We are currently using P10 and PEPeS to investigate vitrification of the two-cell stage embryos of multiple strains. We are grateful to Dr. Tatsuji Nomura of the Central Institute for Experimental Animals, Public Utility Foundation, for his support in this study. We also thank Dr. Taichi Yamamoto of his critical discussion. “
“Ice expands ∼10% upon freezing when it crystallizes, which can destroy cell membranes by the simple expansion effect, coupled with the Selleck Fluorouracil damaging effect of sharp edges from growing ice crystallites. This can be avoided by supercooling the water, chilling
it to a glassy state that does not go through the expansion process, and/or limiting the size of the ice crystals that do form. During the last 10 years the ABI Corporation (Chiba, Japan) has marketed a “Cells Alive System”, CAS, which claims to have improved the ability of much larger volumes of animal and vegetable matter to be frozen with minimal damage to cellular ultrastructure learn more from ice
crystal growth. The programmable CAS freezers expose samples to low-frequency oscillating electric and magnetic fields while controlling the supercooling of the materials in the critical 0 °C to −20 °C temperature interval by blowing refrigerated air on the samples [18], [34] and [35]. Published analyses suggest this technology can aid in the freezing and shipping of delicate fruits and vegetables, in the enhanced cryopreservation of human transplant tissues like teeth [1] and [28] and embryonic stem cells [29], and even promotes whole-organism survival of frozen small animals like drosophila [33]. Papers and patents published by the ABI group [17], [18], [34] and [35] postulate mechanisms of action that do not agree with basic biophysics. In particular, the oscillating electric and magnetic fields
are supposed to ‘wiggle’ water molecules directly to inhibit the nucleation of ice crystals in the supercooled state, as well as to promote rapid and isothermal cooling of the sample interiors. Wowk [44] pointed out in a recent critique that water molecules are diamagnetic, and will not produce any effect above thermal noise when exposed to the weak oscillating magnetic fields (<10 Gauss or Amrubicin 1 mT) used in the CAS freezers. He also notes that electric fields are known to either inhibit or enhance ice crystal formation slightly, depending upon the conditions used, but not at the levels claimed for these devices. In a direct test of the magnetic aspect of the CAS freezers, Suzuki et al. [38] also report that the oscillating magnetic field treatments alone did not alter the cooling time curves for test samples of radish or sweet potatoes, and had no visible effect on cellular microstructures of the tissues they examined.
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