Use of high sperm concentrations for IVF results in high rates of pene
tration and polyspermy. To optimize the use of IVM-IVF for comparisons
of semen quality, we determined the effect of using decreasing sperm
concentrations on penetration, polyspermy and male pronuclear (MPN) fo
rmation rates and average number of spermatozoa per oocyte in standard
ized ejaculate fractions from 3 adult boars of different breeds. Raw s
emen values of the 3 boars during the period of IVF experiment were re
corded for analysis. Standardized aliquots of the first sperm-rich fra
ction were collected (main plot) on 4 occasions. Each semen sample was
serially diluted to 5 x 10(5), 2.5 x 10(5), 1.25 x 10(5), 6.25 x 10(4
) and 3.125 x 10(4) sperm cell/mL for IVF (sub-plot). Oocyte-cumulus c
ell complexes collected by aspiration from slaughterhouse ovaries were
cultured in vitro using standard procedures. Penetration, polyspermy
and MPN formation rates were significantly affected by boars (all P<0.
001), semen dilutions (all P<0.001) and their interactions (all P<0.05
). Penetration rates were lower (P<0.05) for the 5 semen dilutions in
Boar C (LSM 69.5, 58, 44.3, 25 and 10%) compared with Boar A (LSM 100,
100, 100, 97.5 and 92%) and Boar B (LSM 100, 94.7, 100, 92.8 and 88.3
%); these differences were highly correlated to sperm motility assesse
d at Day 7 after semen collection. Semen dilution in Boar C resulted i
n a significant decrease in penetration rate but had no effect in Boar
s A and B over the range of dilutions used. Conversely, although semen
dilution in Boars A and B decreased (P<0.05) rate of polyspermy (LSM
100, 100, 78, 60.8, and 32.2%; and 100, 97.7, 64.3, 37.8, and 34.5%, r
espectively), and average number of spermatozoa per oocyte (LSM 9.1, 5
.8, 3.7, 2.3, and 1.4; and LSM 8, 5.1, 3.1, 1.9 and 1, respectively),
there was no effect in Boar C. Because of these interaction effects, t
he optimal sperm:oocyte ratio for maximal MPN formation rate was diffe
rent among boars. In conclusion, serial dilution of semen used in the
IVM/IVF systems effectively discriminates semen quality. Together with
Day 7 motility estimates, this may allow effective prediction of rela
tive boar fertility.