Human immature oocytes grow during culture for IVM.
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[1] L. Gianaroli,et al. First meiosis errors in immature oocytes generated by stimulated cycles. , 2006, Fertility and sterility.
[2] E. Véricel,et al. Lipid Remodeling of Murine Epididymosomes and Spermatozoa During Epididymal Maturation1 , 2006, Biology of Reproduction.
[3] T. McIntosh,et al. Roles of bilayer material properties in function and distribution of membrane proteins. , 2006, Annual review of biophysics and biomolecular structure.
[4] D. Rozman,et al. Follicular sterol composition in gonadotrophin stimulated women with polycystic ovarian syndrome , 2006, Molecular and Cellular Endocrinology.
[5] Nada Borghol,et al. Epigenetic status of the H19 locus in human oocytes following in vitro maturation. , 2006, Genomics.
[6] S. Cooke,et al. Do age and extended culture affect the architecture of the zona pellucida of human oocytes and embryos? , 2006, Zygote.
[7] H. Tinneberg,et al. High magnitude of light retardation by the zona pellucida is associated with conception cycles. , 2005, Human reproduction.
[8] Y. Sun,et al. Zona pellucida thickness and clinical pregnancy outcome following in vitro fertilization , 2005, International journal of gynaecology and obstetrics: the official organ of the International Federation of Gynaecology and Obstetrics.
[9] S. Pomerantz,et al. Resumption of oocyte meiosis in mammals: On models, meiosis activating sterols, steroids and EGF-like factors , 2005, Molecular and Cellular Endocrinology.
[10] J. Liu,et al. Extracorporeal development and ultrarapid freezing of human fetal ova , 1995, Journal of Assisted Reproduction and Genetics.
[11] K. Wigglesworth,et al. A synthetic analogue of meiosis-activating sterol (FF-MAS) is a potent agonist promoting meiotic maturation and preimplantation development of mouse oocytes maturing in vitro. , 2004, Human reproduction.
[12] A. Loft,et al. Chromosomal abnormality rate in human pre-embryos derived from in vitro fertilization cycles cultured in the presence of Follicular-Fluid Meiosis Activating Sterol (FF-MAS). , 2004, Human reproduction.
[13] M. Bartolomei,et al. Gene-specific timing and epigenetic memory in oocyte imprinting. , 2004, Human molecular genetics.
[14] D. Keefe,et al. Noninvasive polarized light microscopy quantitatively distinguishes the multilaminar structure of the zona pellucida of living human eggs and embryos. , 2004, Fertility and sterility.
[15] A. Loft,et al. A randomized, double-blind, controlled trial of the effect of adding follicular fluid meiosis activating sterol in an ethanol formulation to donated human cumulus-enclosed oocytes before fertilization. , 2004, Fertility and sterility.
[16] S. Lahav-Baratz,et al. The impact of cigarette smoking on zona pellucida thickness of oocytes and embryos prior to transfer into the uterine cavity. , 2004, Human reproduction.
[17] Johan Smitz,et al. Preantral follicle culture as a novel in vitro assay in reproductive toxicology testing in mammalian oocytes. , 2004, Mutagenesis.
[18] J. Chelly,et al. In vitro follicular growth affects oocyte imprinting establishment in mice , 2003, European Journal of Human Genetics.
[19] M. Popliker,et al. Is meiosis activating sterol (MAS) an obligatory mediator of meiotic resumption in mammals , 2002, Molecular and Cellular Endocrinology.
[20] A. Byskov,et al. Role of meiosis activating sterols, MAS, in induced oocyte maturation , 2002, Molecular and Cellular Endocrinology.
[21] K Petersen,et al. The impact of the zona pellucida thickness variation of human embryos on pregnancy outcome in relation to suboptimal embryo development. A prospective randomized controlled study. , 2001, Human reproduction.
[22] A. Byskov,et al. The effects of meiosis activating sterol on in-vitro maturation and fertilization of human oocytes from stimulated and unstimulated ovaries. , 2001, Human reproduction.
