Megan L. McCain, Ph.D.
Affiliations: | 2012 | Engineering and Applied Sciences | Harvard University, Cambridge, MA, United States |
Area:
cardiac cell biology and tissue engineering, traumatic brain injury, and biological applications of micro- and nanotechnologiesGoogle:
"Megan McCain"Mean distance: 10.91 | S | N | B | C | P |
Parents
Sign in to add mentor| Kevin Kit Parker | grad student | 2012 | Harvard | |
| (From Womb to Doom: Mechanical Regulation of Cardiac Tissue Assembly in Morphogenesis and Pathogenesis.) | ||||
Children
Sign in to add trainee| Andrew P. Petersen | grad student | 2015- | USC |
| Joycelyn K. Yip | grad student | 2015- | USC |
| Jeffrey W. Santoso | grad student | 2016- | USC |
| Nethika Ariyasinghe | grad student | 2014-2019 | USC |
| Davi Marco Lyra-Leite | grad student | 2014-2019 | USC |
| Nathan Cho | grad student | 2015-2019 | USC |
| Megan L Rexius-Hall | post-doc | 2017- | USC (Cell Biology Tree) |
| Patrick Vigneault | post-doc | 2018- | USC |
BETA: Related publications
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Publications
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| Khalil NN, Rexius-Hall ML, Escopete S, et al. (2024) Distinct phenotypes induced by acute hypoxia and TGF-β1 in human adult cardiac fibroblasts. Journal of Molecular and Cellular Cardiology Plus. 9 |
| Ariyasinghe NR, Gupta D, Escopete S, et al. (2024) Identification of Disease-relevant, Sex-based Proteomic Differences in iPSC-derived Vascular Smooth Muscle. Biorxiv : the Preprint Server For Biology |
| Garibyan M, Hoffman T, Makaske T, et al. (2024) Author Correction: Engineering programmable material-to-cell pathways via synthetic notch receptors to spatially control differentiation in multicellular constructs. Nature Communications. 15: 6490 |
| Garibyan M, Hoffman T, Makaske T, et al. (2024) Engineering programmable material-to-cell pathways via synthetic notch receptors to spatially control differentiation in multicellular constructs. Nature Communications. 15: 5891 |
| Khalil NN, Rexius-Hall ML, Gupta D, et al. (2024) Hypoxic-Normoxic Crosstalk Activates Pro-Inflammatory Signaling in Human Cardiac Fibroblasts and Myocytes in a Post-Infarct Myocardium on a Chip. Advanced Healthcare Materials. e2401478 |
| Maxey AP, Travis JM, McCain ML. (2023) Regulation of oxytocin-induced calcium transients and gene expression in engineered myometrial tissues by tissue architecture and matrix rigidity. Current Research in Physiology. 6: 100108 |
| Bakis I, Sun Y, Abd Elmagid L, et al. (2023) Methods for dynamic and whole volume imaging of the zebrafish heart. Developmental Biology |
| Khalil NN, Petersen AP, Song CJ, et al. (2023) User-friendly microfluidic system reveals native-like morphological and transcriptomic phenotypes induced by shear stress in proximal tubule epithelium. Apl Bioengineering. 7: 036106 |
| Garibyan M, Hoffman T, Makaske T, et al. (2023) Engineering Programmable Material-To-Cell Pathways Via Synthetic Notch Receptors To Spatially Control Cellular Phenotypes In Multi-Cellular Constructs. Biorxiv : the Preprint Server For Biology |
| Rexius-Hall ML, Khalil NN, Escopete SS, et al. (2022) A myocardial infarct border-zone-on-a-chip demonstrates distinct regulation of cardiac tissue function by an oxygen gradient. Science Advances. 8: eabn7097 |