W.F. Rall scite author profile

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.

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Branching dendritic trees and motoneuron membrane resistivity

Rall

1959

Experimental Neurology

943

612

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Core Conductor Theory and Cable Properties of Neurons

Rall

1977

527

566

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Distinguishing theoretical synaptic potentials computed for different soma-dendritic distributions of synaptic input.

Rall¹

1967

Journal of Neurophysiology

960

533

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W.F. Rall

Ice-free cryopreservation of mouse embryos at −196 °C by vitrification

Branching dendritic trees and motoneuron membrane resistivity

Core Conductor Theory and Cable Properties of Neurons

Distinguishing theoretical synaptic potentials computed for different soma-dendritic distributions of synaptic input.

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