Oriane Matthys Rubio

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Oriane Matthys Rubio

Stanford University, Basic Science and Engineering (BASE) Program

stanford.edu üzerinde doğrulanmış e-posta adresine sahip - Ana Sayfa


Başlık Alıntılara göre sırala Yıla göre sırala Başlığa göre sırala	Alıntı yapanlar Alıntı yapanlar	Yıl
Co-emergence of cardiac and gut tissues promotes cardiomyocyte maturation within human iPSC-derived organoids AC Silva, OB Matthys, DA Joy, MA Kauss, V Natarajan, MH Lai, D Turaga, ... Cell stem cell 28 (12), 2137-2152. e6, 2021	107	2021
Design principles for engineering of tissues from human pluripotent stem cells OB Matthys, TA Hookway, TC McDevitt Current stem cell reports 2, 43-51, 2016	29	2016
Phenotypic variation between stromal cells differentially impacts engineered cardiac tissue function TA Hookway, OB Matthys, FN Mendoza-Camacho, S Rains, ... Tissue Engineering Part A 25 (9-10), 773-785, 2019	27	2019
Developmental co-emergence of cardiac and gut tissues modeled by human iPSC-derived organoids AC Silva, OB Matthys, DA Joy, MA Kauss, V Natarajan, MH Lai, D Turaga, ... BioRxiv, 2020.04. 30.071472, 2020	23	2020
Engineering human organoid development ex vivo—challenges and opportunities OB Matthys, AC Silva, TC McDevitt Current Opinion in Biomedical Engineering 13, 160-167, 2020	17	2020
Extended fatigue life of a catalyst free self‐healing acrylic bone cement using microencapsulated 2‐octyl cyanoacrylate ABW Brochu, OB Matthys, SL Craig, WM Reichert Journal of Biomedical Materials Research Part B: Applied Biomaterials 103 (2 …, 2015	17	2015
Single-cell determination of cardiac microtissue structure and function using light sheet microscopy D Turaga, OB Matthys, TA Hookway, DA Joy, M Calvert, TC McDevitt Tissue Engineering Part C: Methods 26 (4), 207-215, 2020	14	2020
Developmental lineage of human pluripotent stem cell‐derived cardiac fibroblasts affects their functional phenotype ME Floy, SE Givens, OB Matthys, TD Mateyka, CM Kerr, AB Steinberg, ... The FASEB Journal 35 (9), e21799, 2021	12	2021
Bi-directional Impacts of Heterotypic Interactions in Engineered 3D Human Cardiac Microtissues Revealed by Single-Cell RNA-Sequencing and Functional Analysis TA Hookway, OB Matthys, DA Joy, JE Sepulveda, R Thomas, TC McDevitt bioRxiv, 2020.07. 06.190504, 2020	8	2020
Self-assembled heterotypic cardiac spheroids from human pluripotent stem cells OB Matthys, TC McDevitt Cardiac Tissue Engineering: Methods and Protocols, 39-53, 2022	1	2022
Impact of Heterotypic Interactions on Cardiomyocyte Fate and Function in 3D Microscale Models of Myocardial Tissue from Human Pluripotent Stem Cells O Matthys University of California, San Francisco, 2020		2020

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