Relevance of seizure-induced neurogenesis in animal models of epilepsy to the etiology of temporal lobe epilepsy
Relevance of seizure-induced neurogenesis in animal models of epilepsy to the etiology of temporal lobe epilepsy
Seizure induction in laboratory animals is followed by many changes in structure and function, and one of these is an increase in neurogenesis-the birth of new neurons. This phenomenon may be relevant to temporal lobe epilepsy (TLE), because one of the regions of the brain where seizure-induced neurogenesis is most robust is the dentate gyrus-an area of the brain that has been implicated in the pathophysiology of TLE. Although initial studies predicted that neurogenesis in the dentate gyrus would be important to normal functions, such as learning and memory, the new neurons that are born after seizures may not necessarily promote normal function. There appears to be a complex functional and structural relationship between the new dentate gyrus neurons and preexisting cells, both in the animal models of TLE and in tissue resected from patients with intractable TLE. These studies provide new insights into the mechanisms of TLE, and suggest novel strategies for intervention that could be used to prevent or treat TLE
dentate gyrus, granule cell, hilus, status epilepticus, ectopic, epileptogenesis
33-41
Scharfman, Helen E.
f8c4a6d3-eb2a-4d52-93ef-7609ef4fbb9d
Gray, William P.
f34a0e23-3cba-4b0a-8676-a1b2c3e4c095
April 2007
Scharfman, Helen E.
f8c4a6d3-eb2a-4d52-93ef-7609ef4fbb9d
Gray, William P.
f34a0e23-3cba-4b0a-8676-a1b2c3e4c095
Scharfman, Helen E. and Gray, William P.
(2007)
Relevance of seizure-induced neurogenesis in animal models of epilepsy to the etiology of temporal lobe epilepsy.
Epilepsia, 48 (s2), .
(doi:10.1111/j.1528-1167.2007.01065.x).
Abstract
Seizure induction in laboratory animals is followed by many changes in structure and function, and one of these is an increase in neurogenesis-the birth of new neurons. This phenomenon may be relevant to temporal lobe epilepsy (TLE), because one of the regions of the brain where seizure-induced neurogenesis is most robust is the dentate gyrus-an area of the brain that has been implicated in the pathophysiology of TLE. Although initial studies predicted that neurogenesis in the dentate gyrus would be important to normal functions, such as learning and memory, the new neurons that are born after seizures may not necessarily promote normal function. There appears to be a complex functional and structural relationship between the new dentate gyrus neurons and preexisting cells, both in the animal models of TLE and in tissue resected from patients with intractable TLE. These studies provide new insights into the mechanisms of TLE, and suggest novel strategies for intervention that could be used to prevent or treat TLE
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Published date: April 2007
Keywords:
dentate gyrus, granule cell, hilus, status epilepticus, ectopic, epileptogenesis
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Local EPrints ID: 62569
URI: http://eprints.soton.ac.uk/id/eprint/62569
ISSN: 0013-9580
PURE UUID: f7d27cf1-2b91-4aff-b711-cbe00e8d341a
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Date deposited: 26 Feb 2009
Last modified: 15 Mar 2024 11:31
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Author:
Helen E. Scharfman
Author:
William P. Gray
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