Andreina Parisi-Amon
Stanford University
9 Papers
81 Citations
Andreina Parisi-Amon is an academic researcher from Stanford University. The author has contributed to research in topics: Self-healing hydrogels & Cell encapsulation. The author has an hindex of 6, co-authored 9 publications.
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Papers
Two-component protein-engineered physical hydrogels for cell encapsulation
TL;DR: A two-component, molecular-recognition gelation strategy that enables cell encapsulation without environmental triggers, thereby enabling reproducible encapsulation of multiple cell types, including PC-12 neuronal-like cells, human umbilical vein endothelial cells, and murine adult neural stem cells is reported.
Protein‐Engineered Injectable Hydrogel to Improve Retention of Transplanted Adipose‐Derived Stem Cells
TL;DR: Improved retention of transplanted stem cells is achieved through minimally invasive delivery in MITCH, a mixing-induced two-component hydrogel that was engineered to possess shear-thinning and self-healing thixotropic properties.
Photoreactive elastin-like proteins for use as versatile bioactive materials and surface coatings.
TL;DR: The successful functionalization of a bioactive elastin-like protein with photoreactive diazirine moieties is presented, making this recombinantly engineered protein an ideal candidate for the development of novel biomaterial coatings, films, and scaffolds.
Studies in fat grafting: Part I. Effects of injection technique on in vitro fat viability and in vivo volume retention.
Michael T. Chung,Kevin J. Paik,David Atashroo,Jeong S. Hyun,Adrian McArdle,Kshemendra Senarath-Yapa,Elizabeth R. Zielins,Ruth Tevlin,Chris Duldulao,Michael S. Hu,Graham G. Walmsley,Andreina Parisi-Amon,Arash Momeni,Joe R. Rimsa,George W. Commons,Geoffrey C. Gurtner,Derrick C. Wan,Michael T. Longaker +17 more
TL;DR: Biological properties of injected tissues reflect how disruptive and harmful techniques for placement of fat may be, and the authors’ in vitro and in vivo data both support the use of the automated, low-shear devices compared with the modified Coleman technique.
Studies in fat grafting: Part II. Effects of injection mechanics on material properties of fat.
David Atashroo,Jordan Raphel,Michael T. Chung,Kevin J. Paik,Andreina Parisi-Amon,Adrian McArdle,Kshemendra Senarath-Yapa,Elizabeth R. Zielins,Ruth Tevlin,Chris Duldulao,Graham G. Walmsley,Michael S. Hu,Arash Momeni,Brian J. Domecus,Joe R. Rimsa,Lauren Greenberg,Geoffrey C. Gurtner,Michael T. Longaker,Derrick C. Wan +18 more
TL;DR: The physical properties of lipoaspirate processed using an automated, low-shear device with a 2-mm cannula preserved the intactness of fat more than the modified Coleman technique.