Spinal Cord - Anatomy & Physiology
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This article is still under construction. |
Introduction
The spinal cord can be divided to several regions:
Region | Segments |
---|---|
Cervical | C1-C6 |
Cervicothoracic | C7-T2 |
Thoracolumbar | T3-L3 |
Lumbosacral | L3-S2 |
Sacral | S3 onwards |
Nerves originating from the spinal cord and the segmental spinal nerves innervate the limbs. The forelimb nerves include:
- Suprascapular (C5-6)
- Musculocutaneous (C5-7)
- Ulna/median (Originates from the brachial plexus, which is formed from C5-T1)
- Radial (C5-T1)
The hindlimb nerves include:
- Obturator (L2-4)
- Femoral (L2-4)
- Sciatic (L4-S3)
The sciatic nerve branches to the tibial nerve and the peroneal nerve.
Structure and Function
Structures Present | Function | ||
---|---|---|---|
Spinal Cord | Marginal layer - Axons, white matter
Mantle - Cell bodies, grey matter |
Conducts sensory information from the peripheral nervous system (both somatic and autonomic) to the brain, conducts motor information from the brain to various effectors and acts as a minor reflex center. |
Marginal Layer
Mantle
Spinal Canal
Function
- ==Basic Concepts==
Components
- The central nervous system consists of:
- The brain
- Prefix = "encephalo"
- The spinal cord
- Prefix = "myelo"
- The brain
Function
- Sensory neurons from both the internal and external environment relay information to the CNS.
- The CNS processes sensory information and intitiates motor outputs.
- Effector and motor neurons from the CNS relay the appropriate outputs to effector organs.
The Autonomic Nervous System
- The autonomic nervous system relays sensory information from, and motor information to, the internal environment.
- It therefore plays an important role in the maintenance of homeostasis.
The Somatosensory Nervous System
- The somatosensory nervous system relays sensory information from, and motor information to, the external environment.
White and Grey Matter
White Matter
- White matter consists of accumulations of myelinated axons.
- Myelinated axons are wrapped in myelin
- Myelin is compsed of lipid and protein in an 80:20 ratio.
- It insulates axons to give efficient action potential conduction.
- Myelin is provided by:
- Oligodendrocytes in the CNS
- Myelinate several neurons at once.
- Respond poorly in injury.
- Schwann cells in the PNS
- Myelinate one axon only.
- Oligodendrocytes in the CNS
- Myelinated axons are wrapped in myelin
- A "funiculus" is a large region of white matter in the spinal cord.
Grey Matter
- The outer portions of the cerebral cortex and the inner portions of the spinal cord are composed of grey matter.
- Grey matter is also found in coloumns and scattered in brainstem nuclei.
- Composed of neuronal cell bodies, plus glial cells.
Upper and Lower Motor Neurons
Lower Motor Neuron (LMN)
- LMNs are efferent neurons which connect the CNS to smooth or skeletal muscle.
- Autonomic LMNs connect to smooth muscle.
- Somatic LMNs connect to skeletal muscle.
- Those innervating the muscles of the axial and peripheral skeleton have their cells bodies in the ventral horn of the spinal cord.
- Injury causes LMN weakness.
- This is characterised by:
- Depressed reflexes
- Decreased tone
- Neurogenic muscle atrophy
- This is characterised by:
Upper Motor Neuron (UMN)
- The upper motor neuron comprises the motor system of the CNS. This is responsible for:
- Initiating voluntary movement.
- Maintenance of tone and posture.
- In man, direct connections exist between neurons in the motor cortex and LMNs in the spinal cord.
- This is known as the "pyramidal system".
- In animals, there are scattered groups of interconnected neurons in the cortex and brainstem, which ultimately synapse with LMNs in the brainstem and spinal cord.
- The "extrapyramidal system".
- UMN injury results in:
- Increased extensor tone, giving:
- Stiffness
- Spasticity
- Delay in the onset of protraction, and a longer stride
- Disinhibition of the LMN relfex ability.
- This causes increased reflexes.
- Inability to stimulate LMN.
- UMN weakness results.
- Increased extensor tone, giving: