Christos Michas, B.S. Electrical and Computer Engineering
Affiliations: | 2017- | Biomedical Engineering | Boston University, Boston, MA, United States |
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"Christos Michas"
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| Fleming JW, McCloskey MC, Gray K, et al. (2025) An automated platform for simultaneous, longitudinal analysis of engineered neuromuscular tissues for applications in neurotoxin potency testing. Current Research in Toxicology. 8: 100218 |
| Sundaram S, Lee JH, Bjørge IM, et al. (2024) Sacrificial capillary pumps to engineer multiscalar biological forms. Nature. 636: 361-367 |
| Michas C, Karakan MÇ, Nautiyal P, et al. (2022) Engineering a living cardiac pump on a chip using high-precision fabrication. Science Advances. 8: eabm3791 |
| Jayne RK, Karakan MÇ, Zhang K, et al. (2021) Direct laser writing for cardiac tissue engineering: a microfluidic heart on a chip with integrated transducers. Lab On a Chip. 21: 1724-1737 |
| Song J, Michas C, Chen CS, et al. (2021) Controlled Cell Alignment Using Two-Photon Direct Laser Writing-Patterned Hydrogels in 2D and 3D. Macromolecular Bioscience. e2100051 |
| Otchy TM, Michas C, Lee B, et al. (2020) Printable microscale interfaces for long-term peripheral nerve mapping and precision control. Nature Communications. 11: 4191 |
| Pearre BW, Michas C, Tsang JM, et al. (2019) Fast micron-scale 3D printing with a resonant-scanning two-photon microscope. Additive Manufacturing. 30 |
| Song J, Michas C, Chen CS, et al. (2019) From Simple to Architecturally Complex Hydrogel Scaffolds for Cell and Tissue Engineering Applications: Opportunities Presented by Two-Photon Polymerization. Advanced Healthcare Materials. e1901217 |
| Michas C, Nautiyal P, Agarwal A, et al. (2019) Abstract 417: A 3D iPSC-derived Scaffold-Assisted Microfluidic Model of Ventricular Ejection Circulation Research. 125 |