M. De Rycke

The ESHRE PGD Consortium: 10 years of data collection

BACKGROUND Since it was established in 1997, the ESHRE PGD Consortium has been collecting data from international preimplantation genetic diagnosis (PGD) centres. Ten papers have been published, including data from January 1997 to December 2007. METHODS The data collection originally used a hard-copy format, then an excel database and finally a FileMaker Pro database. The indications are divided into five categories: PGD for chromosome abnormalities, sexing for X-linked disease, PGD for single gene defects, preimplantation genetic screening (PGS) and PGD for social sexing. The main end-points are pregnancy outcome and follow-up of deliveries. RESULTS In data collection I, 16 centres contributed data, which increased to 57 centres by data X (average of 39 centres per data collection). These centres contributed data on over 27 000 cycles that reached oocyte retrieval. Of these cycles, 61% were for aneuploidy screening, 17% for single gene disorders, 16% for chromosomal abnormalities, 4% for sexing of X-linked disease and 2% for social sexing. Cumulatively, 5187 clinical pregnancies gave rise to 4140 deliveries and 5135 newborns (singletons: 3182, twins: 921, triplets: 37). CONCLUSIONS In this paper, we present an overview of the first 10 years of PGD data, highlighting trends. These include the introduction of laser-assisted biopsy, an increase in polar body and trophectoderm biopsy, new strategies, methodologies and technologies for diagnosis, including recently arrays, and the more frequent use of freezing biopsied embryos. The Consortium data reports represent a valuable resource for information about the practice of PGD.

ESHRE PGD consortium best practice guidelines for amplification-based PGD

In 2005, the European Society for Human Reproduction and Embryology (ESHRE) PGD Consortium published a set of Guidelines for Best Practice PGD to give information, support and guidance to potential, existing and fledgling PGD programmes. The subsequent years have seen the introduction of a number of new technologies as well as the evolution of current techniques. Additionally, in light of recent advice from ESHRE on how practice guidelines should be written and formulated, the Consortium believed it was timely to revise and update the PGD guidelines. Rather than one document that covers all of PGD, as in the original publication, these guidelines are separated into four new documents that apply to different aspects of a PGD programme, i.e. Organization of a PGD centre, fluorescence in situ hybridization-based testing, Amplification-based testing and Polar Body and Embryo Biopsy for PGD/preimplantation genetic screening. Here, we have updated the sections that pertain to amplification-based PGD. Topics covered in this guideline include inclusion/exclusion criteria for amplification-based PGD testing, preclinical validation of tests, amplification-based testing methods, tubing of cells for analysis, set-up of local IVF centre and Transport PGD centres, quality control/quality assurance and diagnostic confirmation of untransferred embryos.

Impact of cleavage-stage embryo biopsy in view of PGD on human blastocyst implantation: a prospective cohort of single embryo transfers

BACKGROUND Human embryo biopsy is performed for preimplantation genetic diagnosis (PGD). The impact of 1- or 2-cell removal at cleavage-stage on future embryo development and implantation capacity is highly debated. METHODS In order to explore this issue further, a cohort of Day 5 single embryo transfers was analysed prospectively for embryological and clinical outcome. All transferred embryos resulted from 8-cell embryos on Day 3, from which subsequently either one cell (group I, n = 182) or two cells (group II, n = 259) were removed, or on which no invasion by means of embryo biopsy was performed (group III, control group, n = 702). RESULTS Blastocyst formation was significantly better in group III compared with group II, and similar to group I. Group I and group II did not differ in Day 3 nor in Day 5 embryo development. The overall live birth rate was significantly higher in group I (37.4%, CI 29.0-47.4%) than in group II (22.4%, CI 17.0-28.9%), and comparable to the reference ICSI population (35.0%, CI 30.8-39.7%). CONCLUSIONS The clinical outcome of 1-cell biopsy was significantly better than that of 2-cell biopsy, even when adjusted for availability of genetically transferable embryos.

Report on a consecutive series of 581 children born after blastomere biopsy for preimplantation genetic diagnosis

