Week 4 Lect The Spinal Cord PDF
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This document discusses the structure and function of the spinal cord, including its key features, internal organization, pathways, and arterial/venous systems. It covers relevant anatomy, functions, and common pathologies related to the spinal cord.
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PTY214 Applied Anatomy for Neurological Physiotherapy – The Spinal Cord fchs.ac.a At the completion of this week it is expected that students will be able to: identify and describe the key structural features of the external aspect of the s...
PTY214 Applied Anatomy for Neurological Physiotherapy – The Spinal Cord fchs.ac.a At the completion of this week it is expected that students will be able to: identify and describe the key structural features of the external aspect of the spinal cord summarise the internal organisation of the spinal cord (common arrangement of grey and white matter) describe the pathways and information conveyed in the following white matter tracts ◦ posterior (dorsal) columns ◦ spinothalamic tract (anterior and lateral) ◦ corticospinal (pyramidal) tract CONT: summarise the arterial supply and venous drainage of the spinal cord ▪ Functions: ▪ It carries signals between the brain and the rest of the body. ▪ The pathway for messages sent by the brain to the body and from the body to the brain. ▪ motor ▪ sensory ▪ autonomic information ▪ Acts as a reflex centre for basic reactions Eizenberg et al: An@tomedia: Regions: General Anatomy & Back modules: McGraw Hill Publishing www.anatomedia.com ▪ Located in back & neck regions ▪ Elongated Cylindrical shape ▪ Located in Vertebral canal ▪ ~45cm long ▪ Extends from Brainstem (medulla oblongata) (birth) ▪ Ends L2- Adult (L3 newborn) Eizenberg et al: An@tomedia: Regions: General Anatomy & Back modules: McGraw Hill Publishing www.anatomedia.com ▪ Enlargements ▪ a result of the increased volume of motor cells in the ventral horns of the grey matter. ▪ Cervical ▪ Lumbosacral ▪ Conus medullaris (ends L2) ▪ Cauda equina ▪ Filum terminale (ends Co1) ▪ Origin of Spinal nerves ▪ Anterior (ventral) nerve roots ▪ Posterior (dorsal) nerve roots ▪ Dura mater T1 ▪ Arachnoid Mater ▪ Pia Mater L5 S1 S5 Eizenberg et al: An@tomedia: Back module www.anatomedia.com 31 pairs of spinal nerves. Anterior (ventral) & Posterior (dorsal) Rootlets Anterior (ventral) & Posterior (dorsal ) Roots (motor) (sensory) Form MIXED Spinal Nerve in Intervertebral foramen Ventral (anterior) primary rami Dorsal (posterior) primary rami Anterior View group of cell bodies responsible for the transmission of sensory messages from receptors such as thermoreceptors, nociceptors, proprioceptors, and chemoreceptors, to the CNS for a response. Cauda Equina (horse’s tail) Lower nerve roots progressively elongated within the dural sac (to S2) Implications for Lumbar puncture- to diagnose serious infection, MS Epidural anaesthesia-pain relief Spinal Anaesthetic- the injection of numbing medicine directly into the fluid sac Eizenberg et al: An@tomedia: Back module (McGraw Hill) www.anatomedia.com Composed of: ◦ Grey matter - centrally (‘H”) ◦ White matter - outside Small central canal Fissures ◦ Anterior Median Fissure ◦ Posterior Median Sulcus ◦ Posterolateral Sulcus Central canal GREY MATTER - (cell bodies) Butterfly (‘H’-shaped) Connected by Grey commisures 4 extensions Ventral Horn (2) (motor neurons) Dorsal Horn (2) (sensory neurons) Netter, F.H. Interactive Atlas of Human Anatomy. 3rd ed. New Jersey, Icon Learning Systems, 2003. Grey matter ◦ subdivided into laminae (‘Rexed’s laminae) ▪ I – X (dorsal – ventral) ▪ IX most important - cell bodies of motor neurons to skeletal muscle Crossman’s Neuroanatomy: Chapter 8, p.72 White Matter- (axons) Highly organized ascending and descending nerve fibers running between the spinal cord and the brain Columns (funiculi) Tracts (fasciculi) White matter is arranged into columns (funiculus) - Anterior (ventral) - Lateral - Posterior (dorsal) Columns are arranged into laminae -> partial spinal cord lesions can cause regional loss Eizenberg et al: General Anatomy: Principles & Applications, McGraw Hill 2008 Ascending tracts are sensory pathways that begin at the spinal cord and stretch all the way up to the cerebral cortex. Descending tracts- the pathways by which motor signals are sent from the brain to lower motor neurons. CUNEATE GRACILE Columns contain tracts sulcus CORTICOSPINAL - ascending (sensory) LATERAL - descending (motor) Anterior (ventral) columns - Corticospinal - Spinothalamic Lateral Columns - Corticospinal (lateral) fissure - Spinothalamic (lateral) (& spinocerebellar) CORTICOSPINAL TRACT Posterior (dorsal) Columns - Dorsal column tracts - Gracile Eizenberg et al: General Anatomy: - Cuneate Principles & Applications, McGraw Hill 2008 Lateral Corticospinal tract Anterior Corticospinal tract Corticobulbar tract Upper motor neurons (UMN’s): Cerebral