Dynamics of sperm DNA fragmentation in raw boar semen and fertility.

Abstract

The aims were to evaluate sperm DNA fragmentation (SDF) in boars through the dispersion of their chromatin in raw semen samples, quantifying the extent of SDF, and to assess dynamic aspects of sperm DNA damage after incubation to obtain the rate of sperm DNA fragmentation (rSDF) under thermal conditions similar to the uterus (37°C) over a period of up to 24hr and to correlate the reproductive outcome of the sows with the SDF of the boars at ejaculation. The study was performed on a pig-breeding farm in southern Uruguay. Sixty-one ejaculates from five of the most frequently used hybrid boars were evaluated. Semen was collected weekly from each of the boars, using the gloved-hand technique and discarding the jelly-like fraction of the ejaculate. Fresh semen was kept in a water bath at 37°C and protected from light, and was thereafter processed with Sperm-Sus-Halomax(®) to evaluate SDF. The smears for time 0 (T0) were made on farm, and thereafter smears were made at the laboratory at 4hr of obtaining the semen (T4), then every 2hr (T6, T8, T10, T12) and a final fixation at 24hr (T24). Differences in SDF were observed among exposure times for all boars (p<.05), but not between T10 and T12 (p=.7751) nor T4 and T24 (p=.9113). In none of the T24 samples, sperm heads could be seen with chromatin dispersion halos. Furthermore, there were differences among boars when comparing sperm rSDF (p<.05). Farrowing rate was not affected by SDF at T0 (r=.38, p=.75), nor was litter size (r=.16, p=.70). With the present experimental conditions, we have not been able to show a relationship between sperm DNA fragmentation at ejaculation and reproductive performance. However, this could be a result of the low number of ejaculates and boars used.