Severe pulmonary hypertension and circulatory failure associated with Congenital syphilis. Case report

BACKGROUND

Congenital syphilis is a vertical infection caused by Treponema pallidum. Despite the implementation of preventive strategies during pregnancy, its incidence is increasing, and it constitutes an important public health problem. Most patients with congenital syphilis are asymptomatic; however, a small group may develop severe disease at birth with the need of advanced resuscitation in the delivery room, acute hypoxemic respiratory failure, and hemodynamic instability. Therefore, awareness is needed.

METHODS AND RESULTS

This series describes the clinical course of two late preterm infants with congenital syphilis who developed acute hypoxemic respiratory failure, pulmonary hypertension, and circulatory collapse early after birth. Integrated hemodynamic evaluation with neonatologist-performed echocardiography (NPE) and therapeutic management is provided.

CONCLUSIONS

A comprehensive hemodynamic evaluation including early and serial functional echocardiography in these patients is needed to address the underlying complex pathophysiology and to help to establish accurate treatment.

RISEinFAMILY project: the integration of families at neonatal intensive care units (NICUs) to empower them as primary caregivers: study protocol for a stepped wedge cluster controlled trial

BACKGROUND

Family Integrated Care (FICare) has demonstrated positive outcomes for sick neonates and has alleviated the psychological burden faced by families. FICare involves structured training for professionals and caregivers along with the provision of resources to offer physical and psychological support to parents. However, FICare implementation has been primarily limited to developed countries. It remains crucial to assess the scalability of this model in overcoming social-cultural barriers and conduct a cost-effectiveness analysis. The RISEinFAMILY project aims to develop an adapted FICare model that can serve as the international standard for neonatal care, accommodating various cultural, architectural, and socio-economic contexts.

METHODS

RISEinFAMILY is a pluri-cultural, stepped wedge cluster controlled trial conducted in Spain, Netherlands, the UK, Romania, Turkey, and Zambia. Eligible participants include infant-family dyads admitted to the Neonatal Intensive Care Unit (NICU) requiring specialised neonatal care for a minimum expected duration of 7 days, provided there are no comprehension barriers. Notably, this study will incorporate a value of implementation analysis on FICare, which can inform policy decisions regarding investment in implementation activities, even in situations with diverse data.

DISCUSSION

This study aims to evaluate the scalability and adaptation of FICare across a broader range of geographical and sociocultural contexts and address its sustainability. Furthermore, it seeks to compare the RISEinFAMILY model with standard care, examining differences in short-term newborn outcomes, family mental health, and professional satisfaction.

TRIAL REGISTRATION

ClinicalTrials.gov NCT06087666. Registered on 17 October 2023.

PROTOCOL VERSION

19 December 2022; version 2.2.

The HERA (Hyper-response Risk Assessment) Delphi consensus for the management of hyper-responders in in vitro fertilization

PURPOSE

To provide agreed-upon guidelines on the management of a hyper-responsive patient undergoing ovarian stimulation (OS) METHODS: A literature search was performed regarding the management of hyper-response to OS for assisted reproductive technology. A scientific committee consisting of 4 experts discussed, amended, and selected the final statements. A priori, it was decided that consensus would be reached when ≥66% of the participants agreed, and ≤3 rounds would be used to obtain this consensus. A total of 28/31 experts responded (selected for global coverage), anonymous to each other.

RESULTS

A total of 26/28 statements reached consensus. The most relevant are summarized here. The target number of oocytes to be collected in a stimulation cycle for IVF in an anticipated hyper-responder is 15-19 (89.3% consensus). For a potential hyper-responder, it is preferable to achieve a hyper-response and freeze all than aim for a fresh transfer (71.4% consensus). GnRH agonists should be avoided for pituitary suppression in anticipated hyper-responders performing IVF (96.4% consensus). The preferred starting dose in the first IVF stimulation cycle of an anticipated hyper-responder of average weight is 150 IU/day (82.1% consensus). ICoasting in order to decrease the risk of OHSS should not be used (89.7% consensus). Metformin should be added before/during ovarian stimulation to anticipated hyper-responders only if the patient has PCOS and is insulin resistant (82.1% consensus). In the case of a hyper-response, a dopaminergic agent should be used only if hCG will be used as a trigger (including dual/double trigger) with or without a fresh transfer (67.9% consensus). After using a GnRH agonist trigger due to a perceived risk of OHSS, luteal phase rescue with hCG and an attempt of a fresh transfer is discouraged regardless of the number of oocytes collected (72.4% consensus). The choice of the FET protocol is not influenced by the fact that the patient is a hyper-responder (82.8% consensus). In the cases of freeze all due to OHSS risk, a FET cycle can be performed in the immediate first menstrual cycle (92.9% consensus).

CONCLUSION

These guidelines for the management of hyper-response can be useful for tailoring patient care and for harmonizing future research.

Mosaic results after preimplantation genetic testing for aneuploidy may be accompanied by changes in global gene expression

Aneuploidy in preimplantation embryos is a major cause of human reproductive failure. Unlike uniformly aneuploid embryos, embryos diagnosed as diploid-aneuploid mosaics after preimplantation genetic testing for aneuploidy (PGT-A) can develop into healthy infants. However, the reason why these embryos achieve full reproductive competence needs further research. Current RNA sequencing techniques allow for the investigation of the human preimplantation transcriptome, providing new insights into the molecular mechanisms of embryo development. In this prospective study, using euploid embryo gene expression as a control, we compared the transcriptome profiles of inner cell mass and trophectoderm samples from blastocysts with different levels of chromosomal mosaicism. A total of 25 samples were analyzed from 14 blastocysts with previous PGT-A diagnosis, including five low-level mosaic embryos and four high-level mosaic embryos. Global gene expression profiles visualized in cluster heatmaps were correlated with the original PGT-A diagnosis. In addition, gene expression distance based on the number of differentially expressed genes increased with the mosaic level, compared to euploid controls. Pathways involving apoptosis, mitosis, protein degradation, metabolism, and mitochondrial energy production were among the most deregulated within mosaic embryos. Retrospective analysis of the duration of blastomere cell cycles in mosaic embryos revealed several mitotic delays compared to euploid controls, providing additional evidence of the mosaic status. Overall, these findings suggest that embryos with mosaic results are not simply a misdiagnosis by-product, but may also have a genuine molecular identity that is compatible with their reproductive potential.

Predicted COVID-19 molecular effects on endometrium reveal key dysregulated genes and functions

COVID-19 exerts systemic effects that can compromise various organs and systems. Although retrospective and in-silico studies and prospective preliminary analysis have assessed the possibility of direct infection of the endometrium, there is a lack of in-depth and prospective studies on the impact of systemic disease on key endometrial genes and functions across the menstrual cycle and window of implantation. Gene expression data has been obtained from (i) healthy secretory endometrium collected from 42 women without endometrial pathologies and (ii) nasopharyngeal swabs from 231 women with COVID-19 and 30 negative controls. To predict how COVID-19-related gene expression changes impact key endometrial genes and functions, an in-silico model was developed by integrating the endometrial and COVID-19 datasets in an affected mid-secretory endometrium gene co-expression network. An endometrial validation set comprising 16 women (8 confirmed to have COVID-19 and 8 negative test controls) was prospectively collected to validate the expression of key genes. We predicted that five genes important for embryo implantation were affected by COVID-19 (downregulation of COBL, GPX3 and SOCS3, and upregulation of DOCK2 and SLC2A3). We experimentally validated these genes in COVID19 patients using endometrial biopsies during the secretory phase of the menstrual cycle. The results generally support the in-silico model predictions, suggesting that the transcriptomic landscape changes mediated by COVID-19 affect endometrial receptivity genes and key processes necessary for fertility, such as immune system function, protection against oxidative damage and development vital for embryo implantation and early development.

O-138 Covid-19 vaccine does not affect sustained implantation rates after single euploid embryo transfer, a retrospective study with 4868 cases

Study question

Is sustained implantation rate (SIR) of covid-19 vaccinated women diminished in assisted reproduction treatments due to endometrial receptivity harm?

Summary answer

SIR of euploid embryos remains constant regardless vaccination and doses applied, but impact of interval last dose-embryo transfer needs to be further evaluated.

What is known already

Little is known about the effects of both covid infection and vaccines on endometrial receptivity of women attempting motherhood.

There is a generalized concern about potential secondary effects of covid vaccine on many health areas, and assisted reproduction is not an exception. Then, it is mandatory on the current epidemic context to evaluate if either infection or its preventive treatment may interfere reproductive physiology of infertile patients.

ART offers a robust model to study this problem by controlling oocyte and embryo quality with the use of PGT-A, then enabling the study of endometrial independent contribution to reproductive success.

Study design, size, duration

Retrospective study analyzing two cohorts, historical cohort of PGT-A cases using own oocytes one year pre-pandemia, and post vaccination initiation from women already having received one or two doses.

Patients undergoing single embryo transfers (ET) after PGT-A were included, to be able to discern purely endometrial factors of sustained implantation. Means and proportions with their corresponding 95%CI (within brackets) were calculated, and crude/adjusted odds ratios calculated for the main outcomes, SIR and clinical pregnancy rate (CPR)

Participants/materials, setting, methods

A total of 4868 ET were included on this study, 3272 for the control, non vaccinated group, vs 890 from women already vaccinated with at last one dose at the time of ET.

The main outcomes were CPR per embryo transfer (presence of a sac by ultrasonography on week 7th), and SIR (fetal heartbeat at week 12th). Crude and adjusted odds ratio were calculated, using logistic regression models to control for potentially confounding variables.

Main results and the role of chance

Mean age was 38.3 years 95%CI(38.2-38.4), BMI, 23.2kg/m2 95%CI(23.1 23.4), fresh oocytes on 80%, mixed 16.4% and vitrified on 3.6% of cases. Donor sperm used on 12.8% of treatments, and testicular retrieved sperm on 2.5% of them. Day of embryo transfer was D5 on 71.3%  and D6 on 28.6% cases.

CPR per ET was 70.6% 95%CI(69.3-71.9) in the control group and 70.4%95%CI(67.4-73.4) on vaccinated, OR 0.994 95%CI(0.849-1.163), and after adjustment by patient’s age, oocyte age, source of sperm, donor sperm use, day of ET, use of vitrified oocytes and BMI, AdjOR 1.039 95%CI(0.876-1.233), while SIR in the controls was 64.3% 95%CI(62.7-66.0) vs. 62.6% 95%CI(58.8-66.4) on vaccinated, with OR 0.929 95%CI(0.777-1.110) and AdjOR 0.981 95%CI(0.807-1.192), p > 0.05.

Those patients having received only one dose or two doses by the time of ET, showed comparable results, on both CPR and SIR.

Concerning data categorized per time quartiles (from vaccine to ET), while CPR was comparable, SIR, on the first  quartile (Q1) was 66.5%, while Q2 was 68.0%, Q3 66.3%, and Q4 50.4%, and using Q1 as reference, ORQ2-Q1 1.073 95%CI(0.680-1.693), ORQ3-Q1 0.869 95%CI(0.545-1.385) and OR Q4-Q1 0.512 95%CI(0.321-0.818), p = 0.009 while after adjustment AdjORQ2-Q1 0.965 95%CI(0.585-1.594), AdjORQ3-Q1 0.834 95%CI(0.492-1.413) and AdjORQ4-Q1 0.533 95%CI(0.316-0.899), p = 0.018.

Limitations, reasons for caution

This is a retrospective study, and although controlled statistically, possible biases due to the nature of the work remain possible, and a cause-effect link cannot be purely drawn from it. Further prospective studies on the potential effect of covid vaccines on reproductive outcomes are still needed.

Wider implications of the findings

Our results send a message of reassurance to patients in the process of assisted reproductive treatment regarding the potential negative impact of the vaccine on endometrial receptivity and reproductive outcomes. Aiming motherhood is no reason for delaying vaccination against covid-19.

Trial registration number

Not applicable

P-526 Targeting histone modifications: H3K27 acetylation regulates the expression of genes involved in key processes of uterine leiomyoma pathogenesis

Study question

Does histone mark H3K27ac regulate the expression of genes involved in uterine leiomyoma (UL) pathogenesis, and can histone deacetylation inhibition be a new therapeutic approach?

Summary answer

H3K27ac regulates genes implicated in UL pathogenesis through angiogenesis and extracellular matrix (ECM), and histone deacetylation reversion could offer a therapeutic approach to treat UL.

What is known already

UL is a benign tumor arising from myometrium (MM). Women present symptoms such as pelvic pain and infertility. There is no fully effective treatment with minimal side effects. Available medical options focus on the relief of symptoms and not in mechanisms implicated in UL development. Histone modifications are altered in tumors, particularly via histone acetylation which is correlated with gene activation. Herein, we aimed to identify if the modification H3K27ac is involved in UL pathogenesis, determining the relationship between H3K27ac and gene expression in UL versus MM and if its reversion may be a therapeutic option to treat UL.

Study design, size, duration

Prospective study comparing transcriptome (GEO:GSE192354 and GSE142332) by RNA sequencing (RNA-seq) (n = 48) and H3K27ac profile (GEO:GSE142332) by Chromatin Immunoprecipitation Sequencing (CHIP-seq) (n = 19) in UL versus adjacent MM tissue. Human uterine leiomyoma primary (HULP) cells obtained from individual patients (n = 10) were treated with 0.01% DMSO (control) and 10 µM SAHA, a histone deacetylases inhibitor, for 48 hours.

Participants/materials, setting, methods

Samples were collected from 48 women aged 31-54 years. Bioinformatics analysis were performed within the R/Bioconductor (4.1.1.). Differential expressed genes (DEGs) were analysed using three methods: DESeq2, edgeR and limma. Common DEGs (FDR<0.01,log2FC>1 or <-1) were considered for further analysis. Differential H2K27ac peak enrichment analysis of selected genes was performed with limma and functional enrichment analysis (FDR<0.05) with Shiny Go (version 0.741). SAHA effect on hypoacetylated/downregulated genes was assessed in HULP cells by qRT-PCR.

Main results and the role of chance

CHIP-seq analysis showed a lower amount of global H3K27ac peak enrichment level in UL versus MM (p-value<2.2e-16). RNA-seq showed 922 common DEGs in UL versus MM, being 559 up-regulated and 363 down-regulated (FDR<0.01, log2FC>1 or <-1). Integration of CHIP-seq and RNA-seq data showed that among 922 selected genes, 482 also presented the histone mark H3K27ac. Differential peak enrichment analysis demonstrated that 82 of them presented differential acetylation (FDR<0.05) in UL versus MM, being 29 hyper-acetylated/up-regulated and 53 hypo-acetylated/down-regulated. Functional enrichment analysis of 82 DEGs regulated by H3K27ac showed biological processes deregulated in UL that were related to angiogenesis. Additionally, we found cellular components enriched in UL, which were related to an alteration of ECM, one of the key features of UL. We studied further these 82 genes controlled by H3K27ac and found hyperacetylation/upregulation of oncogenes (NDP, TFAP2C, HOXA13, COL24A1 and IGFL3) and hypoacetylation/downregulation of tumor suppressor genes (CD40, GIMAP8, IL15, GPX3 and DPT) in UL, which are related to immune system, angiogenesis, invasion, metabolism, ECM, TGFβ3 and Wnt/β-catenin pathway dysregulation. Finally, SAHA treatment in HULP cells significantly increased expression of the tumor suppressor genes that were hypoacetylated/downregulated in UL versus MM (CD40, GIMAP8, IL15, GPX3 and DPT) (p < 0.05).

