Retrospective comparison of two media for invitro maturation of oocytes

In-vitro maturation of oocytes (IVM) is a new IVF technology developed in order to avoid iatrogenic complications of standard IVF treatments. This technique is particularly useful in patients suffering from polycystic ovary syndrome (PCOS) who are concerned with the risk of ovarian hyperstimulation syndrome. This technique is nowadays routinely practised in many international centres. However, the efficiency of this technique needs to be improved for a better support of maturation conditions to maximize oocyte developmental competence. In order to improve IVM results, the efficiency of two IVM media was retrospectively compared. Ninety-three PCOS candidates undergoing their first IVM cycle were included in this study, and IVM was conducted with TCM-199 or IVM-Medicult medium. This is the first study comparing two maturation media. Both media resulted in the same results concerning total oocyte maturation, fertilization, early embryo development and pregnancy rates.     

Optimising the semi natural cycle IVF: the importance of follicular flushing

To evaluate the importance of follicular flushing on semi natural cycles IVF, we have compared prospectively the reproductive potential of oocytes obtained from follicular fluid (group A, n = 79) to those obtained from follicular flushing (group B, n = 47) in 146 oocyte pick-ups. The groups A and B were similar on the fertilisation rate (79.7% versus 88.1%, respectively), percentage of superior grade embryos (28.8% versus 37.8%) and the implantation rate (24.1% versus 44.1%) and 53.6% of total clinical pregnancies were obtained from group B. The practice of follicular flushing on IVF semi natural cycle improves the pregnancy rate. The oocytes obtained by follicular flushing had the same reproductive potential than those obtained on follicular fluid.     

Single-sperm analysis for recurrence risk assessment of spinal muscular atrophy

With the detection of a homozygous deletion of the survival motor neuron 1 gene (SMN1), prenatal and preimplantation genetic diagnosis (PGD) for spinal muscular atrophy has become feasible and widely applied. The finding of a de novo rearrangement, resulting in the loss of the SMN1 gene, reduces the recurrence risk from 25% to a lower percentage, the residual risk arising from recurrent de novo mutation or germline mosaicism. In a couple referred to our PGD center because their first child was affected with SMA, the male partner was shown to carry two SMN1 copies. An analysis of the SMN1 gene and two flanking markers was performed on 12 single spermatozoa, to determine whether the father carried a CIS duplication of the SMN1 gene on one chromosome and was a carrier, or if the deletion has occurred de novo. We showed that all spermatozoa that were carriers of the ‘at-risk haplotype'' were deleted for the SMN1 gene, confirming the carrier status of the father. We provide an original application of single germ cell studies to recessive disorders using coamplification of the gene and its linked markers. This efficient and easy procedure might be useful to elucidate complex genetic situations when samples from other family members are not available.     

MLPA and sequence analysis of DPY19L2 reveals point mutations causing globozoospermia

STUDY QUESTION: Do DPY19L2 heterozygous deletions and point mutations account for some cases of globozoospermia? SUMMARY ANSWER: Two DPY19L2 heterozygous deletions and three point mutations were identified, thus further confirming that genetic alterations of the DPY19L2 gene are the main cause of globozoospermia and indicating that DPY19L2 molecular diagnostics should not be stopped in the absence of a homozygous gene deletion. WHAT IS KNOWN ALREADY: Globozoospermia is a rare phenotype of primary male infertility characterized by the production of a majority of round-headed spermatozoa without acrosome. We demonstrated previously that most cases in man were caused by a recurrent homozygous deletion of the totality of the DPY19L2 gene, preventing sperm head elongation and acrosome formation. In mammals, DPY19L2 has three paralogs of yet unknown function and one highly homologous pseudogene showing >95% sequence identity with DPY19L2. Specific amplification and sequencing of DPY19L2 have so far been hampered by the presence of this pseudogene which has greatly complicated specific amplification and sequencing. STUDY DESIGN, SIZE, DURATION: In this cohort study, 34 patients presenting with globozoospermia were recruited during routine infertility treatment in infertility centers in France and Tunisia between January 2008 and December 2011. The molecular variants identified in patients were screened in 200 individuals from the general population to exclude frequent non-pathological polymorphisms. PARTICIPANTS/MATERIALS, SETTING, METHODS: We developed a Multiplex Ligation-dependent Probe Amplification test to detect the presence of heterozygous deletions and identified the conditions to specifically amplify and sequence the 22 exons and intronic boundaries of the DPY19L2 gene. The pathogenicity of the identified mutations and their action on the protein were evaluated in silico. MAIN RESULTS AND THE ROLE OF CHANCE: There were 23 patients who were homozygous for the DPY19L2 deletion (67.6%). Only eight of the eleven non-homozygously deleted patients could be sequenced due to poor DNA quality of three patients. Two patients were compound heterozygous carrying one DPY19L2 deleted allele associated respectively with a nonsense (p.Q342*) and a missense mutation (p.R290H). One patient was homozygous for p.M358K, another missense mutation affecting a highly conserved amino acid. Due to the localization of this mutation and the physicochemical properties of the substituted amino acids, we believe that this variant is likely to disrupt one of the protein transmembrane domains and destabilize the protein. Overall, 84% of the fully analysed patients (n = 31) had a molecular alteration of DPY19L2. There was no clear phenotypic difference between the homozygous deleted individual, patients carrying a point mutation and undiagnosed patients. LIMITATIONS, REASONS FOR CAUTION: Globally poor fertilization rates are observed after intracytoplasmic sperm injection of round spermatozoa. Further work is needed to assess whether DPY19L2 mutated patients present a better or worse prognostic than the non-diagnosed patients. Evaluation of the potential benefit of treatment with a calcium ionophore, described to improve fertilization, should be evaluated in these two groups. WIDER IMPLICATIONS OF THE FINDINGS: In previous work, deletions of DPY19L2 had only been identified in North African patients. Here we have identified DPY19L2 deletions and point mutations in European patients, indicating that globozoospemia caused by a molecular defect of DPY19L2 can be expected in individuals from any ethnic background. STUDY FUNDING/COMPETING INTEREST(S): None of the authors have any competing interest. This work is part of the project 'Identification and Characterization of Genes Involved in Infertility (ICG2I)' funded by the program GENOPAT 2009 from the French Research Agency (ANR).     

