NeuroEditor: a tool to edit and visualize neuronal morphologies

The digital extraction of detailed neuronal morphologies from microscopy data is an essential step in the study of neurons. Ever since Cajal’s work, the acquisition and analysis of neuron anatomy has yielded invaluable insight into the nervous system, which has led to our present understanding of ma...

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Published inFrontiers in neuroanatomy Vol. 18; p. 1342762
Main Authors Velasco, Ivan, Garcia-Cantero, Juan J., Brito, Juan P., Bayona, Sofia, Pastor, Luis, Mata, Susana
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 14.02.2024
Frontiers Media S.A
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Online AccessGet full text
ISSN1662-5129
1662-5129
DOI10.3389/fnana.2024.1342762

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Summary:The digital extraction of detailed neuronal morphologies from microscopy data is an essential step in the study of neurons. Ever since Cajal’s work, the acquisition and analysis of neuron anatomy has yielded invaluable insight into the nervous system, which has led to our present understanding of many structural and functional aspects of the brain and the nervous system, well beyond the anatomical perspective. Obtaining detailed anatomical data, though, is not a simple task. Despite recent progress, acquiring neuron details still involves using labor-intensive, error prone methods that facilitate the introduction of inaccuracies and mistakes. In consequence, getting reliable morphological tracings usually needs the completion of post-processing steps that require user intervention to ensure the extracted data accuracy. Within this framework, this paper presents NeuroEditor, a new software tool for visualization, editing and correction of previously reconstructed neuronal tracings. This tool has been developed specifically for alleviating the burden associated with the acquisition of detailed morphologies. NeuroEditor offers a set of algorithms that can automatically detect the presence of potential errors in tracings. The tool facilitates users to explore an error with a simple mouse click so that it can be corrected manually or, where applicable, automatically. In some cases, this tool can also propose a set of actions to automatically correct a particular type of error. Additionally, this tool allows users to visualize and compare the original and modified tracings, also providing a 3D mesh that approximates the neuronal membrane. The approximation of this mesh is computed and recomputed on-the-fly, reflecting any instantaneous changes during the tracing process. Moreover, NeuroEditor can be easily extended by users, who can program their own algorithms in Python and run them within the tool. Last, this paper includes an example showing how users can easily define a customized workflow by applying a sequence of editing operations. The edited morphology can then be stored, together with the corresponding 3D mesh that approximates the neuronal membrane.
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Reviewed by: Paul H. E. Tiesinga, Radboud University, Netherlands; Francesco Jamal Sheiban, Polytechnic University of Milan, Italy
Edited by: Francisco Clasca, Autónoma de Madrid University, Spain
ISSN:1662-5129
1662-5129
DOI:10.3389/fnana.2024.1342762