Cortex→ LMN (via CS tract) (Spinal cord or brainstem) controls movement & inhibits muscle tone Lower motor neurons (LMN’s): Anterior horn in spinal cord (cranial nerve nuclei in brainstem) → skeletal muscle controls movement by directly innervating muscle Eizenberg et al: An@tomedia: General Anatomy: Principles & Applications McGraw Hill 2008 UMN & LMN Lesions Lesions of all motor neurons lead to loss of voluntary movement, UMN lesions → spastic paralysis (↑ tone & hyperreflexia, no wasting) LMN lesions → flaccid paralysis (↓ tone & reflexes, long-term wasting) Spinal cord & Brainstem lesions - damage LMN’s at the level of the lesion - damage UMN’s of all levels below the lesion - also lose all sensory input at and below level of lesion Eizenberg, Briggs, Adams & Ahern. General Anatomy. Principles & Applications: Left cerebral hemisphere controls movement or Right side of body Motor Decussations - Main (lateral) corticospinal tracts decussate at medulla (pyramids) McGraw Hill, 2007, Chapter 9. - Motor fibres of cranial nerves decussate at level of their nuclei 2 Neurones, 1 Synapse ◼ Corticospinal Voluntary skilled movements Starts Cortex (pre-central gyrus) Forms pyramids on medulla Motor (brainstem) P Lateral (L): L 75-95% CS fibres Decussate in medulla (pyramids) A L To reach anterior horn in SC L Anterior (A) Decussate at spinal cord segment (not in pyramids) To reach anterior horn SC A Carries axons primarily from the motor cortex of the brain to the spinal cord, where they synapse with motor neurons Axons remain ipsilateral Cross over to the other side of the body anterior to the gray matter of the spinal cord These fibers provide motor innervation to the back as well as the proximal portions of the extremities Important role in maintaining posture Axons decussate in the medulla at the pyramidal decussation Supply motor innervation to the distal parts of extremities like the hand Conducts impulses from the brain to the cranial nerves Axons do not enter the spinal cord Synapse onto the nuclei of CN III, IV, V, VI, VII, IX, X, XI, XII ◦ Contain motor fibers for the muscles of your eyes, face, muscles of mastication and some muscles of the neck Also called corticonuclear tract Spinothalamic tract carries information to the brain about pain, temperature, itch, and general or light touch sensations. Lateral- pain, temperature Spinocerebellar tract From SC to the cerebellum – proprioceptive information Gracile & Cuneate tracts-fibers that convey proprioceptive, tactile, and vibratory information from the ipsilateral side of the body Left cerebral hemisphere receives sensation from right side of body: Sensory Decussations -Spinothalamic tracts decussate within a few levels of their entry into the spinal cord (pain) - Dorsal column tracts decussate at the medulla unilateral spinal cord lesions may have differing bilateral sensory effects 3 neurones, 2 synapses (1 in thalamus) Spinothalamic L Pain, Temperature (in L) P (crude) touch & pressure (in A) A ◼ Primary afferent neuron enters dorsal horn (1st synapse) ◼ Fibres Decussate in Spinal cord (via white commissure) ◼ Travels to Thalamus (2nd synapse) L ◼ then to Somatosensory Cortex ◼ Highly organised ◼ Divides into: ◼ Lateral pathway (temperature and pain) ◼ Anterior pathway (crude touch and pressure) Proprioception, discriminative (fine) touch & vibration P Gracile tract= lumbosacral Cuneate tract= thoracocervical Primary afferent neuron enters Ldorsal L horn to medulla (1st synapse) 2nd neuron decussates in Medulla travels to thalamus (2nd synapse) 3rd neuron reaches Somatosensory cortex A Arterial Supply Anterior (1) and posterior (2) spinal arteries Lumbar arteries (abdominal aorta) Artery of Adamkiewicz- supplies the lower spinal cord by reinforcing the anterior Adamkiewicz artery ▪ Veins are numerous, tortuous & valveless ▪ Venous drainage of spine (& spinal cord) via internal vertebral venous plexus ▪ occurs along nerve roots in both anterior & posterior An@tomediaTM Back module. Melbourne, McGraw-Hill, 2004, ISBN: 0734-02676-5. Eizenberg, Briggs, Barker & Grkovic, ▪ Valveless veins drain pelvis and lumbar spine -> potential route for metastasis SC INJURY ◦ Effects of Cx fracture-dislocation + complete SC transection. ◦ Injury at other levels? Facet joint Degeneration Disc Prolapse Spinal Stenosis Spinal cord Compression Spinal Metastases Useful Texts /Resources Crossman & Neary (2010). Neuroanatomy- An illustrated colour text. 4th ed. Edinburgh, Elsevier Churchill Livingstone. Introduction p.11-12 Chapter 8: Spinal Cord Moore & Dalley (2014). Clinically Oriented Anatomy (7th Ed) LWW Pg 496-507 Eizenberg et al (2008) General Anatomy: Principles & Applications, McGraw Hill Ch 9: Nerves p.108-118 An@tomedia Back and General Anatomy modules (Systems: Nervous) Waxman,S.G (2009) Clinical Neuroanatomy McGraw Hill – Online access see MOODLE http://neuroanatomy.ca/ http://www.handwrittentutorials.com/vi deos.php ◦ Look for neuroscience tutorials on tracts