Effect of number of pig embryos in the uterus on their survival and development and on maternal metabolism.

Abstract

The effects of pig embryo number on fetal survival and growth and maternal metabolism were evaluated with 114 Large White gilts. Gilts were assigned at 38 kg to three treatments: control (CTR), ligature of the left oviduct (LIG), or right hemi-hysteroovariectomy (HHO). Insemination occurred at 311 +/- 18 d of age. A laparotomy was performed at d 35 of gestation, and gilts were slaughtered at d 112. Ovulation rate per uterine horn was 4.30, 8.70, and 17.12 in the LIG, CTR, and HHO groups, respectively. The hierarchy was the same for litter size at d 35 of gestation, but the relative differences were reduced (3.24, 5.98, and 8.40 fetuses/uterine horn, respectively). Litter size per uterine horn was similar in the CTR and HHO groups at d 112 of pregnancy (2.93, 4.69, and 4.76 fetuses in the LIG, CTR, and HHO groups, respectively). Early (before d 35 of gestation), late, and total fetal mortality increased with embryo potential per uterine horn. There was a compensation between early and late fetal mortality in the CTR and HHO groups. Fetal weight at d 112 was related to litter size in early pregnancy (1.50, 1.38, and 1.27 kg in the LIG, CTR, and HHO groups, respectively). Uterine capacity limits litter size and fetal development, even in sows with a conventional potential of embryos. Availability of energetic and gluconeogenic substrates was higher at 110 than at 60 d of gestation in the three groups. Blood substrate levels suggested that lipid mobilization and glucose uptake were higher in the gilts with a larger litter weight.