[23] M. Popliker,et al. Role of Meiosis-Activating Sterols in Rat Oocyte Maturation: Effects of Specific Inhibitors and Changes in the Expression of Lanosterol 14α-Demethylase During the Preovulatory Period1 , 2001, Biology of reproduction.
[24] B. Ruan,et al. Meiosis-Activating Sterol and the Maturation of Isolated Mouse Oocytes1 , 2001, Biology of reproduction.
[25] S. Bao,et al. Epigenetic Modifications Necessary for Normal Development Are Established During Oocyte Growth in Mice1 , 2000, Biology of reproduction.
[26] Seang Tan,et al. Prospective randomized study of human chorionic gonadotrophin priming before immature oocyte retrieval from unstimulated women with polycystic ovarian syndrome. , 2000, Human reproduction.
[27] J. Fulka,et al. Oocyte maturation and embryonic failure. , 1998, Human reproduction update.
[28] Susan Heyner,et al. Sequential analysis of zona thickness during in vitro culture of human zygotes: Correlation with embryo quality, age, and implantation , 1997, Molecular reproduction and development.
[29] Y. Englert,et al. Clinical parameters influencing human zona pellucida thickness. , 1996, Fertility and sterility.
[30] P. Hyttel,et al. Bovine oocyte diameter in relation to maturational competence and transcriptional activity , 1995, Molecular reproduction and development.
[31] A. Penzias,et al. The correlation between follicular measurements, oocyte morphology, and fertilization rates in an in vitro fertilization program. , 1995, Fertility and sterility.
[32] Y. Englert,et al. Does zona pellucida thickness influence the fertilization rate? , 1995, Human reproduction.
[33] H. Thøgersen,et al. Chemical structure of sterols that activate oocyte meiosis , 1995, Nature.
[34] E. Saniga,et al. The relationship between size and maturation in vitro in the unstimulated human oocyte. , 1995, Fertility and sterility.
[35] A. Trounson,et al. In vitro maturation and the fertilization and developmental competence of oocytes recovered from untreated polycystic ovarian patients. , 1994, Fertility and sterility.
[36] T. Miyano,et al. In vitro growth and maturation of pig oocytes. , 1994, Journal of reproduction and fertility.
[37] T. Miyano,et al. Acquisition of maturational competence in in vitro grown mouse oocytes. , 1993, The Journal of experimental zoology.
[38] J. Erlichman,et al. Cyclic AMP binding to the amphibian oocyte plasma membrane: possible interrelationship between meiotic arrest and membrane fluidity. , 1993, Biochimica et biophysica acta.
[39] B. Bavister,et al. Chromatin configurations and meiotic competence of oocytes are related to follicular diameter in nonstimulated rhesus monkeys. , 1993, Biology of reproduction.
[40] L. Veeck. Abnormal morphology of the human oocyte and conceptus , 1991 .
[41] A. Mclaren,et al. Development of mouse germ cells in cultures of fetal gonads. , 1990, Cell differentiation and development : the official journal of the International Society of Developmental Biologists.
[42] Ivy Morton. Statistics for biologists (3rd edn.) : by R.C. Campbell; Cambridge University Press; Cambridge, 1989; xviii + 446 pages; £12.95 , 1990 .
[43] D. Armstrong,et al. Growth and development of rat oocytes in vitro. , 1989, Gamete research.
[44] J. Eppig,et al. Capacity of mouse oocytes from preantral follicles to undergo embryogenesis and development to live young after growth, maturation, and fertilization in vitro. , 1989, Biology of reproduction.
[45] G. Morrill,et al. Progesterone induces transient changes in plasma membrane fluidity of amphibian oocytes during the first meiotic division. , 1989, Archives of biochemistry and biophysics.
[46] A. Gougeon. Dynamics of follicular growth in the human: a model from preliminary results. , 1986, Human reproduction.
[47] F. Palombi,et al. Early programming of maturation competence in mouse oogenesis. , 1984, Developmental biology.
[48] D. J. Finney,et al. Statistics for biologists , 1974, Nature.