Zobrazeno 1 - 8
of 8
pro vyhledávání: '"Edmund Tam"'
Autor:
Lauren Schiff, Bianca Migliori, Ye Chen, Deidre Carter, Caitlyn Bonilla, Jenna Hall, Minjie Fan, Edmund Tam, Sara Ahadi, Brodie Fischbacher, Anton Geraschenko, Christopher J. Hunter, Subhashini Venugopalan, Sean DesMarteau, Arunachalam Narayanaswamy, Selwyn Jacob, Zan Armstrong, Peter Ferrarotto, Brian Williams, Geoff Buckley-Herd, Jon Hazard, Jordan Goldberg, Marc Coram, Reid Otto, Edward A. Baltz, Laura Andres-Martin, Orion Pritchard, Alyssa Duren-Lubanski, Ameya Daigavane, Kathryn Reggio, NYSCF Global Stem Cell Array® Team, Phillip C. Nelson, Michael Frumkin, Susan L. Solomon, Lauren Bauer, Raeka S. Aiyar, Elizabeth Schwarzbach, Scott A. Noggle, Frederick J. Monsma, Daniel Paull, Marc Berndl, Samuel J. Yang, Bjarki Johannesson
Publikováno v:
Nature Communications, Vol 13, Iss 1, Pp 1-13 (2022)
By coupling robotic cell culture systems with artificial intelligence–powered image analysis, Schiff et al. identify previously unseen characteristics of Parkinson’s disease in patient skin cells that distinguish them from healthy controls.
Externí odkaz:
https://doaj.org/article/9d8265097577462f83aa83bf77ad2240
Autor:
Madison McGrath, Edmund Tam, Martina Sladkova, Athbah AlManaie, Matthew Zimmer, Giuseppe Maria de Peppo
Publikováno v:
Stem Cell Research & Therapy, Vol 10, Iss 1, Pp 1-13 (2019)
Abstract Background Human mesenchymal stem cells are a strong candidate for cell therapies owing to their regenerative potential, paracrine regulatory effects, and immunomodulatory activity. Yet, their scarcity, limited expansion potential, and age-a
Externí odkaz:
https://doaj.org/article/1a8fc6152a524160bf3daaeb561f0906
Autor:
Edmund Tam, Anaam Alostaad, Athbah AlManaie, Madison McGrath, Martina Sladkova, Giuseppe Maria de Peppo
Publikováno v:
Annals of the New York Academy of Sciences
To foster translation and commercialization of tissue‐engineered products, preservation methods that do not significantly compromise tissue properties need to be designed and tested. Robust preservation methods will enable the distribution of tissu
Autor:
Lauren, Schiff, Bianca, Migliori, Ye, Chen, Deidre, Carter, Caitlyn, Bonilla, Jenna, Hall, Minjie, Fan, Edmund, Tam, Sara, Ahadi, Brodie, Fischbacher, Anton, Geraschenko, Christopher J, Hunter, Subhashini, Venugopalan, Sean, DesMarteau, Arunachalam, Narayanaswamy, Selwyn, Jacob, Zan, Armstrong, Peter, Ferrarotto, Brian, Williams, Geoff, Buckley-Herd, Jon, Hazard, Jordan, Goldberg, Marc, Coram, Reid, Otto, Edward A, Baltz, Laura, Andres-Martin, Orion, Pritchard, Alyssa, Duren-Lubanski, Ameya, Daigavane, Kathryn, Reggio, Phillip C, Nelson, Michael, Frumkin, Susan L, Solomon, Lauren, Bauer, Raeka S, Aiyar, Elizabeth, Schwarzbach, Scott A, Noggle, Frederick J, Monsma, Daniel, Paull, Marc, Berndl, Samuel J, Yang, Bjarki, Johannesson
Publikováno v:
Nature communications. 13(1)
Drug discovery for diseases such as Parkinson’s disease are impeded by the lack of screenable cellular phenotypes. We present an unbiased phenotypic profiling platform that combines automated cell culture, high-content imaging, Cell Painting, and d
Autor:
Minjie Fan, Samuel Yang, Orion Pritchard, Sean DesMarteau, Zan Armstrong, Selwyn Jacob, Marc Coram, Peter Ferrarotto, Edward A. Baltz, Lauren Schiff, Edmund Tam, Alyssa Duren-Lubanski, Ameya Daigavane, Geoff Buckley-Herd, Brian Williams, Elizabeth Schwarzbach, Raeka S. Aiyar, Jordan Goldberg, Jenna Hall, Daniel Paull, Deidre Carter, Marc Berndl, Scott Noggle, Reid Otto, Jon Hazard, Frederick J. Monsma, Lauren Bauer, Caitlyn Bonilla, Brodie Fischbacher, Bianca Migliori, Ye Chen, Sara Ahadi, Bjarki Johannesson, Subhashini Venugopalan, Christopher J. Hunter, Arunachalam Narayanaswamy, Anton Geraschenko, Kathryn Reggio, Laura Andres-Martin
Drug discovery for diseases such as Parkinson’s disease are impeded by the lack of screenable cellular phenotypes. We present an unbiased phenotypic profiling platform that combines automated cell culture, high-content imaging, Cell Painting, and d
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::0736c9ee7dda2c99486a56f923ee84dc
https://doi.org/10.1101/2020.11.13.380576
https://doi.org/10.1101/2020.11.13.380576
Publikováno v:
ChemNanoMat : chemistry of nanomaterials for energy, biology and more. 2(5)
Enzymes are some of the most efficient catalysts in nature. If small catalytic peptides mimic enzymes, there is potential for broad applications from catalysis for new material synthesis to drug development, due to the ease of molecular design. Recen
Publikováno v:
ChemNanoMat. 2:419-422
Enzymes are some of the most efficient catalysts in nature. If small catalytic peptides mimic enzymes, there is potential for broad applications from catalysis for new material synthesis to drug development, due to the ease of molecular design. Recen
Autor:
Madison McGrath, Athbah AlManaie, Edmund Tam, Martina Sladkova, Giuseppe Maria de Peppo, Matthew Zimmer
Publikováno v:
Stem Cell Research & Therapy
Stem Cell Research & Therapy, Vol 10, Iss 1, Pp 1-13 (2019)
Stem Cell Research & Therapy, Vol 10, Iss 1, Pp 1-13 (2019)
Background Human mesenchymal stem cells are a strong candidate for cell therapies owing to their regenerative potential, paracrine regulatory effects, and immunomodulatory activity. Yet, their scarcity, limited expansion potential, and age-associated