O-201 Prenatal and postnatal outcome of mosaic embryo transfers: multicentric study of one thousand mosaic embryos diagnosed by preimplantation genetic testing with trophectoderm biopsy

2021 ◽  
Vol 36 (Supplement_1) ◽  
Author(s):  
F Spinella ◽  
A Victor ◽  
F Barnes ◽  
C Zouves ◽  
A Besser ◽  
...  
Keyword(s):  
Genetic Testing ◽  
Prenatal Testing ◽  
Chromosomal Mosaicism ◽  
Average Weight ◽  
Preimplantation Genetic Testing ◽  
Multicentric Study ◽  
Significant Difference ◽  
Mosaic Embryo ◽  
Postnatal Outcome ◽  
Euploid Embryo

Abstract Study question To explore the effect of chromosomal mosaicism detected in preimplantation genetic testing (PGT-A) on prenatal and postnatal outcome of mosaic embryo pregnancies Summary answer No significant difference between euploid and mosaic embryos was observed in terms of weeks of gestation, average weight, and developmental defect of the babies born What is known already Mosaic embryos have the potential to implant and develop into healthy babies. Transfer of these embryos is now offered as an option for women who undergo IVF resulting in no euploid embryos. While, prenatal diagnosis has shown the depletion of chromosomal mosaicism in mosaic embryos, several concerns remain. For instance, the direct effects of different kind of mosaicism on prenatal/postnatal outcome and the possibility that intra-biopsy mosaicism in the TE is a poor predictor of the ploidy status of the ICM. Thus, there is certainly a need for comprehensive analyses of obstetrical and neonatal outcome data of transferred mosaic embryos. Study design, size, duration Compiled analysis from multicenter data on transfers of mosaic embryos (n = 1,000) and their outcome, with comparison to a euploid control group (n = 5,561). To explore the effect of embryonic mosaicism on newborns, we matched mosaic embryos resulting in a birth with a euploid embryo by a series of parameters (maternal age, embryo morphology, and indication for PGT-A). Prenatal tests and birth characteristics of > 200 neonates from mosaic embryo transfers were compared to > 200 euploid embryos. Participants/materials, setting, methods PGT-A was performed on blastocyst-stage embryos with 24-Chromosome whole genome amplification (WGA)-based Next Generation Sequencing (NGS). In accordance with established guidelines, embryos were categorized as mosaic when PGT-A results indicated 20-80% aneuploid content. Prenatal testing where performed in 30% of pregnancies with amniocentesis, 4% did an extra analysis for potential UPD for the suspected mosaic chromosome, and an additional 16% performed chorionic villus sampling (CVS) and 9.5% performed noninvasive prenatal testing (NIPT). Main results and the role of chance Of the 465 mosaic embryos that implanted, about 20% miscarried, and out of those, 75% were early spontaneous abortions. Of the pregnancies, 3 out of 368 were stillborn (2 out of them were twins that were extremely premature at 23 weeks, and the other died during pregnancy from a heart defect). The remaining 99% of those have been born or are late ongoing pregnancies at the time of analysis. Prenatal tests were performed in > 200 pregnancies and the vast majority tested normal. All 5 abnormal cases were amniocentesis tests showing microdeletions or insertions of sizes smaller than the resolution used during PGT-A, so they were unrelated to the mosaicism detected with PGT-A. In fact, in none of the cases did the prenatal test reflect the mosaicism detected at the embryonic stage. Matching each of the 162 mosaic embryos resulting in a birth with a euploid embryo, we found that the length of gestation was similar on average, and so was the average weight of the babies at birth. We also gathered information on the routine physical examination performed on babies at birth, and of those 162 babies from mosaic embryo transfers, none had obvious developmental defects or gross abnormalities. Limitations, reasons for caution Even though newborns resulting from mosaic embryo transfers in this study invariably appeared healthy by routine examination, concerns for long-term health cannot yet be entirely dispelled. The question must therefore be carefully considered by each clinic and patient situation. Wider implications of the findings Prenatal testing of > 200 pregnancies from mosaic embryo transfers showed no incidence of mosaicism that matched the PGT-A findings, indicating the involvement of self-corrective mechanisms. Pregnancy and obstetric data indicates that mosaic embryos prevailing through gestation and birth have similar chromosomal and physiological health compared to euploid embryos. Trial registration number none

scholarly journals New Recommendations for Robertsonian Translocation Management After Preimplantation Genetic Testing of Structural Rearrangement (PGT-SR) Attempts: What Should Be Done With Mosaic Embryos?

