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Human Fertility
an international, multidisciplinary journal dedicated to furthering research and promoting good practice
Volume 8, 2005 - Issue 4
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Original

The role of vitrification techniques of cryopreservation in reproductive medicine

David E. Pegg Medical Cryobiology Unit, Biology Department, University of York, York, UKCorrespondence[email protected]
Pages 231-239 | Published online: 03 Jul 2009

References

  • Armitage W. J., Hall S. C., Routledge C. Recovery of endothelial function after virtrification of cornea at −110°C. Investigative Ophthalmology & Visual Science 2002; 43: 2160–2164
  • Diller K. R., Pegg D. E., Walcerz D. B. A network thermodynamic model for analysis of water transport in a multicellular tissue during cryopreservation. Biofluid Mechanics, D. J. Schneck, C. L. Lucas. New York University Press, New York 1990; 3: 53–63
  • Duman J. G., Wu D. W., Olsen T. M., Urrutia M., Tursman D. Thermal-hysteresis proteins. Advances in low-temperature biology, P. L. Steponkus. Jai Press, London 1993; 131–182
  • Elford B. C., Walter C. A. Effects of electrolyte composition and pH on the structure and function of smooth muscle cooled to −79°C in unfrozen media. Cryobiology 1972; 9: 82–100
  • Fahy G. M., MacFarlane D. R., Angell C. A., Meryman H. T. Vitrification as an approach to cryopreservation. Cryobiology 1984; 21: 407–426
  • Fahy G. M., Wowk B., Wu J., Paynter S. Improved vitrification solutions based on the predictability of vitrification solution toxicity. Cryobiology 2004a; 48: 22–35
  • Fahy G. M., Wowk B., Wu J., Phan J., Rasch C., Chang A., Zendejas E. Cryopreservation of organs by vitrification: perspectives and recent advances. Cryobiology 2004b; 48: 157–178
  • Farrant J. Mechanism of cell damage during freezing and thawing and its prevention. Nature (London) 1965; 205: 1284–1287
  • Life in the frozen state, B. J. Fuller, N. Lane, E. E. Benson. CRC Press, London
  • Gilmore J. A., Liu J., Gao D. Y., Critser J. A. Determination of optimal cryoprotectants and procedures for their addition and removal from human spermatozoa. Human Reproduction 1997; 12: 112–118
  • Gook D. A., McCully B. A., Edgar D. H., McBain J. C. Development of antral follicles in human cryopreserved ovarian tissue following xenografting. Human Reproduction 2001; 16: 417–422
  • Gosden R. G., Baird D. T., Wade J. C., Webb R. Restoration of fertility to oophorectomized sheep by ovarian autografts stored at − 196°C. Human Reproduction 1994; 9: 597–603
  • Hunt C. J., Pegg D. E. Improved temperature stability in gas-phase nitrogen refrigerators: use of a copper heat shunt. Cryobiology 1996; 33: 544–551
  • Jacobsen I. A., Pegg D. E., Starklint H., Chemnitz J., Hunt C., Barfort P., Diaper M. P. Effect of cooling and warming rate on glycerolised rabbit kidneys. Cryobiology 1984; 21: 637–653
  • Jacobsen I. A., Pegg D. E., Starklint H., Hunt C. J., Barfort P., Diaper M. P. Introduction and removal of cryoprotective agents with rabbit kidneys: assessment by transplantation. Cryobiology 1988; 25: 285–299
  • Kuleshova L., Gianaroli L., Magli C., Ferraretti A., Trounson A. Birth following vitrification of a small number of human oocytes. Human Reproduction 1999; 14: 3077–3079
  • Kuleshova L. L., Lopata A. Vitrification can be more favorable than slow Cooling. Fertility and Sterility 2002; 78: 449–454
  • Leibo S. P. Preservation of mammalian cells and embryos by freezing. Les Colloques de I'Institut National de la Santé et de la Recherche Médicale. 62. Cryoimunologie, D. Simatos, D. M. Strong, J. M. Turc. INSERM, Paris 1977; 311–334
