The rate at which equine and macaque ovarian tissue sections are first cooled from +25°Cto+4°C has a significant effect on the measured water transport when the tissues are subsequently frozen in 0.85M solutions of glycerol, dimethylsulfoxide (DMSO), or ethylene glycol (EG). To determine whether the response of ovarian tissues is altered if they are suspended in mixtures of cryoprotective agents (CPAs), rather than in solutions of a single CPA, we have now measured the subzero water transport from ovarian tissues that were suspended in mixtures of DMSO and EG. Sections of freshly collected equine and macaque ovaries were suspended either in a mixture of 0.9M EG plus 0.7M DMSO (equivalent to a mixture of 5%vv of EG and DMSO) or in a 1.6M solution of only DMSO or only EG. The tissue sections were cooled from +25°Cto+4°C and then frozen to subzero temperatures at 5°Cmin. As the tissues were being frozen, a shape-independent differential scanning calorimeter technique was used to measure water loss from the tissues and, consequently, the best fit membrane permeability parameters (Lpg and ELp) of ovarian tissues during freezing. In the mixture of DMSO+EG, the respective values of Lpg and ELp for equine tissue first cooled at 40°Cmin between +25°C and +4°C before being frozen were 0.15μmminatm and 7.6kcalmole. The corresponding Lpg and ELp values for equine tissue suspended in 1.6M DMSO were 0.12μmminatm and 27.2kcalmole; in 1.6M EG, the values were 0.06μmminatm and 21.9kcalmole, respectively. For macaque ovarian tissues suspended in the mixture of DMSO+EG, the respective values of Lpg and ELp were 0.26μmminatm and 26.2kcalmole. Similarly, the corresponding LLg and ELp values for macaque tissue suspended in 1.6M DMSO were 0.22μmminatm and 31.4kcalmole; in 1.6M EG, the values were 0.20μmminatm and 27.9kcalmole. The parameters for both equine and macaque tissue samples suspended in the DMSO+EG mixture and first cooled at 0.5°Cmin between +25°C and +4°C were very similar to the corresponding values for samples cooled at 40°Cmin. In contrast, the membrane parameters of equine and macaque samples first cooled at 0.5°Cmin in single-component solutions were significantly different from the corresponding values for samples cooled at 40°Cmin. These results show that the membrane properties of ovarian cells from two species are different, and that the membrane properties are significantly affected both by the solution in which the tissue is suspended and by the rate at which the tissue is cooled from +25°Cto+4°C before being frozen. These observations suggest that these variables ought to be considered in the derivation of methods to cryopreserve ovarian tissues.

Issue Section:
Fluids/Heat/Transport
Keywords:
biological tissues, biomembrane transport, biothermics, cooling, differential scanning calorimetry, freezing, permeability, suspensions, membrane permeability, Krogh model, differential scanning calorimetry, cryopreservation
Topics:
Biological tissues, Freezing, Membranes, Permeability, Water, Cooling
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