Limitations, reasons for caution

This is a preliminary study including only 19 participants in ChIP-seq analysis, thereby we should be cautious extrapolating our results to the general population. Further studies are necessary to determine the effectiveness of histone deacetylases inhibition, SAHA dose and adverse effects on UL in vivo.

Wider implications of the findings

H3K27 acetylation regulates the expression of oncogenes and tumor suppressor genes involved in key processes of UL pathogenesis, such as angiogenesis and ECM formation. Histone deacetylation reversion by SAHA upregulated the expression of tumor suppressor genes in HULP cells, suggesting histone deacetylation as a potential therapeutic approach for UL patients.

Trial registration number

Not applicable

P-396 Is biochemical pregnancy loss (BPL) associated with embryo or endometrium? A multicentre retrospective study with +7000 cases

Study question

Is biochemical pregnancy loss rate (BPLR) associated with alterations within the embryo or the endometrium?

Summary answer

The BPLR was similar in frozen embryo transfers among groups: euploid embryo (PGT-A group), adjusted by endometrial receptivity assay (ERA group), ERA+ PGT-A group, and controls.

What is known already

The etiology of BPL is not well known, but the most likely causes hypothesized seem to be either a low-quality embryo or impaired endometrial receptivity. Different studies showed that factors such as age, ovarian stimulation, the oocyte and embryo quality and endometrium receptivity may have something to do with the occurrence of biochemical pregnancy loss post-assisted reproduction treatments. However, other studies have shown that BPLR does not increase as a function of age or seems independent of embryo’s development stage or embryonic chromosomal constitution. No studies have evaluated nor controlled specifically the uterine factor with tools as ERA.

Study design, size, duration

Retrospective cohort study between January 2013 and January 2021, on patients undergoing 7491 frozen embryo transfers, comparing BPLR per pregnancy among groups of patients with optimized embryo and endometrial quality (ERA+ PGT-A, n = 169), optimized embryo quality (PGT-A, n = 2670), optimized endometrium quality (ERA=61), and controls (neither ERA nor PGT-A, n = 4591) from own oocytes, from two University-affiliated centers. We defined BPL as a pregnancy diagnosed only by serum beta-hCG>10UI/L without resulting in a clinical pregnancy.

Participants/materials, setting, methods

BPLR and other variables including age, body mass index, number of previous IVF, days of endometrial preparation, type of cycle (natural or with hormonal replacement), endometrial thickness, fresh sperm concentration and fresh sperm volume were evaluated among groups using chi-squared test, for univariate analysis.

Main results and the role of chance

Mean women’s age was 35.95 years 95%CI (35.86 ,36.04), BMI 22.52kg/m2 95%CI (22.45, 22.59), endometrial preparation length 17.96 days 95%CI (17.78, 18.14), 29.8% of them on natural cycle, and 70.25% with hormonal therapy replacement. Donor sperm was used on 7.8% of the treatments, and embryo quality was comparable between groups of study, with an overall A rating of the embryos 24.9%, B 50.95%, C 23.37% based on Spanish ASEBIR society criteria. Mean sperm characteristics were: volume 2.79 ml 95%CI (2.74-2.85), concentration 38.78 mill/ml 95%CI (33.77-39.39), on the raw ejaculate, and after preparation, concentration varied to 7.80mill/ml 95%CI(6.76-7.39)

On the univariate analysis, overall BPLR was 8.06% 95%CI (7.45-8.70). Control group presented 7.65% 95%CI (6.89-8.46), with ERA group (optimized endometrial factor) showing 8.33% 95%CI (2.76-18.39), PGT-A group (optimized embryonic factor) 8.82% 95%CI (7.77-8.96), and PGT-A+ERA 7.14% 95%CI (3.75-12.14) without statistically significant differences.

Limitations, reasons for caution

As this was a retrospective cohort study, we are exposed to several biases that have been tried to control by means of inclusion/exclusion criteria and proper statistical adjustment. Subsequently, results should be interpreted with caution, and a clear cause-effect relationship cannot be assumed.

Wider implications of the findings

Our results indicate that with PGT-A, ERA test or both it is not possible to modify the BPLR. A different mechanism no associated with chromosomal structure or transcriptomic expression of the endometrium could be studied as cause of BPL. More studies are needed for explore this reproductive issue.

Trial registration number

not applicable

P-319 Opposite functional alterations between aged endometria and that of women with uterine disorders offer plausible explanations to the increased incidence of uterine disorders with age

Study question

Which is the functional relationship between age and uterine disorders at endometrial level?

Summary answer

Ciliogenesis and cell cycle processes were oppositely altered between the endometrium of patients with uterine disorders and that of > 35 y.o. women.

What is known already

Uterine disorders are complex and multifactorial conditions which incidence increases with age affecting women's reproductive health and fertility. Uterine disorders and age have been transcriptomically researched to identify potential biomarkers and underlying mechanisms in independent studies. However, there is a lack of studies comparing the effects caused by uterine disorders and age in endometrium to understand the functional relationship between them. The objective of this research was to compare the mechanisms underlying uterine disorders and age in the endometrium to understand the molecular relationship behind the increased incidence of these disorders with age.

Study design, size, duration

In silico study performed between 2016-2021 involving a systematic review at Gene Expression Omnibus sample repository to identify datasets with endometrial gene expression raw data associated to uterine disorders and age for answering the research question. Samples were preprocessed and analyzed with the same transcriptomic procedures for comparable analysis of functions affecting gene expression. Gene Ontology, Kyoto Encyclopedia of Genes and Genomes, DoRothEA and OmniPath functional databases were consulted for identifying functions/transcription factors involved.

Participants/materials, setting, methods

Nine endometrial transcriptomic datasets evaluating uterine disorders (123 cases, 127 controls) and one including control women with different ages (23–49 y.o., n = 27) were downloaded. Differentially expressed genes and gene set enrichment functional results related to uterine disorders or age for each dataset were calculated and integrated between uterine disorders under a meta-analysis with a random effects model to account for study heterogeneity. Upstream transcription factors and pathways were identified with footprinting methods.

Main results and the role of chance

All evaluated uterine disorders (adenocarcinoma (ADC), recurrent implantation failure (RIF), recurrent pregnancy loss (RPL) and eutopic endometriosis) shared a significant downregulation of six ciliary functions (FDR<0.03) with 186 associated genes. Moreover, the EGFR proliferative pathway and its downstream transcription factors MYC and/or E2F, involved in cell cycle progression, were significantly upregulated in ADC, RIF and endometriosis but downregulated in RPL (all FDR<0.05). Conversely, the endometrium of women >35 y.o. presented an opposite functional profile in comparison with the effect of uterine disorders - with a significant upregulation of 22 ciliary functions (FDR<0.03) and a downregulation of epithelial cell proliferation (FDR=0.014) - with the exception of RPL which also presented a significant downregulation of the cell cycle (FDR<0.05). We identified 91 significantly upregulated genes as major contributors of cilia alterations with age (49.5% of them being shared with the 186 cilia-related genes detected in uterine disorders); and 37 significantly downregulated cell cycle genes, including EGFR (all FDR<0.05). Since ciliogenesis and cell cycle progression present an antagonistic relationship, upregulation of ciliary functions could be related to the downregulation of cell cycle processes and viceversa.

Limitations, reasons for caution

This study depends on publicly available datasets to analyze. Although we considered potential confounding variables (time of biopsy collection, presence of benign pathologies in aged women) and study heterogeneity (using random effects models accounting for study variability), further studies are needed to corroborate our findings and test the proposed hypothesis.

Wider implications of the findings

A new hypothesis was generated regarding the molecular mechanisms behind the increased incidence of uterine disorders with age: With aging, the endometrium exhibits cell cycle arrest, inhibiting ciliogenesis. Consequently, compensatory mechanisms are activated to counteract aging-related alterations, but these mechanisms could be unbalanced towards the other extreme, originating distinct disorders.

Trial registration number

Not applicable

P-694 Dosage of exogenous gonadotropins is not related to blastocyst aneuploidy or cumulative live-birth rates in PGT-A cycles

Study question

Does dosage of gonadotropins affect aneuploidy rate rates or cumulative live birth rates (CLBRs) after the transfer of euploid embryos?

Summary answer

We did not find evidence that dosage gonadotropin influenced significantly the rate of aneuploidy and CLBRs after transfer of euploid embryos.

What is known already

Aneuploidy rates increase steadily with age, reaching >80% in women >42 years old. The goal of controlled ovarian stimulation obtaining more embryos to biopsy through the recruitment of several follicles, reaching more euploid embryos. However, several studies have suggested that a high response to stimulation might be embryotoxic and/or increase aneuploidy rates by enhancing the abnormal segregation of chromosomes during meiosis. Furthermore, a study on young donors showed differences in the euploidy rates, suggesting an iatrogenic etiology resulting from different stimulation methods.

Study design, size, duration

A multicenter retrospective study, with the preimplantation genetic test for aneuploidy (PGT-A) between January 2013 and January 2020 collected from clinics IVIRMA in Europe. 6832 cycles of in vitro fertilization (IVF) with PGT-A were included in the study

Participants/materials, setting, methods

A total of 62131 embryos were analyzed for ploidy status. Embryos that were subjected to chromosomal analysis were performed blastomere by aCGH (array Comparative Genomic Hybridization) or NGS (Next-Generation Sequencing) analysis. The embryos were biopsied on days 5 and 6. Women were divided into two age groups (<37 and ≥37 years old). Outcomes were compared between different total gonadotropin dosages (<3000 and ≥3000 IU), the dosage of hMG, and numbers of oocytes retrieved.

Main results and the role of chance

The total number of aneuploid embryos was 28336 of the 62131 embryos genetically screened using PGT-A. The embryonic aneuploidy rate was 59.4% (95%CI 58.5-60.3). In the group of women with gonadotropins dosage <3000 IU the embryonic aneuploidy rate was 59.7% (95%CI 58.7-60.8) and in the group with gonadotropins dosage ≥3000 IU was 58.7% (95%CI 57.1-60.3) with no significant difference between them (P = 0.279). In the group of younger patients (<37 y.o) the aneuploidy rate demonstrated no significant differences between patients who received low gonadotropin dosages and patients with high gonadotropin dosages (P = 0.06). Aneuploidy rates in the group of older patients (≥37 y.o) were similar regardless of gonadotropin dosing (P = 0.21). Dividing the according to the number of oocytes retrieved (10, 11-15, >15), the analysis of aneuploidy rate revealed no association between the gonadotropin dosages administrated depending on the total number of retrieved oocytes and age. The aneuploidy rate was also analyzed considering the administration of hMG, there was no statistical difference in the aneuploidy rate with low or high hMG dosages also when it was stratified by age. The cumulative live-birth rate in the groups of different gonadotropins dosage and different ages of patients was similar across the group.

Limitations, reasons for caution

The retrospective nature is the major limitation of this study, also patients included in the study received PGT-A using NGS and CGH arrays technology. The aCGH analysis used is less sensitive than more recent NGS technology.

Wider implications of the findings

Our study demonstrated that gonadotropin dosage did not affect aneuploidy rate or cumulative live-birth rates suggesting that the high doses of gonadotropins used in ART cycles may be safe.

Trial registration number

not applicable

O-073 Artificial intelligence (AI) based triage for preimplantation genetic testing (PGT); an AI model that detects novel features in the embryo associated with ploidy

Study question

Can an AI based triage system noninvasively detect aneuploidy in preimplantation embryos in a precise and valid manner?

Summary answer

Using a feature extraction approach to identify features in time-lapse images, an AI model was validated and found to noninvasively detect ploidy with unprecedented accuracy.

What is known already

Invasive PGT with trophectoderm biopsy is the gold standard for evaluating the genetic integrity of an embryo prior to transfer. Even so, its utility and diagnostic accuracy is debated due to concern of structural damage, sampling bias and viability after vitrification-warming. Though several noninvasive methods for evaluating ploidy have been developed, their main limitations lay in their accuracy. This study reports on the ongoing validation of an AI model that relies on feature extraction and thresholding techniques to distinguish between aneuploid and euploid embryos; the model is intended to be used in clinical settings for PGT triage and preferential transfer.

Study design, size, duration

In this single-center study, we used a retrospective dataset consisting of time-lapse images from 2,502 preimplantation embryos with known ploidy status to train and validate the AI model.

Participants/materials, setting, methods

The model utilized videos captured from time-lapse incubator (Embryoscope) up to 144 hours post-fertilization with chromosome analysis performed using next-generation sequence technology as ground truth labels. The data set was divided using an 70/15/15 training-validation-test split of the data. The AI model included convolutional neural network extracted features alongside spatial features based on several biological and clinical characteristics known to associate with ploidy, embryo behavior, and function. Performances were measured by validation and test-set accuracy.

Main results and the role of chance

Five feature modules were included in the AI model for ploidy evaluation. All modules were analyzed separately and combined: (I) automated detection of abnormal morphokinetic patterns (t2-t8, tM, tSB, tB, tHB) differentiated between the two classes (aneuploid and euploid) to predict aneuploidy with an accuracy of 52%, p < 0.05; (II) previously validated embryo grading classification algorithm demonstrated an association between A and C-grade embryos with euploidy and aneuploidy, respectfully, with an accuracy of 68%, p < 0.05; (III) differential cell division activity and compaction between the two classes predicted aneuploidy with an accuracy of 73%, p < 0.05; (IV): AI-based classification of mitochondrial DNA content, measured as 0.5 micron irregularities in time-lapse images, predicted aneuploidy with an accuracy of 77%, p < 0.05; blastocoelic contractions of more than 8 microns in diameter predicted aneuploidy with 56% accuracy, p < 0.05. Using our AI model, we were able to integrate all 5 features, thereby achieving an unprecedented 90% accuracy. Two features – detection of abnormal morphokinetic patterns and blastocoelic contractions – occur in a minority of embryos (in 3% and 20% of all embryos in the database, respectively). When they do occur, they independently predict aneuploidy with an accuracy of 90% and 82%, demonstrating the robustness of our multi-feature model.

Limitations, reasons for caution

Our AI model needs to be tested on a large, multi-centric dataset to ensure standardization and ability to be replicated in different settings. Even so, given our high degree of demonstrated accuracy, we conclude that our single-center dataset was sufficient for developing the initial validation of the model reported here.

Wider implications of the findings

The ‘explainability’ and implementation of our AI model enables more objective embryo quality assessment and improves the clinics’ ability to prioritize embryos for PGT and preferential transfer using a validated and trusted framework that reduce dramatically the chances of transferring an aneuploid embryo to our patients.

Trial registration number

not applicable

P-277 An artificial intelligence (AI) deselection model for top-quality blastocysts: algorithmic analysis of morphokinetic features for aneuploidy may increase implantation rates

Study question

Can an AI deselection model identify distinct morphokinetic patterns in top-quality blastocyst with unknown ploidy that fail to implant?

Summary answer

An AI based deselection model was able to predict implantation failure based on morphokinetic features previously found to associate with aneuploidy.

