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Author Notes:

Email Address: K.J.Ressler :kressle@emory.edu

Experimental design, implementation, analysis and write-up was conducted by O.P.K.

Experimental implementation, analysis and write-up was conducted by R.C.H.

MRI experimental design and implementation, and manuscript review was done by D.A.G. and S.D.K.

Confocal experimental design and implementation, and manuscript review was done by S.L.G.

Experimental design, implementation, analysis, funding and manuscript review was done by K.J.R.

We would acknowledge Dr Donald Rainnie for contributing his technical expertise in confocal microscopy and Mr Andrew Swanson for his technical expertise in dendritic spine morphology and density analyses.

The MRI work presented here would not be possible without the facilities and expertise provided by the Biomedical Imaging and Technology Core (BITC) of Emory University and Georgia Institute of Technology.

In the same vein, Dr Mathew Magnuson deserves special recognition for training the first author to operate the Bruker 9.4T scanner.

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Research Funding:

This work was supported by: R21MH101492-01, R01MH096764 and R01MH101477.

This project was also supported in part by the Office of Research Infrastructure Programs/OD P51OD011132 (formerly NCRR P51RR000165).

Voxel-based morphometry predicts shifts in dendritic spine density and morphology with auditory fear conditioning.

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Journal Title:

Nature Communications

Volume:

Volume 6

Publisher:

, Pages 7582-7582

Type of Work:

Article | Final Publisher PDF

Abstract:

Neuroimaging has provided compelling data about the brain. Yet the underlying mechanisms of many neuroimaging techniques have not been elucidated. Here we report a voxel-based morphometry (VBM) study of Thy1-YFP mice following auditory fear conditioning complemented by confocal microscopy analysis of cortical thickness, neuronal morphometric features and nuclei size/density. Significant VBM results included the nuclei of the amygdala, the insula and the auditory cortex. There were no significant VBM changes in a control brain area. Focusing on the auditory cortex, confocal analysis showed that fear conditioning led to a significantly increased density of shorter and wider dendritic spines, while there were no spine differences in the control area. Of all the morphology metrics studied, the spine density was the only one to show significant correlation with the VBM signal. These data demonstrate that learning-induced structural changes detected by VBM may be partially explained by increases in dendritic spine density.

Copyright information:

© 2015, Nature Publishing Group, a division of Macmillan Publishers Limited.

This is an Open Access article distributed under the terms of the Creative Commons Attribution 4.0 International License ( http://creativecommons.org/licenses/by/4.0/), which permits making multiple copies, distribution of derivative works, distribution, public display, and publicly performance, provided the original work is properly cited. This license requires copyright and license notices be kept intact, credit be given to copyright holder and/or author.

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