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Skip to Search Results- 3Elliott, J. A.
- 3McGann, L. E.
- 2Ross-Rodriguez, L. U.
- 1Almansoori, K. A.
- 1Forbes, J. F.
- 1Jomha, N. M.
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Characterization of cryobiological responses in TF-1 cells using interrupted freezing procedures
Download2014-09-22
McGann, L. E., Elliott, J. A., Ross-Rodriguez, L. U.
Cryopreservation currently is the only method for long-term preservation of cellular viability and function for uses in cellular therapies. Characterizing the cryobiological response of a cell type is essential in the approach to designing and optimizing cryopreservation protocols. For cells used...
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2012
Law, G. K., Forbes, J. F., Elliott, J. A., McGann, L. E., Jomha, N. M., Prasad, V., Almansoori, K. A.
Background Vitrification is a method of cryopreservation by which cells and tissues can be preserved at low temperatures using cryoprotective agents (CPAs) at high concentrations (typically ⩾6.0 M) to limit the harmful effects of ice crystals that can form during cooling processes. However, at...
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Investigating cryoinjury using simulations and experiments: 1. TF-1 cells during two-step freezing (rapid cooling interrupted with a hold time)
Download2014-09-22
McGann, L. E., Ross-Rodriguez, L. U., Elliott, J. A.
There is significant interest in designing a cryopreservation protocol for hematopoietic stem cells (HSC) which does not rely on dimethyl sulfoxide (Me2SO) as a cryoprotectant. Computer simulations that describe cellular osmotic responses during cooling and warming can be used to optimize the...