In vitro maturation of oocytes: an option for fertility preservation in women

Although female cancer incidence may be on rise, antineoplastic regimens have become more successful. As a result, an increasing number of women with cancer survive to endure the long-term consequences of chemotherapy. One of the most important long-term consequences of cancers treatments in young female is premature ovarian failure and infertility. Because of the increasing survival rates, many of these young women are seeking methods to preserve their fertility. Currently, embryo/oocytes cryoporeservation obtained after ovarian stimulation appears to provide the best fertility preservation option. However, patients may not have sufficient time to undergo ovarian stimulation prior to chemotherapy and/or the hormones used in ovarian stimulation are contra-indicated for estrogen-dependant tumors. In vitro maturation of oocytes (IVM) has been suggested to avoid ovarian stimulation and time requirement in patients with cancer, and can be combined with ovarian tissue cryobanking. In this review, we will discuss the position of IVM in the strategy of fertility preservation in young women.     

Preimplantation genetic diagnosis: State of the art

Preimplantation genetic diagnosis (PGD) is used to analyze embryos genetically before their transfer into the uterus. It was developed first in England in 1990, as part of progress in reproductive medicine, genetic and molecular biology. PGD offers couples at risk the chance to have an unaffected child, without facing termination of pregnancy. Embryos are obtained by in vitro fertilization with intracytoplasmic sperm injection (ICSI), and are biopsied mostly on day 3; blastocyst biopsy is mentioned as a possible alternative. The genetic analysis is performed on one or two blastomeres, by fluorescent in situ hybridization (FISH) for cytogenetic diagnosis, or polymerase chain reaction (PCR) for molecular diagnosis. Genetic analysis of the first or second polar body can be used to study maternal genetic contribution. Only unaffected embryos are transferred into the uterus. To improve the accuracy of the diagnosis, new technologies are emerging, with comparative genomic hybridization (CGH) and microarrays.     

Anti-MOG associated disease with intracranial hypertension after COVID-19 vaccination

Journal of Neurology -     

Chromosomal translocations and semen quality: A study on 144 male translocation carriers

Research question

Chromosomal translocations are known genetic causes of male infertility. Are certain translocations or chromosomal regions more directly associated with sperm defects? Is there a threshold of sperm impairment that can be relevant for detection of translocations?

Segregation of mtDNA throughout human embryofetal development: m.3243A>G as a model system

Mitochondrial DNA (mtDNA) mutations cause a wide range of serious diseases with high transmission risk and maternal inheritance. Tissue heterogeneity of the heteroplasmy rate ("mutant load") accounts for the wide phenotypic spectrum observed in carriers. Owing to the absence of therapy, couples at risk to transmit such disorders commonly ask for prenatal (PND) or preimplantation diagnosis (PGD). The lack of data regarding heteroplasmy distribution throughout intrauterine development, however, hampers the implementation of such procedures. We tracked the segregation of the m.3243A>G mutation (MT-TL1 gene) responsible for the MELAS syndrome in the developing embryo/fetus, using tissues and cells from eight carrier females, their 38 embryos and 12 fetuses. Mutant mtDNA segregation was found to be governed by random genetic drift, during oogenesis and somatic tissue development. The size of the bottleneck operating for m.3243A>G during oogenesis was shown to be individual-dependent. Comparison with data we achieved for the m.8993T>G mutation (MT-ATP6 gene), responsible for the NARP/Leigh syndrome, indicates that these mutations differentially influence mtDNA segregation during oogenesis, while their impact is similar in developing somatic tissues. These data have major consequences for PND and PGD procedures in mtDNA inherited disorders.