A novel approach to sperm cryopreservation

doi:10.1093/humrep/14.4.1013

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Human Reproduction, Vol. 14, No. 4, 1013-1021, April 1999
© 1999 European Society of Human Reproduction and Embryology

A novel approach to sperm cryopreservation

G.J. Morris¹^,3, E. Acton¹ and S. Avery²

¹ Asymptote Ltd, St John's Innovation Centre, Cowley Road, Cambridge CB4 4WS, UK, and ² Bourn Hall Clinic, Bourn, Cambridge CB3 7TR, UK

Human spermatozoa have unusual cryobiological behaviour andimprovements in their survival have not been achieved by thestandard approaches of cryobiology. Conventional approachesto cryopreservation impose a linear change of temperature withtime; however, the stresses that cells encounter during cryopreservationare all non-linear with time. In this paper it is shown thatimproved methods of cryopreservation may be developed by specificallymanipulating the manner in which cells experience physical changesinstead of imposing a linear temperature reduction. Severaltreatments were compared: control of solidification to achieveconstant ice formation with time was more damaging than thestandard linear reduction in temperature. However, treatmentswhich followed a chosen non-linear concentration profile, referredto as `controlled concentration' allowed recovery of almostall the cells which were motile before freezing. The biophysicalbasis of these different responses was examined using the cryostageof a scanning electron microscope and freeze substitution andit was found that, surprisingly, all samples of spermatozoain the frozen state were neither osmotically dehydrated norhad any visible intracellular ice. Viability on thawing didnot appear to correlate with conventional theories of cellularfreezing injury, which suggests that for human spermatozoa otherfactors determine viability following freezing and thawing.

Key words: cryopreservation/electron microscopy/freeze fracture/freeze substitution/spermatozoa

³ To whom correspondence should be addressed

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