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Blayne A. Roeder
Researcher at Purdue University
Publications - 51
Citations - 2041
Blayne A. Roeder is an academic researcher from Purdue University. The author has contributed to research in topics: Stent & Aneurysm. The author has an hindex of 20, co-authored 51 publications receiving 1846 citations.
Papers
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Journal ArticleDOI
Tensile mechanical properties of three-dimensional type I collagen extracellular matrices with varied microstructure.
TL;DR: Fundamental information regarding the 3-D microstructural-mechanical properties of the ECM and its component molecules are important to the overall understanding of cell-ECM interactions and the development of novel strategies for tissue repair and replacement.
Journal ArticleDOI
Global experience with an inner branched arch endograft.
Stéphan Haulon,Roy K. Greenberg,Rafaelle Spear,Matthew J. Eagleton,Cherrie Z. Abraham,Christos Lioupis,Eric L.G. Verhoeven,Krassi Ivancev,Tilo Kölbel,Brendan M. Stanley,Timothy Resch,Pascal Desgranges,Blandine Maurel,Blayne A. Roeder,Timothy A.M. Chuter,Tara M. Mastracci +15 more
TL;DR: The feasibility and safety of the endovascular repair of arch aneurysms in selected patients who may not have other conventional options are confirmed and being part of the early experience group and ascending aortic diameter≥38 mm were found to be associated to higher rates of combined early mortality and neurologic complications.
Journal ArticleDOI
Branched versus fenestrated endografts for endovascular repair of aortic arch lesions
Nikolaos Tsilimparis,E. Sebastian Debus,Yskert von Kodolitsch,Sabine Wipper,Fiona Rohlffs,Christian Detter,Blayne A. Roeder,Tilo Kölbel +7 more
TL;DR: Results are promising, although fTEVAR was associated with higher mortality in this early experience, and both f TEVAR and bTEVar are feasible for the treatment of aortic arch diseases in high-risk patients.
Patent
Low profile medical device
TL;DR: In this article, the authors describe an intraluminal medical device consisting of a main graft, a first extension graft, and a second extension graft with a body reinforcing portion.
Journal ArticleDOI
Fibril Microstructure Affects Strain Transmission Within Collagen Extracellular Matrices
TL;DR: It is demonstrated that regulation of collagen fibril microstructure provides a means to control the 3D strain response and strain transfer properties of collagen-based ECMs.