References
- Bianchi, V., Coticchio, G., Distratis, V., Di Giusto, N., Flamigni, C.,Borini, A. (2007). Differential sucrose concentration during dehydration (0.2 mol/l) and rehydration (0.3 mol/l) increases the implantation rate of frozen human oocytes. Reproductive biomedicine online, 14, 64–71.
- Borini, A., Sciajno, R., Bianchi, V., Sereni, E., Flamigni, C.,Coticchio, G. (2006). Clinical outcome of oocyte cryopreservation after slow cooling with a protocol utilizing a high sucrose concentration. Human reproduction (Oxford, England), 21, 512–517.
- Chian, R. C., Huang, J. Y., Tan, S. L., Lucena, E., Saa, A., Rojas, A. et al. (2008). Obstetric and perinatal outcome in 200 infants conceived from vitrified oocytes. Reproductive biomedicine online, 16, 608–610.
- Cobo, A., Meseguer, M., Remohí, J.,Pellicer, A. (2010). Use of cryo-banked oocytes in an ovum donation programme: a prospective, randomized, controlled, clinical trial. Human reproduction (Oxford, England), 25, 2239–2246.
- Edgar, D. H., Karani, J.,Gook, D. A. (2009). Increasing dehydration of human cleavage-stage embryos prior to slow cooling significantly increases cryosurvival. Reproductive biomedicine online, 19, 521–525.
- Fabbri, R., Porcu, E., Marsella, T., Rocchetta, G., Venturoli, S.,Flamigni, C. (2001). Human oocyte cryopreservation: new perspectives regarding oocyte survival. Human reproduction (Oxford, England), 16, 411–416.
- Gomes, C. M., Silva, C. A., Acevedo, N., Baracat, E., Serafini, P.,Smith, G. D. (2008). Influence of vitrification on mouse metaphase II oocyte spindle dynamics and chromatin alignment. Fertility and sterility, 90(4 Suppl), 1396–1404.
- Jericho, H., Wilton, L., Gook, D. A.,Edgar, D. H. (2003). A modified cryopreservation method increases the survival of human biopsied cleavage stage embryos. Human reproduction (Oxford, England), 18, 568–571.
- Mazur, P. Seki, S. (2011). Survival of mouse oocytes after being cooled in a vitrification solution to -196°C at 95° to 70,000°C/min and warmed at 610° to 118,000°C/min: A new paradigm for cryopreservation by vitrification. Cryobiology, 62, 1–7.
- Noyes, N., Porcu, E.,Borini, A. (2009). Over 900 oocyte cryopreservation babies born with no apparent increase in congenital anomalies. Reproductive biomedicine online, 18, 769–776.
- Rall, W. F. (1987). Factors affecting the survival of mouse embryos cryopreserved by vitrification. Cryobiology, 24, 387–402.
- Smith, G.D., Serafini, P.C., Fioravanti, J., Yadid, I., Coslovsky, M., Hassun, P., Alegretti, J.R.Motta, E.l. (2010) Prospective randomised comparison of human oocyte cryopreservation with slow-rate freezing or vitrification. Fertility and sterility, 94, 2088–2095.
- Trad, F. S., Toner, M.,Biggers, J. D. (1999). Effects of cryoprotectants and ice-seeding temperature on intracellular freezing and survival of human oocytes. Human reproduction (Oxford, England), 14, 1569–1577.
- Vanderzwalmen, P., Ectors, F., Grobet, L., Prapas, Y., Panagiotidis, Y., Vanderzwalmen, S. et al. (2009). Aseptic vitrification of blastocysts from infertile patients, egg donors and after IVM. Reproductive biomedicine online, 19, 700–707.
- Van Landuyt, L., Stoop, D., Verheyen, G., Verpoest, W., Camus, M., Van de Velde, H. et al. (2011). Outcome of closed blastocyst vitrification in relation to blastocyst quality: evaluation of 759 warming cycles in a single-embryo transfer policy. Human reproduction (Oxford, England), 26, 527–534.
- Wood, M. J., Mollison, J., Harrild, K., Ferguson, E., McKay, T., Srikantharajah, A. et al. (2011). A pragmatic RCT of conventional versus increased concentration sucrose in freezing and thawing solutions for human embryos. Human reproduction (Oxford, England), 26, 1987–1996.