nervous system
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Basic concepts about neuron and the nervous systemTRANSCRIPT
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Nervous systemDr. Abdul Qadeer
MBBS; FCPS; FICS
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Introduction Nervous system is divided into:1. Central nervous system: consists of brain &
spinal cord2. Peripheral nervous system: consists of
cranial & spinal nerves3. Somatic nervous system4. Autonomic nervous system
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Cell types of nervous systemNeurons: excitable cellsNeuroglia : non-excitable /
supporting cells e.g. neuroglia and ependymal cells in CNS, and Schwann cells in PNS
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Neuron It is nerve cell along with all its processesIt consists of:
- cell body or soma or perikaryon- cell processes: two types 1. axon 2.
dendritesDendrites are afferent processes, and usually
multiple in numberAxon is an efferent process, and usually single
in numberTelodendria or terminals are the branches of an
axonSomata (cell bodies) form grey matter and
nuclei in CNSAxons form tracts in CNS & nerves in PNS
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Neuron
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Types of neuronsAccording to the number of processes:1. Unipolar2. Psudo-unipolar3. Bipolar4. Multipolar According to the length of axon:1. Golgi type I neuron; with a long axon2. Golgi type II neuron (microneuron); with
short or no axon
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Neuroglia Non-excitable supporting cells of nervous
systemThese include:1. Neuroglial cells: found in parenchyma of
CNS2. Ependymal cells: lining the internal cavities3. Capsular or satellite cells: surrounding
neurons of the sensory and autonomic ganglia
4. Schwann cells: forming sheaths of axons of peripheral nerves
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NeurogliaNeuroglial cells found in the parenchyma of
CNS are:1. Macroglia : e.g. astrocytes,
oligodendrocytes, glioblasts2. Microglia (mesodermal origin)
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Astrocytes (Star-shaped)
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Oligodendrocytes (fewer cell processes)
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Glioblasts Are stem cells, which can differentiate into
macroglial cells
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Microglial cellsSmallest of glial cellsPhagocytic activityMesenchymal origin
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Functions of glial/ependymal cells
1. Provide mechanical support to neurons2. Non-excitable cells, hence act as insulators and
prevent neuronal impulses from spreading in unwanted directions
3. Phagocytosis, hence remove foreign material and cell debris
4. Can repair the damaged areas of nervous system
5. Store neurotransmitter chemical substances6. Myelination of tracts7. Exchange materials between brain & CSF
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CNSConsists of:1. Brain2. Spinal cord
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PNSCranial nerves: 12 pairsSpinal nerves: 31 pairs as under8 cervical12 thoracic5 lumbar5 sacral1 coccygealNote that there are 8 cervical nerves and 7
cervical vertebrae, while 1 coccygeal nerve & 4 coccygeal vertebrae fused.
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A typical spinal nerve
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A typical spinal nerveConnected to the spinal cord by two roots,
anterior root and posterior rootAnterior roots are efferent i.e. carry nerve
impulses away from CNSThe efferent fibers that go to skeletal muscles
and cause them to contract are called Motor fibers.
Their cells of origin lie in the anterior gray horn of the spinal cord
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A typical spinal nervePosterior roots are afferent and connected
to the spinal cord with nerve fibers which carry impulses to the CNS
These fibers convey information about sensation of touch, pain, temperature and vibrations, they are called sensory fibers.
Cell bodies of sensory fibers are situated in a swelling on the posterior root, hence called the posterior root ganglion
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A typical spinal nerveAt each inter-vertebral foramen the anterior
and posterior roots unite to form a spinal nerve
Here the motor and sensory fibers become mixed together
On emerging from the foramen, the spinal nerve divides into two rami, anterior and posterior.
Anterior ramus is large while posterior ramus is smaller
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A typical spinal nerveThe posterior ramus passes posteriorly
around the vertebral column to supply the muscles and skin of the back
Anterior ramus continues anteriorly to supply:
1. the muscles and skin over the anterolateral body wall
2. All the muscles and skin of the limbs
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A spinal nerveSpinal nerves also give rise to a small
meningeal branch that supplies the vertebrae and coverings of the spinal cord (the meninges)
Thoracic spinal nerves also have branches called rami communicantes, that are associated with the sympathetic part of autonomic nervous system
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Nerve plexusesAt the root of the limbs, the anterior rami join
one another to form nerve plexuses e.g. cervical plexus, brachial plexus, lumbar plexus & sacral plexus.
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Reflex arcA reflex arc is a neural pathway that controls
an action reflex. In higher animals, most sensory neurons do not pass directly into the brain, but synapse in the spinal cord. This characteristic allows reflex actions to occur relatively quickly by activating spinal motor neurons without the delay of routing signals through the brain, although the brain will receive sensory input while the reflex action occurs.
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Reflex arcA reflex arc is made up of1. A receptor e.g. skin2. A sensory or afferent neuron3. A motor or efferent neuron4. An effector organ e.g. muscle
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Reflex actionAn involuntary motor response of the body is
called a reflex actionMonosynaptic reflex = stretch reflex e.g.
tendon jerk (knee jerk)Polysynaptic reflex = withdrawal reflex,
response to a pain stimulus