Genetic Disorders and the Fetus. Группа авторов

Genetic Disorders and the Fetus - Группа авторов


Скачать книгу
233 434 99 16 99 Total 593 1016 838 1656 349 (41.6%) 58 (17%) 385 Schematic illustration of the preimplantation genetic testing for de novo tuberous sclerosis* type II deletion and preimplantation genetic testing for aneuploidies by next-generation sequencing. Of 15 oocytes tested by polar body analysis, ten were affected and five free of deletion. The embryos deriving from deletion-free oocytes were tested for aneuploidy by NGS; three of these were euploid (embryos 7, 12, and 17) and one (embryo 5) with monosomy 14. Two of the mutation-free euploid embryos were transferred in a frozen cycles, resulting in a twin pregnancy and birth of two unaffected children free from deletion.

      Despite clear advantages, the polar body approach does not provide diagnosis of the paternal alleles and the gender of the embryo and therefore cannot be used to avoid the transfer of male embryos in cases of the X‐linked disorders, unless specific diagnosis can be achieved on oocytes using the polar body approach (see later). The fact that the genotype of the oocyte is inferred from the genotype of the polar body, rather than determined directly is another weakness. In these situations, embryo biopsy becomes the much more comprehensive approach, with blastocyst biopsy currently being a standard procedure.

      The first clinical application of embryo biopsy for PGT by Handyside et al.19 was performed at the cleavage stage for X‐linked disorders by gender determination.19 The study of the viability of the biopsied pre‐embryos did not reveal any detrimental effect of these procedures: it was shown that more than 70 percent of the manipulated embryos reached blastocyst stage, with no significant reductions in cell number and energy substance (glucose and pyruvate) uptake.37

      Blastocyst biopsy for clinical purposes was first attempted over 20 years ago4143 and is currently a PGT standard.44, 45 This is also the method used in uterine lavage, which may soon appear as a realistic approach for PGT without IVF.46 Both mechanical4446 and laser techniques were used for blastocyst biopsy, which has become a method of choice in most centers, also resulting in improved pregnancy rates, particularly in frozen PGT cycles. The advantage of blastocyst biopsy over cleavage‐stage sampling was demonstrated by a well‐designed randomized controlled study.47 The procedure is performed as follows: On day 5 of embryo development, when the blastocyst begins to herniate through the zona pellucida, several herniated trophectoderm cells are removed by smooth aspiration into a biopsy pipette with an internal diameter of 30 μm through the zona pellucida, which is opposite the inner cell mass. To break down the tight junctions between trophectoderm cells, three laser shots are applied (with a duration of 0.7 ms pulse for each shot). In the selection of embryos for blastocyst biopsy, poor‐quality blastocysts and those with early stage herniation are avoided.

      It is also possible to perform blastocyst biopsy without the application of laser in order to avoid potential damage to the cells. The technique depends on the use of the force of surface tension on the boundary between the biopsy drop and the mineral oil culture medium, instead of laser pulses. The method can be applied only on grades 2 to 2–3 of the day 5 blastocysts, because the tight junction between trophectoderm cells of the early blastocyst (grades 2 and 2–3) is not as strong as the cell connection in the more advanced blastocyst (grades 3–4, 4, and higher). Grade 2 and 2–3 blastocysts are placed into 5 μL equilibrated culture media drops covered by 2 mL of equilibrated mineral oil, held by holding the pipette on the left side, while the biopsy pipette (interior diameter 25 μm) on the right side is used to suck 5–10 extruded trophectoderm cells into the pipette. The embryo is then moved onto the right edge of the biopsy drop with the biopsy pipette, moving slowly toward the inside of the oil environment, making a cytoplasm bridge between blastocyst and sample thinner, until it is finally removed and placed into a separate 5 μL culture media drop in the same dish. This procedure results in nonsticky trophectoderm samples with no evidence of damaged nuclei, with improved amplification efficiency.48

      As the time for analysis is limited by the implantation window, which is less than 24 hours, the technique of vitrification of biopsied blastocysts is now routine, allowing sufficient time before transfer of the tested embryos in a subsequent freeze–thaw cycle. It appears that this approach has also improved implantation and pregnancy rates, which could also be explained by the better receptivity of the uterus in unstimulated cycles. The other advantage of the method is that the embryo has already passed the natural self‐correction mechanisms, overcoming the natural errors of the cleavage stage, thus enabling the diagnosis of only persisting abnormalities.

      Prospects for noninvasive preimplantation genetic testing


Скачать книгу