2020 ◽  
Author(s):  
Reda Zenagui ◽  
Izabel Bernicot ◽  
Cendrine Ciabrini ◽  
Alice Ferrieres Hoa ◽  
Christel Castelli ◽  
...  
Keyword(s):  
Genetic Testing ◽  
Robertsonian Translocation ◽  
Structural Rearrangement ◽  
Strategy Choice ◽  
Preimplantation Genetic Testing ◽  
Robertsonian Translocations ◽  
Increased Risk ◽  
Significant Difference ◽  
Mosaic Embryo ◽  
Repeated Miscarriages

Abstract Robertsonian translocation (RT) carriers are phenotypically normal, but they are known to be at increased risk of repeated miscarriages compared with the general population estimated at about 15% of pregnancies, and also resulting in the birth of a child with a mental retardation or congenital anomalies. Preimplantation Genetic Testing (PGT) is therefore a solution for RT carriers. An appropriate probe strategy allows to differentiate balanced embryos, unbalanced embryos, and mosaic embryos. We performed the first comparative analysis between two or three probes FISH strategies to analyze if a probe strategy choice for PGT-SR studies of Robertsonian translocations (RT) influences the fate of embryos? Our investigations present 13 years of experience of PGT for Robertsonian translocation carriers to improve the accuracy of abnormality detections. A deeper analysis of 283 PGT-SR attempts by comparing two strategies of probes highlighted the irrelevance of using a third probe for FISH diagnosis and above all a significant difference of mosaic embryo rates between probe strategies. These findings could be used as new recommendations of Robertsonian translocation management in many laboratories to improve their practices. It could be readily run, less expensive, reliable and accurate. Furthermore, the propounded strategy of mosaic embryo transfer should be considered after a detailed genetic counseling.

scholarly journals Utilization of preimplantation genetic testing in the USA

2021 ◽  
Author(s):  
Kaitlyn Roche ◽  
Catherine Racowsky ◽  
Joyce Harper
Keyword(s):  
Genetic Testing ◽  
Older Women ◽  
State Level ◽  
Oocyte Retrieval ◽  
Preimplantation Genetic Testing ◽  
Annual Increase ◽  
Younger Women ◽  
Live Birth Rates ◽  
Significant Difference ◽  
The Usa

Abstract Purpose To evaluate the use of preimplantation genetic testing (PGT) and live birth rates (LBR) in the USA from 2014 to 2017 and to understand how PGT is being used at a clinic and state level. Methods This study accessed SART data for 2014 to 2017 to determine LBR and the CDC for years 2016 and 2017 to identify PGT usage. Primary cycles included only the first embryo transfer within 1 year of an oocyte retrieval; subsequent cycles included transfers occurring after the first transfer or beyond 1 year of oocyte retrieval. Results In the SART data, the number of primary PGT cycles showed a significant monotonic annual increase from 18,805 in 2014 to 54,442 in 2017 (P = 0.042) and subsequent PGT cycles in these years increased from 2946 to 14,361 (P = 0.01). There was a significant difference in primary PGT cycle use by age, where younger women had a greater percentage of PGT treatment cycles than older women. In both PGT and non-PGT cycles, the LBR per oocyte retrieval decreased significantly from 2014 to 2017 (P<0001) and younger women had a significantly higher LBR per oocyte retrieval compared to older women (P < 0.001). The CDC data revealed that in 2016, just 53 (11.4%) clinics used PGT for more than 50% of their cycles, which increased to 99 (21.4%) clinics in 2017 (P< 0.001). Conclusions A growing number of US clinics are offering PGT to their patients. These findings support re-evaluation of the application for PGT.

P–551 Blastocyst cohort size is not associated with embryo aneuploidy: comprehensive multi-centre data from current preimplantation genetic testing cycles

2021 ◽  
Vol 36 (Supplement_1) ◽  
Author(s):  
R Vassena ◽  
A Lorenzon ◽  
A L Lopes ◽  
D Sakkas ◽  
A Korkidakis ◽  
...  
Keyword(s):  
Genetic Testing ◽  
Maternal Age ◽  
Age Groups ◽  
Ovarian Response ◽  
Cohort Size ◽  
Preimplantation Genetic Testing ◽  
Indirect Measure ◽  
Next Generation Sequencing Ngs ◽  
Generation Sequencing ◽  
Euploid Embryo

