Cell image area as a tool for neuronal classification

The measurement of the area of a shapeless plane region is one of the basic problems in traditional calculus. In order to calculate the ‘true’ area of such a region, we have superimposed a net of identical squares on this region, counted the squares containing at least one point of the region, and c...

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Bibliographic Details
Published in:Journal of neuroscience methods 2009-09, Vol.182 (2), p.272-278
Main Authors: Ristanović, Dušan, Milošević, Nebojša T., Stefanović, Ivan B., Marić, Dušan, Popov, Ivan
Format: Article
Language:English
Subjects:
Algorithms
Animals
Cell classification
Cerebellar Nuclei - cytology
Data Interpretation, Statistical
Dendrites - physiology
Dentate nucleus
Image area
Image Processing, Computer-Assisted
Imaging, Three-Dimensional
Macaca mulatta
Mathematical modelling
Models, Statistical
Neuronal morphology
Neurons - classification
Neurons - ultrastructure
Rhesus monkey
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Summary:The measurement of the area of a shapeless plane region is one of the basic problems in traditional calculus. In order to calculate the ‘true’ area of such a region, we have superimposed a net of identical squares on this region, counted the squares containing at least one point of the region, and calculated the sum of the areas of said squares. This sum represents an approximation of the region's area. By mathematical modelling and computational techniques we have investigated the law governing the decrease of these areas with the decrease of the length of the square's side. In theory, the prediction of the ‘true’ area could then be performed if the side of the net's squares tend to zero. Of course, the accuracy of the calculated area strongly depends on the computational potential and the statistical possibilities. Several morphometric parameters are currently in use for the quantitative analysis of the morphology of neuronal cell images. The cell image area has not yet been used and evaluated as a classification parameter – but it has the potential to be chosen over some other alternatives due to the high mathematical accuracy at which it is defined. By adopting mathematical modelling and computational techniques we show that this parameter can lead to successful distinction between 2 types of morphologically very similar cells (large boundary neuron and large asymmetrical neuron) in the dentate nucleus of the rhesus monkey ( Macaca mulatta), while some other parameters failed to achieve positive results.
ISSN:0165-0270
1872-678X
DOI:10.1016/j.jneumeth.2009.06.004