This thesis describes investigations into cryofixation by the plunge-cooling
technique, at ambient pressure. The objective was to characterise
coolants which are commonly used for cryofixation, so that the structure
and chemistry of biological specimens may be preserved in a more life-like
state. The work began with the design of a suitable cooling device. This
was developed further into a large test-bed apparatus which was used in
both biological and methodological experiments. The large cooling
apparatus demonstrated for the first time that ethane was a superior
coolant under forced convection, compared to propane or Freon 22, for bare
thermocouples, for exposed hydrated specimens and for metal-sandwiched
hydrated specimens. Ice crystal formation was monitored in sandwiched
specimens and found to correspond closely to modelling predictions. A
biological application was the X-ray microanalysis of body fluids in
"indicator" species of Chaetognaths, where results obtained from cryoscanning
electron microscopy revealed ecophysiological differences. The
use of low thermal mass supports demonstrated that good freezing can
occur in the centre of specimens. A new cryomounting method was
developed to load well-frozen specimens into the microscope. The effect of
post-freeze processing temperature was investigated by monitoring ice
crystals in red blood cells. Exposure to 213 K (-60°C) over a 48 hour period
did not induce crystal growth and exposure to 233 K (-40°C) for 8 days
showed minimal ice crystal damage. The progress of cryosubstitution was
monitored over 48 h at 193 K ( -80°C), this showed that uranium ingressed
to a depth of 320 µm which could be doubled when shrinkage was allowed
for. The conclusion was that observed ice crystal damage originated during
the initial freezing and not during subsequent cryoprocessing.
Date of Award | 1991 |
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Original language | English |
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Awarding Institution | |
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RAPID CRYOGENIC FIXATION OF BIOLOGICAL SPECIMENS FOR ELECTRON MICROSCOPY
RYAN, K. P. (Author). 1991
Student thesis: PhD