BACKGROUND Preimplantation genetic diagnosis (PGD) and subsequently preimplantation genetic screening (PGS) have been introduced since 1990. The difference from the already existing in vitro fertilization (IVF) technology, using intracytoplasmic sperm injection (ICSI), was the embryo biopsy at day 3 after fertilization. Although healthy children post-PGD/PGS have been born, the question of whether embryo biopsy could have any harmful effects has to be studied on large series in a prospective manner. METHODS A prospective cohort study was undertaken from 1992 until 2005, using the same approach as for the follow-up of IVF and ICSI children conceived in the same centre. Questionnaires were sent to physicians and parents at conception and at delivery. Children were examined at 2 months of age by trained clinical geneticists whenever possible. RESULTS Data collected on 581 post-PGD/PGS children showed that term, birthweight and major malformation rates were not statistically different from that of 2889 ICSI children, with overall rates of major malformation among these post-PGD/PGS and ICSI children being 2.13 and 3.38%, respectively (odds ratio [OR]: 0.62; exact 95% confidence limits [95% CL]: 0.31-1.15). However, the overall perinatal death rate was significantly higher among post-PGD/PGS children compared with ICSI children (4.64 versus 1.87%; OR: 2.56; 95% CL: 1.54-4.18). When stratified for multiple births, perinatal death rates among PGD/PGS singleton and ICSI singleton children were similar (1.03 versus 1.30%; OR: 0.83; 95% CL: 0.28-2.44), but significantly more perinatal deaths were seen in post-PGD/PGS multiple pregnancies compared with ICSI multiple pregnancies (11.73 versus 2.54%; OR: 5.09; 95% CL: 2.80-9.90). The overall misdiagnosis rate was below 1%. CONCLUSIONS Embryo biopsy does not add risk factors to the health of singleton children born after PGD or PGS. The perinatal death rate in multiple pregnancies is such that both caution and long-term follow-up are required.

Markers that define stemness in ESC are unable to identify the totipotent cells in human preimplantation embryos

BACKGROUND During human preimplantation development, early blastomeres are believed to be totipotent. It is likely, however, that blastomeres are allocated to a specific lineage prior to any morphological differentiation. NANOG, SOX2 and SALL4 are transcription factors that play a key role in controlling stemness in embryonic stem cells (ESC) and are therefore candidate markers for developmental triggers in early embryos. KRT18, a trophoblast-determining gene, may mark early differentiation. Examining the expression pattern of these genes may inform us about when and in which cells totipotency is lost during early human development. METHODS Thirtheen oocytes, 124 preimplantation embryos and 7 human embryonic stem cell (hESC) lines were examined for the presence of NANOG, SOX2, SALL4 or KRT18 proteins using immunostaining and confocal microscopy. RESULTS All stemness markers were expressed in the hESC, but none of them was specific for totipotent cells during human preimplantation development, and none of them seemed to mark cells allocated to the inner cell mass (ICM) or trophectoderm. After lineage specification, only the nuclear expression of NANOG and SOX2 became restricted to the ICM, at least to some cells because only a subpopulation expressed NANOG. KRT18 expression was seen for the first time during compaction in some outer cells. KRT18 was not expressed in hESC. CONCLUSION We conclude that the protein expression patterns of markers that define stemness in ESC do not identify the totipotent cells in human preimplantation embryos. Assessing the presence of KRT18 proteins implied that the outer cells of compacting embryos have probably lost their totipotent competence prior to any visible differentiation.

GSK-3-specific inhibitor-supplemented hESC medium prevents the epithelial–mesenchymal transition process and the up-regulation of matrix metalloproteinases in hESCs cultured in feeder-free conditions

Feeder-free culture induces spontaneous differentiation of human embryonic stem cells (hESCs), identified as an epithelial to mesenchymal transition (EMT). The maintenance of pluripotency of hESCs in feeder-free cultures through the activation of the WNT pathway using a glycogen synthase kinase (GSK)-3-specific inhibitor (BIO) was reported. The aim of this study was to determine the effect of BIO on the EMT process. In contrast with those grown in feeder-free conditions with control medium, hESC colonies cultured with BIO-supplemented hESC medium did not show any fibroblast-like cells at the periphery. Transmission electron microscopy, relative quantitative real-time RT-PCR and immunostaining analyses showed the presence of epithelial features and a diminution of mesenchymal features in the BIO-treated hESCs such as a strong E-cadherin expression, the down-regulation of Vimentin, Snail and Slug expressions and a cytoplasmic beta-catenin expression. An up-regulation of matrix metalloproteinases (MMP) MMP-2, MMP-9, MT-1MMP (membrane-type 1 MMP) and EMMPRIN (extracellular MMP inducer) expression was also found associated with the EMT occurring in feeder-free hESCs cultures using mouse embryonic fibroblasts conditioned medium (MEF CM). The presence of BIO clearly down-regulated the expression of these MMPs. This study showed that BIO, a GSK-3-specific inhibitor, prevents the EMT process which is associated with the feeder-free hESC culture. Nevertheless, BIO was not sufficient to expand hESCs in a long-term culture system.

Neonatal follow-up of 995 consecutively born children after embryo biopsy for PGD

BACKGROUND Outcome data on children born after assisted reproduction treatments are important for both patients and health-care providers. The objective of this study was to determine whether embryo biopsy as performed in PGD has an impact on the health of infants up to 2 months of age. METHODS A prospective comparative follow-up study of children born after PGD and children born after ICSI by collecting written reports and performing a physical examination at 2 months was performed. Auxological data at birth and physical findings up to 2 months of age were compared for 995 children consecutively live born after embryo biopsy (1994-2009) and for a control group of 1507 children born after ICSI with embryo transfer on Day 5. RESULTS No differences regarding mean term, prematurity (term <32 w and <37 w), mean birthweight, very low birthweight (<1500 g), perinatal death, major malformations and neonatal hospitalizations in singletons and multiples born following PGD versus ICSI were observed. Compared with ICSI, fewer multiples born following PGD presented a low birthweight (<2500 g) (P = 0.005). CONCLUSIONS Embryo biopsy for PGD does not introduce extra risk to the overall medical condition of newborn children. Multiples born following embryo biopsy appear to be at lower risk for low birthweight compared with multiples born following ICSI.

