Effect of N-acetyl cysteine on the quality of blastocyst formation rate using cultured vitrified murine embryos
Λέξεις-κλειδιά:
N-acetylcysteine vitrification early embryos mouse blastocyst quality
Περίληψη
ΔΕΝ ΔΙΑΤΙΘΕΤΑΙ ΠΕΡΙΛΗΨΗ
Λεπτομέρειες άρθρου
- Πώς να δημιουργήσετε Αναφορές
-
SIGÜENZA, S., ÁLVAREZ, I., & MATILLA, E. (2020). Effect of N-acetyl cysteine on the quality of blastocyst formation rate using cultured vitrified murine embryos. Περιοδικό της Ελληνικής Κτηνιατρικής Εταιρείας, 71(3), 2315–2322. https://doi.org/10.12681/jhvms.25078
- Τεύχος
- Τόμ. 71 Αρ. 3 (2020)
- Ενότητα
- Research Articles
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Λήψεις
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Αναφορές
Ali, A.A., J.F. Bilodeau and M.A. Sirard (2002). “Antioxidant requirements for bovine oocytes varies during in vitro maturation, fertilization and development.” Theriogenology 59(3): 939-949.
Azadbakht, M. and M.R. Valojerdi (2008). “Development of vitrified-warmed mouse embryos co-cultured with polarized or non-polarized uterine epithelial cells using sequential culture media.” Journal of Assisted Reproduction and Genetics 25(6): 251-261.
Bedaiwy, M.A., T. Falcone, M.S. Mohamed, A.A.N. Aleem, R.K. Sharma, S.E. Worley, J. Thornton and A. Agarwal (2004). “Differential growth of human embryos in vitro: Role of reactive oxygen species.” Fertility and Sterility 82(3): 593-600.
Castillo-Martín, M., S. Bonet, R. Morató and M. Yeste (2014). “Comparative effects of adding β-mercaptoethanol or l-ascorbic acid to culture or vitrification–warming media on IVF porcine embryos.” Reproduction, Fertility and Development 26(6):875-882.
Covarrubias, L., D. Hernández-García, D. Schnabel, E. Salas-Vidal and S. Castro-Obregón (2008). “Function of reactive oxygen species during animal development: Passive or active?” Developmental Biology 320(1): 1-11.
ESHRE (2011). The Istanbul consensus workshop on embryo assessment: proceedings of an expert meeting†. Human Reproduction. Gao, C., H.-B. Han, X.-Z. Tian, D.-X. Tan, L. Wang, G.-B. Zhou, S.-E.
Zhu and G.-S. Liu (2012). “Melatonin promotes embryonic development and reduces reactive oxygen species in vitrified mouse 2-cell embryos.” J Pineal Res 52(3): 305-311.
Ghandy, N. and A.A. Karimpur Malekshah (2017). “Which Stage of Mouse Embryos Is More Appropriate for Vitrification?” International Journal of Fertility & Sterility 10(4): 357-362.
Ghandy, N., Karimpur, M., Abbas, A. (2017). “Which Stage of Mouse Embryos Is More Appropriate for Vitrification?” International Journal of Fertility & Sterility 10(4): 357-362.
Guerin, P., S. El Mouatassim and Y. Menezo (2001). “Oxidative stress and protection against reactive oxygen species in the pre-implantation embryo and its surroundings.” Hum Reprod Update 7.
Guérin, P., S. El Mouatassim and Y. Ménézo (2001). “Oxidative stress and protection against reactive oxygen species in the pre-implantation embryo and its surroundings.” Hum Reprod Update 7(2): 175-189.
Jurisicova, A., I. Rogers, A. Fasciani, R.F. Casper and S. Varmuza (1998). “Effect of maternal age and conditions of fertilization on programmed cell death during murine preimplantation embryo development.” Mol Hum Rep 2: 139-145.
Kong, X., S. Yang, F. Gong, C. Lu, S. Zhang, G. Lu and G. Lin (2016). “The Relationship between Cell Number, Division Behavior and Developmental Potential of Cleavage Stage Human Embryos: A Time-Lapse Study.” PLoS One 11(4): e0153697.
Kuleshova, L.L. and A. Lopata (2002). “Vitrification can be more favorable than slow cooling.” Fertility and Sterility 78(3): 449-454.
Liang, Y., F.Y. Ning, W.J. Du, C.S. Wang, S.H. Piao and T.Z. An (2012). “The type and extent of injuries in vitrified mouse oocytes.” Cryobiology 64(2): 97-102.
