Infertility, Male Clinical Trial
Official title:
Evaluation of Embryo Quality After Enrichment of Non-apoptotic Spermatozoa Using Magnetic-activated Cell Sorting (MACS): Study on Sibling Oocytes.
This clinical study has been organised to help improve the embryo quality in couples having high rate of sperm showing apoptotic signs. For this, the investigators intend to use a procedure (MACS: magnetic-activated cell sorting) that allows the identification and the removal of the apoptotic sperm cells. This procedure will increase the chance of using non-apoptotic sperm during in vitro fertilization via Intracytoplasmic Sperm Injection (ICSI). By using this procedure the investigators aim to increase the rate of embryos with good quality for these particular couples.
Studies of infertile couples have demonstrated that male factor plays a role in infertility.
Spermatozoa can present damages at molecular levels that have an effect on fertilization and
embryo development. One of these molecular damages is represented by DeoxyriboNucleic Acid
(DNA) fragmentation whose negative impact on embryological outcome appears during genome
activation after fertilization and is also correlated with increased miscarriage rate.
DNA fragmentation represents one of the late manifestations of apoptosis. Identification of
spermatozoa showing DNA fragmentation (apoptotic spermatozoa) requires fixation and staining.
Therefore this method cannot be applied in clinical practice to select for non-apoptotic
spermatozoa for ICSI. However, this selection is possible by using magnetic-activated cell
sorting (MACS). The procedure is based on the identification and depletion of spermatozoa
showing the early marker of apoptosis, namely the externalization of phosphatidylserine (PS),
by using the ability of Annexin V to recognize this antigen in the plasma membrane of
apoptotic sperm cells. After MACS, the fraction that is enriched in non-apoptotic cells
(Annexin V-negative cells) can be further used for clinical application.
The MACS system makes use of a separation column placed in a magnetic field, and of Annexin-V
reagent labeled with paramagnetic beads.
Initially, the semen sample will be subject to Density Gradient Centrifugation (DGC). The
sample obtained will be divided in 2 fractions: one fraction will be subject to magnetic
sorting (fraction 1) and the other fraction will represent the control (no sorting; fraction
2).
The cells from fraction 1 will be incubated with Annexin-V and then passed through the
separation column located in a magnetic field. The apoptotic cells (Annexin V-positive cells)
will be selectively retained in the column. The non-apoptotic cells, not being labeled by
Annexin V, will pass through the column and will be collected for further use.
At the moment of ICSI, sibling mature oocytes will be inseminated with spermatozoa from
fraction 1 (enriched in non-apoptotic cells) or from fraction 2 (control, conventionally
prepared spermatozoa). Following ICSI, all the inseminated oocytes will be individually
cultured in the same conditions in the same culture dish. The choice of embryo(s) for
transfer will be based on embryo quality. The supernumerary good-quality embryos from both
arms will be frozen for further use.
The present study aims to determine whether the use of MACS improves the embryo
quality/utilization rate in couples with high sperm DNA fragmentation rate. To avoid
inter-patient variation, the study is design as a sibling oocyte study. Descriptive
statistics will be performed by analysing median, mean, proportions, standard deviation,
ranges and 95% confidence intervals as appropriate. Standard parametric and non-parametric
tests will be used, as appropriate, to compare primary and secondary outcomes between groups.
Sample size calculation: a number of 142 mature oocytes in each arm will be necessary to
achieve 80% power of detecting, as significant at the 5% level, an increase in the primary
outcome measure from 13% in the control group to 26% in the experimental group.
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