Long term delivery of pulsed magnetic fields does not alter visual discrimination learning or dendritic spine density in the mouse CA1 pyramidal or dentate gyrus neurons [v2; ref status: indexed, http://f1000r.es/2gk]

Long term delivery of pulsed magnetic fields does not alter visual discrimination learning or dendritic spine density in the mouse CA1 pyramidal or dentate gyrus neurons [v2; ref status: indexed, http://f1000r.es/2gk]

Repetitive transcranial magnetic stimulation (rTMS) is thought to facilitate brain plasticity. However, few studies address anatomical changes following rTMS in relation to behaviour. We delivered 5 weeks of daily pulsed rTMS stimulation to adult ephrin-A2-/- and wildtype (C57BI/6j) mice (n=10 per g...

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Main Authors: Matthew Sykes, Kalina Makowiecki, Jennifer Rodger
Format: Article
Language:English
Published: F1000 Research Ltd 2013-12-01
Series:F1000Research
Subjects:
Cognitive Neuroscience
Neurodevelopment
Neuronal & Glial Cell Biology
Online Access:http://f1000research.com/articles/2-180/v2
id doaj-42d4db2fb40348cc8a80800a1289eaba
record_format Article
spelling doaj-42d4db2fb40348cc8a80800a1289eaba2020-11-25T03:20:37ZengF1000 Research LtdF1000Research2046-14022013-12-01210.12688/f1000research.2-180.v23188Long term delivery of pulsed magnetic fields does not alter visual discrimination learning or dendritic spine density in the mouse CA1 pyramidal or dentate gyrus neurons [v2; ref status: indexed, http://f1000r.es/2gk]Matthew Sykes0Kalina Makowiecki1Jennifer Rodger2Experimental and Regenerative Neurosciences, School of Animal Biology, University of Western Australia, Crawley, AustraliaExperimental and Regenerative Neurosciences, School of Animal Biology, University of Western Australia, Crawley, AustraliaExperimental and Regenerative Neurosciences, School of Animal Biology, University of Western Australia, Crawley, AustraliaRepetitive transcranial magnetic stimulation (rTMS) is thought to facilitate brain plasticity. However, few studies address anatomical changes following rTMS in relation to behaviour. We delivered 5 weeks of daily pulsed rTMS stimulation to adult ephrin-A2-/- and wildtype (C57BI/6j) mice (n=10 per genotype) undergoing a visual learning task and analysed learning performance, as well as spine density, in the dentate gyrus molecular and CA1 pyramidal cell layers in Golgi-stained brain sections. We found that neither learning behaviour, nor hippocampal spine density was affected by long term rTMS. Our negative results highlight the lack of deleterious side effects in normal subjects and are consistent with previous studies suggesting that rTMS has a bigger effect on abnormal or injured brain substrates than on normal/control structures.http://f1000research.com/articles/2-180/v2Cognitive NeuroscienceNeurodevelopmentNeuronal & Glial Cell Biology
collection DOAJ
language English
format Article
sources DOAJ
author Matthew Sykes
Kalina Makowiecki
Jennifer Rodger
spellingShingle Matthew Sykes
Kalina Makowiecki
Jennifer Rodger
Long term delivery of pulsed magnetic fields does not alter visual discrimination learning or dendritic spine density in the mouse CA1 pyramidal or dentate gyrus neurons [v2; ref status: indexed, http://f1000r.es/2gk]
F1000Research
Cognitive Neuroscience
Neurodevelopment
Neuronal & Glial Cell Biology
author_facet Matthew Sykes
Kalina Makowiecki
Jennifer Rodger
author_sort Matthew Sykes
title Long term delivery of pulsed magnetic fields does not alter visual discrimination learning or dendritic spine density in the mouse CA1 pyramidal or dentate gyrus neurons [v2; ref status: indexed, http://f1000r.es/2gk]
title_short Long term delivery of pulsed magnetic fields does not alter visual discrimination learning or dendritic spine density in the mouse CA1 pyramidal or dentate gyrus neurons [v2; ref status: indexed, http://f1000r.es/2gk]
title_full Long term delivery of pulsed magnetic fields does not alter visual discrimination learning or dendritic spine density in the mouse CA1 pyramidal or dentate gyrus neurons [v2; ref status: indexed, http://f1000r.es/2gk]
title_fullStr Long term delivery of pulsed magnetic fields does not alter visual discrimination learning or dendritic spine density in the mouse CA1 pyramidal or dentate gyrus neurons [v2; ref status: indexed, http://f1000r.es/2gk]
title_full_unstemmed Long term delivery of pulsed magnetic fields does not alter visual discrimination learning or dendritic spine density in the mouse CA1 pyramidal or dentate gyrus neurons [v2; ref status: indexed, http://f1000r.es/2gk]
title_sort long term delivery of pulsed magnetic fields does not alter visual discrimination learning or dendritic spine density in the mouse ca1 pyramidal or dentate gyrus neurons [v2; ref status: indexed, http://f1000r.es/2gk]
publisher F1000 Research Ltd
series F1000Research
issn 2046-1402
publishDate 2013-12-01
description Repetitive transcranial magnetic stimulation (rTMS) is thought to facilitate brain plasticity. However, few studies address anatomical changes following rTMS in relation to behaviour. We delivered 5 weeks of daily pulsed rTMS stimulation to adult ephrin-A2-/- and wildtype (C57BI/6j) mice (n=10 per genotype) undergoing a visual learning task and analysed learning performance, as well as spine density, in the dentate gyrus molecular and CA1 pyramidal cell layers in Golgi-stained brain sections. We found that neither learning behaviour, nor hippocampal spine density was affected by long term rTMS. Our negative results highlight the lack of deleterious side effects in normal subjects and are consistent with previous studies suggesting that rTMS has a bigger effect on abnormal or injured brain substrates than on normal/control structures.
topic Cognitive Neuroscience
Neurodevelopment
Neuronal & Glial Cell Biology
url http://f1000research.com/articles/2-180/v2
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