This pilot study was conducted to explore the benefits of using a centrifugation-free device based on the migration-sedimentation (MS) technique over centrifugation-based techniques in selecting competent spermatozoa, as compared with using split human semen samples. Ejaculates from 35 men undergoing semen analysis were split into four parts where one part was retained as the neat (NE) and the other three parts were subjected to sperm selection by using migration-sedimentation (MS), density gradient (DG) separation, and swim-up (SU) techniques. Sperm functional characteristics along with mitochondrial integrity, tyrosine phosphorylation, acrosome reaction, and ultrastructure were measured. The ability of selection techniques in reducing spontaneous and radiation-induced sperm DNA lesions was assessed by the TUNEL assay. In results, MS-selected spermatozoa had higher viability (P < 0.001), longevity in terms of total motility at the end of 6 and 18 h post-extraction (P < 0.001), and mitochondrial integrity (P < 0.001) compared with those selected by DG. Furthermore, spontaneous DNA lesions were significantly reduced in MS and SU fractions compared with NE (P < 0.001). Similarly, radiation-induced sperm DNA lesions were significantly lower in MS and SU fractions (P < 0.001) compared with DG. Ultrastructural analysis using scanning electron microscopy suggested a moderate, non-significant increase in the number of spermatozoa with normal head and mid-piece in MS fraction compared with other methods. In conclusion, the MS-based device offers a centrifugation-free, efficient, and reliable sperm selection method, making it suitable for partially equipped intra-uterine insemination (IUI) laboratories or office IUI programmes. Further research should focus on the safety and clinical usefulness of the device in assisted conception programmes in general and IUI in specific.
Concern about fertility impairment after vaccination is one of the reasons for vaccine hesitancy in the population. This retrospective observational study aims to understand the impact of CovishieldTM (ChAdOx1 nCoV- 19 Corona Virus Vaccine, Recombinant) COVID-19 vaccination on ejaculate quality in fifty-three patients undergoing semen analysis between 2018 to 2021. A baseline semen profile was recorded from the subjects during their visit before the vaccination for fertility work-up. Follow-up ejaculates were provided approximately 82 (Q1:37, Q3:124) days after the second dose of vaccination. Semen characteristics such as volume, sperm concentration, sperm motility, and morphological abnormalities were recorded. Of the 53 subjects, 33 (62%) had semen characteristics above the WHO reference. In general, no significant variations in the semen parameters were observed except for a moderate decline in sperm morphology (p< 0.05). The baseline semen characteristics in 20 (38%) subjects were below the WHO reference range; however, no significant decline in the ejaculate quality was observed in their follow-up samples. Further, none of the ejaculates in both study groups were azoospermic during the follow-up evaluation. Our results affirm that CovishieldTM vaccine is not detrimental to male fertility.
Background:No association between the length of ejaculatory abstinence (LEA) and semen characteristics has been confirmed. A short LEA has been linked to improved sperm characteristics and a higher pregnancy rate, but its negative influence on sperm chromatin maturity and longevity may adversely affect reproductive outcomes. Objectives:We sought to determine the influence of LEA on (i) semen parameters in normozoospermic and abnormal ejaculates; and (ii) the outcomes of spermpreparation methods in a large number of subfertile men undergoing infertility workups. Materials and methods:This retrospective registry-based cohort study analyzed the data of 10,674 ejaculates from 7972 subfertile men, who were then segregated into normozoospermic, oligozoospermic, asthenozoospermic, and oligoasthenozoospermic cohorts. Variations in semen characteristics and post-wash outcomes were studied between four LEA intervals across 0-15 days.Results: An age-adjusted analysis of covariance (ANCOVA) model linked significant increases in ejaculate volume, sperm concentration (except in the oligozoospermic cohort), and total sperm count to an increased LEA (p < 0.05). LEA was negatively associated with motility (except in the asthenozoospermic cohort) and vitality (p < 0.05).Large-headed spermatozoa were less common with an increased LEA only in the oligoasthenozoospermic cohort (p < 0.05). In the normozoospermic cohort, a longer LEA led to fewer spermatozoa with amorphous heads but more spermatozoa with tapered heads and cytoplasmic droplets (p < 0.05). LEA extension resulted in greater sperm DNA fragmentation in the abnormal cohort (p < 0.01). The post-wash sperm concentration and total motile sperm count were significantly improved with a longer LEA in the normozoospermic cohort (p < 0.05). Discussion and conclusion:Considering the findings in this study and existing literature, a generalized recommendation for long LEA has no clinical value. The LEA should be individualized based on the ejaculate profile and the need for specific clinical intervention.
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