What is known already

Aneuploidy is the most common explanation for implantation failure of high-quality blastocysts. Yet, high-quality blastocysts with unknown ploidy that fail to implant are often morphologically indistinguishable from blastocysts that succeed to implant. Our previously published results (ESHRE 2021) demonstrated that aneuploid blastocysts were more likely to reach development events (t2-t8) later, and that the timing between each event was statistically longer (p < 0.001), when compared to euploid embryos. Given that delayed morphokinetic rates are tightly linked to ploidy, we investigated whether similar known morphokinetic features were associated with implantation failure in top-graded embryos.

Study design, size, duration

Time-lapse sequences of 3,259 top-quality blastocysts from fresh single embryo transfer cycles with known implantation outcomes were analyzed using an AI-based algorithm. The algorithm utilized convolutional neural network extracted temporal features based on multiple morphokinetic parameters known to associate with ploidy.

Participants/materials, setting, methods

time-lapse sequences and morphokinetic events were algorithmically analyzed to measure the rate of mitotic division events and compare the number of embryos in each category (implanted/nonimplanted) that reached each developmental event at least one standard deviation (SD) later than the mean for implanted embryos.

Main results and the role of chance

Results showed statistical differences in the following morphokinetic features between the two categories: t2, t3, t4, and t3-t4 (p < 0.05). Implanted top-graded blastocysts were likely to reach t2, t3, and t4 after 25.23 ± 3.8 SD, 36.06 ± 3.4 SD, and 37.14 hours ±3.6 SD, respectively. The time gap between t3 and t4 was found to be 12.25 hours ± 5.31 SD. Given this, we followed the methodology described above to propose cutoff values (in hours) that differentiated between non-implanted and implanted top-graded blastocysts based on their morphokinetic profiles. Implantation failure was found to be associated with the likelihood of reaching t2 after 28.61 hours (OR = 2.36, CI 0.96-5.77), t3 after 39.46 (OR = 3.48, CI 1.62-7.47), and t4 after 40.79 hours (OR = 2.23, CI 1.09- 4.53). A time gap between t3 and t4 of more than 17.56 hours was also associated with implantation failure (OR = 2.48, CI 1.12-5.48), indicating perturbed mitotic activity. The cutoff values proposed here were incorporated into the algorithm for optimized deselection of morphologically similar top-quality blastocysts with delayed morphokinetic profiles.

Limitations, reasons for caution

This study needs to be validated on a larger, multi-centric dataset that takes into account more morphokinetic features associated with ploidy in order to increase the robustness of our algorithm.

Wider implications of the findings

For the first time, our algorithmic model proposed here demonstrates the utility of an AI tool to deselect top-graded blastocysts that would otherwise be selected for transfer based on conventional morphologic assessment alone.

Trial registration number

Not Applicable

P-652 Contribution of the D19S884 allele 8 of the FBN3 gene and the Hippo signaling to the reproductive and metabolic phenotype of PCOS patients

Study question

Does exist a correlation between the presence of D19S884 allele 8 (A8) and Hippo pathway dysregulation with the metabolic and ovarian PCOS profiles?

Summary answer

The presence of the A8 allele affects insulin resistance and hyperandrogenism. Moreover, PCOS ovarian phenotype could be related to a dysregulation of Hippo pathway genes.

What is known already

The specific D19S884 A8 allele of the FBN3 gene has been associated with an increased probability of polycystic ovarian syndrome (PCOS). D19S884 participates in FBN3 alternative splicing and produces Asprosin-3 and Fibrilin-3 proteins that may be related to PCOS clinical manifestations. Asprosin-3 has been recently identified as a glucose modulator and could be related to metabolic profiles of PCOS. Fibrilin-3 is an extracellular matrix protein, and together with a dysregulation of the Hippo pathway, could be responsible for constraining follicular growth in the PCOS ovaries.

Study design, size, duration

Descriptive and cross-sectional study with 93 women (25-37 years old) undergoing an IVF cycle between 2019 and 2021 at Hospital la Fe (Valencia, Spain). Thirty patients were considered PCOS while the remaining sixty-three were non-PCOS controls. After recruitment women were screened for A8 allele, metabolic status, hormone profile and Hippo pathway genes. The IVF cycle parameters were recorded to determine their relationship with study variables.

Participants/materials, setting, methods

Patients with two or more Rotterdam-criteria or with polycystic ovarian morphology (PCOM) were considered as PCOS. After signed informed consent, blood samples and cumulus cells were obtained at egg retrieval. Hormone and metabolic parameters were analyzed and the homeostasis model assessment of insulin resistance (HOMA-IR) established. Genomic DNA was isolated to assess the presence of A8 allele by capillary electrophoresis. The expression of Hippo pathway genes, BIRC1 and CCN2, was analyzed by Taqman qPCR assay.

Main results and the role of chance

PCOS patients showed increased body mass index (Control:23.2±3.7; PCOS:25.3±4.5, p = 0.04) antimüllerian hormone levels (Control:17.7±7.7pmol/L; PCOS:39.7±22.9pmol/L, p = 0.00), antral follicle count (Control:15±7; PCOS:27±13, p = 0.001) and a reduced number of good quality embryos (Control:1.3±0.9; PCOS:0.8±1.0, p = 0.02).

The A8 allele was detected in 15% of the recruited patients, with a 13% incidence in controls and 19% in PCOS. Interestingly, PCOS A8+ patients presented the PCOM phenotype. Women with the A8 allele (A8+) showed higher DHEAS levels (A8-:1899.7±1256.9; A8+:2642.5±555.2, p = 0.046) and free androgen index (A8-:1.1±0.8; A8+:2.0±1.2, p = 0.046) when compared to A8- ones. Similar results were obtained when the comparison was made according to clinical diagnose (Control A8+ vs. Control A8- and PCOS A8+ vs PCOS A8-). Moreover, the overall A8+ patients associated an increase in glucose levels (A8-:85.7±10.9mg/dL; A8+:93.0±6.01mg/dL, p = 0.02) and HOMA-IR (A8-:1.7±1.1; A8+:2.5±1.2). These metabolic findings were observed in control women with the allele but not in PCOS.

The PCOS group showed a downregulation of CCN2 (Fold-change (FC): -3.8±9.1, p = 0.02) in cumulus cells. Interestingly, those women with the A8 allele showed downregulated BIRC1 levels (FC A8+: -2.7±4.8 and A8-: 0.2±2.7; p = 0.04). These gene dysregulations could be related with a deficient oocyte-cumulus communication, abnormal follicular growth and an ovarian stroma stiffness alteration.

Limitations, reasons for caution

These promising results need to be confirmed in a larger population of PCOS to allow validation of the observed effects according to PCOS sub-phenotypes. Moreover, transcriptomic analysis and functional enrichment assays should be carried out to clarify the contribution of Hippo pathway and A8 allele to PCOS pathogenesis.

Wider implications of the findings

The obtained results suggest that the presence of the A8 allele influences the metabolic profile related to insulin resistance and androgen levels, as well as the activation status of Hippo pathway. Moreover, this signaling pathway seems to be dysregulated in PCOS patients, suggesting its possible role in the ovarian phenotype.

Trial registration number

Not applicable

P-507 Psychosocial and motivational drivers of the increased IVF engagement of infertile couples following Covid-19

Study question

What are the main psychosocial motivational factors behind the increased IVF adoption during the Covid-19 Pandemic?

Summary answer

During the Covid -19 Pandemic more time invested in marital relationships prompted infertile couples to act and engage in IVF treatments.

What is known already

The Covid 19 Pandemic has generated a sense of lack of control and fear for the future in many individuals. However, like several life-threatening events, it could also have positive effects, motivating people to take significant actions for their life course. Little has been reported on the consequences that the Pandemic has generated on the infertile couple’s attitude toward reproduction, IVF treatments engagement and childbearing desire. We aimed to address if during the Pandemic, there was an increase of IVF demand and what motivational factors prompted infertile patients to pursue IVF as compared to the pre-pandemic.

Study design, size, duration

This is a prospective multicenter observational control-case study assessing the relational, emotional, and environmental motivational factors driving infertile couples to purse their first IVF treatment during the Covid-19 Pandemic in different IVF clinics as Valencia, Madrid, Rome, and Chile. To assess the growth rate in IVF activity at recruiting sites, number of cycles was compared over a 18 months period between the pre-pandemic and pandemic. The survey was run between September 2021 to January 2022.

Participants/materials, setting, methods

An ad hoc survey was developed to explore the main relationship, emotional and socioeconomical factors responsible for the IVF engagement. The electronic survey was delivered to 13585 patients attending the recruiting clinics from December 2018 to March 2020 for Prepandemic and from March 2020 to December 2021 for the Pandemic ones, and they were asked to rate their agreement for each answer on a five-points Likert scale.

Main results and the role of chance

For most clinics, data derived from national patients only showed a significant IVF demand increase (5.5-8.7%) for all indicators (number of started ovarian stimulations, oocyte pickups, and embryo transfers). Of 13685 patients receiving the survey only 1556 (810 prepandemic, 746 pandemic, response rate: 11%) completed it. Demographic and infertility history data (including male/female, infertility length, previous children and miscarriages, ethnicity) were homogeneous between two groups. However, the infertility length and the proportion of donation cycles were slightly lower in the pandemic group (2.3 vs 2.1) years and 24.1% vs 19% for pre-pandemic and pandemic, respectively; p < 0.001). Only 25.34% (95%CI: 22.2-28.6) of Pandemic patients experienced their referral clinic closing, and 19.17% (95% CI: 16.4-22.1) public hospital closing, and 30.56% (95%CI:27.2-34.01) valued the use of telemedicine in the IVF positively. Interestingly, over 90.21% (95%CI:87.8-92.2) of pandemic patients started childbearing desire before the Pandemic, and about 68.63% (95%CI:65.1-71.9) knew already about their infertility. This suggests the Pandemic had represented a strong trigger for infertile patients to reframe their reproductive intention. Among all the motivational factors addressed in the survey, the increased time to invest in marital relationship was the stronger driver for pursuing IVF for Pandemic patients (OR:1.48; 95%CI: 1.16-1.89; p < 0.01).

Limitations, reasons for caution

Not all potential drivers for IVF attainment have been included in the survey and unexplored factors might have played a role. Other reasons for caution include the possibility of response bias. However, the prospective design and the large multicentre/international setting of the study helped mitigating the effect of specific/local confounding.

Wider implications of the findings

The knowledge gathered here will be crucial to design more effective strategies to cope with patients’ needs during the pandemic. Furthermore, this study can provide a valuable resource for understanding psychosocial factors responsible of the ongoing decline in the natality rate in many developed countries, such as disincentivizing couples’ relationships.

Trial registration number

not applicable

Identifying and optimizing human endometrial gene expression signatures for endometrial dating

STUDY QUESTION

What are the key considerations for developing an enhanced transcriptomic method for secretory endometrial tissue dating?

SUMMARY ANSWER

Multiple gene expression signature combinations can serve as biomarkers for endometrial dating, but their predictive performance is variable and depends on the number and identity of the genes included in the prediction model, the dataset characteristics and the technology employed for measuring gene expression.

WHAT IS KNOWN ALREADY

Among the new generation of transcriptomic endometrial dating (TED) tools developed in the last decade, there exists variation in the technology used for measuring gene expression, the gene makeup and the prediction model design. A detailed study, comparing prediction performance across signatures for understanding signature behaviour and discrepancies in gene content between them, is lacking.

STUDY DESIGN, SIZE, DURATION

A multicentre prospective study was performed between July 2018 and October 2020 at five different centres from the same group of clinics (Spain). This study recruited 281 patients and finally included in the gene expression analysis 225 Caucasian patients who underwent IVF treatment. After preprocessing and batch effect filtering, gene expression measurements from 217 patients were combined with artificial intelligence algorithms (support vector machine, random forest and k-nearest neighbours) allowing evaluation of different prediction models. In addition, secretory-phase endometrial transcriptomes from gene expression omnibus (GEO) datasets were analysed for 137 women, to study the endometrial dating capacity of genes independently and grouped by signatures. This provided data on the consistency of prediction across different gene expression technologies and datasets.

PARTICIPANTS/MATERIALS, SETTING, METHODS

Endometrial biopsies were analysed using a targeted TruSeq (Illumina) custom RNA expression panel called the endometrial dating panel (ED panel). This panel included 301 genes previously considered relevant for endometrial dating as well as new genes selected for their anticipated value in detecting the secretory phase. Final samples (n = 217) were divided into a training set for signature discovery and an independent testing set for evaluation of predictive performance of the new signature. In addition, secretory-phase endometrial transcriptomes from GEO were analysed for 137 women to study endometrial dating capacity of genes independently and grouped by signatures. Predictive performance among these signatures was compared according to signature gene set size.

MAIN RESULTS AND THE ROLE OF CHANCE

Testing of the ED panel allowed development of a model based on a new signature of 73 genes, which we termed 'TED' and delivers an enhanced tool for the consistent dating of the secretory phase progression, especially during the mid-secretory endometrium (3-8 days after progesterone (P) administration (P + 3-P + 8) in a hormone replacement therapy cycle). This new model showed the best predictive capacity in an independent test set for staging the endometrial tissue in the secretory phase, especially in the expected window of implantation (average of 114.5 ± 7.2 h of progesterone administered; range in our patient population of 82-172 h). Published sets of genes, in current use for endometrial dating and the new TED genes, were evaluated in parallel in whole-transcriptome datasets and in the ED panel dataset. TED signature performance was consistently excellent for all datasets assessed, frequently outperforming previously published sets of genes with a smaller number of genes for dating the endometrium in the secretory phase. Thus, this optimized set exhibited prediction consistency across datasets.

LARGE SCALE DATA

The data used in this study is partially available at GEO database. GEO identifiers GSE4888, GSE29981, GSE58144, GSE98386.

LIMITATIONS, REASONS FOR CAUTION

Although dating the endometrial biopsy is crucial for investigating endometrial progression and the receptivity process, further studies are needed to confirm whether or not endometrial dating methods in general are clinically useful and to guide the specific use of TED in the clinical setting.

WIDER IMPLICATIONS OF THE FINDINGS

Multiple gene signature combinations provide adequate endometrial dating, but their predictive performance depends on the identity of the genes included, the gene expression platform, the algorithms used and dataset characteristics. TED is a next-generation endometrial assessment tool based on gene expression for accurate endometrial progression dating especially during the mid-secretory.

STUDY FUNDING/COMPETING INTEREST(S)

Research funded by IVI Foundation (1810-FIVI-066-PD). P.D.-G. visiting scientist fellowship at Oxford University (BEFPI/2010/032) and Josefa Maria Sanchez-Reyes' predoctoral fellowship (ACIF/2018/072) were supported by a program from the Generalitat Valenciana funded by the Spanish government. A.D.-P. is supported by the FPU/15/01398 predoctoral fellowship from the Ministry of Science, Innovation and Universities (Spanish Government). D.W. received support from the NIHR Oxford Biomedical Research Centre. The authors do not have any competing interests to declare.

P–189 The transcriptional profile of arrested cleavage stage human embryos

Study question

What are the molecular pathways overactivated in arrested cleavage stage human embryos?

Summary answer

There is an upregulation of mitochondrial activity and cellular stress-related pathways in arrested cleavage embryos, which is in agreement with the “quiet hypothesis”.

What is known already

mtDNA content decreases during embryo development, however there is a high increase in mtDNA content in arrested cleavage embryos that may correspond to a response to intrinsic or extrinsic factor creating stress. This reasoning would be in agreement with stablished hypothesis showing that a basal metabolism with a moderate-low energy consumption is actually a sign of embryo health, so a viable embryo does not need to use an extra energy to accommodate to the environment (Leese, 2012). The study of the transcriptional profile during human embryo development will give further information about key molecular process involved in in-vitro embryonic competence.

