Search Results - scaffold

3 Results Sort By:
Method for Assembling Decellularized Tissue Extracellular Matrix in 3D Tumor Spheroids
Abstract: Cell culture investigations using spheroids and organoid models have had a major impact on biomedical advancement as alternative sources for costly, in vivo animal testing.  However, these 3-D cell constructs are limited in that they do not integrate extracellular components within the structure important for more reliable and accurate biological...
Published: 8/14/2024   |   Inventor(s): Matthew Wolf, Michael Buckenmeyer, Elizabeth Brooks
Keywords(s): ECM, extracellular matrix, Organoid, Scaffold, Spheroid, Wolf
Category(s): Collaboration Sought > Collaboration, Collaboration Sought > Licensing, Application > Research Materials, TherapeuticArea > Oncology
Self-oxygen generating biomaterials for large tissue engineering
Organ transplantation continues to increase, with 34,770 transplants performed in the US in 2017. Currently, organ transplantation is limited by donor dependence, high costs, and, long-term use of immunosuppressive medications which, in turn, correlates with significant morbidity and mortality. To overcome these limitations, tissue engineering and transplantation...
Published: 3/5/2024   |   Inventor(s): Iman Noshadi
Keywords(s): Biomaterials, Electrolyte, Energy Storage, Hydrogels, Oxygenation, Regenerative Medicine, Scaffold, Stem Cells, Tissue Engineering , Transplant
Category(s): Human Health Care > Biomaterials
A novel composition for bioadhesive tissue engineering
Technology Tissue engineering focuses on repairing or regenerating lost or damaged tissues and organs in the body. A goal of tissue engineering is to design biomimetic scaffolds that reproduce the mechanical and biochemical properties of natural tissue. These scaffolds should have desirable biological properties such that after implantation or application...
Published: 7/18/2024   |   Inventor(s): Andrea Vernengo, Jennifer Kadlowec, Pamela Kubinski, Thomas Tulenko, Cristina Iftode, Bryan Johnson, Craig Wiltsey
Keywords(s): Biomaterials, Hydrogels, Polymers, Regenerative Medicine, Scaffold, Stem Cells, Tissue Engineering
Category(s): Human Health Care > Biomaterials, Human Health Care > Medical Devices