Creating a Structurally Realistic Finite Element Geometric Model of a Cardiomyocyte to Study the Role of Cellular Architecture in Cardiomyocyte Systems Biology
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9.7K Views
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08:54 min
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April 18th, 2018
DOI :
April 18th, 2018
•Vijay Rajagopal1,2,3, Gregory Bass2,3, Shouryadipta Ghosh1,2,3, Hilary Hunt2,4, Cameron Walker5, Eric Hanssen6, Edmund Crampin2,3,4,7,8, Christian Soeller9
1Cell Structure and Mechanobiology Group, University of Melbourne, 2Systems Biology Laboratory, Melbourne School of Engineering, University of Melbourne, 3Department of Biomedical Engineering, University of Melbourne, 4School of Mathematics and Statistics, Faculty of Science, University of Melbourne, 5Department of Engineering Science, University of Auckland, 6Advanced Microscopy Facility, Bio21 Molecular Science and Biotechnology Institute, University of Melbourne, 7ARC Centre of Excellence in Convergent Bio-Nano Science and Technology, University of Melbourne, 8School of Medicine, Faculty of Medicine, Dentistry and Health Sciences, University of Melbourne, 9Living Systems Institute, University of Exeter
Rozdziały w tym wideo
0:04
Title
1:19
Segment Myofibrils and Mitochondria Regions from the EM 3D Image Dataset
3:05
Create a Finite Element Mesh from the Segmented Components
4:36
Mathematically Map the Spatially Varying Density of Ion-channels of Interest onto the Finite Element Mesh
6:51
Results: A Structurally Realistic Finite Element Geometric Model of a Cardiomyocyte
8:13
Conclusion
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