Secretome Derived from Bone Marrow Stem Cells of Fetal Goat Promotes Skin Regeneration
Overview
The innovative fetal goat bone marrow mesenchymal stem cell secretome can efficiently and quickly repair skin wounds, inhibit scar formation, and effectively repair skin aging caused by ultraviolet radiation. Most importantly, it can increase the thickness of the stratum corneum and enhance the protective effect of the skin.
Technical name of innovation
Secretome Derived from Bone Marrow Stem Cells of Fetal Goat Promotes Skin Regeneration
Research completion
2023
Commercialisation opportunities
Cosmetics are on the market for sale
Problem addressed
The skin is the largest organ barrier in the human body, and it is often damaged by the environment in daily life, such as skin scars and aging caused by ultraviolet radiation. Fetal goat stem cell secretome, easy to store and transport, can effectively promote skin regeneration, and can be widely used in daily cosmetics.
Innovation
- Utilizing the secretome from fetal goat bone marrow mesenchymal stem cells to efficiently repair skin wounds, inhibit scar formation, restore skin damage caused by ultraviolet radiation, increase skin stratum corneum thickness, and enhance protective capabilities.
- Standardized fetal sheep stem cell testing and exocrine extraction processes significantly improve the quality of exocrine production and reduce the risk of infection by pathogenic microorganisms.
Key impact
- The product repairs skin wounds, restores skin aging, and meets the demand of the beauty and cosmetics market.
- Fetal goat mesenchymal stem cell extracellular secretome is easy to transport and store, making it easy for commercialization.
- Manufacturing of bioreactors with stable process parameters.
Application
- cosmetics
Patent
- US Patent 63/483,813
The Chinese University of Hong Kong (CUHK)
Founded in 1963, The Chinese University of Hong Kong (CUHK) is a forward-looking comprehensive research university with a global vision and a mission to combine tradition with modernity, and to bring together China and the West. CUHK teachers and students hail from all around the world. Four Nobel laureates are associated with the university, and it is the only tertiary institution in Hong Kong with recipients of the Nobel Prize, Turing Award, Fields Medal and Veblen Prize sitting as faculty in residence. CUHK graduates are connected worldwide through an extensive alumni network. CUHK undertakes a wide range of research programmes in many subject areas, and strives to provide scope for all academic staff to undertake consultancy and collaborative projects with industry.
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