Freeze-only versus fresh embryo transfer in a multicenter matched cohort study: contribution of progesterone and maternal age to success rates.

[1]  Zi-jiang Chen,et al.  Fresh versus Frozen Embryos for Infertility in the Polycystic Ovary Syndrome. , 2016, The New England journal of medicine.

[2]  M. Hill,et al.  Are intracytoplasmic sperm injection and high serum estradiol compounding risk factors for adverse obstetric outcomes in assisted reproductive technology? , 2016, Fertility and sterility.

[3]  H. Tournaye,et al.  A fresh look at the freeze-all protocol: a SWOT analysis. , 2016, Human reproduction.

[4]  S. Geber,et al.  Cost-Effectiveness of the Freeze-All Policy. , 2015, JBRA assisted reproduction.

[5]  S. Geber,et al.  Freeze-all policy: fresh vs. frozen-thawed embryo transfer. , 2015, Fertility and sterility.

[6]  B. Vollenhoven,et al.  Fresh versus frozen embryo transfer: backing clinical decisions with scientific and clinical evidence. , 2014, Human reproduction update.

[7]  S. Daneshmand,et al.  Freeze-all can be a superior therapy to another fresh cycle in patients with prior fresh blastocyst implantation failure. , 2014, Reproductive biomedicine online.

[8]  S. Daneshmand,et al.  Clinical rationale for cryopreservation of entire embryo cohorts in lieu of fresh transfer. , 2014, Fertility and sterility.

[9]  K. Wakim,et al.  Progesterone level at oocyte retrieval predicts in vitro fertilization success in a short-antagonist protocol: a prospective cohort study. , 2014, Fertility and sterility.

[10]  J. García-Velasco,et al.  GnRH-agonist triggering to avoid ovarian hyperstimulation syndrome: a review of the evidence. , 2013, Current drug targets.

[11]  K. Aittomäki,et al.  Why do singletons conceived after assisted reproduction technology have adverse perinatal outcome? Systematic review and meta-analysis. , 2013, Human reproduction update.

[12]  H. Restrepo,et al.  Matched-cohort comparison of single-embryo transfers in fresh and frozen-thawed embryo transfer cycles. , 2013, Fertility and sterility.

[13]  X. Liang,et al.  Premature progesterone rise negatively correlated with live birth rate in IVF cycles with GnRH agonist: an analysis of 2,566 cycles. , 2012, Fertility and sterility.

[14]  A. Crispin,et al.  Subtle progesterone rise on the day of human chorionic gonadotropin administration is associated with lower live birth rates in women undergoing assisted reproductive technology: a retrospective study with 2,555 fresh embryo transfers. , 2012, Fertility and sterility.

[15]  S. Bhattacharya,et al.  Obstetric and perinatal outcomes in singleton pregnancies resulting from the transfer of frozen thawed versus fresh embryos generated through in vitro fertilization treatment: a systematic review and meta-analysis. , 2012, Fertility and sterility.

[16]  Wenhao Shi,et al.  Perinatal and neonatal outcomes of 494 babies delivered from 972 vitrified embryo transfers. , 2012, Fertility and sterility.

[17]  K. Barnhart,et al.  Ovarian Stimulation and Low Birth Weight in Newborns Conceived Through In Vitro Fertilization , 2011, Obstetrics and gynecology.

[18]  S. Daneshmand,et al.  Evidence of impaired endometrial receptivity after ovarian stimulation for in vitro fertilization: a prospective randomized trial comparing fresh and frozen-thawed embryo transfer in normal responders. , 2011, Fertility and sterility.

[19]  C. Simón,et al.  Endometrial receptivity is affected in women with high circulating progesterone levels at the end of the follicular phase: a functional genomics analysis. , 2011, Human reproduction.

[20]  G. Griesinger,et al.  Ovarian hyperstimulation syndrome prevention by gonadotropin-releasing hormone agonist triggering of final oocyte maturation in a gonadotropin-releasing hormone antagonist protocol in combination with a "freeze-all" strategy: a prospective multicentric study. , 2011, Fertility and sterility.

[21]  Ping Liu,et al.  MicroRNA array and microarray evaluation of endometrial receptivity in patients with high serum progesterone levels on the day of hCG administration , 2011, Reproductive biology and endocrinology : RB&E.

[22]  E. Kolibianakis,et al.  Progesterone rise on HCG day in GnRH antagonist/rFSH stimulated cycles affects endometrial gene expression. , 2011, Reproductive biomedicine online.

[23]  K. Barnhart,et al.  Perinatal morbidity after in vitro fertilization is lower with frozen embryo transfer. , 2011, Fertility and sterility.

[24]  A. Pinborg,et al.  Infant outcome of 957 singletons born after frozen embryo replacement: the Danish National Cohort Study 1995-2006. , 2010, Fertility and sterility.