Preimplantation genetic diagnosis for sickle‐cell anemia and for β‐thalassemia

We developed single‐cell polymerase chain reaction (PCR) assays for preimplantation genetic diagnosis (PGD) in couples carrying mutations in the β‐globin gene. With PGD the genetic status of an embryo obtained after intracytoplasmic sperm injection (ICSI) is determined by PCR analysis in single blastomeres, allowing only healthy embryos to be transferred to the uterus. We carried out nine PGD cycles using fluorescent PCR for two couples in whom the partners carried sickle‐cell trait. Both couples achieved pregnancies, one of which was spontaneously aborted. We have developed two β‐thalassemia PGD protocols: one for the analysis of the 25‐26delAA and the IVS2+1G>A mutation, and the other for the simultaneous detection of the IVS1+6T>C and the IVS1+110G>A mutations. For the second protocol, both non‐labelled PCR and later fluorescent PCR were used. Both protocols were applied in clinical cycles (two non‐labelled PCR cycles and one fluorescent PCR cycle) for two couples. The patient with the fluorescent PCR‐PGD cycle became pregnant. Overall, the three fluorescent PCR assays were accurate and reliable with amplification efficiencies of minimum 93% and allele dropout (ADO) rates between 0 and 12%. Copyright

DNA methylation patterns of spermatozoa and two generations of offspring obtained after murine spermatogonial stem cell transplantation

BACKGROUND Apart from its use in research, spermatogonial stem cell transplantation (SSCT) may have important clinical applications. This controlled study aimed at evaluating the safety of SSCT by analyzing the DNA methylation pattern of Igf2, Peg1 and alpha-Actin both in spermatozoa and live born offspring obtained after SSCT in mice. METHODS Testicular cell suspensions were transplanted to the testes of genetically sterile WW recipients. Transplanted males were mated with fertile females and their first and second generation offspring were examined and compared with controls with respect to weight, length and DNA methylation patterns. Sodium-bisulfite treated genomic DNA extracted from post-transplantation spermatozoa, liver, kidney and placenta of first and second generation offspring was PCR-amplified to obtain Igf2, Peg1 and alpha-Actin gene fragments. Pyrosequencing was used to individually quantify the resulting artificial C/T sequence variation at CpG sites. RESULTS First and second generation offspring developed normally with their length and weight not being different from controls. Also the DNA methylation patterns of Igf2, Peg1 and alpha-Actin were not different among controls and first and second generation offspring after SSCT. CONCLUSIONS SSCT between syngenic individuals was not associated with changes in fetal development nor with differences in the DNA methylation patterns of Igf2, Peg1 and alpha-Actin in spermatozoa or other tissues from two subsequent generations of offspring obtained after SSCT.

Cumulative reproductive outcome after preimplantation genetic diagnosis: a report on 1498 couples

BACKGROUND Couples undergoing preimplantation genetic diagnosis (PGD) have a different background and set of treatment characteristics to couples undergoing regular IVF or ICSI. The aim of this study was to analyse the cumulative reproductive outcome of a large cohort of couples undergoing PGD in relation to a number of explanatory variables potentially affecting the prognosis. METHODS Prospective cohort study, Kaplan-Meier analysis was performed to estimate real (observed) and expected (calculated) cumulative delivery rates, and Cox proportional hazard regression analysis was used to assess the effect of age, number of cumulus oocyte complexes collected, fertility status, parity, genetic category and method of pituitary suppression. RESULTS Between 1993 and 2005, 2753 unselected consecutive cycles of ICSI and PGD were carried out in 1498 couples. The cumulative observed delivery rate overall per couple with a maximum of six treatment cycles of ICSI and PGD performed was 29%. The expected cumulative delivery rate (max six cycles) overall was 62%. There were no significant differences in cumulative delivery rates between the different genetic categories (i.e. availability of transferable embryos after PGD of 50 or 75%, chromosomal translocations or aneuploidy screening). The cumulative reproductive outcome in this PGD cohort was also not significantly affected by the fertility status of the couple, their parity or the method of pituitary suppression. However, the age of the patient and the number of oocytes contributed significantly to the reproductive results. CONCLUSION This prospective observational study demonstrates that age has a significantly negative effect on outcome of PGD, due to poor reproductive performance of female partners 40 years of age and older. The number of oocytes collected has a significant and independent effect. The other factors studied did not affect the cumulative reproductive outcome in this PGD cohort.