Abstract Study question Does blastocyst cohort size impact aneuploidy rates, evaluated by next generation sequencing (NGS)? Summary answer Embryo aneuploidy rates were independent of blastocyst cohort size across all patient ages. What is known already The effects of ovarian response on oocyte and embryo quality remain controversial. Several studies have proposed that a high response to ovarian stimulation may negatively impact oocyte competence. Alternatively, irrespective of maternal age, a poor ovarian response may potentially compromise embryo quality. Using blastocyst cohort size as an indirect measure of ovarian response, previous studies applying array comparative genomic hybridisation (aCGH) have demonstrated that the number of embryos available for biopsy does not impact embryo aneuploidy rates. Nevertheless, these findings remain to be confirmed in a comprehensive cohort, using current approaches for preimplantation genetic testing for aneuploidies (PGT-A). Study design, size, duration Retrospective, international, cohort study of 3998 patients from 16 clinics undergoing PGT-A from 2016–2020. We evaluated 11665 blastocysts, tested using trophectoderm (TE) biopsy and next generation sequencing (NGS). To eliminate bias of multiple treatments, we considered only the first PGT-A cycle for all patients. Both autologous and donation cycles were included in the analysis. Cycles were excluded if they utilised preimplantation genetic testing for monogenic disorders (PGT-M) or preimplantation genetic testing for structural rearrangements (PGT-SR). Participants/materials, setting, methods We evaluated aneuploidy and mosaicism rates, as well as the proportion of patients who had at least one euploid embryo suitable for transfer. Findings were stratified according to SART-defined maternal age groups, &lt;35 (n = 698/2622 patients/blastocysts), 35–37 (n = 988/3141 patients/blastoycsts), 38–40 (n = 1447/3939 patients/blastocysts), 41–42 (653/1562 patients/blastocysts) and &gt;42 (212/401 patients/blastocysts) and blastoycst cohort size (1–2, 3–5, 6–9 and 10 or more biopsied blastocysts). Main results and the role of chance The mean maternal age was 37.0±3.7. The overall embryo aneuploidy rate was 50.6% (5904/11665), while mosaicism was established in 4.0% (469/11665) of blastocysts. As expected, the proportion of aneuploid embryos increased steadily with advancing maternal age (31.8%, 41.5%, 58.4%, 71.2%, 87.8%; p &lt; 0.0001), while mosaicism rates did not vary significantly (p = 0.2). Within each age group, we observed no association between the number of blastocysts biopsied and aneuploidy or mosaicism rates. However, as previously suggested, the chance of having at least one euploid embryo increased linearly with the number of embryos biopsied. We observed that young patients (&lt;35) with 1–2 blastocysts had a 70.4% of having at least one embryo suitable for transfer, which increased to 96.4% and 99.2% with 3–5 and 6–9 blastocysts, respectively. Similar trends were observed in the 36–38 and 39–40 age groups. Patients in the 40–41 age group had a significantly lower chance of having a suitable embryo for transfer. Nevertheless, the chance increased from 27.2% with 1–2 embryos to 61.2% with 3–5 blastocysts. Patients with &gt;10 embryos had at least one euploid embryo in 100% of cases, across all ages. Albeit, the numbers of patients within this category was low, and decreased significantly with advancing maternal age. Limitations, reasons for caution While blastocyst cohort size is considered to be an indirect measure of ovarian reserve, the number of oocytes retrieved was not evaluated. Our study only included the first PGT-A cycle for all patients. Subsequent, alterations in stimulation protocols may have resulted in an improved response in some patients. Wider implications of the findings: The comprehensive nature of the study, based on current PGT-A approaches and a large number of cycles across 16 centres increases clinical confidence in the notion that ovarian response is independent of embryo aneuploidy. Importantly, our findings may serve as a valuable clinical resource to guide patient counselling strategies. Trial registration number NA

scholarly journals The influence of balanced complex chromosomal rearrangements on preimplantation embryonic development potential and molecular karyotype

2020 ◽  
Author(s):  
Gang Li ◽  
Weiyi Shi ◽  
Wenbin Niu ◽  
Jiawei Xu ◽  
Yihong Guo ◽  
...  
Keyword(s):  
Embryonic Development ◽  
High Quality ◽  
Preimplantation Genetic Testing ◽  
Abnormal Embryo ◽  
Significant Difference ◽  
Molecular Karyotype ◽  
Group A ◽  
The Difference ◽  
Group B ◽  
Euploid Embryo

