Clara Dalmases scite author profile

The use of lymphokine-activated killer (LAK) cell therapy in delayed treatment requires the use of cryopreserved effector cells. The purpose of this study was to determine the optimal cryopreservation protocol for the maintenance of cytotoxic activity in mononuclear cells (MNCs). MNCs were cryopreserved with dimethyl sulfoxide or 1,2-propanediol before and after 3 days of culture with recombinant interleukin 2. The effects of cryopreservation on cell recovery, LAK cell and natural killer (NK) cell cytotoxic activities, and surface antigen markers were studied. Recovery of nonactivated MNCs was higher with 1,2-propanediol than with dimethyl sulfoxide (p < 0.05). Cytotoxic activities, measured with a 51Cr release assay, significantly decreased after thawing, on both activated cells (76.3%; range, 35.8-92.2%) and fresh cells (54.6%; range, 17.5-75.4%). A 6-day kinetic test was used to compare the cytotoxic activity of cryopreserved and fresh cells. The results showed different patterns for NK cells (cryopreserved cells had lower levels of activity than fresh cells) and LAK cells (cryopreserved cells had higher levels of activity than fresh cells). Phenotype changes of effector cells in culture, with and without cryopreservation, were monitored by flow cytometry using monoclonal antibodies. These results were compared with changes in the cytotoxicity of cells with and without cryopreservation. After thawing, there was a decrease in MNCs expressing CD14 and CD56. Recovery of the CD56 marker correlates with increased cytotoxic activity. Despite some loss of NK cell activity, it is concluded that MNCs may be successfully cryopreserved before their use in immunotherapeutic treatment.

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Canals

Garcı́a

Potau

et al. 2000

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The purpose of the present study was to set up and test a cryopreservation method for long-term storage of human corneas. Therefore the freezing solution was optimized in 264 rabbit corneas by testing the type of cryoprotectant, its concentration, addition and dilution pattern and exposure temperature. Then rabbit corneas were frozen in the optimum solution at different cooling rates and thawed in a water bath at different temperatures. Eight human corneas were cryopreserved with the method showing optimum results in rabbit corneas and four additional corneas were used as controls. Endothelial viability was assessed after each step by vital staining and scanning electron microscopy. Best results after exposure of rabbit corneas to the freezing solution were achieved when using a 10% cryoprotectant concentration, with direct addition/dilution and exposure at room temperature (3512 +/-300 viable cells mm(2) when using dimethylsulfoxide; 3403 +/- 245 viable cells mm(2) when using 1,2-propanediol). Cryopreserved rabbit corneas had the highest endothelial cell survival when frozen at 1 degrees C/min and thawed at 37 degrees C (2003 +/- 372 viable cells/mm(2) when using dimethylsulfoxide and 1357 +/- 667 viable cells/mm(2) when using 1,2-propanediol). Cryopreserved human corneas had 753 +/- 542 viable cells/mm(2) when using dimethylsulfoxide and 56 +/- 56 viable cells/mm(2) when using 1,2-propanediol. We can conclude that the method developed is easy to handle and shows optimum results in rabbit corneas, with an endothelial cell survival that is consistent with transplant acceptability criteria. The results obtained in human corneas are below prediction and are still unsatisfactory for successful use in eye banking.

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Clara Dalmases

Leukapheresis components may be cryopreserved at high cell concentrations without additional loss of HPC function

Differential effect of cryopreservation on natural killer cell and lymphokine‐activated killer cell activities

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