info from brain for autonomic movements – Fig 13.12 summarizes functions of cord & nerves 11 III-B. Spinal Reflexes & Reflex Arcs • Spinal cord = integrating center for spinal reflexes • Terms – reflex =fast, automatic response occurring in response to particular stimulus – Reflexes may be spinal, cranial, somatic, or autonomic. – reflex arc = pathway followed by nerve impulses in generation of reflex • sensory receptor produces graded potential in response to stimulus • sensory neuron sends info to gray matter of cord • integrating ctr = synapse btwn sensory/motor neurons • motor neuron carries impulses from integrating ctr to effector organ • effector = body part that responds to motor impulse – somatic effectors = skeletal muscles – autonomic effectors = visceral organs 12 III-B. Spinal Reflexes & Reflex Arcs Somatic spinal reflexes (4) 1) Stretch reflex – – – – causes contraction of skeletal muscle in response to stretching prevents overstretch of muscle (feedback mechanism) sensory receptors = muscle spindles spindles detect Δ in length sends info to CNS if strong enough, motor neuron generates a.p. results in ACh release muscle contracts to prevent overstretch – antagonistic muscles relax (via inhibitory potentials) as part of reflex (reciprocal innervation) – brain sets overall level of muscle tone by adjusting sensitivity of spindles • tone = degree of contraction present in resting muscle 13 III-B. Spinal Reflexes & Reflex Arcs 2) Tendon reflex – controls muscle tension by causing muscle relaxation when muscle force becomes too extreme – sensory receptors = Golgi tendon organs • detect change in tension caused by stretch/contract. – activation of inhibitory interneuron results in release of inhibitory NT @ NMJ (hyperpolarization of postsynaptic neuron) muscle relaxation results – in this case reciprocal innervation causes contraction of antagonist muscle 14 III-B. Spinal Reflexes & Reflex Arcs 3) Withdrawal (flexor) reflex – protective reflex that moves a limb to avoid pain – results in contraction of flexor muscles to move a limb to avoid injury or pain • EX: stepping on tack, touching hot burner • ACh release causes contraction of muscle to w/draw from stimulus 4) Crossed extensor reflex helps maintain balance during withdrawal reflex – causes synchronized extension of the joints of one limb and flexion of the joints in the opposite limb (Figure 13.9) • EX: step on tack, one leg flexes, other leg extends to maintain balance • ACh release @ NMJ results in contraction of extensors 15 Clinically Useful Reflexes Presence or absence of certain reflexes is useful in diagnosing disorders/injuries in nervous tissue • Patellar reflex: extension of knee results from tapping patellar ligament – blocked by damage to L2-L4 segment of spinal cord – absent in some cases of diabetes mellitus – exaggerated in certain brain injuries • Achilles reflex: plantar flexion of foot in response to tapping of Achilles tendon – absence indicates damage to nerves supplying leg muscles – may be absent in diabetics, alcoholics & as result of subarachnoid hemorrhage – exaggerated reflex indicates spinal cord compression in cervical 16 Clinically Useful Reflexes • Babinski sign: pressure on sole of foot results in dorsiflexion of big toe and fanning of others – normal under age 1½ incomplete myelination – if present after age 1½ damage to corticospinal tract – (--) Babinski results in curling under of all toes • Abdominal reflex: contraction of muscles in abdominal wall causes umbilicus to move in direction of stimulus – absence indicates lesions in corticospinal tract • Pupillary light reflex (autonomic reflex) – pupils of both eyes ↓ in diameter when either eye is exposed to light – absence indicates brain damage or injury 17