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Trends in Cell Biology
|
November 14, 2019
Reconstructing the Vascular Developmental Milieu In Vitro
Michael R Blatchley, Sharon Gerecht
Biomedical Materials (Bristol, England)
|
March 17, 2015
Acellular implantable and injectable hydrogels for vascular regeneration
Michael R Blatchley, Sharon Gerecht
Nature Materials
|
August 30, 2017
Integrin binding: Sticking around vessels
Michael R Blatchley, Sharon Gerecht
Nature Reviews Bioengineering
|
May 11, 2023
Middle-out methods for spatiotemporal tissue engineering of organoids
Michael R Blatchley, Kristi S Anseth
Macromolecular Rapid Communications
|
October 11, 2014
The design of dextran-based hypoxia-inducible hydrogels via in situ oxygen-consuming reaction
Kyung Min Park, Michael R Blatchley, Sharon Gerecht
Advanced Drug Delivery Reviews
|
August 18, 2019
Hydrogel vehicles for sequential delivery of protein drugs to promote vascular regeneration
Zhao Wei, Eugenia Volkova, Michael R Blatchley, et al.
Advanced Drug Delivery Reviews
|
August 4, 2018
Acellular and cellular approaches to improve diabetic wound healing
Hongkwan Cho, Michael R Blatchley, Elia J Duh, et al.
Nature Protocols
|
July 21, 2017
O<sub>2</sub>-controllable hydrogels for studying cellular responses to hypoxic gradients in three dimensions in vitro and in vivo
Daniel M Lewis, Michael R Blatchley, Kyung Min Park, et al.
ACS Biomaterials Science & Engineering
|
March 17, 2022
4D Materials with Photoadaptable Properties Instruct and Enhance Intestinal Organoid Development
F Max Yavitt, Bruce E Kirkpatrick, Michael R Blatchley, et al.
Science Advances
|
March 26, 2019
Hypoxia and matrix viscoelasticity sequentially regulate endothelial progenitor cluster-based vasculogenesis
Michael R Blatchley, Franklyn Hall, Songnan Wang, et al.
Page
of 3
Search research articles
Search
Showing results (1-10 of 28) with videos related to
Sort By:
Page
of 3
Trends in Cell Biology
|
November 14, 2019
Reconstructing the Vascular Developmental Milieu In Vitro
Michael R Blatchley, Sharon Gerecht
Biomedical Materials (Bristol, England)
|
March 17, 2015
Acellular implantable and injectable hydrogels for vascular regeneration
Michael R Blatchley, Sharon Gerecht
Nature Materials
|
August 30, 2017
Integrin binding: Sticking around vessels
Michael R Blatchley, Sharon Gerecht
Nature Reviews Bioengineering
|
May 11, 2023
Middle-out methods for spatiotemporal tissue engineering of organoids
Michael R Blatchley, Kristi S Anseth
Macromolecular Rapid Communications
|
October 11, 2014
The design of dextran-based hypoxia-inducible hydrogels via in situ oxygen-consuming reaction
Kyung Min Park, Michael R Blatchley, Sharon Gerecht
Advanced Drug Delivery Reviews
|
August 18, 2019
Hydrogel vehicles for sequential delivery of protein drugs to promote vascular regeneration
Zhao Wei, Eugenia Volkova, Michael R Blatchley, et al.
Advanced Drug Delivery Reviews
|
August 4, 2018
Acellular and cellular approaches to improve diabetic wound healing
Hongkwan Cho, Michael R Blatchley, Elia J Duh, et al.
Nature Protocols
|
July 21, 2017
O<sub>2</sub>-controllable hydrogels for studying cellular responses to hypoxic gradients in three dimensions in vitro and in vivo
Daniel M Lewis, Michael R Blatchley, Kyung Min Park, et al.
ACS Biomaterials Science & Engineering
|
March 17, 2022
4D Materials with Photoadaptable Properties Instruct and Enhance Intestinal Organoid Development
F Max Yavitt, Bruce E Kirkpatrick, Michael R Blatchley, et al.
Science Advances
|
March 26, 2019
Hypoxia and matrix viscoelasticity sequentially regulate endothelial progenitor cluster-based vasculogenesis
Michael R Blatchley, Franklyn Hall, Songnan Wang, et al.
Page
of 3