Study design, size, duration

A prospective cohort study was performed with 11 MII oocytes (average age= 22,9 years), 10 non-arrested cleavage embryos (average age= 29,9 years), 5 arrested cleavage embryos (average age= 38,8 years) and 8 blastocysts (average age= 39,1 years). All specimens were warmed and sampled in PCR tubes with 2 μl of suitable reaction buffer for the RNA sequencing protocol.

Participants/materials, setting, methods

Specimens were analyzed by single-cell RNA sequencing (scRNA-seq). Correlation studies, principal component and differential expression analysis were performed with DESeq2 package. Differential gene expression analyses were done using the parametric Wald test, with Benjamini-Hochberg multiple test correction (padj). Finally, Fgsea algorithm was used for enrichment analysis on Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways and Gene ontology (GO) terms.

Main results and the role of chance

We do not observe mitochondria-related activity pathways significantly (P>.05) deregulated between MII oocytes and non-arrested cleavage embryos considering GO and KEGG categories.

When comparing non-arrested cleavage embryos versus blastocysts, we observe several ATP production/consumption and cristae formation-related pathways significantly (P<.05) upregulated in blastocysts compared to non-arrested cleavage embryos considering GO and KEGG categories. This change in activity coincides with the metabolic activation event that occurs in the blastocyst stage.

However, when we analyze arrested cleavage embryos versus non-arrested cleavage embryos, we observe several ATP production related-pathways and mitochondria-related apoptosis pathways significantly (P<.05) upregulated in arrested cleavage embryos compared to non-arrested cleavage embryos considering GO categories. With KEGG categories, we notice a significant (P<.05) upregulation of oxidative phosphorylation in arrested cleavage embryos. On the other hand, when we analyze the differences between arrested cleavage embryos and blastocysts, taking into account the differences related to the change of embryo stage, we do not observe ATP production or consumption-related pathways significantly (P>.05) deregulated considering GO and KEGG categories. Then, human arrested embryos in parallel with the increase in mtDNA content, display an upregulation of mitochondrial activity and cellular stress which is in line with the expected overactive metabolism of non-viable embryos.

Limitations, reasons for caution

All analyzed blastocyst were aneuploid, so we are unable to determine what the results would be with euploid blastocysts. Also, although age can it be ruled out, no differences were observed between mean age from cleavage stage embryos (arrested and non-arrested ones) and blastocyst.

Wider implications of the findings: This study evidences the relation between extreme mtDNA content increase and the identification of the pathways involved in active metabolism and apoptosis in arrested cleavage stage human embryos.

Trial registration number

Not applicable

O-214 Undisturbed embryo culture under High Humidity atmosphere in a time-lapse system increases pregnancy rates

Study question

Does culture in high relative humidity conditions (HC) improve pregnancy rates when using a time-lapse system (TLS) and single-step (SS) culture medium?

Summary answer

Using an integrated-TLS and SS medium, culture under HC increases the likelihood of embryos to achieve a pregnancy with respect to those cultured in DC.

What is known already

Many variables affect embryo development, and need to be precisely tuned in every IVF laboratory, especially inside the incubators. TLS provide stability during embryo culture, which is a well-known key factor for a proper embryo development. The humidity content of culture atmosphere is especially relevant in order to avoid oscillations in culture media osmolality. It has been previously reported that culture under HC has a significant effect on embryo quality and morphokinetics. However, studies assessing the effect of HC in clinical outcome are rare and inconclusive, mostly due to the variability in the incubator device used and insufficient sample size.

Study design, size, duration

The present is a retrospective study performed over 1624 ICSI treatments from 3 fertility clinics from December 2017 to October 2020. Zygote cohorts were randomly assigned to dry (N = 794) or humid conditions (N = 830). It includes autologous treatments with (N = 555) and without (N = 368) pre-implantation genetic testing (PGT) and egg donation treatments (N = 701). Following selection by combining morphological and morphokinetic criteria, 1611 mostly single embryo transfers (92%) were performed, 779 from DC and 832 from HC.

Participants/materials, setting, methods

Stimulation, oocyte pickup and fertilization were performed according to the standard procedures of the clinic. We used a GERI incubator (Genea Biomedx), with 6 separated chambers for individual patients, 3 of them configured to work in DC, and 3 in HC. Embryos were cultured in specific 16-well GERI trays with single-step Gems® culture medium (Genea Biomedx). The effect of HC in pregnancy rate was assessed by multivariate logistic regression and Pearson Chi Square Test.

Main results and the role of chance

Types of treatment and patient demographics were homogeneously distributed in the two study groups. Mean patient age was 39.88±4.47 years, BMI: 23.54±4.21 Kg/m2 and number of correctly fertilized oocytes: 7.86±3.87. A logistic regression was performed, including other possible affecting factors: ovum age and origin, transfer day, fresh or frozen-warmed embryo transfer, number of transferred embryos and the use of PGT. Said analysis revealed that embryos cultured in HC are more likely to achieve a pregnancy than those cultured in DC (OR = 1.30, 95% CI (1.05-1.59), p=0.014). Pregnancy rate was significantly higher in HC (66.7%) than in DC (60.9%) in the total embryo transfers (p = 0.017). Pregnancy rate was also higher in HC in fresh embryo transfers (68.6% in HC vs 63.2% in DC; p = 0.133) and frozen-thawed transfers (65.2% in HC vs 59.1% in DC; p = 0.062), although differences were not statistically significant due to the reduced sample size. Stratifying the results, the significant difference remained in transfers belonging to autologous cycles (68.4% HC vs 56.5% in DC; p = 0.030) and in treatments in which PGT was performed (67.1% HC vs 56.0% in DC; p = 0.023), but the difference in egg donation procedures was not statistically significant (66.4% in HC vs 64.7% in DC, p = 0.577).

Limitations, reasons for caution

This is a retrospective analysis performed over the clinics’ treatments, so it might be compromised by some bias, although multivariable analysis may overcome them. For further assessing the effect of HC in clinical results a prospective controlled study, with a larger sample size could be performed, also comparing life-birth rates.

Wider implications of the findings

These results, alongside our previous findings (Valera et al. 2020, Albert et al. 2020), support that HC contributes to optimize embryo development and clinical results in undisturbed culture in TLS with single-step medium. To our knowledge, this is the largest study on the matter and the first performing multivariable analysis.

Trial registration number

Not applicable

O-002 Expanding the ovary’s reproductive lifespan: Preservation and Rejuvenation

Study question

The ovary has short lifespan. Genetic and pathologic alterations make it shorter. Moreover, many women delay fertility requiring expanded ovarian function. Can be realistically achieved?

Summary answer

The reproductive lifespan of the ovary can be expanded to a certain extent in physiologic and pathologic (premature ovarian insufficiency (POI)) conditions.

What is known already

In ovaries functioning in physiologic conditions, oocyte cryopreservation (OC) is an established method to expand the reproductive lifespan allowing women to postpone fertility without compromising oocyte’s performance. In oncology, ovarian tissue cryopreservation/ ovarian tissue transplantation (OTC/OTT) and OC are widely employed. In POI patients, there are resting follicles in 1/3 of patients. Different techniques have been developed to “awake” these follicles. Some surgical procedures disrupt Hippo signaling to induce primordial follicle growth; , others intend to employ the growth factors contained in blood; some others use bone marrow-derived stem cells to reach similar goals.

Study design, size, duration

A literature search was done to identify the most recent and informative studies on the different techniques applied to increase the reproductive lifespan of the ovaries, including those clinically available, such as OC, and others still considered experimental, such as OCT/OTT, injection of platelets-enriched plasma (PRP), culture-free in vitro activation(CF-IVA), and autologous stem cell ovarian transplantation (ASCOT).

Participants/materials, setting, methods

Outcome of 641 healthy women performing OC and ART cycles. In oncology, OC in 80 women and OTC/OTT in 285 patients willing to conceive was analyzed. Both techniques were compared in the same setting in oncology : 1024 undergoing OC and 800 performing OCT. In POI, we analyzed the outcome of 304 women after PRP; 11 undergoing CF-IVA; and 28 ASCOT patients. The most relevant experimental techniques were also analyzed to understand future directions.

Main results and the role of chance

When it comes to expanding the reproductive function in physiologic conditions, mostly due to delay in childbearing, the follow-up of 641 women out of 1073 who underwent OC and subsequent embryo transfer (ET) has shown 68.8% cumulative live birth rates (C-LBR). Age matters because C-LBR decreased >50% after age 35 yrs. If only the endocrine function of the ovary is considered, OCT/OTT has consistently shown almost 86% efficacy.

In Oncology, OC provided 42.1% C-LBR in 80 individuals after cure, while the follow-up of 285 women from 5 different centers after OCT/OTT yield 26% LBR. Both OC and OTT were compared in the same setting and OC proved to be slightly better, with 32.6% LBR as compared to 22.8% in OCT/OTT.

Regarding POI, the use of intraovarian PRP injection in 304 women displayed 8% LBR; CF-IVA 36.3% LBR in 11 women; and ASCOT 10% LBR in 10 POI patients and 27.8% in 18 poor responders (PR).

Experimental data suggest that a combination of ASCOT and PRP must be the best alternative to activate dormant follicles in POI women.

Limitations, reasons for caution: None of the studies was a RCT, and many had not controls, most are descriptive. Regarding oncology patients OC is save and reassuring. The experience shows that OCT/OTT is also safe, although some Scientific Societies label OCT/OTT still as experimental. All the techniques employed in POI are ­experimental yet.

Wider implications of the findings

Expanding the reproductive lifespan of the ovary in health and disease (oncology and others) employing OC is a routine; OCT/OTT can be also applied to expand the endocrine function of the ovaries. The best and less invasive method to activate follicles in POI and PR still needs to be defined.

Trial registration number

NCT02240342; NCT03535480; NCT04475744; NCT02354963

P–549 What trophectoderm cells from mosaic embryos tell us about embryonic competence at the transcriptional level

Study question

Does transcriptome of remaining trophectoderm (TE) reflect the developmental potential of mosaic blastocysts after preimplantation genetic testing for aneuploidy (PGT-A)? Summary answer: TE from low-degree mosaic (Low-mos) and high-degree mosaic (High-mos) blastocysts are transcriptionally equivalent, standing between euploid and aneuploid categories and displaying key deregulated developmental processes.

What is known already

Blastocysts classified as mosaic by PGT-A are associated with lower implantation and higher miscarriage rates than those classified as euploid, yet they still lead to healthy babies. Unveiling the true developmental identity of these embryos faces a dilemma: understanding to which extent they represent technical artefacts or whether they hold own potential to implant and give rise to normal pregnancies. Current RNA sequencing (RNA-seq) techniques allow for the determination of whole transcriptomic profiles even from single cells, which paves the way for the identification of new molecular keys of embryonic competence.

Study design, size, duration

Prospective study comparing RNA-seq data of remaining TE from blastocysts classified as euploid (n = 4), Low-mos (n = 5), High-mos (n = 4) and aneuploid (n = 6) by PGT-A. Participants were recruited between October 2018 and November 2019 at IVI-RMA Valencia.

Participants/materials, setting, methods

Chromosomal mosaicism was defined in the range 30%-<50% (Low-mos) and 50%-<70% (High-mos) using a next-generation sequencing (NGS) validated algorithm. Whole TE fractions were separately collected and processed for RNA-seq. Differentially expressed genes (DEGs) were calculated with DESeq2 package [Benjamini-Hochberg (BH)-adjusted p < 0.01 & abs(log2FoldChange)>2 significant]. Fgsea algorithm was used for enrichment analysis on Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways and Gene Ontology (GO) terms (BH-adjusted p < 0.01 significant).

Main results and the role of chance

For comparisons, TE from euploid blastocysts were used as control. At the gene level, 15 DEGs were found in Low-mos, 20 DEGs in High-mos, and 64 DEGs in aneuploid blastocysts. To address the functional implications of these differences, pathways significantly deregulated according to KEGG and GO categories were identified. TE from aneuploid blastocysts displayed significant downregulation in up to 115 KEGG and GO processes directly involved in processing and integrity maintenance of nuclear and mitochondrial genomes, a reflection of their aberrant chromosomal identity. In addition, TE from High-mos and Low-mos were transcriptionally equivalent (0 DEGs between both groups), with 23 overlapping KEGG and GO processes significantly downregulated compared with control. Importantly, main significantly-affected processes included mitotic sister chromatid segregation, NIK NF-kB activity, regulation of apoptosis, and pathways related to the biosynthesis and metabolism of proteins, fatty acids, carbohydrates and steroid hormones. These findings indicate that mosaic embryos comprise a unique developmental entity, which swims between the euploid and aneuploid waterfronts and may regulate survival by diverse mechanisms, including cell proliferation and apoptosis.

Limitations, reasons for caution

This is a descriptive, single-center study with limited sample size. TE fractions were obtained by micromanipulation, which may have led to potential cross-contamination with the inner cell mass.

Wider implications of the findings: Transcriptomic equivalence between Low-mos and High-mos TE fractions questions the biological significance of inferring mosaicism degrees from single biopsies. Deregulated processes in these embryos support their reduced developmental and live birth potential, pointing to mechanisms that may mediate survival in the presence of aneuploid cells, as shown in the mouse.

Trial registration number

Not applicable

P–329 Müllerian anomalies and embryo implantation in oocyte donation

Study question

Do patients with Mullerian anomalies (MA) who receive donated oocytes have different embryo implantation rate than patients with normal uterus?

Summary answer

In oocyte donation, patients with MA had lower implantation rate than patients with normal uterus.

What is known already

MA are associated with infertility and miscarriage but the mechanisms to explain this relation are not known. Some studies describe both oocyte and/or uterine factor. All studies describing the outcome in patients with MA, so far, are with own oocytes but none in oocyte donation.

Study design, size, duration

A multicentre restrospective cohort study from January 2000 to December 2019. Patients receiving donated oocytes were divided between those with MA (n = 473) according ESHRE classification and other group with normal uterus (n = 57 869). The primary outcome was implantation rate at fresh embryo transfer. Secondary aims were biochemical pregnancy rate, clinical pregnancy rate, ongoing pregnancy rate, miscarriage rate and live pregnancy rate.

Participants/materials, setting, methods

We considered the first oocyte donation cycle, without severe male factor, myomas, hydrosalpinx, Asherman syndrome, polyps or indication for preimplantational genetic diagnosis divided in two groups; patients with MA and no malformed uterus. MA group includes cycles of complete bicorporeal uterus (162), partial bicorporeal (30), bicorporeal septate (15), T shaped uterus (26), infantilis uterus (8), complete septate uterus (110), partial septate uterus (94) and hemi-uterus without rudimentary cavity (29).

