Pascual Sánchez-Martín scite author profile

This study was conducted to test the hypothesis that continuous epididymal sperm depletion after recurrent ejaculations (REC) in contrast to a period of abstinence (ABS) results in a decreased level of sperm DNA fragmentation (SDF) and a consequent increased rate of pregnancy. Forty couples undergoing intra-cytoplasmic injection (ICSI) were asked to abstain from ejaculation for a period of 4 days and then ejaculate once per day for a period of 4 days, followed by a period of abstinence for 12 hours; sperm samples obtained after ABS and REC were assessed for volume, concentration, motility, and SDF and compared in 25 of the patients. Additionally, and in a different experiment, the pregnancy rate of this experimental group (40 couples) was compared to a control group of 150 couples in which the males had abstained from ejaculation for 4 days prior to ejaculation. Sperm selection was performed using density gradient centrifugation prior to ICSI. Semen quality in the REC group that was assessed over the course of the ejaculation schedule showed a decrease in semen volume (67%) and SDF (27%) following sperm selection; there was no difference for sperm motility or sperm concentration. When the pregnancy rate between the 40 couples in the REC group and 150 couples in the control ABS group were compared, the REC group had a pregnancy rate of 56.4% (25/40), whereas the ABS rate was only 43.3% (65/150) (p = 0.030). We conclude that recurrent ejaculation every 24 hours for four days with a final abstinence of 12 hours, combined with sperm selection using density gradient centrifugation, produces a significant increase in pregnancy rate when using ICSI. As ICSI was the strategy selected for fertilization, we propose that the observed reduction in SDF was the primary factor leading to improved reproductive outcome.

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The Effect of Copper on Endometrial Receptivity and Induction of Apoptosis on Decidualized Human Endometrial Stromal Cells

Carrascosa¹,

Cotán²,

Jurado³

et al. 2018

Reprod. Sci.

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Intrauterine devices (IUDs) have been widely used to prevent pregnancies with great efficacy during decades. It has been demonstrated that IUD alters the endometrial gene expression, but there is no scientific data about how copper, a metal commonly used in these devices, by itself, is able to influence the processes of endometrial receptivity and apoptosis in decidualized human endometrial stromal cells. Five endometrial samples were obtained from fertile women and processed by a standard protocol to obtain human endometrial stromal cells for in vitro studies. Stromal cells were cultured in vitro and decidualized for 8 days. At day 6, copper was added to the treatment group or camptothecin as positive control for apoptosis until day 8. Five endometrial samples were used in each group. The aim of this study was to analyze the effect of copper in apoptosis and necrosis by flow cytometry, to visualize the apoptotic microtubule network during apoptosis by immunofluorescence, and finally to determine the gene expression profile of a panel of 192 genes related to endometrial receptivity and immune system by quantitative reverse transcription PCR (RT-qPCR). Copper, compared to the decidualized group, induced changes in the gene expression by an order of magnitude in 49 genes (42 up- and 9 downregulated). This alteration in the decidualization gene signature by copper includes 19 genes involved in the endometriosis pathology and others related to other gynecological disorders such as preeclampsia and infertility. Our results indicate that copper does not increase the apoptosis level induced by the decidualization treatment. However, copper alters the gene expression of some biomarkers of endometrial receptivity and immune response.

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Magnetic cell sorting of semen containing spermatozoa with high DNA fragmentation in ICSI cycles decreases miscarriage rate

Sánchez-Martín¹,

Dorado-Silva²,

Sánchez-Martín³

et al. 2017

Reproductive BioMedicine Online

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¿A qué velocidad «muere» el ácido desoxirribonucleico del espermatozoide tras descongelar muestras seminales procedentes de donantes?

Gosálvez

Garcia-Ochoa²,

Ruiz-Jorro³

et al. 2013

Revista Internacional de Andrología

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Magnetic-activated cell sorting is not completely effective at reducing sperm DNA fragmentation

Martínez¹,

Sánchez-Martín²,

Dorado-Silva³

et al. 2018

J Assist Reprod Genet

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MACS is capable of reducing the proportion of SDF, especially spermatozoa with a highly degraded DNA molecule. However, this reduction did not preclude the presence of a small subpopulation of spermatozoa with damaged DNA in the MACS- fraction. The MACS protocol was two- to threefold more efficient when the SDF in NEAT ejaculate was equal to or greater than 30%. In 4 of 20 individuals, the level of SDF after MACS resulted in semen for ICSI with a higher or non-significant reduction when compared to SDF observed in the NEAT ejaculate.

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Sperm DNA fragmentation in donors and normozoospermic patients attending for a first spermiogram: Static and dynamic assessment

et al. 2018

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Static assessment of sperm DNA Fragmentation (SDF at the time of ejaculation or sperm thawing when cryopreserved) and the dynamic assessment of SDF (SDF assessed after T2 hr, T6 hr and T24 hr of sperm thawing) were used to establish cut-off values associated with sperm donors when compared with closely related normozoospermic patients. Cryopreserved samples from donors revealed SDF levels two times lower in comparison with the patients. Donor sperm DNA exhibited a 2.5 times higher longevity when compared with the patients. Static values of SDF after thawing of approximately 11% identify the donors with a 71% of sensitivity and 84% specificity. With respect to the dynamic assessment, SDF increases of 2.3 per hr during the first 2 hr of incubation identify the donors with 70% of sensitivity and 66% of specificity. Creating the Rate of Combined Damage (RCD) defined as the product of SDF-T by the increase in the damage registered during the first 2 hr of incubation (r-SDF-T ), an index of RCD = 22.2 units has an identification capacity of donors with a 78% sensitivity and 77% specificity. Such cut-off values could be used to characterise donors with high chromatin resistance to damage when meeting the above-established criteria.

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