Novel 3D Stem Cell Culture Systems
- 技術優勢
- Compatible with tissue culture wells or stirred tank reactorsCan be made injectable and can incorporate biodegradable componentsHighly tunable three-dimensional system provides to optimize stem cell growth and differentiation.
- 技術應用
- Large scale growth of stem cells or other cell typesChemically defined culture conditionsStem cell differentiationCell therapyLife sciences research reagent products and next-generation materials
- 詳細技術說明
- None
- *Abstract
-
Many disorders result in tissue degeneration, including Parkinson’s disease, heart attacks, and liver failure. One promising approach to treat these disorders is cell replacement therapy, which would implant new cells or tissues to replace those damaged by disease. Cell replacement therapy relies on stem cells, which are able to differentiate into a wide number of mature cell types. However, cell replacement therapies require large numbers of cells to clinically develop and commercialize, and the current stem cell culture methods are problematic in multiple ways, including low cell yields in 2D and poorly defined culture components. By culturing stem cells three-dimensionally, instead of two-dimensionally, far larger numbers of cells can be generated. Current three-dimensional culturing systems, however, often exert harmful shear stresses and pressures on the cells, have harsh cell recovery steps, do thus not generate large cell yields.
UC Berkeley researchers have developed new materials intended for use in fully chemically defined processes for large-scale growth and differentiation of stem cells. These materials prevent harsh cell recovery steps, and can be used in a defined, highly tunable, and three-dimensional cell culture system.
- *IP Issue Date
- Apr 13, 2017
- *Principal Investigation
-
Name: Barbara Ekerdt
Department:
Name: Yuguo Lei
Department:
Name: David Schaffer
Department:
Name: Rachel Segalman
Department:
Name: Christina Fuentes
Department:
- 申請號碼
- WO2017062375
- 其他
-
Publication
Additional Technologies by these Inventors
- Ultrasound Contrast Agents Based On Biological Gas Nanoparticles
- Hydrogels For Cell Derivation and Transplantation
- 3D System For Differentiation Of Oligodendocyte Precusors From Pluripotent Stem Cells
- Self-Inactivating Targeted DNA Nucleases For Gene Therapy
- Directed Evolution Of AAV Vectors That Undergo Retrograde Axonal Transport
Tech ID/UC Case
25477/2016-045-0
Related Cases
2016-045-0
- 國家/地區
- 美國