Main results and the role of chance

We registered 58 342 patients from our oocyte donation program. Results are shown as mean and 95%CI and differences in pregnancy rates were expressed as relative risks (RR) with 95% CI being reference patients with normal uterus. In patients with MA, the implantation rate was different according the categories being significantly lower in patients with unicornuate uterus (0.29 95%CI: 0.14–0.43. p = 0.03). Biochemical pregnancy rate was significantly higher in patients with septate uterus (RR 1.51 (95%CI 1.02–2.22, p = 0.03) and significantly lower in unicornuate uterus (RR 0.49 (95%CI 0.27–0.90). No differences were found in clinical pregnancy rate among groups, but ongoing pregnancy rate and live birth rate were lower in unicornuate uterus ( RR 0.28 (95%CI 0.13–0.63, p = 0.002), (RR 0.32 (95%CI 0.14–0.73, p = 0.007) respectively. Miscarriage rate was significantly higher in patients with septate uterus (RR 1.78 (95%CI 1.18–2.68, p = 0.006)

Limitations, reasons for caution

As this was a retrospective cohort study, we were unable to study differences due to modifications in medical or laboratory protocols during this long period time. Different size of sample in some groups of MA makes impossible to translate conclusions to general population.

Wider implications of the findings: Our results indicate that there might be a defect in the embryo implantation rate in patients with MA depending on uterine factor. Different sample size among groups and some groups with scarce number of cases make less precise results. More studies controlling biases are needed to confirm our results.

Trial registration number

NCT04571671

O-142 COVID19-free endometrium: Undetectable viral RNA in endometrial biopsies from positive symptomatic SARS-CoV-2 women

Study question

Does SARS-CoV-2 infect the endometrial tissue in women with coronavirus disease 2019 (COVID-19)?

Summary answer

Symptomatic women with COVID-19 report no presence, in the short term, of viral RNA from SARS-CoV-2 in the endometrium.

What is known already

The recent emergence of COVID-19, caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), has not allowed yet to establish putative relations between this disorder and other existing pathologies. It is the case with fertility problems and the reproductive organs, including a possible endometrial disorder caused by the virus. Thus, an important step is to elucidate the viral presence in different human tissues to improve diagnostics, prevention and/or treatment. The hypothesis of the possible infection of the endometrial tissue comes from the described expression of ACE2 protein in the human endometrium, mainly in stromal cells during the secretory phase.

Study design, size, duration

15 endometrial biopsies from symptomatic and hospitalized women with COVID-19 were collected. Endometrial samples were obtained from August to November 2020 at the Hospital Universitari i Politècnic La Fe (Valencia, Spain); the project received the approval of the hospital’s medical ethics committee (registration number: 2020-268-1). The main objective was to study by real-time PCR (RT-PCR) the presence of viral RNA from SARS-CoV-2 as well as the expression of ACE2 receptor on the endometrial tissue.

Participants/materials, setting, methods

15 women in the reproductive age (24-46 years) accepted to participate in the study and signed the informed consent. All these patients tested positive for SARS-CoV-2 by RT-PCR of nasopharyngeal swabs (1-17 days before the biopsy collection) and were hospitalized due to health complications (pneumonia) derived from COVID-19. Endometrial biopsies were taken by aspiration and preserved in RNA-later until -80ºC cryopreservation in a biobank; RNA was extracted for RT-PCR for N1, N2, and ACE2 genes.

Main results and the role of chance

The 15 recruited patients represented the different phases of the menstrual cycle: proliferative (n = 3) and secretory (n = 10); 2 patients had amenorrhea. The viral RNA for SARS-CoV-2, measured by the detection of N1 and N2 gene targets (fragments of N gene, from the viral nucleocapsid) by RT-PCR methodology, was undetectable in all the endometrial biopsies analyzed (n = 15). In all the cases the housekeeping gene RPP30 was used as positive control and to check RNA integrity. To correlate the presence or absence of SARS-CoV-2 with the organ-specific expression of ACE2 (angiotensin-converting enzyme 2), the main postulated entry receptor of SARS-CoV-2, the endometrial RNA was also analyzed by RT-PCR for the ACE2 receptor gene. This gene was only detectable in 10 of the 15 biopsies, and the levels ranged from 28.65 to 36.19 Ct values, revealing a very low expression of ACE2 in the tissue. Moreover, ACE2 results did not report any correlation with the phase of the menstrual cycle.

Limitations, reasons for caution

These results imply endometrium is safe from SARS-CoV-2 infection, at least in the short term. All the endometrial samples were taken at maximum of 17 days after a positive test by RT-PCR of nasopharyngeal swabs (to note that all were hospitalized during the early stages of the disease).

Wider implications of the findings

In conclusion, the SARS-CoV-2 RNA is not present in the human endometrial tissue of positive patients. This hypothesis was reinforced by the low ACE2 receptor levels. However, an in-depth genetic analysis comparing to a negative control group could elucidate a systemic affectation of the endometrium, despite the negative RT-PCR results.

Trial registration number

not applicable

P–435 LH preserves oocyte-granulosa cell communication in mouse ovaries exposed to chemotherapy with alkylating agents

Study question

Does Luteinizing Hormone (LH) protect the follicular endowment and growth by improving oocyte-granulosa cell (GC) communication of follicles exposed to chemotherapy at the primordial stage?

Summary answer

LH treatment protects mouse primordial follicles against alkylating agents by preventing the chemotherapy-induced follicular depletion and the impairment of oocyte-GC communication during follicular growth.

What is known already

Impaired folliculogenesis is one of the most common deleterious side effects of alkylating agents in ovaries. Bidirectional communication between the oocyte and surrounding GCs is crucial for oocyte development. Therefore, defective gap junctions and reduced oocyte-derived factors compromise folliculogenesis, oocyte competence and meiotic maturation.

Previous findings reported a significant LH protection of follicular viability and meiotic potential of MII oocytes exposed to chemotherapy at primordial stage. Therefore, we aimed to investigate the LH effects on cell junctions and communication between oocyte and GCs in growing follicles derived from quiescent oocytes exposed to alkylating chemotherapy.

Study design, size, duration

Adult 6-week-old CD1 female mice were allocated to control (n = 3), chemotherapy (ChT, n = 5) and ChT+LH (n = 5) groups. Chemotherapy (120 mg/Kg of cyclophosphamide and 12 mg/Kg of busulfan) was intraperitoneally administrated to ChT and ChT+LH mice. ChT+LH animals were pretreated with 1 IU of LH, followed by a second LH dose (1 IU) along with chemotherapy 24 hours later. Control mice only received vehicle (DMSO). Mice were euthanized 30 days later to collect ovaries.

Participants/materials, setting, methods

Follicles were mechanically isolated by puncture with 30-gauge needles from frozen-thawed half-ovaries. Isolated follicles measuring ≥100µm were selected to represent the secondary and later developmental stages. Part of them were kept intact while others were decumulated by using narrow pipettes to obtain denuded oocytes (DOs), and GCs. Follicles, ODs and GCs were analyzed by qRT-PCR to evaluate key factors in oocyte-GC junctions (Cx37, Cx43, Cdh1, Cdh2, Tjp1) and communication (Gdf9, Bmp15, Bmpr2, Alk4, Alk5, Alk6).

Main results and the role of chance

Chemotherapy induced a 2.1-fold reduction in the number of total isolated follicles (p = 0.036), reducing 2.7-fold the number of primordial and primary follicles (<100 µm; p = 0.034) and 1.9-fold the amount of growing follicles (≥100 µm; p = 0.036) compared to controls. LH-treated ovaries showed a 1.6-fold increase in the total follicle isolation yield when compared to ChT (p = 0.032), recovering control-like values (p=ns). This LH protection specially benefited the early-stage follicles (<100 µm), where a 1.9-fold increase in the number of isolated follicles was detected compared to ChT group (p = 0.016).

Gene expression analysis of follicles (n = 168), DOs (n = 110) and GCs (from n = 153 follicles) revealed a global downregulation pattern in ChT samples for all genes, when compared to controls, with a significant fold change (FC) reduction for Gdf9 in follicles (FC: 0.36±0.16); Cx37, Cdh2 and Gdf9 in DOs (FC: 0.23±0.17, 0.09±0.03, and 0.17±0.07, respectively); and Cx37, Cx43, Gdf9 and Bmp15 in GCs (FC: 0.40±0.23, 0.17±0.07, 0.17±0.08, and 0.04±0.01, respectively). However, LH treated samples showed an overall improvement of gene expression pattern reaching control-like levels for all genes excepting for a downregulation of the Bmp15 expression in GC (FC: 0.28±0.24; p = 0.036).

Limitations, reasons for caution

Animal model study performed with a reduced sample size. Therefore, these findings should be validated in further studies with human tissue samples.

Wider implications of the findings: Our findings suggest that LH treatment prevents the chemotherapy-induced follicle depletion. The LH protection of primordial population seems to preserve its ability to properly establish oocyte-GC interactions during growth and development, which is required to regulate follicular maturation and oocyte competence.

Trial registration number

Not applicable

P–543 Inhibition of cell proliferation and extracellular matrix formation in human uterine leiomyomas by 5-aza–2’-deoxycitidine via Wnt/ β-catenin pathway

Study question

Is DNA methylation reversion through DNA methyltransferases (DNMT) inhibitors, such as 5-aza–2’-deoxycitidine, a potential therapeutic option for treatment of patients with uterine leiomyomas (UL)?

Summary answer

5-aza–2’-deoxycitidine reduces proliferation and extracellular matrix (ECM) formation by inhibition of Wnt/ β-catenin pathway on UL cells, suggesting DNMT inhibitors as an option to treat UL. What is known already: UL is a multifactorial disease with an unclear pathogenesis and inaccurate treatment. Aberrant DNA methylation have been found in UL compared to myometrium (MM) tissue, showing hypermethylation of tumor suppressor genes, which contributes to the development of this tumor. The use of DNMT inhibitors, such as 5-aza–2’-deoxycytidine (5-aza-CdR), has been suggested to treat tumors in which altered methylation pattern is related to tumor progression, as occurs in UL. Based on this, we aimed to evaluate whether DNA methylation reversion through 5-aza-CdR reduces cell proliferation and ECM formation in UL cells, being a potential option for UL medical treatment.

Study design, size, duration

Prospective study comparing UL versus MM tissue and human uterine leiomyoma primary (HULP) cells treated with/without 5-aza-CdR at 0 µM (control), 2 µM, 5 µM and 10 µM for 72 hours. UL and MM tissue were collected from women without any hormonal treatment for the last 3 months (n = 16) undergoing myomectomy or hysterectomy due to symptomatic leiomyoma pathology. Participants were recruited between January 2019 and February 2020 at Hospital Universitario y Politecnico La Fe (Spain).

Participants/materials, setting, methods

Samples were collected from Caucasian premenopausal women aged 31–48 years, with a body mass index of < 30 and without hormonal treatment. DNMT1 gene expression was analysed in UL vs MM tissue by qRT-PCR and activity of DNMT was measured in UL and MM tissue and cells by ELISA. 5-aza-CdR effect on proliferation was assessed by CellTiter test and Western blot (WB), apoptosis and ECM analyzed by WB and Wnt/ β-catenin pathway by qRT-PCR and WB. Main results and the role of chance: DNMT1 gene expression was increased in UL compared to MM tissue (fold change [FC]=2.49, p-value [p]=0.0295). Similarly, DNMT activity was increased in both UL compared to MM tissue and HULP cells versus MM cells (6.50 vs 3.76 OD/h/mg, p = 0.026; 211.30 vs 63.67 OD/h/mg, p = 0.284, respectively). After 5-aza-CdR treatment, cell viability of HULP cells was reduced in a dose dependent manner, being statistically significant at 10 µM (85.25%, p = 0.0001). Accordantly, PCNA protein expression was significantly decreased at 10 µM in HULP cells (FC = 0.695, p = 0.034), demonstrating cell proliferation inhibition. Additionally, 5-aza-CdR inhibited ECM protein expression in HULP cells in a dose-dependent manner being statistically significant at 10 µM for COLLAGEN I (FC = 0.654, p = 0.023) and PAI–1 (FC = 0.654, p = 0.023), and at 2 µM and 10 µM for FIBRONECTIN (FC = 0.812, p = 0.020; FC = 0.733, p = 0.035; respectively). Final targets of Wnt/ β-catenin pathway were decreased after 5-aza-CdR treatment, protein expression of WISP1 was significantly inhibited at 10 µM (FC = 0.699, p = 0.026), while expression levels of Wnt/ β-catenin target genes C-MYC (FC = 0.745, p = 0.028 at 2 µM; FC = 0.728, p = 0.019 at 10 µM) and MMP7 (FC = 0.520, p = 0.003 at 5 µM, FC = 0.577, p = 0.007 at 10 µM) were also significantly downregulated in HULP-treated cells vs untreated cells. Limitations, reasons for caution: This study has strict inclusion criteria to diminish epigenetic variability, thereby we should be cautious extrapolating our results to general population. Besides, this is a proof of concept with the inherent cell culture limitations. Further studies are necessary to determine 5-aza-CdR dose and adverse effects on UL in vivo.

Wider implications of the findings: 5-aza-CdR treatment reduces cell proliferation and ECM formation through Wnt/ β-catenin pathway inhibition, suggesting that inhibition of DNA methylation could be a promising new therapeutic approach to treat UL.

Trial registration number

Not applicable

P-549 What trophectoderm cells from mosaic embryos tell us about embryonic competence at the transcriptional level

Study question

Does transcriptome of remaining trophectoderm (TE) reflect the developmental potential of mosaic blastocysts after preimplantation genetic testing for aneuploidy (PGT-A)?

Summary answer

TE from low-degree mosaic (Low-mos) and high-degree mosaic (High-mos) blastocysts are transcriptionally equivalent, standing between euploid and aneuploid categories and displaying key deregulated developmental processes.

What is known already

Blastocysts classified as mosaic by PGT-A are associated with lower implantation and higher miscarriage rates than those classified as euploid, yet they still lead to healthy babies. Unveiling the true developmental identity of these embryos faces a dilemma: understanding to which extent they represent technical artefacts or whether they hold own potential to implant and give rise to normal pregnancies. Current RNA sequencing (RNA-seq) techniques allow for the determination of whole transcriptomic profiles even from single cells, which paves the way for the identification of new molecular keys of embryonic competence.

Study design, size, duration

Prospective study comparing RNA-seq data of remaining TE from blastocysts classified as euploid (n = 4), Low-mos (n = 5), High-mos (n = 4) and aneuploid (n = 6) by PGT-A. Participants were recruited between October 2018 and November 2019 at IVI-RMA Valencia.

Participants/materials, setting, methods

Chromosomal mosaicism was defined in the range 30%- < 50% (Low-mos) and 50%- < 70% (High-mos) using a next-generation sequencing (NGS) validated algorithm. Whole TE fractions were separately collected and processed for RNA-seq. Differentially expressed genes (DEGs) were calculated with DESeq2 package [Benjamini-Hochberg (BH)-adjusted p < 0.01 & abs(log2FoldChange)>2 significant]. Fgsea algorithm was used for enrichment analysis on Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways and Gene Ontology (GO) terms (BH-adjusted p < 0.01 significant).

Main results and the role of chance

For comparisons, TE from euploid blastocysts were used as control. At the gene level, 15 DEGs were found in Low-mos, 20 DEGs in High-mos, and 64 DEGs in aneuploid blastocysts. To address the functional implications of these differences, pathways significantly deregulated according to KEGG and GO categories were identified. TE from aneuploid blastocysts displayed significant downregulation in up to 115 KEGG and GO processes directly involved in processing and integrity maintenance of nuclear and mitochondrial genomes, a reflection of their aberrant chromosomal identity. In addition, TE from High-mos and Low-mos were transcriptionally equivalent (0 DEGs between both groups), with 23 overlapping KEGG and GO processes significantly downregulated compared with control. Importantly, main significantly-affected processes included mitotic sister chromatid segregation, NIK NF-kB activity, regulation of apoptosis, and pathways related to the biosynthesis and metabolism of proteins, fatty acids, carbohydrates and steroid hormones. These findings indicate that mosaic embryos comprise a unique developmental entity, which swims between the euploid and aneuploid waterfronts and may regulate survival by diverse mechanisms, including cell proliferation and apoptosis.

