NEW SERVICE PROJECTS
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CURRENT SERVICE PROJECTS
| PI and Institution | Title | Funding status |
|---|---|---|
| Eben Alsberg, UIUC Chicago, IL | Driving tissue formation by inductive stem cell sheet technology. | Funded: NIH/NIAMS |
| James Dennis, Baylor College of Medicine | Tissue engineered constructs for articular cartilage repair | Funded: Baylor College of Medicine, Dept. of Orthopedic Surgery Startup |
| Jennifer Elisseeff, Johns Hopkins University | Imaging and friction in cartilage engineered with HA binding technology. | Funded: DOD/CDRMP |
| Lorenzo Moroni, Maastricht University | CELL HYBRIDGE: 3D Scaffolds as a stem cell delivery system for musculoskeletal regenerative medicine. | Funded: European Research Council Starting Grant |
| Gerjo van Osch,Erasmus MC, University Medical Center Rotterdam | In vitro regulation of chondrogenic differentiation of human bone marrow-derived MSCs (hBM-MSCs), evaluation of critical parameters. | Funded, multiple sources: Erasmus MC grant, FWF Austrian Science Fund, Dutch Arthritis Foundation, Arthritis UK |
| Chul-Won Ha, Samsung Medical Center, Sungkyunkwan University, Seoul, Korea | Anisotropy of human articular cartilage | Funded: Ministry of Health & Welfare |
| Robby Bowles, University of Utah | Identification of new target that will drive osteogenesis | Funded: Start-up Funds |
| Maneesh Dave, University of California, Davis | Homing of Human Mesenchymal Stem Cells in Murine Models of Experimental Inflammatory Bowel Diseases | Funded: DOD/CDRMP |
| Antonios Mikos, Rice University | Injectable cellular composites for cartilage engineering | Funded: NIH/NIAMS |
| James Dennis, Baylor College of Medicine | Modeling TE cartilage compressive stiffness based on speed of sound. | Funded: Baylor College of Medicine, Dept. of Orthopedic Surgery Startup |
| Russell Wang, Case Western Reserve University | Cell adhesion studies on 3D printed PEEK scaffolds | Funded: James Haywards Research Fund |