| 7-R21-EB037174-02 |
In situ formed microneedle-like depots for spatiotemporally controlled drug delivery |
Mohamadmahdi Samandari |
Old Dominion University |
| 1-R03-EB037115-01 |
In situ forming implant drug delivery for non-addictive post-operative analgesia |
Brittany Givens Rassoolkhani |
University of Kentucky |
| 1-R01-EB036924-01A1 |
Injectable cell-free piezoelectric scaffold to treat osteoarthritis in large animal models |
Thanh Nguyen |
University of Connecticut Storrs |
| 1-U01-EB036955-01 |
Injectable scaffolds for early detection of immune dysregulation and monitoring response to immunotherapies |
Lonnie Shea |
University of Michigan at Ann Arbor |
| 1-F32-EB036927-01 |
Integrating biomaterials and genomic tools for glycan-based programming of immune cells |
Robert Hincapie |
Columbia Univ New York Morningside |
| 1-R21-EB034818-01A1 |
Lymph node inspired hydrogels for immune cell reprogramming |
Santiago Correa |
Columbia Univ New York Morningside |
| 1-R21-EB037178-01 |
Magnetic Microgels for Composite Musculoskeletal Tissue Regeneration |
Feini Qu |
University of Washington |
| 1-R21-EB029733-01A1 |
Magnetically activated structures for minimally invasive endovascular therapy |
Chander Sadasivan |
State University New York Stony Brook |
| 5-R21-EB032134-03 |
MMP-deactivating injectable hydrogel for chronic wounds |
Kyung Jeong |
University of New Hampshire |
| 1-R56-EB034685-01 |
Multifunctional Intelligent Hierarchical Fibrous Biomaterials Integrated with Multimodal Biosensing and Feedback-Based Interventions for Healing Infected Chronic Wounds |
Zheng Yan |
University of Missouri-Columbia |