Limitations, reasons for caution

This is a descriptive, single-center study with limited sample size. TE fractions were obtained by micromanipulation, which may have led to potential cross-contamination with the inner cell mass.

Wider implications of the findings

Transcriptomic equivalence between Low-mos and High-mos TE fractions questions the biological significance of inferring mosaicism degrees from single biopsies. Deregulated processes in these embryos support their reduced developmental and live birth potential, pointing to mechanisms that may mediate survival in the presence of aneuploid cells, as shown in the mouse.

Trial registration number

Not applicable

P–563 Assessing ovarian age: Could we use leukocyte telomere length as a surrogate marker of cumulus cells telomere content?

Study question

Is leukocyte telomere length (LTL) correlated with cumulus cells telomere length (CCTL) in an age-heterogeneous women population?

Summary answer

LTL showed a positive correlation with CCTL in the studied population. Hence, its potential value as indicator of ovarian age would deserve further evaluation.

What is known already

Progressive telomere shortening has been related to ovarian aging and genomic instability during early development. A positive correlation between short telomere length of the first polar body and aneuploidy rate has been reported. CCTL has shown to be a biomarker of oocyte and embryo quality, but its assessment is impractical. LTL has been proposed as a surrogate of TL of follicular cells, but telomere lengthening through folliculogenesis could be controlled by different mechanisms. Thus, we aimed to determine if LTL in an age-heterogeneous population is correlated with CCTL and therefore considered an accurate surrogate for telomere length in the ovary.

Study design, size, duration

In this prospective non-interventional cohort study, 35 egg donors and 17 women undergoing Preimplantation Genetic Testing for Aneuploidy (PGT-A) treatment were included during sixteen months. Following controlled ovarian stimulation determined by treating physicians, oocyte retrieval was performed 36 hours after final maturation induction. Cumulus cells (CC) for telomere length (TL) measurement were obtained after the pick-up and oocyte stripping. A blood sample was collected through peripheral venous access for LTL measurement.

Participants/materials, setting, methods

Genomic DNA of CC and leukocytes from the 52 subjects was isolated. Average delta cycle threshold (ΔCt) was determined using a SYBR green quantitative real-time PCR protocol for relative TL. For normalization of measurements, a Taqman assay for the multicopy gene Alu was performed. ΔCtL and ΔCtCC were compared by a paired t-test analysis and the fold change was calculated. Additionally, the association between them and patient age was analyzed by a Pearson correlation test.

Main results and the role of chance

Mean participant’s age was 29.94 ± 7.55 years and mean values for ΔCtL and ΔCtCC were 7.99 ± 0.53 and 7.46 ± 0.75, respectively. A positive significant correlation was found between age and ΔCt (ΔCtL: R2=0.71, p-value=5.18e–09; ΔCtCC: R2=0.47, p-value=0.00049). Since ΔCt values are inversely proportional to the amount of nucleic acids amplified and, therefore, to the telomere length, this correlation means that TL in both cell types decreases as women age. Additionally, ΔCtL was significantly higher than ΔCtCC (ΔCt fold change: 0.93, p-value=9e–07), meaning that CC showed significantly longer telomeres than leukocytes, thus supporting our previous published results in young egg donors. When analyzing the ΔCtL and ΔCtCC in these age-heterogeneous sample, a positive moderate and significant correlation was observed (R2=0.42, p-value=0.002). Thus, LTL could be suggested as a potential indicator of CCTL and therefore as a candidate for a biological marker of ovarian aging.

Limitations, reasons for caution

The sample size of this study was moderate and perhaps increasing the number of subjects might give additional strength to our findings. In addition, although relative telomere length allowed for adequate comparison between subjects, this method did not allow for absolute TL measurement.

Wider implications of the findings: While reproductive implications of LTL measurement need to be further studied, our results support the potential usefulness of LTL measurement as an indicator of CCTL and ovarian aging when analyzing an age-heterogeneous population. Further, our findings suggest that CC could possess different mechanisms to cope against telomere length shortening.

Trial registration number

Not applicable

P–315 Ultrasound diagnosis of adenomyosis: impact on pregnancy rate in ivf cycles with donated oocytes

Study question

The aim was to evaluate in patients who underwent embryo transfer (ET) in an oocyte donation cycle, the impact of adenomyosis, diagnosed by transvaginal sonographic (TVS), on the implantation rate.

Summary answer

We observed a slightly higher miscarriage rate in the first trimester in patients with adenomyosis in particular in the diffuse type.

What is known already

What we know from literature is that there are pro studies such as Costello and Vercellini’s which show a reduced pregnancy rate and birth rate, and cons studies which find no effects at all of adenomyosis on IVF treatments. However, both show an increased risk of miscarriage and obstetric complications

Study design, size, duration

This prospective observational study involved a total of 72 patients: 33 with adenomyosis and 39 without adenomyosis from June 2019 to December 2020. All had a workup which included history, pelvic exam and 2/3D TVS scan which was saved as images, videoclips and volumes and stored. The off line evaluation was performed blind to IVF indication and outcomes by expert sonographer, who assessed the presence or absence of TVS signs of adenomyosis.

Participants/materials, setting, methods

All the patients aged ≤ 45 years old undergoing, for several personal problems, their first oocyte donation at IVI center Rome.Patients were divided into 2 groups according to findings on a baseline pre-treatment TVS: patients with and without adenomyosis. In the patients with adenomyosis, the disease was further classified according to type (diffuse,focal), localization (inner and outer myometrium) and extension inside the uterus (mild, moderate, severe) and correlated to pregnancy rate and outcome

Main results and the role of chance

A total of 72 patients were included in this study: 33 with adenomyosis and 39 without adenomyosis. The presence, type and degree of adenomyosis doesn’t show a correlation to embryo implantation rate (64.1% in the control group vs 63.6% in adenomyosis group). However we found an increased risk of early miscarriage in the patients with adenomyosis ( 12% in the control group vs 23.8% in adenomyosis group). Women with adenomyosis that infiltrated only the external myometrium showed a lower pregnancy rate (40%) compared to those who had the involvement of only the inner myometrium (77,7%). The presence of ultrasound findings of focal disease was associated with a lower pregnancy rate (53,3%) compared to the diffuse disease (72,2%); We observed a slightly higher miscarriage rate in the first trimester in patients with adenomyosis in particular in the diffuse type .The presence, type and degree of adenomyosis doesn’t show a correlation to embryo implantation rate.

Limitations, reasons for caution

Most of the patients included in our study has an age > 40. This could determine an increased number of high-risk pregnancies.

Wider implications of the findings: Results of this study may be used to evaluate the impact of different medical or surgical treatment in women with adenomyosis undergoing IVF.

Trial registration number

Not applicable

P–593 Self-monitoring of hormones via a urine-based hormonal assay — a topical endeavour into telemedicine in medically-assisted reproduction (MAR)

Study question

How can cycle monitoring using a urine-based hormonal assay device improve current clinical practice in medically assisted reproduction (MAR)?

Summary answer

A urine-based hormonal assay has the potential to overcome the inconvenience of blood tests and reduce the frequency of appointments, waiting times and patient burden.

What is known already

Cycle monitoring via ultrasound and serum-based hormonal assays during MAR can provide information on the ovarian response and assist in optimising treatment strategies and reducing complications, such as ovarian hyperstimulation syndrome (OHSS). However, blood tests may cause inconvenience to patients due to repeated venepuncture and the need for frequent clinic appointments. Urine-based assays have been historically used by fertility specialists in clinics, but since got replaced by more practical and automated serum-based assays. Novel technology utilising rapid chromatographic immunoassay to test urinary reproductive hormones in a home setting could provide an alternative to current serum-based testing at clinics.

Study design, size, duration

A questionnaire was disseminated among 24 fertility specialists (2019–2020) on the use of ultrasound and serum-based hormone monitoring in clinical practice. In addition, the literature on the reliability of urine-based hormonal assays compared to serum-based hormonal assays during MAR was reviewed in order to examine if urine-based hormonal monitoring could be re-introduced in clinical practice using novel state-of-the-art technology.

Participants/materials, setting, methods

All 24 surveyed fertility specialists responded, representing 10 countries from across Europe, Asia and Latin America. Questions assessed the frequency and role of hormonal monitoring, the hormones tested and the drawbacks of blood tests. The PubMed search engine was used to search the Medline database for publications between 1960–2020 with (MeSH-) search terms related to cycle monitoring (e.g. fertility monitoring, controlled ovarian stimulation, ovulation confirmation) and hormonal assays (e.g. estrone–3-glucuronide or E1–3G).

Main results and the role of chance

The survey confirmed that many fertility practitioners (n = 22/24) routinely conducted hormone monitoring during MAR, primarily for guiding dose adjustments (n = 20/24) and indicating risk of OHSS (n = 20/24). The reported drawbacks of blood tests included validity of results from different service providers, long waiting times and discomfort to patients due to travelling to clinics for tests and repeated venepunctures. The hormones routinely checked were E2 (n = 22/22), P4 (n = 18/22) and LH (n = 15/22). The literature review revealed a relatively high correlation (correlation coefficients 0.85–0.95) between serum E2 and urinary E1–3G in gonadotrophin stimulated cycles (Lessing 1987, Catalan 1989, Rapi 1992 and Alper 1994). No studies assessed the correlation between serum P4 and urinary PdG or between serum LH and urinary LH in stimulated cycles. In natural cycles, the correlation coefficients between serum P4 and urinary PdG seemed to be slightly higher than those between serum E2 and urinary E1–3G (0.73–0.94 vs. 0.54–0.88) (Denari 1981, Munro 1991, Roos 2015, Stanczyk 1980). One study reported a moderate correlation coefficient (0.72) between serum and urinary LH in natural cycles (Roos 2015).

Limitations, reasons for caution

There is risk of selection-bias for fertility specialists included in survey, however, the 100% response rate is reassuring. The correlation coefficients between serum- and urine-based hormonal assay and the cost-effectiveness and time-efficiency of urinary assay should be confirmed in further clinical studies using a novel state-of-the-art remote urinary monitoring device.

Wider implications of the findings: Remote hormonal monitoring can be part of a novel digital health solution that includes remote ultrasound and tele-counselling to link clinics and patients at home. Especially during the unprecedented times of the COVID–19 pandemic, the prospect of remote monitoring system has the potential to improve patient experience during fertility treatment.

Trial registration number

Not applicable

The cyto-protective effects of LH on ovarian reserve and female fertility during exposure to gonadotoxic alkylating agents in an adult mouse model

STUDY QUESTION

Does LH protect mouse oocytes and female fertility from alkylating chemotherapy?

SUMMARY ANSWER

LH treatment before and during chemotherapy prevents detrimental effects on follicles and reproductive lifespan.

WHAT IS KNOWN ALREADY

Chemotherapies can damage the ovary, resulting in premature ovarian failure and reduced fertility in cancer survivors. LH was recently suggested to protect prepubertal mouse follicles from chemotoxic effects of cisplatin treatment.

STUDY DESIGN, SIZE, DURATION

This experimental study investigated LH effects on primordial follicles exposed to chemotherapy. Seven-week-old CD-1 female mice were randomly allocated to four experimental groups: Control (n = 13), chemotherapy (ChT, n = 15), ChT+LH-1x (n = 15), and ChT+LH-5x (n = 8). To induce primary ovarian insufficiency (POI), animals in the ChT and ChT+LH groups were intraperitoneally injected with 120 mg/kg of cyclophosphamide and 12 mg/kg of busulfan, while control mice received vehicle. For LH treatment, the ChT+LH-1x and ChT+LH-5x animals received a 1 or 5 IU LH dose, respectively, before chemotherapy, then a second LH injection administered with chemotherapy 24 h later. Then, two animals/group were euthanized at 12 and 24 h to investigate the early ovarian response to LH, while remaining mice were housed for 30 days to evaluate short- and long-term reproductive outcomes. The effects of LH and chemotherapy on growing-stage follicles were analyzed in a parallel experiment. Seven-week-old NOD-SCID female mice were allocated to control (n = 5), ChT (n = 5), and ChT+LH-1x (n = 6) groups. Animals were treated as described above, but maintained for 7 days before reproductive assessment.

PARTICIPANTS/MATERIALS, SETTING, METHODS

In the first experiment, follicular damage (phosphorylated H2AX histone (γH2AX) staining and terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) assay), apoptotic biomarkers (western blot), and DNA repair pathways (western blot and RT-qPCR) were assessed in ovaries collected at 12 and 24 h to determine early ovarian responses to LH. Thirty days after treatments, remaining mice were stimulated (10 IU of pregnant mare serum gonadotropin (PMSG) and 10 IU of hCG) and mated to collect ovaries, oocytes, and embryos. Histological analysis was performed on ovarian samples to investigate follicular populations and stromal status, and meiotic spindle and chromosome alignment was measured in oocytes by confocal microscopy. Long-term effects were monitored by assessing pregnancy rate and litter size during six consecutive breeding attempts. In the second experiment, mice were stimulated and mated 7 days after treatments and ovaries, oocytes, and embryos were collected. Follicular numbers, follicular protection (DNA damage and apoptosis by H2AX staining and TUNEL assay, respectively), and ovarian stroma were assessed. Oocyte quality was determined by confocal analysis.

MAIN RESULTS AND THE ROLE OF CHANCE

LH treatment was sufficient to preserve ovarian reserve and follicular development, avoid atresia, and restore ovulation and meiotic spindle configuration in mature oocytes exposed at the primordial stage. LH improved the cumulative pregnancy rate and litter size in six consecutive breeding rounds, confirming the potential of LH treatment to preserve fertility. This protective effect appeared to be mediated by an enhanced early DNA repair response, via homologous recombination, and generation of anti-apoptotic signals in the ovary a few hours after injury with chemotherapy. This response ameliorated the chemotherapy-induced increase in DNA-damaged oocytes and apoptotic granulosa cells. LH treatment also protected growing follicles from chemotherapy. LH reversed the chemotherapy-induced depletion of primordial and primary follicular subpopulations, reduced oocyte DNA damage and granulosa cell apoptosis, restored mature oocyte cohort size, and improved meiotic spindle properties.

LARGE SCALE DATA

N/A.

LIMITATIONS, REASONS FOR CAUTION

This was a preliminary study performed with mouse ovarian samples. Therefore, preclinical research with human samples is required for validation.

WIDER IMPLICATIONS OF THE FINDINGS

The current study tested if LH could protect the adult mouse ovarian reserve and reproductive lifespan from alkylating chemotherapy. These findings highlight the therapeutic potential of LH as a complementary non-surgical strategy for preserving fertility in female cancer patients.

STUDY FUNDING/COMPETING INTEREST(S)

This study was supported by grants from the Regional Valencian Ministry of Education (PROMETEO/2018/137), the Spanish Ministry of Science and Innovation (CP19/00141), and the Spanish Ministry of Education, Culture and Sports (FPU16/05264). The authors declare no conflict of interest.

