Load-dependent collagen fiber architecture data of representative bovine tendon and mitral valve anterior leaflet tissues as quantified by an integrated opto-mechanical system
Date
2020-01-03Author
Jett, Samuel V.
Hudson, Luke T.
Baumwart, Ryan
Bohnstedt, Bradley N.
Mir, Arshid
Burkhart, Harold M.
Holzapfel, Gerhard A.
Wu, Yi
Lee, Chung-Hao
Metadata
Show full item recordAbstract
The data presented in this article provide load-dependent collagen fiber architecture (CFA) of one representative bovine tendon tissue sample and two representative porcine mitral valve anterior leaflet tissues, and they are stored in a MATLAB MAT-file format. Each dataset contains: (i) the number of pixel points, (ii) the array of pixel's x- and y-coordinates, (iii) the three acquired pixel intensity arrays, and (iv) the Delaunay triangulation for visualization purpose. This dataset is associated with a companion journal article, which can be consulted for further information about the methodology, results, and discussion of the opto-mechanical characterization of the tissue's CFA's (Jett et al. [1]).
Citation
Jett, Samuel V;Hudson, Luke T.; Baumwart, Ryan; Bohnstedt, Bradley N.; Mir, Arshid; Burkhart, Harold M. ; Holzapfel, Gerhard A.; Wu, Yi ; Lee, Chung-Hao. 2020. Load-dependent collagen fiber architecture data of representative bovine tendon and mitral valve anterior leaflet tissues as quantified by an integrated opto-mechanical system. Data in Brief 28. https://doi.org/10.1016/j.dib.2019.105081
Sponsorship
Supports from the American Heart Association Scientist Development Grant (SDG) Award (16SDG27760143), the Presbyterian Health Foundation Team Science Grants (C5122401), and the Oklahoma Center for the Advancement of Science and Technology (OCAST) Health Research program (HR-18-002) are gratefully acknowledged. CHL was in part supported by the institutional start-up funds from the School of Aerospace and Mechanical Engineering (AME) and the institutional research funding through the Faculty Investment Program from the Research Council and IBEST-OUHSC Interdisciplinary Funding at the University of Oklahoma. Open Access fees paid for in whole or in part by the University of Oklahoma Libraries.
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