  • Liebermann J., Nawroth F., Isachenko V., Isachenko E., Rahimi G., Tucker M. J. Potential importance of vitrification in reproductive medicine. Biology of Reproduction 2002; 67: 1671–1680
  • Lovelock J. E. The haemolysis of human red blood cells by freezing and thawing. Biochimica et Biophysica Acta (Amst) 1953a; 10: 414–426
  • Lovelock J. E. The mechanism of the protective action of glyIcerol against haemolysis by freezing and thawing. Biochimica et Biophysica Acta (Amst) 1953b; 11: 28–36
  • Luyet B. On the possible biological significance of some physical changes encountered in the cooling and the rewarming of aqueous solutions. Cellular Injury and resistance in freezing organisms, E. Asahina. Hokkaido University Japan, Japan 1967; Vol 2: 1–20
  • Luyet B., Rasmussen D. Study by differential thermal analysis of the temperatures of instability in rapidly cooled solutions of polyvinylpyrrolidone. Biodynamica 1967; 10: 137–147
  • Marsland T. P., Evans S., Pegg D. Dielectric measurements for the design of an electromagnetic rewarming system. Cryobiology 1987; 24: 311–323
  • Mazur P. Kinetics of water loss from cells at subzero temperatures and the likelihood of intracellular freezing. Journal of General Physiology 1963; 47: 347–369
  • Mazur P. The physical and chemical basis of injury in single-celled micro-organisms subjected to freezing and thawing. Cryobiology, H. T. Meryman. Academic Press, London 1966; 215–315
  • Mazur P., Rigopoulos N. Contributions of unfrozen fraction and of salt concentration to the survival of slowly frozen human erythrocytes: influence of warming rate. Cryobiology 1983; 20: 274–289
  • Mazur P., Rall W. F., Rigopoulos N. The relative contributions of the fraction of unfrozen water and of salt concentration to the survival of slowly frozen human erythrocytes. Biophsical Journal 1981; 36: 653–675
  • Newton H., Fisher J., Arnold J. R.P., Pegg D. E., Faddy M. J., Gosden R. G. Permeation of human ovarian tissue with cryoprotective agents in preparation for cryopreservation. Human Reproduction 1998; 13: 101–105
  • Newton H., Pegg D. E., Barrass R., Gosden R. G. Osmotic inactive volume, hydraulic conductivity and permeability to dimethyl sulphoxide of human oocytes. Journal of Reproduction and Fertility 1999; 117: 27–33
  • Oktay K., Aydin B. A., Karlikaya G. A technique for laparoscopic transplantation of frozen-banked ovarian tissue. Fertility and Sterility 2001; 75: 1212–1216
  • Paynter S. J. Current status of cryopreservation of human unfertilised oocytes. Human Reproduction Update 2000; 6: 449–456
  • Paynter S. J., O'Neil L., Fuller B. J., Shaw R. W. Membrane permeability of human oocytes in the presence of the cryoprotectant propane-1,2-diol. Fertility and Sterility 2001; 75: 532–538
  • Pegg D. E. Banking of cells, tissues and organs at low temperatures. Current Trends in Cryobiology, A. U. Smith. Plenum Press, New York 1970; 153–180
  • Pegg D. E. Ice crystals in tissues and organs. The biophysics of organ cryopreservation, D. E. Pegg, A. M. Karow, Jr. Plenum Press, London 1987; 117–140
  • Pegg D. E. Safe cryopreservation of tissues and cells:general principles and current practice. CryoLetters 1999; 20: 137–140
  • Pegg D. E., Diaper M. E. On the mechanism of injury to slowIy frozen erythrocytes. Biophysical Journal 1988; 54: 471–488
  • Pegg D. E., Green C. J., Walter C. A. Attempted canine renal cryopreservation using dimethyl sulphoxide, helium perfusion and microwave thawing. Cryobiology 1978; 15: 618–626
  • Pegg D. E., Rubinsky B., Diaper M. P., Lee C. Y.C. Analysis of the introduction and removal of glycerol in rabbit kidneys using a Krogh cylinder model. Cryobiology 1986; 23: 150–160