Abstract Background: Balanced complex chromosome rearrangements (BCCR) are balanced chromosomal structural aberrations that involve two or more chromosomes and at least three breakpoints. It is very rare in the population.The objective is to explore the difference of influence of three types of BCCR on early embryonic development and molecular karyotype.Results:Twelve couples were recruited including four couples of three-way rearrangements carriers (group A), three couples of double two-way translocations carriers (group B) and five couples of exceptional CCR carriers (group C). A total of 243 oocytes were retrievedin the seventeen preimplantation genetic testing (PGT) cycles, and 207 of these were available for fertilization.After intracytoplasmic sperm injection, 181oocytes normally fertilized. The rates of embryos forming on day3 in three groups were 87.88%, 97.78% and77.14%, which was significantly different (P=0.01). Compared with group B, the rate of embryo formation was statistically significantly lower in group C(P=0.01).Furthermore, the rates of high-quality blastocysts in three group were 14.71%, 48.15% and 62.96%, respectively, which was significantly different (P=0.00). Compared with group B andC, the rate of high-quality blastocysts in group A was statistically significantly lower (P=0.00;P=0.00). Comprehensive chromosome analysis was performed on 83 embryos, including 75 trophectodermcellsand 8 blastomeres. Except 7 embryos failed to amplify, 9.01%embryos were diagnosed as euploidy, and 90.91% were diagnosed as abnormal. As for group A, the euploid embryo rate was 10.71%and the abnormal embryo rate was 89.29%. In group B,the euploid embryo rate was 3.85%, the abnormal embryo rate was 96.15%. The euploid embryo rate was 13.04%, the abnormal embryo rate was 86.96% in group C.There were no significant differences among the three groups (P = 0.55).Conclusions:The lowest rate of high quality blastocysts has been for three-way rearrangements and the lowest rate of euploidy has been for double two-way translocations, although no significant difference. Different types of BCCR maybe have little effect on the embryonic molecular karyotype. The difference of influence of BCCR on early embryonic developmentandmolecular karyotypeshould be further studied.

scholarly journals Preimplantation Genetic Testing for Chromosomal Abnormalities: Aneuploidy, Mosaicism, and Structural Rearrangements

Genes ◽  
2020 ◽  
Vol 11 (6) ◽  
pp. 602 ◽  
Author(s):  
Manuel Viotti
Keyword(s):  
Genetic Testing ◽  
Clinical Outcomes ◽  
Assisted Reproductive Technologies ◽  
Chromosomal Abnormalities ◽  
Reproductive Technologies ◽  
Chromosomal Mosaicism ◽  
Human Embryos ◽  
Chromosomal Anomalies ◽  
Structural Rearrangements ◽  
Preimplantation Genetic Testing

There is a high incidence of chromosomal abnormalities in early human embryos, whether they are generated by natural conception or by assisted reproductive technologies (ART). Cells with chromosomal copy number deviations or chromosome structural rearrangements can compromise the viability of embryos; much of the naturally low human fecundity as well as low success rates of ART can be ascribed to these cytogenetic defects. Chromosomal anomalies are also responsible for a large proportion of miscarriages and congenital disorders. There is therefore tremendous value in methods that identify embryos containing chromosomal abnormalities before intrauterine transfer to a patient being treated for infertility—the goal being the exclusion of affected embryos in order to improve clinical outcomes. This is the rationale behind preimplantation genetic testing for aneuploidy (PGT-A) and structural rearrangements (-SR). Contemporary methods are capable of much more than detecting whole chromosome abnormalities (e.g., monosomy/trisomy). Technical enhancements and increased resolution and sensitivity permit the identification of chromosomal mosaicism (embryos containing a mix of normal and abnormal cells), as well as the detection of sub-chromosomal abnormalities such as segmental deletions and duplications. Earlier approaches to screening for chromosomal abnormalities yielded a binary result of normal versus abnormal, but the new refinements in the system call for new categories, each with specific clinical outcomes and nuances for clinical management. This review intends to give an overview of PGT-A and -SR, emphasizing recent advances and areas of active development.

The impact of preimplantation genetic testing for aneuploidy on prenatal screening

2021 ◽  
Vol 0 (0) ◽  
Author(s):  
Moti Gulersen ◽  
Alexandra Peyser ◽  
Jiyoung Kim ◽  
Amanda Ferraro ◽  
Randi Goldman ◽  
...  
Keyword(s):  
Genetic Testing ◽  
Prenatal Screening ◽  
Diagnostic Testing ◽  
Second Trimester ◽  
Preimplantation Genetic Testing ◽  
Prenatal Diagnostic ◽  
Second Trimester Screening ◽  
The Impact ◽  
Prenatal Diagnostic Testing ◽  
Euploid Embryo

