D. Feil scite author profile

The oxygen concentration used during embryo culture can influence embryo development and quality. Reducing the oxygen concentration in the atmosphere to 2% during post-compaction culture of mouse embryos perturbs embryonic gene expression. This study examined the effect of culturing mouse embryos under different oxygen concentrations on subsequent fetal and placental development. Embryos were cultured from the zygote to morula stage under 7% oxygen, followed by 20, 7 or 2% oxygen to the blastocyst stage. Cultured and in vivo developed blastocysts were transferred into pseudopregnant recipients. Fetal and placental outcomes were analysed at day 18 of pregnancy. Implantation rate was not influenced by embryo culture conditions, but resorption rates were increased in embryos cultured under 2% oxygen, compared with 7% oxygen. Day 18 fetal weights were reduced following culture under 2%, compared with 7 or 20% oxygen, or in vivo development. Placental weight was not influenced by culture conditions. No differences in the proportion of junctional or labyrinthine exchange regions within the placenta or the morphometry of the labyrinthine region were detected. Surface density (surface area/gram labyrinth) of trophoblast available for exchange was reduced in placentas developed from embryos cultured under 2% oxygen, compared with 7% oxygen. Placental gene expression of Slc2a1, Slc2a3, Igf2, Igf2r and H19 was not influenced by oxygen conditions during embryo culture. Thus, exposure to 2% oxygen during post-compaction pre-implantation embryo development has adverse consequences for fetal development in the mouse. Oxygen is a significant component of the embryonic environment and reductions in oxygen availability can influence both embryonic gene expression and subsequent fetal development.

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Effects of differing oocyte-secreted factors during mouse in vitro maturation on subsequent embryo and fetal development

Sudiman

Ritter

Feil

et al. 2014

J Assist Reprod Genet

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Sperm DNA damage is associated with assisted reproductive technology pregnancy

et al. 2008

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The literature suggests an association between sperm DNA damage and assisted reproductive technology (ART) outcomes. However, previous studies involved the transfer of multiple embryos, which has complicated the interpretation of the results. The aim of this study was to determine the relationship between the levels of sperm DNA damage and fertilization rate, embryo development as well as pregnancy outcome, following single embryo transfer. Patients (n = 113) undergoing in vitro fertilization (IVF) (n = 45) and intra-cytoplasmic sperm injection (ICSI) (n = 68) were assessed for their levels of sperm DNA damage in the sample used for insemination. DNA damage was determined using terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate-nick end labelling (TUNEL). The relationship between DNA damage and outcomes were assessed using regression analysis. Overall data showed no association between sperm DNA damage and fertilization rate, or embryo development in vitro. However, when IVF was the insemination method, there was a significant negative correlation between fertilization rates and sperm DNA damage (p < 0.05). When ICSI was the insemination technique, low sperm DNA damage was associated with successful pregnancy (37.8 +/- 5.7% DNA damaged sperm) compared with failed implantation (52.9 +/- 3.9% DNA damaged sperm, p < 0.05). Our results suggest that sperm DNA damage as measured by the TUNEL assay may provide an indicator for patients with poor fertilization rates and/or those unable to achieve pregnancy following ART treatment.

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D. Feil

Human cumulus cell gene expression as a biomarker of pregnancy outcome after single embryo transfer

Utilization of endogenous fatty acid stores for energy production in bovine preimplantation embryos

Effect of culturing mouse embryos under different oxygen concentrations on subsequent fetal and placental development

Effects of differing oocyte-secreted factors during mouse in vitro maturation on subsequent embryo and fetal development

Sperm DNA damage is associated with assisted reproductive technology pregnancy

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