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Aurélie Jean
Researcher at Pennsylvania State University
Publications - 20
Citations - 382
Aurélie Jean is an academic researcher from Pennsylvania State University. The author has contributed to research in topics: Finite element method & Representative elementary volume. The author has an hindex of 8, co-authored 19 publications receiving 340 citations. Previous affiliations of Aurélie Jean include Mines ParisTech & Massachusetts Institute of Technology.
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Journal ArticleDOI
An animal-to-human scaling law for blast-induced traumatic brain injury risk assessment
Aurélie Jean,Michelle K. Nyein,James Zheng,David F. Moore,John D. Joannopoulos,Raul Radovitzky +5 more
TL;DR: A physics-based animal-to-human scaling law for the effects of a blast wave on brain tissue is proposed, which enables the translation of animal-based assessments of injury to the human, thus effectively enabling the derivation of human injury criteria based on animal tests.
Journal ArticleDOI
Three-dimensional elastomeric scaffolds designed with cardiac-mimetic structural and mechanical features.
Rebekah A. Neal,Aurélie Jean,Hyoungshin Park,Patrick B. Wu,James C. Hsiao,George C. Engelmayr,Robert Langer,Lisa E. Freed +7 more
TL;DR: This work demonstrated several scaffold designs that promoted functional assembly of rat heart cells, and provided the foundation for further computational and empirical investigations of 3D elastomeric scaffolds for cardiac tissue engineering.
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Laser microfabricated poly(glycerol sebacate) scaffolds for heart valve tissue engineering.
Nafiseh Masoumi,Aurélie Jean,Aurélie Jean,Jeffrey T. Zugates,Katherine L. Johnson,George C. Engelmayr,George C. Engelmayr +6 more
TL;DR: This study utilized a laser microablation technique to create anisotropic scaffolds comprised of diamond-shaped pores and seeded scaffolds with valvular interstitial cells to create more biomimetic engineered heart valve tissues.
Journal ArticleDOI
A multiscale microstructure model of carbon black distribution in rubber
TL;DR: A three‐dimensional mathematical model of the morphology of the microstructure of rubber composite containing carbon black nano‐fillers satisfies the experimental percolation rate of the carbon black aggregates in the material.
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Finite element analysis of an accordion-like honeycomb scaffold for cardiac tissue engineering
Aurélie Jean,George C. Engelmayr +1 more
TL;DR: The FE model will be useful in designing future variants of the ALH pore geometry that simultaneously provide proper cardiac anisotropy and reduced stiffness to enhance heart cell-mediated contractility and in matching the anisotropic mechanical properties of native cardiac muscle.