Abstract
Ultrastructural observations on the frozen state of pancreatic acinar cells were correlated with results of parallel studies before freezing and after thawing, as to cryoinjury and cryoprotection. Data support an hypothesis of freezing injury based upon intracellular ice and solution effects during rapid and slow freezing, respectively. The basis for superiority of extracellular over intracellular glycerol in cryoprotection was demonstrated in terms of these factors. Evidence is offered to explain the ultrastructural cryoinjury and cryoprotection of rough endoplasmic reticulum (RER) seen after thawing, relative to the combined effects of freezing rate and glycerol. Slow freezing, in combination with the presence of extracellular glycerol, provided sufficient dehydration to almost completely suppress intracellular ice formation, yielding minimal ultrastructural alteration of RER. Greatest cryoinjury, expressed as extensive conversion of RER into sphere-like vesicles, was induced by the extensive intracellular ice formation which accompanied rapid freezing. A mechanism is suggested to explain physical damage of RER by intracellular ice.
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