CORDIS Project
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This project focuses on developing innovative ice-binding protein analogues to improve cryopreservation techniques for therapeutic cells and tissues. By studying their structure-function relationships, the project aims to create non-toxic cryoprotectants that enhance the viability and recovery of cells after freezing,…
Efficient, non-toxic cryoprotectants, that allow long-term storage of viable therapeutic cells and tissues, are the tool that regenerative medicine requires for its successful realization into a viable therapeutic option. A remarkable class of biopolymers known as ice-binding proteins (IBPs) alleviate the risk of freeze injury throughout the Kingdoms of Life by keeping the nucleation and growth of ice crystals in check.
Yet, the application potential of IBP analogues (IBPAs) as cryoprotectants h…
TECHNISCHE UNIVERSITEIT EINDHOVEN
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