1-U01-EB034450-01 |
Clickable Extracellular Vesicles to Silk-Based Biomaterials for Regenerative Medicine |
David Vorp |
University of Pittsburgh at Pittsburgh |
5-R21-EB031435-03 |
Designing cancer-inspired scaffolds for neural repair |
Robert Cornelison |
University of Massachusetts Amherst |
5-R01-EB030031-04 |
Development of a mechanosensitive synthetic cell for mediating intercellular communication. |
Allen Liu |
University of Michigan at Ann Arbor |
5-R01-EB023052-04 |
Engineering a naturally derived and highly adhesive surgical sealant |
Nasim Annabi |
University of California Los Angeles |
5-R01-EB028690-04 |
Hybrid Synthetic and Biologic Shear Thinning Hydrogels for Diabetic Wound Healing |
Craig Duvall |
Vanderbilt University |
1-R21-EB029733-01A1 |
Magnetically activated structures for minimally invasive endovascular therapy |
Chander Sadasivan |
State University New York Stony Brook |
1-R56-EB032672-01A1 |
Manipulating the host-biomaterial interface for enhanced scaffold vascularization |
Amir Sheikhi |
Pennsylvania State University, The |
5-R21-EB032134-03 |
MMP-deactivating injectable hydrogel for chronic wounds |
Kyung Jeong |
University of New Hampshire |
5-R03-EB032069-02 |
Multifunctional Colloidal Gel for Dentin Formation |
Debanjan Sarkar |
State University of New York at Buffalo |
5-R01-EB027705-04 |
Overcoming vaccine-associated hypoxia with advanced biomaterials to enhance cancer immunotherapy |
Stephen Hatfield |
Northeastern University |