Mallol, A., J. Santaló and E. Ibáñez (2013). “Comparison of three differential mouse blastocyst staining methods.” Systems Biology in Reproductive Medicine 59(2): 117-122.
Mandawala, A.A., S.C. Harvey, T.K. Roy and K.E. Fowler (2016). “Cryopreservation of animal oocytes and embryos: Current progress and future prospects.” Theriogenology 86(7): 1637-1644.
Marí, M., A. Morales, A. Colell, C. García-Ruiz and J.C. Fernández-Checa (2009). “Mitochondrial Glutathione, a Key Survival Antioxidant.” Antioxidants & Redox Signaling 11(11): 2685-2700.
Matilla, E., F.E. Martin-Cano, L. González-Fernandez, F.M. Sanchez-Margallo, I.S. Alvarez and B. Macias-Garcia (2019). “N-acetylcysteine addition after vitrification improves oocyte mitochondrial polarization status and the quality of embryos derived from vitrified murine oocytes.” BMC Veterinary Research 15(1): 31.
Momozawa, K., A. Matsuzawa, Y. Tokunaga, S. Abe, Y. Koyanagi, M. Kurita, M. Nakano and T. Miyake (2017). “Efficient vitrification of mouse embryos using the Kitasato Vitrification System as a novel vitrification device.” Reproductive Biology and Endocrinology 15(1):29.
Pedro, P.B., E. Yokoyama, S.E. Zhu, N. Yoshida, D.M. Valdez Jr, M. Tanaka, K. Edashige and M. Kasai (2005). “Permeability of Mouse Oocytes and Embryos at Various Developmental Stages to Five Cryoprotectants.” Journal of Reproduction and Development 51(2): 235- 246.
Rall W.F., F.G.M. (1985). “Ice-free cryopreservation of mouse embryos at -196 degrees C by vitrification.” Nature 313(6003): 3.
Rall, W.F. (1987). “Factors affecting the survival of mouse embryos cryopreserved by vitrification.” Cryobiology 24(5): 387-402.
Sawicki, W. and E.T. Mystkowska (1990). “In vivo staining of mouse preimplantation embryos with hoechst 33342.” The Anatomical Record 227(3): 359-362.
Silva, E., A.F. Greene, K. Strauss, J.R. Herrick, W.B. Schoolcraft and R.L. Krisher (2015). “Antioxidant supplementation during in vitro culture improves mitochondrial function and development of embryos from aged female mice.” Reproduction, Fertility and Development 27(6):975-983.
Somfai, T., M. Ozawa, J. Noguchi, H. Kaneko, N.W. Kuriani Karja, M. Farhudin, A. Dinnyés, T. Nagai and K. Kikuchi (2007). “Developmental competence of in vitro-fertilized porcine oocytes after in vitro maturation and solid surface vitrification: Effect of cryopreservation on oocyte antioxidative system and cell cycle stage.” Cryobiology 55(2): 115-126.
Somoskoi, B., N.A. Martino, R.A. Cardone, G.M. Lacalandra, M.E. Dell’Aquila and S. Cseh (2015). “Different chromatin and energy/redox responses of mouse morulae and blastocysts to slow freezing and vitrification.” Reprod Biol Endocrinol 13: 22.
Tatone, C., G. Di Emidio, M. Vento, R. Ciriminna and P.G. Artini (2010). “Cryopreservation and oxidative stress in reproductive cells.” Gynecological Endocrinology 26(8): 563-567.
Tsang W.H. and Chow L.K. (2009). “Mouse embryo cryopreservation utilizing a novel high-capacity vitrification spatula.” Biotechniques 46(7): 3.
Vajta, G. (2000). “Vitrification of the oocytes and embryos of domestic animals.” Animal Reproduction Science 60-61: 357-364.
Van der Elst J, Amerijckx Y and V.S. A. (1998). “Ultra-rapid freezing of mouse oocytes lowers the cell number in the inner cell mass of 5 day old in-vitro cultured blastocysts.” Human Reproduction 13(6): 5.
Yan, C.L., X.W. Fu, G.B. Zhou, X.M. Zhao, L. Suo and S.E. Zhu (2010). “Mitochondrial behaviors in the vitrified mouse oocyte and its parthenogenetic embryo: effect of Taxol pretreatment and relationship to competence.” Fertil Steril 93(3): 959-66.
Zhang, J., J. Cui, X. Ling, X. Li, Y. Peng, X. Guo, B.C. Heng and G.Q. Tong (2009). “Vitrification of mouse embryos at 2-cell, 4-cell and 8-cell stages by cryotop method.” Journal of Assisted Reproduction and Genetics 26(11-12): 621-628.
