Almassi, G. H., B. Farahbakhsh, T. Wooldridge, N. J. Rusch, and G. N. Olinger. Endothelium and vascular smooth muscle function in internal mammary artery after cryopreservation. J. Surg. Res. 60:355–360, 1996.
Fahy, G. M., D. R. MacFarlane, C. A. Angell, and H. T. Meryman. Vitrification as an approach to cryopreservation. Cryobiology 21:407–426, 1984.
Fahy, G. M., D. Levy, and S. E. Ali. Some emerging principles underlying the physical properties, biological actions, and utility of vitrification solutions. Cryobiology 24:196–213, 1987.
Fahy, G. M., Biological effects of vitrification and devitrification. In: The Biophysics of Organ Preservation, edited by D. E., Pegg, and A. M., Karow. Jr. New York: Plenum Publishing Corp., 1987, pp. 265–297.
Fahy, G. M., Vitrification. In: Low Temperature Biotechnology: Emerging Applications and Engineering Contributions, edited by J. J., McGrath, and K. R., Diller, New York: ASME Press, 1988, pp. 113–146.
Fahy, G. M., J. Saur, and J. R. Williams. Physical problems with the vitrification of large biological systems. Cryobiology 27:492–510, 1990.
Hunt, C. J., Y. C. Song, E. A. J. Bateson, and D. E. Pegg. Fractures in cryopreserved arteries. Cryobiology 31:506–515, 1994.
Karow, A. M. Biophysical and chemical considerations in cryopreservation. In: Organ preservation for transplantation, edited by A. M., Karow, D. E., Pegg, New York: Dekker, 1981, pp. 113.
Mazur, P. Freezing of living cells: mechanisms and implications. Am. J. Physiol. 247:125, 1984.
Muller-Schweinitzer, E., P. Stulz, H. Striffeler, and W. Haefeli. Functional activity and transmembrane signaling mechanisms after cryopreservation of human internal mammary arteries. J. Vasc. Surg. 27:528–537, 1988.
Nataf, P., P. Hadjiisky, P. Lechat, N. Mougenot, M. Peuchmaurd, R. Gouezo, J. Gerota, C. Cabrol, and I. Gandjbakhch. Effect of cold anoxia and cryopreservation on metabolic and contractile functions of human mammary artery. Cryobiology 23:327–333, 1995.
Pegg, D. E., I. A. Jacobsen, W. J. Armitage, and M. J. Taylor. Mechanisms of cryoinjury in organs. In: Organ Preservation II, edited by D. E., Pegg, and I. A., Jacobsen, Edinburgh: Churchill Livingstone, 1979, pp. 132–146.
Pegg, D. E., Principles of tissue preservation. In: Progress in Transplantation, edited by P. J., Morris, and N. L., Tilney, Edinburgh: Churchill Livingston, 1985, pp. 69–105.
Pegg, D. E., Ice crystals in tissues and organs. In: The Biophysics of Organ Preservation, edited by D. E., Pegg, and A. M., Karow, Jr. New York: Plenum Publishing Corp., 1987, pp. 117–140.
Pegg, D. E., M. C. Wustemanm, and S. Boylan. Fractures in cryopreserved elastic arteries: mechanism and prevention. Cryobiology 33:658–659, 1996.
Plitz, J., Y. Rabin, and J. Walsh. The effect of thermal expansion of ingredients on the cocktails VS55 and DP6. Cell Preservation Technology 2(3):215–226, 2004.
Rabin, Y., and P. S. Steif. Analysis of thermal stresses around cryosurgical probe. Cryobiology 33:276–290, 1996.
Rabin, Y., and P. S. Steif. Thermal stresses in a freezing sphere and its application to cryobiology. ASME J. of Appl. Mech. 65(2):328–333, 1998.
Rabin, Y., M. J. Taylor, and N. Wolmark. Thermal expansion measurements of frozen biological tissues at cryogenic temperatures. ASME J. Biomech. Eng. 120(2):259–266, 1998.
Rabin, Y., and P. S. Steif. Thermal stress modeling in cryosurgery. Int. J. Solids and Structures 37:2363–2375, 2000.
Rabin, Y., and E. Bell. Thermal expansion measurements of cryoprotective agents. Part I: A new experimental apparatus. Cryobiology, 46(3):254–263, 2003.
Rabin, Y., and E. Bell. Thermal expansion measurements of cryoprotective agents. Part II: Measurements of DP6 and VS55, and comparison with DMSO. Cryobiology 46(3):264–270, 2003.
Rabin, Y., M. J. Michael, J. R. Walsh, S. Baicu, and P. S. Steif. Cryomacroscopy of vitrification, Part I: A prototype and experimental observations on the cocktails VS55 and DP6, Cryobiology, submitted.
Song, Y. C., B. S. Khirabadi, F. G. Lightfoot, K. G. M. Brockbank, and M. J. Taylor. Vitreous cryopreservation maintains the function of vascular grafts. Nature Biotechnology 18:296–299, 2000.
Stanke, F., D. Riebel, S. Carmine, J.-L. Cracowski, F. Caron, J.-L. Magne, and H. Egelhoffer. Functional assessment of human femoral arteries after cryopreservation. J. Vasc. Surg. 28:273–283, 1998.
Taylor, M. J. Sub-zero preservation and the prospect of long-term storage of multicellular tissues and organs. In: Transplantation immunology: clinical and experimental, edited by R. Y., Calne, Oxford, New York, Tokyo: Oxford University Press, 1984, pp. 360–390.
Taylor, M. J., Y. C. Song, and K. G. M. Brockbank. Vitrification in tissue preservation: New developments. In: Life in the Frozen State, edited by B. J., Fuller, N., Lane, E. E., Benson, CRC Press, New York, 2004.
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