Abstract Objectives To determine whether preimplantation genetic testing for aneuploidy (PGT-A) is associated with a reduced risk of abnormal conventional prenatal screening results in singleton pregnancies conceived using in vitro fertilization (IVF). Methods This was a retrospective cohort study of singleton IVF pregnancies conceived from a single tertiary care center between January 2014 and September 2019. Exclusion criteria included mosaic embryo transfers, vanishing twin pregnancies, and cycles with missing outcome data. Two cases of prenatally diagnosed aneuploidy that resulted in early voluntary terminations were also excluded. The primary outcome of abnormal first or second-trimester combined screening results was compared between two groups: pregnancy conceived after transfer of a euploid embryo by PGT-A vs. transfer of an untested embryo. Multivariable backwards-stepwise logistic regression with Firth method was used to adjust for potential confounders. Results Of the 419 pregnancies included, 208 (49.6%) were conceived after transfer of a euploid embryo by PGT-A, and 211 (50.4%) were conceived after transfer of an untested embryo. PGT-A was not associated with a lower likelihood of abnormal first-trimester (adjusted OR 1.64, 95% CI 0.82–3.39) or second-trimester screening results (adjusted OR 0.96, 95% CI 0.56–1.64). The incidences of cell-free DNA testing, fetal sonographic abnormalities, genetic counseling, and invasive prenatal diagnostic testing were similar between the two groups. Conclusions Our data suggest that PGT-A is not associated with a change in the likelihood of abnormal prenatal screening results or utilization of invasive prenatal diagnostic testing. Counseling this patient population regarding the importance of prenatal screening and prenatal diagnostic testing, where appropriate, remains essential.

P–788 Health outcomes at birth, 12 and 24 months of 747 children conceived after Preimplantation Genetic Testing: a single centre experience

2021 ◽  
Vol 36 (Supplement_1) ◽  
Author(s):  
L Trevisan ◽  
F Forzano ◽  
Y Khalaf ◽  
C Tomlinson ◽  
P Renwick ◽  
...  
Keyword(s):  
Genetic Testing ◽  
Health Outcomes ◽  
Developmental Delay ◽  
Congenital Anomalies ◽  
Participation Rate ◽  
Growth Data ◽  
Assisted Reproductive Technique ◽  
Preimplantation Genetic Testing ◽  
Significant Difference

Abstract Study question Does conception by Preimplantation Genetic Testing (PGT-M, PGT-SR) adversely affect health outcomes in children born through this assisted reproductive technique? Summary answer No significant difference was noted in the rate of congenital malformations in children born after PGT-M and PGT-SR compared with IVF-ICSI children. What is known already It is already known that the risk of congenital anomalies in IVF-ICSI pregnancies is higher when compared with pregnancies conceived naturally. Study design, size, duration This is a prospective study on 747 children born between December 1999 and July 2016 after a cycle of PGT-M or PGT-SR (IVF +/- ICSI + embryo biopsy) performed at a single London reproductive centre. PGT-A is not performed in the Centre, so pregnancy outcomes in this group are not relevant. The children were examined at birth, at 12 and 24 months of age and the data collected in three questionnaires. Participants/materials, setting, methods 747 PGT-M and PGT-SR children were enrolled in the study. 742/747 were examined at birth, 444/747 at 12 months and 168/747 at 24 months. The assessment consisted of three separate questionnaires completed at birth, 12 months and two years of age. The first questionnaire focused on the detection of congenital anomalies in newborn babies. The questionnaire at follow up recorded growth data and examination of the baby’s health and development. Main results and the role of chance We found no evidence that PGT-M and PGT-SR increased the risk of an adverse perinatal outcome when compared with children born after IVF-ICSI. The overall malformation rate in our group of live born after PGT-M and PGT-SR was 3.9% and of major malformations was 2%. These values are comparable with literature data on malformation risk in children born after IVF-ICSI. In terms of misdiagnosis, we had one misdiagnosis of SMA type 1 in 658 pregnancies obtained. This was very early on in the centre’s experience of offering PGT-M. Follow-up visits in our cohort allowed us to evaluate their development. Unfortunately, the low participation rate at 24 months (23%) significantly reduced the size of our cohort. We observed a cumulative value of 10% at 24 months of babies with developmental delay which is comparable with the value of 10% given by the WHO, but is twice the incidence Global Research on Developmental Disabilities Collaborators described in the UK in 2016 (4.6%). To our knowledge, no large studies have assessed the risk of developmental delay in children born after PGT. We cannot draw conclusions on this from our small cohort at 24 months and recommend further studies. Limitations, reasons for caution Although our sample is one of the largest reported, it is too small to generalise results due to the heterogeneity of the conditions for which PGT was being offered and the rarity of these conditions. There were multiple confounding factors including couple’s fertility background, varying fertility treatments and embryological techniques. Wider implications of the findings: Our results support published literature highlighting the safety of PGT-M and PGT-SR techniques. We followed up at birth, 12 months and 24 months a large cohort of children, in one of the largest datasets published so far. Trial registration number Not applicable

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