Disease-inducing potential of two leukemic cell lines in a xenografting model

PURPOSE

Cryopreserved ovarian tissue transplant restores ovarian function in young cancer patients after gonadotoxic treatment. However, leukemia is associated with increased risk of malignant cell transmission. We aimed to assess the tumor-inducing potential of two different leukemic cell lines when xenografted to immunodeficient mice.

METHODS

Fifty-four female immunodeficient mice were grafted with either 100, 200, 500, 1000, and 10,000 chronic myeloid leukemia in blast crisis (BV-173) cells or relapsed acute lymphoblastic leukemia (RCH-ACV) cells, embedded inside a fibrin scaffold along with 50,000 human ovarian stromal cells. Two mice per cell line received the fibrin matrix without leukemic cells as negative controls. Clinical signs of disease were monitored for 20 weeks. Grafts, liver tissue, and masses were collected for macroscopic analysis and gene expression of BCR-ABL1 and E2A-PBX fusion transcripts present in BV-173 and RCH-ACV respectively.

RESULTS

BV-173 cells: Mice grafted with 100, 200, or 500 cells showed no sign of disease after and were negative for BCR-ABL1 expression. Three of the 5 animals grafted with 1000 cells and all mice with 10,000 cells developed disease and showed BCR-ABL1-positive expression. RCH-ACV cells: Two out of 4 mice grafted with 100 cells developed disease and were E2A-PBX1-positive. All the animals grafted with higher cell doses showed signs of disease and all but one were E2A-PBX1-positive.

CONCLUSION

The present work proves that the disease-inducing potential of BV-173 and RCH-ACV leukemic cells xenografted to SCID mouse peritoneum differs between cell lines, depending on cell number, type, status, and cytogenetic disease profile when ovarian tissue is harvested.

Transcriptional changes through menstrual cycle reveal a global transcriptional derepression underlying the molecular mechanism involved in the window of implantation

The human endometrium is a dynamic tissue that only is receptive to host the embryo during a brief time in the middle secretory phase, called the window of implantation (WOI). Despite its importance, regulation of the menstrual cycle remains incompletely understood. The aim of this study was to characterize the gene cooperation and regulation of menstrual cycle progression, to dissect the molecular complexity underlying acquisition of endometrial receptivity for a successful pregnancy, and to provide the scientific community with detailed gene co-expression information throughout the menstrual cycle on a user-friendly web-tool database. A retrospective gene co-expression analysis was performed based on the endometrial receptivity array (ERarray) gene signature from 523 human endometrial samples collected across the menstrual cycle, including during the WOI. Gene co-expression analysis revealed the WOI as having the significantly smallest proportion of negative correlations for transcriptional profiles associated with successful pregnancies compared to other cycle stages, pointing to a global transcriptional derepression being involved in acquisition of endometrial receptivity. Regulation was greatest during the transition between proliferative and secretory endometrial phases. Further, we prioritized nuclear hormone receptors as major regulators of this derepression and proved that some genes and transcription factors involved in this process were dysregulated in patients with recurrent implantation failure. We also compiled the wealth of gene co-expression data to stimulate hypothesis-driven single-molecule endometrial studies in a user-friendly database: Menstrual Cycle Gene Co-expression Network (www.menstrualcyclegcn.com). This study revealed a global transcriptional repression across the menstrual cycle, which relaxes when the WOI opens for transcriptional profiles associated with successful pregnancies. These findings suggest that a global transcriptional derepression is needed for embryo implantation and early development.

Timing of spermatogonial stem cell transplantation affects the spermatogenic recovery outcome in mice

Spermatogonial stem cell transplantation (SSCT) is a strategy that has demonstrated to be feasible to restore spermatogenesis in animal models when it is performed shortly after the gonadotoxic onset to destroy their endogenous germ cells. However, in the case of boys subjected to fertility preservation, future transplantations will be performed with a delay of many years. In order to study how timing of SSCT affects donor-derived spermatogenic recovery in mice, we compared the percentage of spermatogenic tubule cross-sections within testes of 59 C57BL/6NCrl mice distributed in 6 groups: group 1, untreated mice controls (n = 9); group 2, mice that received a single dose of busulfan 40 mg/kg (n = 10); group 3, mice that received two additional doses of busulfan 10 mg/kg every 5 weeks (n = 10); group 4 (SSCT-A), mice subjected to a standard SSCT performed 5 weeks after a single injection of busulfan 40 mg/kg (n = 10); group 5 (SSCT-B), mice subjected to a delayed SSCT performed 15 weeks after a single injection of busulfan 40 mg/kg (n = 10); and group 6 (SSCT-C), mice subjected to a delayed SSCT with two additional doses of busulfan 10 mg/kg every 5 weeks (n = 10). Spermatogenic recovery in standard SSCT-A and SSCT-C groups ranged between 22.29 and 22.65%, compared with a lower recovery rate of 11.54% showed in the SSCT-B group. However, donor contribution resulted higher in standard SSCT-A, representing a 69.71% of cross-sections, compared with the rest of conditions ranging from 34.69 to 35.42%. Overall, we concluded that a delay in the SSCT from the gonadotoxic onset decreases the efficiency of donor-derived spermatogenic recovery in mice.

Inhibition of KIF20A by BKS0349 reduces endometriotic lesions in a xenograft mouse model

Several studies have suggested a possible etiological association between ovarian endometriosis and ovarian cancer. Evidence has shown that KIF20A overexpression might confer a malignant phenotype to ovarian tumors by promoting proliferation and inhibiting apoptosis. However, no data about the role of KIF20A in endometriosis have been described. In this study, the human endometrium (n = 4) was transfected by mCherry adenovirus and intraperitoneally implanted in mice. Subsequently, mice were divided in three groups (n = 8/group) that were treated with Vehicle, BKS0349 (KIF20A-antagonist) or cabergoline (dopamine receptor agonist) for 21 days. mCherry-labeled endometriotic lesions were monitored over time using the IVIS Imaging System. Mice were sacrificed 72 h after the last administration; proliferation was evaluated by immunohistochemistry and apoptosis by TUNEL. CCND1 gene expression (G1 phase-related gene) was measured by qRT-PCR. A significant reduction in mCherry-fluorescent signal was observed in the BKS0349 group after treatment ended (D24) compared with D0 (P-value = 0.0313). Moreover, the mCherry signal on D24 showed a significant decrease in the BKS0349 group compared with controls (P-value = 0.0303), along with significant size reduction of endometriotic lesions observed in the BKS0349 group compared with control on D24 (P-value = 0.0006). Functional studies showed a significant reduction in proliferating cells in the BKS0349-treated group compared with controls (P-value = 0.0082). In addition, CCND1 expression was decreased in the BKS0349 group compared with control (P-value = 0.049) at D24 and a significant increase in apoptotic cells among endometriotic lesions in BKS0349-treated mice was observed compared with control (P-value = 0.0317). Based on these findings, we concluded that BKS0349 induces apoptosis and inhibits cell proliferation, reducing endometriotic lesion size and suggesting KIF20A inhibition by BKS0349 as a novel therapeutic treatment for endometriosis.

Congenital Uterine Malformation by Experts (CUME): diagnostic criteria for T-shaped uterus

OBJECTIVES

To identify uterine measurements that are reliable and accurate to distinguish between T-shaped and normal/arcuate uterus, and define T-shaped uterus, using Congenital Uterine Malformation by Experts (CUME) methodology, which uses as reference standard the decision made most often by several independent experts.

METHODS

This was a prospectively planned multirater reliability/agreement and diagnostic accuracy study, performed between November 2017 and December 2018, using a sample of 100 three-dimensional (3D) datasets of different uteri with lateral uterine cavity indentations, acquired from consecutive women between 2014 and 2016. Fifteen representative experts (five clinicians, five surgeons and five sonologists), blinded to each others' opinions, examined anonymized images of the coronal plane of each uterus and provided their independent opinion as to whether it was T-shaped or normal/arcuate; this formed the basis of the CUME reference standard, with the decision made most often (i.e. that chosen by eight or more of the 15 experts) for each uterus being considered the correct diagnosis for that uterus. Two other experienced observers, also blinded to the opinions of the other experts, then performed independently 15 sonographic measurements, using the original 3D datasets of each uterus. Agreement between the diagnoses made by the 15 experts was assessed using kappa and percent agreement. The interobserver reliability of measurements was assessed using the concordance correlation coefficient (CCC). The diagnostic test accuracy was assessed using the area under the receiver-operating-characteristics curve (AUC) and the best cut-off value was assessed by calculating Youden's index, according to the CUME reference standard. Sensitivity, specificity, negative and positive likelihood ratios (LR- and LR+) and post-test probability were calculated.

RESULTS

According to the CUME reference standard, there were 20 T-shaped and 80 normal/arcuate uteri. Individual experts recognized between 5 and 35 (median, 19) T-shaped uteri on subjective judgment. The agreement among experts was 82% (kappa = 0.43). Three of the 15 sonographic measurements were identified as having good diagnostic test accuracy, according to the CUME reference standard: lateral indentation angle (AUC = 0.95), lateral internal indentation depth (AUC = 0.92) and T-angle (AUC = 0.87). Of these, T-angle had the best interobserver reproducibility (CCC = 0.87 vs 0.82 vs 0.62 for T-angle vs lateral indentation depth vs lateral indentation angle). The best cut-off values for these measurements were: lateral indentation angle ≤ 130° (sensitivity, 80%; specificity, 96%; LR+, 21.3; LR-, 0.21), lateral indentation depth ≥ 7 mm (sensitivity, 95%; specificity, 77.5%; LR+, 4.2; LR-, 0.06) and T-angle ≤ 40° (sensitivity, 80%; specificity, 87.5%; LR+, 6.4; LR-, 0.23). Most of the experts diagnosed the uterus as being T-shaped in 0% (0/56) of cases when none of these three criteria was met, in 10% (2/20) of cases when only one criterion was met, in 50% (5/10) of cases when two of the three criteria were met, and in 93% (13/14) of cases when all three criteria were met.

CONCLUSIONS

The diagnosis of T-shaped uterus is not easy; the agreement among experts was only moderate and the judgement of individual experts was commonly insufficient for accurate diagnosis. The three sonographic measurements with cut-offs that we identified (lateral internal indentation depth ≥ 7 mm, lateral indentation angle ≤ 130° and T-angle ≤ 40°) had good diagnostic test accuracy and fair-to-moderate reliability and, when applied in combination, they provided high post-test probability for T-shaped uterus. In the absence of other anomalies, we suggest considering a uterus to be normal when none or only one criterion is met, borderline when two criteria are met, and T-shaped when all three criteria are met. These three CUME criteria for defining T-shaped uterus may aid in determination of its prevalence, clinical implications and best management and in the assessment of post-surgical morphologic outcome. The CUME definition of T-shaped uterus may help in the development of interventional randomized controlled trials and observational studies and in the diagnosis of uterine morphology in everyday practice, and could be adopted by guidelines on uterine anomalies to enrich their classification systems. Copyright © 2019 ISUOG. Published by John Wiley & Sons Ltd.

Stem cell paracrine actions in tissue regeneration and potential therapeutic effect in human endometrium: a retrospective study

OBJECTIVE

Determining genetic and paracrine mechanisms behind endometrial regeneration in Asherman's syndrome and endometrial atrophy (AS/EA) patients after autologous CD133⁺ bone marrow-derived stem cell (CD133⁺ BMDSC) transplantation.

DESIGN

Retrospective study using human endometrial biopsies and mouse models.

SETTING

Fundación-IVI, IIS-La Fe, Valencia, Spain.

SAMPLES

Endometrial biopsies collected before and after CD133⁺ BMDSC therapy, from eight women with AS/EA (NCT02144987) from the uterus of five mice with only left horns receiving CD133⁺ BMDSC therapy.

METHODS

In human samples, haematoxylin and eosin (H&E) staining, RNA arrays, PCR validation, and neutrophil elastase (NE) immunohistochemistry (IHQ). In mouse samples, PCR validation and protein immunoarrays.

MAIN OUTCOME MEASURES

H&E microscopic evaluation, RNA expression levels, PCR, and growth/angiogenic factors quantification, NE IHQ signal.

RESULTS

Treatment improved endometrial morphology and thickness for all patients. In human samples, Jun, Serpine1, and Il4 were up-regulated whereas Ccnd1 and Cxcl8 were down-regulated after treatment. The significant decrease of NE signal corroborated Cxcl8 expression. Animal model analysis confirmed human results and revealed a higher expression of pro-angiogenic cytokines (IL18, HGF, MCP-1, MIP2) in treated uterine horns.

CONCLUSIONS

CD133⁺ BMDSC seems to activate several factors through a paracrine mechanism to help tissue regeneration, modifying endometrial behaviour through an immunomodulatory milieu that precedes proliferation and angiogenic processes. Insight into these processes could bring us one step closer to a non-invasive treatment for AS/EA patients.

TWEETABLE ABSTRACT

CD133⁺ BMDSC therapy regenerates endometrium, modifying the immunological milieu that precedes proliferation and angiogenesis.

Ovarian stimulation does not influence the uterine immune environment in healthy infertile women

RESEARCH QUESTION

There is some controversy regarding the impact of ovarian stimulation on immune cells in women undergoing IVF. The study's aim was to determine whether ovarian stimulation affected immune uterine cells in healthy women undergoing IVF.

DESIGN

This prospective cohort study included 28 patients undergoing IVF and 47 healthy oocyte donors. Endometrial biopsies were taken in a natural cycle and after ovarian stimulation. All participants had a normal karyotype, pelvic ultrasound and cervical cytology results and thyroid-stimulating hormone concentration, as well as normal glucose and insulin concentrations and inherited and acquired thrombophilia test results. Screening tests including human papillomavirus were normal. Immune cells were analysed using three techniques: fluorescence-activated cell sorting, immunohistochemistry and gene expression. A human leukocyte antigen (HLA)-C tetramer was used as an 'artificial embryo'. The expression of genes including those for tumour necrosis factor (TNF)-α and interleukin-10 (IL-10) was analysed.

RESULTS

A comparison was made of the percentage and gene expression of CD56^brightCD16^- uterine natural killer (uNK), CD56^dimCD16⁺ natural killer cells, CD56^-CD16⁺ natural killer cells and TregCD25⁺CD4⁺FoxP3⁺ cells, uNK binding to the HLA-C tetramer, and TNF-α and IL-10 expression. No between- or within-group differences were observed in natural versus ovarian stimulation cycles.

CONCLUSIONS

Ovarian stimulation does not affect the uterine immune cell population or HLA-C binding in healthy women undergoing ovarian stimulation. Further studies are underway to find out if different responses might be seen in women with previous autoimmune disorders.

Elective and Onco-fertility preservation: factors related to IVF outcomes

STUDY QUESTION

Is the indication for fertility preservation (FP) related to success in IVF cycles after elective-FP (EFP) for age-related fertility decline and FP before cancer treatment (Onco-FP)?

SUMMARY ANSWER

Although success rates were lower in cancer patients, there was no statistically significant association between malignant disease and reproductive outcome after correction for age and controlled-ovarian stimulation (COS) regime.

WHAT IS KNOWN ALREADY

FP is increasingly applied in assisted reproduction, but little is known about the outcome of IVF cycles with vitrified oocytes in FP patients.

