Begoña Arguello scite author profile

The ultrastructure of human cervical mucus was studied by scanning electron microscopy. In fertile women, naturally occurring midcycle cervical mucus showed an arrangement of parallel fibers oriented along the main axis of the mucus sample. Sperm migration through a column of cervical mucus in vitro was also studied. It was found that sperm present among the longitudinal fibers were oriented parallel to the them and to the main axis of the mucus sample.

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Human sperm-cervical mucus interaction and the ability of spermatozoa to fuse with zona-free hamster oocytes

Barros¹,

Jedlicki²,

Fuenzalida³

et al. 1988

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Samples of semen and cervical mucus were provided by 18 couples. Cervical mucus was obtained for each day possible and stored at 4 degrees C until all the samples were collected. Flat capillary tubes were loaded with the mucous samples and spermatozoa from the husband's semen sample were allowed to migrate through the cervical mucus (3 cm column) into culture medium. The spermatozoa recovered after migration through cervical mucus were assayed in vitro with zona-free hamster oocytes. Control experiments were carried out using spermatozoa from the same semen sample but prepared by the swimming-up technique. Altogether, 557 eggs in the control group and 1236 eggs in the experimental group were analysed, and the results demonstrated that the % of sperm penetration, the mean number of sperm decondensations per penetrated egg and the mean number of spermatozoa adhering per egg all had higher values (P less than 0.05) for the control samples than for the experimental samples. We suggest that cervical mucus modifies human spermatozoa, as measured by their interaction with zona-free hamster oocytes.

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Begoña Arguello

Recent cigarette smoking and assisted reproductive technologies outcome

Decreased anti-Müllerian hormone concentration in follicular fluid of female smokers undergoing artificial reproductive techniques

Scanning electron microscope study of human cervical mucus

Human sperm-cervical mucus interaction and the ability of spermatozoa to fuse with zona-free hamster oocytes

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