Effects of different patterns of feed restriction and insulin treatment during the luteal phase on reproductive, metabolic, and endocrine parameters in cyclic gilts
Frcl. Almeida et al., Effects of different patterns of feed restriction and insulin treatment during the luteal phase on reproductive, metabolic, and endocrine parameters in cyclic gilts, J ANIM SCI, 79(1), 2001, pp. 200-212
The objectives of the present study were 1) to study potential effects of p
revious nutritional treatment on developmental competence of early fertiliz
ed oocytes in vitro; 2) to study responses to insulin treatment during the
period of feed restriction in the late luteal phase which has deleterious e
ffects on subsequent fertility; and 3) to establish the metabolic and endoc
rine status of gilts during treatment and the subsequent periestrous period
. Nineteen trios of littermate gilts were subjected to feed restriction dur
ing the first (RH) or second (HR) week of the estrous cycle. A second group
of KR gilts received injections of long-acting insulin during their period
of feed restriction (HR+I). Intensive sampling was performed in a subgroup
of 23 animals on d 15 and 16 of the cycle for analyses of endocrine (gonad
otropins and steroid hormones) and metabolic (insulin, IGF-I, leptin, total
triiodothyronine [T3], and free T3) variables. Gilts were checked for estr
us every 6 h, and time of ovulation was monitored by transcutaneous ultraso
nography. Surgeries were performed 12 to 20 h after ovulation, and the earl
y-fertilized oocytes recovered were cultured in vitro under standardized co
nditions. There was no treatment effect on the developmental competence of
fertilized oocytes in vitro; however, ovulation rate was increased in HR+I
gilts. No effect of treatment was observed on plasma leptin and IGF-I conce
ntrations on d 15 and 16. However, HR+I gilts had higher (P < 0.05) postpra
ndial insulin and lower (P < 0.05) postprandial total and free T3 on d 15.
Plasma concentrations of LH, FSH, and progesterone on d 15 and 16 and plasm
a estradiol concentrations on d 16 were not affected by previous nutritiona
l or insulin treatment. In the periestrous period, plasma concentrations of
LH, FSH, and estradiol were higher (P < 0.05) in RH and HR+I, and the rise
in plasma progesterone after the LH surge was lower (P < 0.05), than in Hn
gilts. No effect of treatment was observed on plasma concentrations of met
abolic hormones, except on plasma leptin concentrations, which were higher
(P < 0.05) at the time of the LH surge in RI-I: gilts. These results sugges
t that feed restriction during the late luteal phase may have deleterious e
ffects on ovarian function in the periestrous period, which may be countera
cted by insulin.