Neurons, Neurons, Neurons! Mrs. Hartley Anatomy and Physiology.
Reactions of neurons to injury
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Transcript of Reactions of neurons to injury
![Page 1: Reactions of neurons to injury](https://reader035.fdocuments.in/reader035/viewer/2022070509/58a696d71a28abbd568b5603/html5/thumbnails/1.jpg)
Anatomy seminar 7.1 topic 6
By: Evalda Vasconcelos Tavares, gr.34
Reactions of neurons to injury
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The adult central nervous system has the lowest regenerative capacity of all organ systems.
Injuries to axons and axon bundles were once thought
to result in neuronal death and irreversible losses of function.
We now know that neurons have the capacity to
remodel and restructure their projections and synaptic connections.
INTRO
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Neurons may be injured physically or by disease processes.
Interneurons are likely to suffer total destruction Injury to a large neuron ,may result in either in
destruction if body is effected or in regeneration if axon is effected
INJURY
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All neurons react similiarly
Differences - functional mechanisms and especially, the extent and speed of process
RESPONSE TO INJURY
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Neuropraxia- (demyelination) reversible conduction block. Axon and endoneurium still intact, myelin is compressed. Eg. radial nerve compression
Axonotmesis-(demyelination+axon loss) endoneurium is intact.Eg. crach injuries and fractures.
Neurotomisis-( MOST SEVERE) as axonotmesis+ involvement of endoneurium, epineurium, and perineurium.
CLASSIFICATION OF NERVE INJURY
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CLASSIFICATION
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CELLS
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Myelin forming cells: (myelin important for conduction). oligodendroglia in CNS Schwann cells in PNS. oligodendrocytes (CNS) are inhibitory to axon
regrowth in adult CNS regeneration; Schwann cells (PNS) are supportive, as a growth
surface and releaser of growth factors. Astroglia development: supports axon growth and cell migration; mature: important for ion flux, synaptic function, blood-brain barrier injury: accumulate in scar, release excess matrix; inhibit axon growth?
Microglia (resting) and macrophages (active) cells of immune system, similar to monocytes. injury: help or hinder? ….not well-understood
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Chromatolysis Nissl substances or RER dissolute and a decrease in
cytoplasmatic basophilia. Nucleus assumes an eccentric position and the whole
body swells The closer the injury is to the body the more severe
the swelling
Transneuronal degeneration Occurs in neuronal bodies that have been deprived of
their input or output This can be either anterograde or retrograde
WHAT HAPPENS TO THE CELL BODY?
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CHROMATOLYSIS
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TRANSNEURAL DEGENERATION
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Axon doesnt last long after separation from the body, phagocytes remove bits of the axon and myelin
Wallerian degeneration occurs in both PNS and CNS. Distal ends of the
chopped off neuron will degenerate. Prior to degeneration, distal axon stumps tend to
remain electrically excitable. The axonal degeneration is followed by degradation of
the myelin sheath and infiltration by macrophages
WHAT HAPPENS TO THE AXON?
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Axons grow 2-4 mm/day used clinically to estimate time to recovery of function.
Each axon divides into many filamentous branches known as growth cone.
Axons grow within the endoneurium (connective tissue sheath) along channels formed by Schwann cells. Schwann cells make laminin (growth-supportive extracellular matrix) and nerve growth factor which stimulates axon regeneration
Optimal regeneration requires nerve sheath to be intact if axons grow outside sheath can form neuromas
AXONAL REGENERATION IN PERIPHERAL NERVES
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Reactive astrocytes form a 'glial scar' near the injury site that could block axon regeneration. [deposits of chondroitan sulfate proteoglycans (CSPGs) in the ECM shown t collapse growth cone.]
Emigration of monocytes from bloodvessels form
reactive microglia, the resting macroglia also transform into phagocytes.
CNS myelin inhibits axon growth, has several
molecules that inhibit axon growth: Nogo-A , Myelin-associated glycoprotein (MAG), etc
AXONAL REGENERATION IN CNS
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The regeneration is not perfect, far from it, often the final outcome is only limited.
A deficit of 25% of nerve function is reported even with ideal surgery repair. Eg. nerve grafts
NEUROREGENERATION
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Functional recovery involves the taking over of the functions of damaged neurons by neurons that remain intact. The reorganization of connections within the brain is known as plasticity.
PLASTICITY OF NEURAL CONNECTIONS
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http://mcloonlab.neuroscience.umn.edu/4100/Lectures/lecture%2038.pdf
https://tigger.uic.edu/classes/anat/anat403/Lectures/lecture20_09.htm#Questions
http://en.wikipedia.org/wiki/Nerve_injury
Video: https://www.youtube.com/watch?v=OKr-9WJTHME
SOURCES
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THANK YOU