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Wendy E. Brown
Researcher at University of California, Irvine
Publications - 26
Citations - 971
Wendy E. Brown is an academic researcher from University of California, Irvine. The author has contributed to research in topics: Cartilage & Tissue engineering. The author has an hindex of 11, co-authored 22 publications receiving 584 citations. Previous affiliations of Wendy E. Brown include University of California, Davis & The Wallace H. Coulter Department of Biomedical Engineering.
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Journal ArticleDOI
Surgical and tissue engineering strategies for articular cartilage and meniscus repair.
Heenam Kwon,Wendy E. Brown,Cassandra A. Lee,Dean Wang,Nikolaos K. Paschos,Jerry C. Hu,Kyriacos A. Athanasiou +6 more
TL;DR: Surgical techniques, including tissue-engineered products, that are currently in clinical use, as well as a discussion of state-of-the-art tissue engineering strategies and technologies that are being developed for use in articular cartilage and meniscus repair and regeneration are provided.
Journal ArticleDOI
Advances in tissue engineering through stem cell-based co-culture.
Nikolaos K. Paschos,Wendy E. Brown,Rajalakshmanan Eswaramoorthy,Jerry C. Hu,Kyriacos A. Athanasiou +4 more
TL;DR: In this review, critical aspects of stem cell use in co‐culture systems are discussed, and direct and indirect co-culture methodologies used in tissue engineering are described, along with various characteristics of cellular interactions in these systems.
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Emergence of Scaffold-Free Approaches for Tissue Engineering Musculoskeletal Cartilages
TL;DR: Scaffold-free approaches are emerging as promising elements of a translational pathway not only for musculoskeletal cartilages but for other tissues as well.
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A microbial survey of the International Space Station (ISS)
Jenna M. Lang,David A. Coil,Russell Y. Neches,Wendy E. Brown,Darlene Cavalier,Mark Severance,Jarrad T. Hampton-Marcell,Jarrad T. Hampton-Marcell,Jack A. Gilbert,Jonathan A. Eisen +9 more
TL;DR: The microbial community composition on the ISS was more similar to home surfaces than to the human microbiome samples, compared to those from both homes on Earth and data from the Human Microbiome Project.
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Engineering fibrin matrices: the engagement of polymerization pockets through fibrin knob technology for the delivery and retention of therapeutic proteins
TL;DR: This work explores the benefits and limitations of engaging native, biologically-inspired, non-covalent knob:pocket interactions within fibrin(ogen) for the retention of therapeutic proteins in fibrIn matrices and provides insight into the stability of native knob: pocket interactions withinfibrin networks.