Embryo Quality May Be Associated With Serum Inhibin B Levels but Not With Serum or Follicular Fluid Levels of Other Components of the Activin-Follistatin-Inhibin Axis.

OBJECTIVE: We investigated the potential associations of embryo quality with serum and/or follicular fluid (FF) concentrations of the molecules of the activin-follistatin-inhibin (AFI) axis and antimüllerian hormone and aimed to identify molecules that could predict a positive assisted reproductive technology (ART) outcome. METHODS: In this cross-sectional study, we measured AFI hormone and antimüllerian hormone levels in the serum and FF of follicles (n = 101) obtained from healthy oocyte donors who underwent an assisted reproductive technology course (n = 32). After egg retrieval, embryos were characterized as good or bad quality according to the European Society of Human Reproduction and Embryology criteria. Women were divided into 3 groups (<50%; 50%-66.7%; and >66.7%) according to the percentage of good quality embryos obtained. RESULTS: There was no difference between good and bad quality embryos in any of the molecules measured in FF. Moreover, there was no difference in the parameters measured in the serum among women according to the percentage of good quality embryos (ie, suitable for transfer or freezing) except for inhibin B, which tended to increase along with a good quality embryo rate (55.6 ± 7.9 vs 95.3 ± 14.3 vs 113.9 ± 36.9; P = .045). CONCLUSIONS: Among the molecules of the AFI axis, only serum but not FF inhibin B levels were marginally associated with good quality embryo rates.

Comparison and optimisation of microRNA extraction from the plasma of healthy pregnant women.

Circulating microRNA (miRNA) biomarkers are implicated in the diagnosis, monitoring and prediction of various disease processes. Before embarking upon biomarker discovery, miRNA extraction techniques must first be optimised in the biofluid and population under study. Using plasma from a healthy pregnant woman, it was attempted to optimise and compare the performance of two commercially available miRNA extraction kits; Qiagen (miRNeasy Serum/Plasma) and Promega (Maxwell® RSC miRNA from Tissue or Plasma or Serum). Sample miRNA content (concentration and percentage) was assessed using Agilent Bioanalyzer Small RNA chips and reverse transcription­quantitative PCR (RT­qPCR) using four constitutively expressed miRNAs (hsa­miR­222­3p, hsa­let­7i­3p, hsa­miR­148­3p and hsa­miR­30e­5p). Quality control spike­ins monitored RNA extraction (UniSp2, 4 and 5) and cDNA synthesis (UniSp6, cel­miR­39­3p) efficiency. Optimisation approaches included: i) Starting volume of plasma; the addition of ii) Proteinase K; iii) a RNA bacteriophage carrier (MS2); and iv) a glycogen carrier. The two kits exhibited equivalence in terms of miRNA recovery based on Bioanalyzer and RT­qPCR ΔΔCq results. Optimisation attempts for both kits failed to improve upon miRNA content compared with standard methodology. Comparing the standard methodology, the Qiagen kit was more consistent (smaller variance of ΔCq values) compared with the Promega kit. The standard methodology of either kit would be suitable for the investigation of miRNA biomarkers in a healthy pregnant population.

Profiling microRNAs in uncomplicated pregnancies: Serum vs. plasma.

Blood-derived microRNAs (miRNAs/miRs) are ideal clinical biomarkers, as they can be relatively non-invasively extracted and are stable across a range of storage conditions. However, the concentration and profile of miRNAs differ between specific patient groups and starting media, which must be a key consideration before embarking upon uses for clinical applications. The optimum blood-derived starting media for biomarker discovery involving pregnant women with an uncomplicated pregnancy has not been determined. Paired serum and plasma samples were collected from 10 pregnant women with uncomplicated low-risk pregnancies at three time points: i) During the second trimester of pregnancy; ii) during the third trimester; and iii) 6 weeks post-partum. Sample miRNA content was assessed using an Agilent Bioanalyzer Small RNA chip and reverse transcription-quantitative (RT-q)PCR using four constitutively expressed miRNAs: hsa-miR-222-3p, hsa-miR-23a, hsa-miR-30e-5p and hsa-miR-451a. Quality control spike-ins measured RNA extraction (UniSp2) and cDNA extraction (cel-miR-39-3p) efficiency. MiRNA concentration and percentage were significantly higher in the serum vs. plasma samples based on data obtained from the Bioanalyzer; however, RT-qPCR failed to replicate these differences in the majority of comparisons using the ΔCq values of the four constitutively expressed miRNAs. Using the standard deviations of the ΔCq values, the consistency of serum and plasma in terms of miRNA expression levels were equivalent. Thus, clinicians and researchers should take into consideration that different miRNA quantification methods can yield contrasting results with regards to the starting media utilized. Based on the equivalent performance of serum and plasma assessed using RT-qPCR, which is less likely to be influenced by the coagulation process or degraded long RNAs, both starting media assessed in the present study are equally suitable for ongoing biomarker discovery studies involving healthy pregnant women at any gestational time point or immediately postpartum.

The In Vitro Impact of the Herbicide Roundup on Human Sperm Motility and Sperm Mitochondria.

Toxicants, such as herbicides, have been hypothesized to affect sperm parameters. The most common method of exposure to herbicides is through spraying or diet. The aim of the present study was to investigate the effect of direct exposure of sperm to 1 mg/L of the herbicide Roundup on sperm motility and mitochondrial integrity. Sperm samples from 66 healthy men who were seeking semen analysis were investigated after written informed consent was taken. Semen analysis was performed according to the World Health Organization guidelines (WHO, 2010). Mitochondrial integrity was assessed through mitochondrial staining using a mitochondria-specific dye, which is exclusively incorporated into functionally active mitochondria. A quantity of 1 mg/L of Roundup was found to exert a deleterious effect on sperm's progressive motility, after 1 h of incubation (mean difference between treated and control samples = 11.2%) in comparison with the effect after three hours of incubation (mean difference = 6.33%, p < 0.05), while the relative incorporation of the mitochondrial dye in mitochondria of the mid-piece region of Roundup-treated spermatozoa was significantly reduced compared to relative controls at the first hour of incubation, indicating mitochondrial dysfunction by Roundup. Our results indicate that the direct exposure of semen samples to the active constituent of the herbicide Roundup at the relatively low concentration of 1 mg/L has adverse effects on sperm motility, and this may be related to the observed reduction in mitochondrial staining.