Generating high fidelity surface meshes of neocortical neurons using skin modifiers

Abdellah, Marwan; Favreau, Cyrille; Hernando, Juan; Lapere, Samuel; Schürmann, Felix

doi:10.5281/zenodo.10816831

Published March 14, 2024 | Version 1.0.0

Dataset Open

Generating high fidelity surface meshes of neocortical neurons using skin modifiers

1. École Polytechnique Fédérale de Lausanne

Summary

The dataset contained in this repository is the resulting meshes from applying the Skin Modifier in Blender on all neuronal morphological types (mtypes) identified for comastosensory cortical cells by the Blue Brain Project.

The papser, Generating high fidelity surface meshes of neocortical neurons using skin modifiers, is published in the 2019 EG Computer Graphics & Visual Computing (CGVC) conference.

https://doi.org/10.2312/cgvc.20191257
https://diglib.eg.org:443/handle/10.2312/cgvc20191257

Paper abstract

We present the results of exploring the capabilities of skinning modifiers to generate high fidelity polygonal surface meshes of neurons from their morphological skeletons that are segmented from optical microscopy slides. Our algorithm is implemented in Blender as an add-on relying on its standard Python API. The implementation is also integrated into an open source domain specific framework, NeuroMorphoVis, that is used to visualize and analyze neuronal morphologies available from the neuroscientific community. Our technique is applied to create meshes for a set of neurons with 55 different morphologies reconstructed from the neocortex of a 14-days-old rat. The generated meshes are used to visualize full compartmental simulations of neocortical activity for analysis purposes and also to create high quality scientific illustrations of in silico neuronal circuits for media production with physically-based path tracers.

BibTex citation

@inproceedings {10.2312:cgvc.20191257,
booktitle = {Computer Graphics and Visual Computing (CGVC)},
editor = {Vidal, Franck P. and Tam, Gary K. L. and Roberts, Jonathan C.},
title = {{Generating High Fidelity Surface Meshes of Neocortical Neurons using Skin Modifiers}},
author = {Abdellah, Marwan and Favreau, Cyrille and Hernando, Juan and Lapere, Samuel and Schürmann, Felix},
year = {2019},
publisher = {The Eurographics Association},
ISBN = {978-3-03868-096-3},
DOI = {10.2312/cgvc.20191257}
}

Files

Exemplar Neuron.zip

Files (8.1 GB)

Name	Size	Download all
Exemplar Neuron.zip md5:7f91f825f600d78fdd156bd6d7ce14f4	9.9 MB	Preview Download
Meshes (with Bridging) - Blender.zip md5:6569eeab427c271a414fc77d5eb7c727	7.0 GB	Preview Download
Meshes (without Bridging) - morphology names.zip md5:b674952f0ae4bc835dd662240fc8bc1a	1.0 GB	Preview Download
Morphological Analysis.zip md5:3307dac69026253ee540a9821fe1f12b	113.4 kB	Preview Download
Morphologies (mtypes).zip md5:097993107c8914a6d9321f312fdce6f3	6.5 MB	Preview Download
Morphologies (names).zip md5:71f5f9967231f86cccb06b99a030c56a	6.6 MB	Preview Download
Morphologies Images.zip md5:63f62754ef9455124ed3b7d37945d1eb	27.9 MB	Preview Download

Additional details

Repository URL: https://github.com/BlueBrain/NeuroMorphoVis
Programming language: Python
Development Status: Active

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Views	32	32
Downloads	6	6
Data volume	8.1 GB	8.1 GB

Generating high fidelity surface meshes of neocortical neurons using skin modifiers

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Description

Summary

Paper abstract

BibTex citation

Files

Exemplar Neuron.zip

Files (8.1 GB)

Additional details

Software