Nathaniel D. Huebsch
Affiliations: | 2010 | Harvard University, Cambridge, MA, United States |
Area:
Cellular biology; Biomedical engineering; BiophysicsGoogle:
"Nathaniel Huebsch"Bio:
Huebsch, Nathaniel D., Integrin-Adhesion Ligand Bonds as 3D Mechanosensors that Modulate Mesenchymal Stem Cell Fate, thesis Harvard University, 2010
Mean distance: 9.01 | S | N | B | C | P |
Parents
Sign in to add mentorDavid J. Mooney | grad student | 2010 | Harvard | |
(Integrin-Adhesion Ligand Bonds as 3D Mechanosensors that Modulate Mesenchymal Stem Cell Fate.) |
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Publications
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Huebsch N, Charrez B, Neiman G, et al. (2022) Metabolically driven maturation of human-induced-pluripotent-stem-cell-derived cardiac microtissues on microfluidic chips. Nature Biomedical Engineering. 6: 372-388 |
Huebsch N. (2019) Translational mechanobiology: Designing synthetic hydrogel matrices for improved in vitro models and cell-based therapies. Acta Biomaterialia. 94: 97-111 |
Loskill P, Huebsch N. (2019) Engineering Tissues from Induced Pluripotent Stem Cells. Tissue Engineering. Part A. 25: 707-710 |
Ma Z, Huebsch N, Koo S, et al. (2018) Contractile deficits in engineered cardiac microtissues as a result of MYBPC3 deficiency and mechanical overload. Nature Biomedical Engineering. 2: 955-967 |
Tveito A, Jæger KH, Huebsch N, et al. (2018) Inversion and computational maturation of drug response using human stem cell derived cardiomyocytes in microphysiological systems. Scientific Reports. 8: 17626 |
Cipitria A, Boettcher K, Schoenhals S, et al. (2017) In-situ tissue regeneration through SDF-1α driven cell recruitment and stiffness-mediated bone regeneration in a critical-sized segmental femoral defect. Acta Biomaterialia |
Huebsch N, Loskill P, Deveshwar N, et al. (2016) Miniaturized iPS-Cell-Derived Cardiac Muscles for Physiologically Relevant Drug Response Analyses. Scientific Reports. 6: 24726 |
Mandegar MA, Huebsch N, Frolov EB, et al. (2016) CRISPR Interference Efficiently Induces Specific and Reversible Gene Silencing in Human iPSCs. Cell Stem Cell |
Chaudhuri O, Gu L, Klumpers D, et al. (2015) Hydrogels with tunable stress relaxation regulate stem cell fate and activity. Nature Materials |
Huebsch N, Lippens E, Lee K, et al. (2015) Matrix elasticity of void-forming hydrogels controls transplanted-stem-cell-mediated bone formation. Nature Materials |