Thermo Fisher Scientific Introduces Novel Temperature-Responsive Cell Culture Surface
21 Oct 2008Thermo Scientific Nunc UpCell Surface Facilitates Enzyme-Free Harvesting of Single Cells and Tissue Engineering without Scaffolds.
Thermo Fisher Scientific Inc., the world leader in serving science, has introduced the new Nunc™ UpCell™ Surface for temperature-induced cell harvesting. Designed to enable quick dissociation of cells from the culture surface upon a simple change in temperature, the Nunc UpCell Surface negates the need for enzymatic treatment (trypsinization) and cell scraping, while maintaining cell viability and the integrity of surface receptors and antigens. Even cell types that are difficult to detach by other methods and contiguous cell sheets can be harvested from the Nunc UpCell Surface, and harvested cell sheets can be stacked on top of each other in order to create 3-D tissue models and co-cultures. The Nunc UpCell Surface is available as sterile MicroWell™ plates, dishes and multi-dishes, all with a certificate stating conformance to functional, sterility, non-pyrogenic and toxicity tests.
The novel Nunc UpCell surface consists of a covalently-immobilized polymer poly(N-isopropylacrylamide), or PIPAAm, which forms a thin, even layer on the culture dish or plate. Slightly hydrophobic at 37°C, the surface allows cells to attach and grow, but hydrophilic when the temperature is reduced to below 32°C, the surface will bind water and swell, resulting in the release of adherent cells with their underlying extracellular matrix (ECM). The retention of the ECM under the cells enables the harvesting of contiguous cell sheets with preserved cell polarization and cell-cell junctions and the attachment of one cell sheet to another cell sheet or a graft site without the use of fibrin glue or sutures. 3-D tissue models and co-cultures can thus be created without scaffolds and exogenous materials, greatly simplifying cell culture for tissue engineering.
For more information on the benefits of the new Thermo Scientific Nunc UpCell Surface and to see how this could transform cultures, please visit the company article website.