STUDY DESIGN, SIZE, DURATION

Retrospective, observational multicenter study of vitrification cycles for FP and of the warming cycles of women who returned to attempt pregnancy from January 2007 to May 2018.

PARTICIPANTS/MATERIALS, SETTING, METHODS

In all, 6362 women (EFP = 5289 patients; 7044 cycles + Onco-FP = 1073 patients; 1172 cycles) had their oocytes vitrified for FP. A logistic regression analysis was performed to examine the impact of indication for FP corrected for age at vitrification. The protocol used for COS was also included as a possible confounder. The main outcome measures were oocyte survival and live birth. A detailed description of the baseline and clinical data is provided, with comparisons between EFP and Onco-FP. The cumulative live birth rate (CLBR) per utilized oocyte according to age at vitrification was analyzed in those patients returning to use their oocytes.

MAIN RESULTS AND ROLE OF CHANCE

Age at vitrification was significantly older in EFP patients (37.2 ± 4.9 vs. 32.3 ± 3.5 year; P < 0.0001). Fewer oocytes were retrieved and vitrified per cycle in EFP (9.6 ± 8.4 vs. 11.4 ± 3.5 and 7.3 ± 11.3 vs. 8.7 ± 2.1, respectively; P < 0.05), but numbers became comparable when analyzed per patient (12.8 ± 7.4 vs. 12.5 ± 3.2 and 9.8 ± 6.4 vs. 9.5 ± 2.6). Storage time was shorter in EFP (2.1 ± 1.6 vs. 4.1 ± 0.9 years; P < 0.0001). In all, 641 (12.1%) EFP and 80 (7.4%) Onco-FP patients returned to attempt pregnancy (P < 0.05). Overall oocyte survival was comparable (83.9% vs. 81.8%; NS), but lower for onco-FP patients among younger (≤35 year) subjects (81.2% vs. 91.4%; P > 0.05). Fewer EFP cycles finished in embryo transfer (50.2% vs. 72.5%) (P < 0.05). The implantation rate was 42.6% and 32.5% in EFP versus Onco-FP (P < 0.05). Ongoing pregnancy (57.7% vs. 35.7%) and live birth rates (68.8% vs. 41.1%) were higher in EFP patients aged ≤35 than the Onco-FP matching age patients (P < 0.05). The reason for FP per se had no effect on oocyte survival (OR = 1.484 [95%CI = 0.876-2.252]; P = 0.202) or the CLBR (OR = 1.275 [95%CI = 0.711-2.284]; P = 0.414). Conversely, age (<36 vs. ≥36 y) impacted oocyte survival (adj.OR = 1.922 [95%CI = 1.274-2.900]; P = 0.025) and the CLBR (adj.OR= 3.106 [95%CI = 2.039-4.733]; P < 0.0001). The Kaplan-Meier analysis showed a significantly higher cumulative probability of live birth in patients <36 versus >36 in EFP (P < 0.0001), with improved outcomes when more oocytes were available for IVF.

LIMITATIONS, REASONS FOR CAUTION

Statistical power to compare IVF outcomes is limited by the few women who came to use their oocytes in the Onco-FP group. The patients' ages and the COS protocols used were significantly different between the EFP and ONCO-PP groups.

WIDER IMPLICATIONS OF THE FINDINGS

Although the implantation rate was significantly lower in the Onco-FP patients the impact of cancer disease per se was not proven'. EFP patients should be counseled according to their age and number of available oocytes.

STUDY FUNDING/COMPETING INTEREST(S)

No external funding was used for this study. The authors have no conflicts of interest.

TRIAL REGISTRATION NUMBER

N/A.

Asynchronous and pathological windows of implantation: two causes of recurrent implantation failure

STUDY QUESTION

Is endometrial recurrent implantation failure (RIF) only a matter of an asynchronous (displaced) window of implantation (WOI), or could it also be a pathological (disrupted) WOI?

SUMMARY ANSWER

Our predictive results demonstrate that both displaced and disrupted WOIs exist and can present independently or together in the same RIF patient.

WHAT IS KNOWN ALREADY

Since 2002, many gene expression signatures associated with endometrial receptivity and RIF have been described. Endometrial transcriptomics prediction has been applied to the human WOI in two previous studies. One study describes endometrial RIF to be the result of a temporal displacement of the WOI. The other indicates that endometrial RIF can also result from a molecularly disrupted WOI without temporal displacement.

STUDY DESIGN, SIZE, DURATION

Retrospective analysis was undertaken to compare WOI endometrial transcriptomics predictions in controls (n = 72) and RIF patients (n = 43). RIF was clinically designated by the absence of implantation after four or more transfers of high quality embryos or after the placement of 10 or more embryos in multiple transfers. Endometrial tissue samples were collected from LH + 5 to LH + 8. We compared the two molecular causes of RIF to signatures currently described in the literature. We propose a new transcriptomic RIF taxonomy to fill the gap between the two hypotheses and to guide the development of clinical detection and determination of both types of RIF.

PARTICIPANTS/MATERIALS, SETTING, METHODS

Utilizing 115 gene expression profiles, two different predictive designs were developed: one considering RIF versus controls removing menstrual cycle timing, called the disrupted or pathological model, and another stratifying the WOI in transcriptomic profiles related to timing for predicting displacements. The predictive value of each model was compared between all signatures selected. We propose a new genomic approach that distinguishes between both types of RIF in the same sample cohort.

MAIN RESULTS AND THE ROLE OF CHANCE

From the 16 signatures analysed, we clearly predicted two causes of RIF-both a displaced WOI and an on-time but pathologically disrupted WOI. A high predictive value related to WOI profiles associated with menstrual cycle timing was found in most of the signatures. Specifically, 69% of the signatures analysed presented an accuracy higher than expected by chance in a range from 0.87 to 0.97. Displacements and disruptions were not molecularly independent, as some signatures were moderately associated with both causes. The gene and functional comparison between signatures revealed that they were not similar, although we did find functions in common and a cluster of moderate functional concordance between some of the signatures that predicted displacements (the highest Cohen's Kappa index were between 0.55 and 0.62 depending on the functional database). We propose a new transcriptomic RIF taxonomy to fill the gap between these prior studies and to establish methodology for detecting and distinguishing both types of RIF in clinical practice. Our findings indicate these two phenotypes could present independently or together in the same RIF patient. RIF patients designated by clinical criteria have been stratified transcriptomically as 18.6% with only a displaced WOI, 53.5% with a displaced and pathological WOI, 23.3% with only a disrupted WOI, and 4.7% could be a clinical RIF with non-endometrial origin. The new RIF transcriptomic taxonomy avoids menstrual cycle timing as a confounding variable that should be controlled for, distinguishing clearly between a disrupted and a displaced WOI for precision medicine in RIF.

LIMITATIONS REASONS FOR CAUTION

The main objective of this study was to use transcriptomics to detect both RIF causes and to understand the role of transcriptomic signatures in these phenotypes. The predictive value in absolute terms for each signature was not indicative in these prediction designs; instead, the comparison between signatures was most important for prediction capability in the same sample cohort for both RIF causes. Clinical follow up of the RIF taxonomies proposed has not been analysed in this study, so further prospective clinical studies are necessary to determine the prevalence and penetrance of these phenotypes.

WIDER IMPLICATIONS OF THE FINDINGS

The main insight from this study is a new understanding of RIF taxonomy. Understanding how to classify RIF patients to distinguish clinically between a patient who could benefit from a personalized embryo transfer day and a patient with a disrupted WOI will enable identification and stratification for the research and development of new treatments. In addition, we demonstrate that basic research designs in endometrial transcriptomics cause masking of the study variable by the menstrual cycle timing.

STUDY FUNDING/COMPETING INTEREST(S)

This research has been funded by IVI-RMA; the authors do not have any competing interests.

Do immature and mature sibling oocytes recovered from stimulated cycles have the same reproductive potential?

RESEARCH QUESTION

How can laboratory and clinical outcomes of spontaneously, early maturing germinal-vesicle oocytes and sibling in-vivo-matured (metaphase II [MII]) oocytes be quantified and compared?

DESIGN

A prospective, non-randomized intra-cohort study of oocytes from women aged 38 years or younger, with six or fewer MII oocytes and four or more germinal vesicles retrieved. No indication was identified for genetic tests or oocyte or embryo cryopreservation. The study was carried out at IVIRMA-Valencia. Early maturing germinal vesicles were selected for reproductive purposes. In vitro- and in-vivo MII oocytes were fertilized. After time-lapse culture, hatching blastocysts from germinal vesicles were biopsied for aneuploidy screening and vitrified. Laboratory and clinical outcomes were compared according to oocyte origin.

RESULTS

Almost 70% of germinal vesicles had matured early and spontaneously, and had comparable in vitro-outcomes and morphokinetics to sibling in vivo-matured oocytes. Fifty per cent of biopsied blastocysts were euploid. Germinal-vesicle rescue increased the number of MII oocytes per cycle to 3.9, finally adding one extra-blastocyst per cycle. A live birth confirmed the feasibility of this approach. Further data, however, are needed to quantify its real contribution to standard intracytoplasmic sperm injection cycles. Nevertheless, 40% of patients obtained either an immediate advantage (reduction of cancellation rate) or long-term benefit (availability of extra blastocysts of attempts).

CONCLUSIONS

Germinal-vesicle rescue can be considered as a complementary approach when folliculometry (expected) and number of MII (observed) are unequal.

Dysregulated genes and their functional pathways in luteinized granulosa cells from PCOS patients after cabergoline treatment

Polycystic ovarian syndrome (PCOS) is a common reproductive disorder frequently associated with a substantial risk factor for ovarian hyperstimulation syndrome (OHSS). Dopamine receptor 2 (D2) agonists, like cabergoline (Cb2), have been used to reduce the OHSS risk. However, lutein granulosa cells (LGCs) from PCOS patients treated with Cb2 still show a deregulated dopaminergic tone (decreased D2 expression and low dopamine production) and increased vascularization compared to non-PCOS LGCs. Therefore, to understand the PCOS ovarian physiology, it is important to explore the mechanisms that underlie syndrome based on the therapeutic effects of Cb2. Here, LGCs from non-PCOS and PCOS patients were cultured with hCG in the absence/presence of Cb2 (n = 12). Subsequently, a transcriptomic-paired design that compared untreated vs treated LGCs within each patient was performed. After transcriptomic analysis, functions and genes were prioritized by systems biology approaches and validated by RT-qPCR. We identified that similar functions were altered in both PCOS and non-PCOS LGCs treated with Cb2; however, PCOS-treated LGCs exhibited more significant changes than non-PCOS. Among the prioritized functions, dopaminergic synapse, vascular endothelial growth factor (VEGF) signaling, apoptosis and ovarian steroidogenesis were highlighted. Finally, network modeling showed CASP9, VEGFA, AKT1, CREB, AIF, MAOA, MAPK14 and BMAL1 as key genes implicated in these pathways in Cb2 response, which might be potential biomarkers for further studies in PCOS.

Congenital Uterine Malformation by Experts (CUME): better criteria for distinguishing between normal/arcuate and septate uterus?

OBJECTIVES

To assess the level of agreement between experts in distinguishing between septate and normal/arcuate uterus using their subjective judgment when reviewing the coronal view of the uterus from three-dimensional ultrasound. Another aim was to determine the interobserver reliability and diagnostic test accuracy of three measurements suggested by recent guidelines, using as reference standard the decision made most often by experts (Congenital Uterine Malformation by Experts (CUME)).

METHODS

Images of the coronal plane of the uterus from 100 women with suspected fundal internal indentation were anonymized and provided to 15 experts (five clinicians, five surgeons and five sonologists). They were instructed to indicate whether they believed the uterus to be normal/arcuate (defined as normal uterine morphology or not clinically relevant degree of distortion caused by internal indentation) or septate (clinically relevant degree of distortion caused by internal indentation). Two other observers independently measured indentation depth, indentation angle and indentation-to-wall-thickness (I:WT) ratio. The agreement between experts was assessed using kappa, the interobserver reliability was assessed using the concordance correlation coefficient (CCC), the diagnostic test accuracy was assessed using the area under the receiver-operating characteristics curve (AUC) and the best cut-off value was assessed using Youden's index, considering as the reference standard the choice made most often by the experts (CUME).

RESULTS

There was good agreement between all experts (kappa, 0.62). There were 18 septate and 82 normal/arcuate uteri according to CUME; European Society of Human Reproduction and Embryology (ESHRE)-European Society for Gynaecological Endoscopy (ESGE) criteria (I:WT ratio > 50%) defined 80 septate and 20 normal/arcuate uteri, while American Society for Reproductive Medicine (ASRM) criteria defined five septate (depth > 15 mm and angle < 90°), 82 normal/arcuate (depth < 10 mm and angle > 90°) and 13 uteri that could not be classified (referred to as the gray-zone). The agreement between ESHRE-ESGE and CUME was 38% (kappa, 0.1); the agreement between ASRM criteria and CUME for septate was 87% (kappa, 0.39), and considering both septate and gray-zone as septate, the agreement was 98% (kappa, 0.93). Among the three measurements, the interobserver reproducibility of indentation depth (CCC, 0.99; 95% CI, 0.98-0.99) was better than both indentation angle (CCC, 0.96; 95% CI, 0.94-0.97) and I:WT ratio (CCC, 0.92; 95% CI, 0.90-0.94). The diagnostic test accuracy of these three measurements using CUME as reference standard was very good, with AUC between 0.96 and 1.00. The best cut-off values for these measurements to define septate uterus were: indentation depth ≥ 10 mm, indentation angle < 140° and I:WT ratio > 110% .

CONCLUSIONS

The suggested ESHRE-ESGE cut-off value overestimates the prevalence of septate uterus while that of ASRM underestimates this prevalence, leaving in the gray-zone most of the uteri that experts considered as septate. We recommend considering indentation depth ≥ 10 mm as septate, since the measurement is simple and reliable and this criterion is in agreement with expert opinion. Copyright © 2017 ISUOG. Published by John Wiley & Sons Ltd.

ONCO-TESE: Obtaining spermatozoa after radical orchiectomy for testicular tumour and azoospermia

OBJECTIVE

There is the possibility of diagnosing azoospermia in cases of testicular tumours in patients who wish to preserve fertility. Our objective is to present a technique for obtaining spermatozoa from testicles with ex vivo tumours in order to preserve fertility in these patients.

MATERIAL AND METHODS

A 34-year-old patient was referred for azoospermia. The physical examination revealed a node in the lower pole of the left testicle. In the scrotal ultrasound, the testicle presented disperse microcalcifications and a 1-cm hypoechoic mass in the lower pole. The tumour markers were negative, and the CT showed no distant disease. Left radical orchiectomy was performed, along with the placement of a testis prosthesis. Bench surgery was then performed, with extraction of the seminiferous tubules in the upper pole.

RESULTS

Of the submitted samples, 4 progressive and 1 nonprogressive motile spermatozoa were identified per field. Two samples were cryopreserved. The pathological report indicated the presence of a seminoma measuring 1.3 × 1 cm, with free margins and with no invasion of the rete testis (stage I). An assisted reproduction technique (intracytoplasmic sperm injection) was performed on the patient's partner with the frozen spermatozoa, which resulted in pregnancy and the subsequent birth of a healthy child.

CONCLUSION

We propose this technique as the method of choice for obtaining spermatozoa from patients who simultaneously present azoospermia and testicular tumours and who wish to preserve their fertility.