Search Results - bone

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Regenerative Therapy for Cartilage Damage

The subject technology discloses a tissue engineering method for treating cartilage damage. Stem cells from bone marrow are attached to a novel scaffold, hyaluronic acid-coated fibrin microbeads, and transferred to a live host to form cartilage. The regenerated cartilage is stable and not hypertrophic, which has been problematic in the current regenerative...

Published: 12/26/2024 | Inventor(s): Mitchell Shirvan, Rafael Gorodetsky, Sergei Kuznetsov, Astar Lazmi-Hailu, Pamela Robey

Keywords(s): Bone, Cartilage, Cells, Fibrin, Generation, Human, Hyaline, Marrow, Microbeads, STABLE, Stromal, TRANSPLANTATION, VAXXXX, Vivo, WJXXXX, XCXXXX, XDXXXX, YAXXXX, YBXXXX, YCXXXX

Category(s): Application > Diagnostics, Application > Research Materials, Application > Non-Medical Devices, Application > Therapeutics, TherapeuticArea > Immunology, TherapeuticArea > Geriatrics, Application > Medical Devices

Transgenic Mice with Conditionally-Enhanced Bone Morphogen Protein (BMP) Signaling: A Model for Human Bone Diseases

This technology relates to novel animal models of several human bone diseases that have been linked to enhanced BMP signaling. More specifically, this mouse model expresses a mutant receptor for BMP, known as Alk2 that is always actively signaling. This receptor is under the control of the Cre-loxP system, which allows control of expression of the...

Published: 10/28/2024 | Inventor(s): Manas Ray, Gregory Scott, Yuji Mishina

Keywords(s): BAXXXX, BMP:, Bone, Craniosynostosis, Disease, Enhanced, Expressing, Fibrodysplasia ossificans progressiva, Human, IDXXXX, IXXXXX, Model, MORPHOGENETIC, Mouse, MULTIPLE MYELOMA, Protein, SIGNALING

Category(s): Collaboration Sought > Licensing, Application > Therapeutics, ResearchProducts > Animal Models, Application > Diagnostics, Application > Research Materials