[25]  B. Fisch,et al.  High serum oestradiol concentrations in IVF cycles increase the risk of pregnancy complications related to abnormal placentation. , 2010, Reproductive biomedicine online.

[26]  J. de Vos,et al.  Controlled Ovarian Hyperstimulation for In Vitro Fertilization Alters Endometrial Receptivity in Humans: Protocol Effects1 , 2010, Biology of reproduction.

[27]  M. Gissler,et al.  Perinatal outcome of children born after frozen and fresh embryo transfer: the Finnish cohort study 1995-2006. , 2010, Human reproduction.

[28]  B. Haydardedeoglu,et al.  Premature progesterone elevation impairs implantation and live birth rates in GnRH-agonist IVF/ICSI cycles , 2010, Archives of Gynecology and Obstetrics.

[29]  N. Desai,et al.  Slow freezing, vitrification and ultra-rapid freezing of human embryos: a systematic review and meta-analysis. , 2010, Reproductive biomedicine online.

[30]  F. Hassani,et al.  Vitrification versus slow freezing gives excellent survival, post warming embryo morphology and pregnancy outcomes for human cleaved embryos , 2009, Journal of Assisted Reproduction and Genetics.

[31]  J. D. Vos,et al.  Gene expression profile of human endometrial receptivity: comparison between natural and stimulated cycles for the same patients. , 2009, Human reproduction.

[32]  D. Amor,et al.  Pregnancies conceived using assisted reproductive technologies (ART) have low levels of pregnancy-associated plasma protein-A (PAPP-A) leading to a high rate of false-positive results in first trimester screening for Down syndrome. , 2009, Human reproduction.

[33]  A. P. Walsh,et al.  Ovarian hyperstimulation syndrome and prophylactic human embryo cryopreservation: analysis of reproductive outcome following thawed embryo transfer , 2008, Journal of ovarian research.

[34]  B. Ata,et al.  A randomized controlled study of human Day 3 embryo cryopreservation by slow freezing or vitrification: vitrification is associated with higher survival, metabolism and blastocyst formation. , 2008, Human reproduction.

[35]  H. Baker,et al.  Factors affecting low birthweight after assisted reproduction technology: difference between transfer of fresh and cryopreserved embryos suggests an adverse effect of oocyte collection. , 2008, Human reproduction.

[36]  C. Venetis,et al.  Is progesterone elevation on the day of human chorionic gonadotrophin administration associated with the probability of pregnancy in in vitro fertilization? A systematic review and meta-analysis. , 2007, Human reproduction update.

[37]  M. Meseguer,et al.  The significance of premature luteinization in an oocyte-donation programme. , 2006, Human reproduction.

[38]  Jose I. Diaz,et al.  Gene expression profiles and structural/functional features of the peri-implantation endometrium in natural and gonadotropin-stimulated cycles. , 2004, The Journal of clinical endocrinology and metabolism.

[39]  C. Simón,et al.  Effect of controlled ovarian hyperstimulation in IVF on endometrial gene expression profiles. , 2004, Molecular human reproduction.

[40]  E. Kolibianakis,et al.  Effect of ovarian stimulation with recombinant follicle-stimulating hormone, gonadotropin releasing hormone antagonists, and human chorionic gonadotropin on endometrial maturation on the day of oocyte pick-up. , 2002, Fertility and sterility.

[41]  J. Check,et al.  Controlled Ovarian Hyperstimulation Adversely Affects Implantation Following In Vitro Fertilization–Embryo Transfer , 1999, Journal of Assisted Reproduction and Genetics.

[42]  S. Oehninger,et al.  Endometrial estrogen and progesterone receptor and pinopode expression in stimulated cycles of oocyte donors. , 1999, Fertility and sterility.

[43]  R. Chetkowski,et al.  In premature luteinization, progesterone induces secretory transformation of the endometrium without impairment of embryo viability. , 1997, Fertility and sterility.

[44]  F. Ubaldi,et al.  Endometrial evaluation by aspiration biopsy on the day of oocyte retrieval in the embryo transfer cycles in patients with serum progesterone rise during the follicular phase. , 1997, Fertility and sterility.

[45]  S. Bhattacharya,et al.  Elective frozen replacement cycles for all: ready for prime time? , 2013, Human reproduction.

[46]  Matheus Roque,et al.  Fresh embryo transfer versus frozen embryo transfer in in vitro fertilization cycles: a systematic review and meta-analysis. , 2013, Fertility and sterility.

[47]  J. Check,et al.  Evidence that high serum progesterone (P) levels on day of human chorionic gonadotropin (hCG) injection have no adverse effect on the embryo itself as determined by pregnancy outcome following embryo transfer using donated eggs. , 2010, Clinical and experimental obstetrics & gynecology.

[48]  H. Baker,et al.  Prevalence and risk factors for obstetric haemorrhage in 6730 singleton births after assisted reproductive technology in Victoria Australia. , 2010, Human reproduction.