Sperm motion predicts fertility in male hamsters treated with alpha-chlorohydrin

An understanding of the relationship between altered sperm motion and sperm function (fertility) is important when interpreting the biological significance of toxicant‐induced changes in sperm velocity in rodent test species. Previous studies showed that a brief (4‐day) exposure of male hamsters to...

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Bibliographic Details
Published in:Journal of andrology Vol. 18; no. 6; pp. 708 - 716
Main Authors: Slott, V. L, Jeffay, S. C, Dyer, C. J, Barbee, R. R, Perreault, S. D
Format: Journal Article
Language:English
Published: Oxford, UK Am Soc Andrology 01-11-1997
Blackwell Publishing Ltd
American Society of Andrology
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Summary:An understanding of the relationship between altered sperm motion and sperm function (fertility) is important when interpreting the biological significance of toxicant‐induced changes in sperm velocity in rodent test species. Previous studies showed that a brief (4‐day) exposure of male hamsters to the model chemical α‐chlorohydrln (ACH) results in significant deficits in epididymal and uterine sperm velocity, which are associated with both a delay and a failure of fertilization in vivo. To characterize this effect in terms of fertility, similarly treated male hamsters were bred to untreated females and pups were counted the day before parturition. ACH treatment resulted in a dose‐dependent decline in the percentage of sperm‐positive females that were pregnant at the end of gestation (100, 78, 67, 22, and 0 where males were treated with 0, 33, 49, 66, and 83 mg ACH/kg/day, respectively). Cauda epididymal sperm from the same males were assayed for motion characteristics using computer‐assisted sperm analysis (CASA), and for fertilizing ability in vitro. While the percentage of motile sperm was unaffected by ACH treatment, sperm velocity declined in a dose‐dependent manner at all ACH treatment levels. Futhermore, the velocity of sperm from infertile males was shifted downward consistently across the entire velocity distribution. Since treated males tended to either be infertile (no pups) or have near normal litter size, the correlation between sperm velocity and litter size was nonlinear. Therefore, logistic regression models using velocity cut‐off values were the most useful models for predicting fertility. These results support the contention that fertility relies on there being a sufficient number of sperm that exceed a velocity threshold. Sperm from treated males were also less likely to support in vitro fertilization (IVF), providing further evidence of impaired sperm function associated with acute exposure to ACH.
ISSN:0196-3635
1939-4640
DOI:10.1002/j.1939-4640.1997.tb02448.x