  • Pegg D. E., Wusteman M. C., Boylan S. Fractures in cryopreserved elastic arteries. Cryobiology 1997; 34: 183–192
  • Pickering S. J., Johnson M. H. The influence of cooling on the organization of the meiotic spindle of the mouse oocyte. Human Reproduction 1987; 2: 207–216
  • Pickering S. J., Braude P. R., Johnson M. H. Cryoprotection of human oocytes: inappropriate exposure to DMSO reduces fertilization rates. Human Reproduction 1991; 6: 142–143
  • Polge C., Smith A. U., Parkes A. S. Revival of spermatozoa after vitrification and dehydration at low temperatures. Nature (London) 1949; 164: 666
  • Pollard J. W., Leibo S. P. Chilling sensitivity of mammalian embryos. Theriogenology 1994; 41: 101–106
  • Radford J., Leiberman B., Briston D., Smith A., Critchlow J., Russell A., Clayton J., Harris M., Gosden R., Shalet S. Orthotopic reimplantation of cryopreserved ovarian cortical strips after high-dose chemotherapy for Hodgkin's lymphoma. Lancet 2001; 357: 1172–1175
  • Rall W. F. Avoidance of microbial cross-contamination of cryopreserved gametes, embryos, cells and tissues during storage in liquid nitrogen. The Embryologists Newsletter 2003; 6: 1–15
  • Rall W. F., Fahy G. M. Ice-free cryopreservation of mouse embryos at −196°C by vitrification. Nature (London) 1985; 313: 573–575
  • Robinson M. P., Wusteman M. C., Wang L.- H., Pegg D. E. Electromagnetic rewarming of cryopreserved tissues: effect of choice of cryoprotectant and sample shape on uniformity of heating. Physics in Medicine and Biology 2002; 47: 2311–2325
  • Rubinsky B., Pegg D. E. A mathematical model for the freezing process in biological tissue. Proceedings of the Royal Society of London B 1988; 234: 343–358
  • Sutton R. L. Determination of the time-temperature transformation and continuous cooling curves for propane-1,2-diol. Cryo-Letters 1990; 11: 49–58
  • Sutton R. L. Critical cooling rates to avoid ice crystallisation in solutions of cryoprotective agents. Journal of the Chemical Society Faraday Transactions 1991a; 87: 101–105
  • Sutton R. L. Critical cooling rates to avoid ice crystallisation in aqueous cryoprotectant solutions containing polymers. Journal of the Chemical Society Faraday Transactions 1991b; 87: 3747–3751
  • Sutton R. L. Critical cooling rates for aqueous cryoprotectants in the presence of sugars and polysaccharides. Cryobiology 1992; 29: 585–598
  • Sutton R. L., Pegg D. E. Devitrification in butane-2,3-diol solutions containing anti-freeze peptide. Cryo-Letters 1993; 14: 13–20
  • Taylor M. J., Pegg D. E. The effect of ice formation on the function of smooth muscle tissue stored at −21°C or −60°C. Cryobiology 1983; 20: 36–40
  • Vajta G., Holm P., Kuwayama M., Booth P. J., Jacobsen H., Greve T., Callesen H. Open pulled straws (OPS) vitrification: a new way to reduce cryoinjuries of bovine ova and embryos. Molecular Reproduction and Development 1998; 51: 53–58
  • Wang X., Chen H., Yin H., Kim S. S., Tan S. L., Gosden R. G. Fertility after intact ovary transplantation. Nature 2002; 415: 385
  • Wowk B., Leitl E., Rasch C. M., Mesbah-Karimi N., Harris S. B., Fahy G. M. Vitrification enhancement by synthetic ice blocking agents. Cryobiology 2000; 40: 228–236
  • Wusteman M. C., Pegg D. E., Robinson M. P., Wang L.- H., Fitch P. Vitrification media: toxicity, permeability and dielectric properties. Cryobiology 2002; 44: 124–137
  • Wusteman M. C., Pegg D. E., Wang L.- H., Robinson M. P. Vitrification of ECV304 cell suspensions using solutions containing propane-1,2-diol and trehalose. Cryobiology 2003; 46: 135–145

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