User profiles for Tori Ellison
S. Tori EllisonNational Institutes of Health Verified email at nih.gov Cited by 340 |
Three-dimensional printing with sacrificial materials for soft matter manufacturing
Three-dimensional (3D) printing has expanded beyond the mere patterned deposition of
melted solids, moving into areas requiring spatially structured soft matter—typically materials …
melted solids, moving into areas requiring spatially structured soft matter—typically materials …
[HTML][HTML] Quantitative characterization of 3D bioprinted structural elements under cell generated forces
With improving biofabrication technology, 3D bioprinted constructs increasingly resemble real
tissues. However, the fundamental principles describing how cell-generated forces within …
tissues. However, the fundamental principles describing how cell-generated forces within …
Harnessing strained disulfides for photocurable adaptable hydrogels
We report a photomediated disulfide cross-linking strategy for the generation of adaptable
hydrogels from telechelic network precursors containing strained cyclic disulfides. Exploiting …
hydrogels from telechelic network precursors containing strained cyclic disulfides. Exploiting …
3D printed collagen structures at low concentrations supported by jammed microgels
Improving cell infiltration into engineered scaffolds and decelluarized tissue is needed for
developing new and effective technologies in regenerative medicine and tissue engineering. …
developing new and effective technologies in regenerative medicine and tissue engineering. …
[HTML][HTML] Regeneration in the ctenophore Mnemiopsis leidyi occurs in the absence of a blastema, requires cell division, and is temporally separable from wound …
J Ramon-Mateu, ST Ellison, TE Angelini… - BMC biology, 2019 - Springer
Background The ability to regenerate is a widely distributed but highly variable trait among
metazoans. A variety of modes of regeneration has been described for different organisms; …
metazoans. A variety of modes of regeneration has been described for different organisms; …
Cellular micromasonry: biofabrication with single cell precision
In many tissues, cell type varies over single-cell length-scales, creating detailed heterogeneities
fundamental to physiological function. To gain understanding of the relationship …
fundamental to physiological function. To gain understanding of the relationship …
Where physics meets chemistry meets biology for fundamental soft matter research
… Tori Ellison, Senthilkumar Duraivel, Vignesh Subramaniam, Fredrik Hugosson, Bo Yu,
Joseph J. Lebowitz, Habibeh Khoshbouei, Tanmay P. Lele, Mark Q. …
Joseph J. Lebowitz, Habibeh Khoshbouei, Tanmay P. Lele, Mark Q. …
Regeneration in the absence of a blastema requires cell division but is not tied to wound healing in the ctenophore Mnemiopsis leidyi
J Ramon-Mateu, T Ellison, TE Angelini, MQ Martindale - bioRxiv, 2019 - biorxiv.org
Background The ability to regenerate is a widely distributed but highly variable trait among
metazoans. A variety of modes of regeneration has been described for different organisms, …
metazoans. A variety of modes of regeneration has been described for different organisms, …
Establishing the Fundamentals of Tissue Manufacturing
ST Ellison - 2020 - search.proquest.com
As biofabrication technology improves, more questions of the fundamentals of tissue
manufacturing arise. We are able to 3D print precise, repeatable multicellular structures by …
manufacturing arise. We are able to 3D print precise, repeatable multicellular structures by …
Cellular Micromasonry: Biofabrication with Single Cell Precision
S Tori Ellison, S Duraivel, V Subramaniam… - arXiv e …, 2022 - ui.adsabs.harvard.edu
In many tissues, cell type varies over single-cell length-scales, creating detailed spatial
heterogeneities fundamental to physiological function. To gain understanding of this relationship …
heterogeneities fundamental to physiological function. To gain understanding of this relationship …