BIOMAT Database Logo BIOMAT Database Logo

Ice-free cryopreservation of mouse embryos at -196 degrees C by vitrification. 1985

W F Rall, and G M Fahy

The failure of complex mammalian organs, such as the kidney, to function following freezing to low temperatures is thought to be due largely to mechanical disruption of the intercellular architecture by the formation of extracellular ice. Classical approaches to the avoidance of ice formation through the imposition of ultra-rapid cooling and warming rates or by gradual depression of the equilibrium freezing point during cooling to -80 degrees C have not been adequate. An alternative approach relies on the ability of highly concentrated aqueous solutions of cryoprotective agents to supercool to very low temperatures. At sufficiently low temperatures, these solutions become so viscous that they solidify without the formation of ice, a process termed vitrification. When embryo suspensions are cryopreserved using conventional procedures, this supercooling behaviour allows intracellular vitrification, even in the presence of extracellular ice. We have therefore used mouse embryos to examine the feasibility of obtaining high survival following vitrification of both the intra- and extracellular solutions and report here that in properly controlled conditions embryos seem to survive in high proportions after cryopreservation in the absence of ice.

UI MeSH Term Description Entries
D007424 Intracellular Fluid The fluid inside CELLS. Fluid, Intracellular,Fluids, Intracellular,Intracellular Fluids
D011309 Preservation, Biological The process of protecting various samples of biological material. Biological Preservation,Preservation, Biologic,Biologic Preservation
D001834 Body Water Fluids composed mainly of water found within the body. Water, Body
D002470 Cell Survival The span of viability of a cell characterized by the capacity to perform certain functions such as metabolism, growth, reproduction, some form of responsiveness, and adaptability. Cell Viability,Cell Viabilities,Survival, Cell,Viabilities, Cell,Viability, Cell
D003451 Cryoprotective Agents Substances that provide protection against the harmful effects of freezing temperatures. Cryoprotective Agent,Cryoprotective Effect,Cryoprotective Effects,Agent, Cryoprotective,Agents, Cryoprotective,Effect, Cryoprotective,Effects, Cryoprotective
D003460 Crystallization The formation of crystalline substances from solutions or melts. (McGraw-Hill Dictionary of Scientific and Technical Terms, 4th ed) Crystalline Polymorphs,Polymorphism, Crystallization,Crystal Growth,Polymorphic Crystals,Crystal, Polymorphic,Crystalline Polymorph,Crystallization Polymorphism,Crystallization Polymorphisms,Crystals, Polymorphic,Growth, Crystal,Polymorph, Crystalline,Polymorphic Crystal,Polymorphisms, Crystallization,Polymorphs, Crystalline
D004622 Embryo, Mammalian The entity of a developing mammal (MAMMALS), generally from the cleavage of a ZYGOTE to the end of embryonic differentiation of basic structures. For the human embryo, this represents the first two months of intrauterine development preceding the stages of the FETUS. Embryonic Structures, Mammalian,Mammalian Embryo,Mammalian Embryo Structures,Mammalian Embryonic Structures,Embryo Structure, Mammalian,Embryo Structures, Mammalian,Embryonic Structure, Mammalian,Embryos, Mammalian,Mammalian Embryo Structure,Mammalian Embryonic Structure,Mammalian Embryos,Structure, Mammalian Embryo,Structure, Mammalian Embryonic,Structures, Mammalian Embryo,Structures, Mammalian Embryonic
D005615 Freezing Liquids transforming into solids by the removal of heat. Melting
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D013696 Temperature The property of objects that determines the direction of heat flow when they are placed in direct thermal contact. The temperature is the energy of microscopic motions (vibrational and translational) of the particles of atoms. Temperatures

Related Publications

W F Rall, and G M Fahy
Cryopreservation of mouse embryos at -196 degrees C by vitrification.
April 1989, Indian journal of experimental biology,
W F Rall, and G M Fahy
Principles of Ice-Free Cryopreservation by Vitrification.
January 2021, Methods in molecular biology (Clifton, N.J.),
W F Rall, and G M Fahy
[Cryopreservation of an erythrocyte concentrate at -196 degrees C].
June 1982, Problemy gematologii i perelivaniia krovi,
W F Rall, and G M Fahy
Long-term storage of eight-cell mouse embryos at - 196 degrees C.
February 1986, Journal of in vitro fertilization and embryo transfer : IVF,
W F Rall, and G M Fahy
Survival of mouse embryos frozen to -196 degrees and -269 degrees C.
October 1972, Science (New York, N.Y.),
W F Rall, and G M Fahy
[Method of cryopreservation of platelets at - 196 degrees C. Clinical application].
December 1977, Revue francaise de transfusion et immuno-hematologie,
W F Rall, and G M Fahy
Cryopreservation of human platelets with 1.4M glycerol at -196 degrees C.
March 1989, Thrombosis research,
W F Rall, and G M Fahy
[Improvement in the cryopreservation of erythrocytes at ultralow temperatures (-150 degrees C and -196 degrees C)].
September 1980, Problemy gematologii i perelivaniia krovi,
W F Rall, and G M Fahy
Long-term storage of mouse embryos at--196 degrees C: the effect of background radiation.
April 1977, Genetical research,
W F Rall, and G M Fahy
Cryopreservation of mouse embryos by ethylene glycol-based vitrification.
November 2011, Journal of visualized experiments : JoVE,
Copied contents to your clipboard!