Transforming Confocal Microscopy Imaging Data of Retinal Vasculature into 3D Animation

This research study presents a methodology for creation of 3D models from confocal microscopy, specifically the retinal trilaminar capillary network, that can be used in 3D biomedical animation. Biomedical visualization professionals regularly use CT and MRI imaging data to create 3D models and othe...

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Detalles Bibliográficos
Autores principales: Frohn, Emilyn, Lebowicz, Leah, Twedt, Rex, Young, Christine
Formato: Online Artículo Texto
Lenguaje:English
Publicado: University of Illinois at Chicago Library 2022
Materias:
Other
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9622356/
https://www.ncbi.nlm.nih.gov/pubmed/36405854
http://dx.doi.org/10.5210/jbc.v46i1.12636
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author Frohn, Emilyn
Lebowicz, Leah
Twedt, Rex
Young, Christine
author_facet Frohn, Emilyn
Lebowicz, Leah
Twedt, Rex
Young, Christine
author_sort Frohn, Emilyn
collection PubMed
description This research study presents a methodology for creation of 3D models from confocal microscopy, specifically the retinal trilaminar capillary network, that can be used in 3D biomedical animation. Biomedical visualization professionals regularly use CT and MRI imaging data to create 3D models and other visuals. Adding confocal microscopy to this toolkit using ImageJ FIJI(1) and Materialise Mimics® allows for a wider range of options to create data-driven 3D models of microscopic structures. Understanding the interactions of the neurovascular unit through visualization may be a key to advancing understanding of normal function of the retina and diabetic retinopathy pathology. This Vesalius Trust research poster was presented at the Association of Medical Illustrators' 2021 virtual annual meeting.
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spelling pubmed-96223562022-11-18 Transforming Confocal Microscopy Imaging Data of Retinal Vasculature into 3D Animation Frohn, Emilyn Lebowicz, Leah Twedt, Rex Young, Christine J Biocommun Other This research study presents a methodology for creation of 3D models from confocal microscopy, specifically the retinal trilaminar capillary network, that can be used in 3D biomedical animation. Biomedical visualization professionals regularly use CT and MRI imaging data to create 3D models and other visuals. Adding confocal microscopy to this toolkit using ImageJ FIJI(1) and Materialise Mimics® allows for a wider range of options to create data-driven 3D models of microscopic structures. Understanding the interactions of the neurovascular unit through visualization may be a key to advancing understanding of normal function of the retina and diabetic retinopathy pathology. This Vesalius Trust research poster was presented at the Association of Medical Illustrators' 2021 virtual annual meeting. University of Illinois at Chicago Library 2022-06-04 /pmc/articles/PMC9622356/ /pubmed/36405854 http://dx.doi.org/10.5210/jbc.v46i1.12636 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/The authors have chosen to license this content under a Creative Commons Attribution, NonCommercial, NoDerivatives 4.0 International License.
spellingShingle Other
Frohn, Emilyn
Lebowicz, Leah
Twedt, Rex
Young, Christine
Transforming Confocal Microscopy Imaging Data of Retinal Vasculature into 3D Animation
title Transforming Confocal Microscopy Imaging Data of Retinal Vasculature into 3D Animation
title_full Transforming Confocal Microscopy Imaging Data of Retinal Vasculature into 3D Animation
title_fullStr Transforming Confocal Microscopy Imaging Data of Retinal Vasculature into 3D Animation
title_full_unstemmed Transforming Confocal Microscopy Imaging Data of Retinal Vasculature into 3D Animation
title_short Transforming Confocal Microscopy Imaging Data of Retinal Vasculature into 3D Animation
title_sort transforming confocal microscopy imaging data of retinal vasculature into 3d animation
topic Other
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9622356/
https://www.ncbi.nlm.nih.gov/pubmed/36405854
http://dx.doi.org/10.5210/jbc.v46i1.12636
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AT youngchristine transformingconfocalmicroscopyimagingdataofretinalvasculatureinto3danimation

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