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Mapping of neuron soma size as an effective approach to delineate differences between neural populations

[Display omitted] •A method for display and analysis of cytoarchitectonic data is presented.•Neurons from fixed tissue sections were assessed for soma area and in situ position.•Multi-dimensional mapping revealed distinct neural populations.•Superior sensitivity revealed small differences between gr...

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Bibliographic Details
Published in:Journal of neuroscience methods 2018-07, Vol.304, p.126-135
Main Authors: Lingley, Alexander J., Bowdridge, Joshua C., Farivar, Reza, Duffy, Kevin R.
Format: Article
Language:English
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Summary:[Display omitted] •A method for display and analysis of cytoarchitectonic data is presented.•Neurons from fixed tissue sections were assessed for soma area and in situ position.•Multi-dimensional mapping revealed distinct neural populations.•Superior sensitivity revealed small differences between groups of neurons. A single histological marker applied to a slice of tissue often reveals myriad cytoarchitectonic characteristics that can obscure differences between neuron populations targeted for study. Isolation and measurement of a single feature from the tissue is possible through a variety of approaches, however, visualizing the data numerically or through graphs alone can preclude being able to identify important features and effects that are not obvious from direct observation of the tissue. We demonstrate an efficient, effective, and robust approach to quantify and visualize cytoarchitectural features in histologically prepared brain sections. We demonstrate that this approach is able to reveal small differences between populations of neurons that might otherwise have gone undiscovered. We used stereological methods to record the cross-sectional soma area and in situ position of neurons within sections of the cat, monkey, and human visual system. The two-dimensional coordinate of every measured cell was used to produce a scatter plot that recapitulated the natural spatial distribution of cells, and each point in the plot was color-coded according to its respective soma area. The final graphic display was a multi-dimensional map of neuron soma size that revealed subtle differences across neuron aggregations, permitted delineation of regional boundaries, and identified small differences between populations of neurons modified by a period of sensory deprivation. This approach to collecting and displaying cytoarchitectonic data is simple, efficient, and provides a means of investigating small differences between neuron populations.
ISSN:0165-0270
1872-678X
DOI:10.1016/j.jneumeth.2018.04.018