Purpose To compare the outcomes of embryos selected via time lapse monitoring (TLM) versus those selected with conventional methods of selection in subfertile women undergoing ICSI. Methods The study population (239 women) was classified into two groups, based on the monitoring method used: Group 1 (TLM) and Group 2 (conventional monitoring). Groups were compared according to the clinical and ICSI cycle characteristics and reproductive outcomes, while transfers were performed at day 2 or 3. Subgroup analyses were performed, in women of both groups according to age and clinical parameters, and in embryos of Group 1 based on their cellular events.Results There was a statistically significant difference between the two study groups with regard to the outcome parameters, favoring Group 1 and especially in women >40 years of age. No differences were found in subgroup analyses in participants of both groups, regarding the stimulation protocol used, number of the oocytes retrieved and type of subfertility, while in Group 1 the percentages of "in range" cellular events were higher in certain divisions in ages 35-40, non-smokers, and the GnRH-agonist group, and in embryos that resulted in pregnancy. Conclusion Morphokinetic parameters of early embryo development via TLM are related to the characteristics of subfertile patients and associated with ICSI outcomes.
Sickle-cell and beta-thalassemia syndromes are priority genetic diseases for prevention programs involving population screening with the option of prenatal diagnosis for carrier couples. Preimplantation genetic diagnosis (PGD) represents a specialized alternative to prenatal diagnosis and is most appropriately used for couples with an unsuccessful reproductive history and/or undergoing assisted reproduction. However, clinical application of PGD has been hindered by difficulties in reliably transferring molecular diagnostic protocols to the single-cell level. We standardized and validated a protocol involving first-round multiplex PCR, amplifying the region of the beta-globin gene containing most of the common disease mutations world-wide and two unlinked microsatellite markers (GABRB3 and D13S314), followed by: 1) analysis of beta-globin genotypes with real-time PCR and 2) microsatellite sizing to exclude chance contamination. The protocol was standardized on 100 single lymphocytes from a beta-thalassemia heterozygote, including 15 artificially contaminated samples, the latter demonstrated through microsatellite analysis. PCR failure and allele drop-out (ADO) were observed in one (uncontaminated) sample each (1.2%). A pilot study in six clinical PGD cycles with five different beta-globin genotype interactions achieved results (in 5-6 hr) in 46 out of 50 single blastomeres (92%), all concordant with results from an established PGD method applied simultaneously; microsatellite analysis detected only parental alleles, excluding contamination. Beta-globin genotypes were also confirmed in two blastomeres through prenatal diagnosis (twin pregnancy), and in 11 out of 12 spare embryos, revealing one incident of ADO. Overall, the protocol proved to be sensitive, accurate, reliable, rapid, and applicable for many genotype interactions, with internal monitoring of contamination, thus fulfilling all requirements for clinical PGD application.
Preimplantation genetic diagnosis (PGD) offers couples at risk for transmitting an inherited disorder the possibility to avoid the need to terminate affected pregnancies, since it allows the selection of unaffected IVF embryos for transfer. PGD for monogenic diseases is most commonly accomplished by blastomere biopsy from cleavage stage embryos, followed by polymerase chain reaction (PCR)-based DNA analysis. However, PCR-based DNA analysis of single cells is subject to several problems including sample contamination, total PCR failure, or failure of one allele to amplify--a phenomenon known as allelic drop-out (ADO). Furthermore, the molecular heterogeneity of many monogenic diseases requires a diagnostic strategy capable of detecting a spectrum of mutations and compound genotypes. With the above considerations we developed an accurate and reliable strategy for analysis of beta-globin gene mutations, applicable for PGD for the wide spectrum of beta-thalassaemia major genotypes in the Greek population. The strategy involves nested PCR followed by denaturing gradient gel electrophoresis (DGGE) analysis. DGGE is an advantageous method for mutation detection since it facilitates simultaneous analysis of more than one mutation in a single PCR fragment, it identifies the presence of normal alleles and in addition can monitor the occurrence of ADO. This report describes the application of the DGGE-based diagnostic strategy in 11 clinical IVF/PGD cycles, in 10 couples at risk for transmitting beta-thalassaemia major. The transfer of at least one embryo diagnosed as unaffected for beta-thalassaemia major in nine couples has resulted in the initiation of six pregnancies. Four pregnancies have so far been confirmed as unaffected for beta-thalassaemia major by first or second-trimester prenatal diagnosis, two of which have resulted in the birth of two healthy babies. Three singleton pregnancies are still on-going and one ectopic pregnancy was terminated.
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