During aging in female rats the incidence of regular estrous cyclicity decreases progressively. Concomitant with this decrease are declines in both fertility and fecundity in aged females. The causes for these age-related losses in reproductive function are currently unknown. To reveal the biology and endocrinology of pregnancy in aging females, we performed a longitudinal study in a group of multiparous rats bred once every 2 mo. Beginning at 4 mo and continuing through 12 mo of age in the same individual females, we determined the chronological changes in estrous cyclicity and fertility; examined the number of implantation
scars; estimated the
fetal resorption rate; and assessed the patterns of
progestin,
androgen, and
estrogen secretion during 5 consecutive gestations. During each pregnancy, blood samples were obtained from the mothers on Days 2, 5, 8, 11, 14, 16, and 19 for measurement of
steroid hormone concentrations.
Laparotomies were performed after parturition to count the number of implantation
scars. To estimate the number of
fetal resorptions, the difference between the number of implantation
scars and the total number of pups delivered was calculated for each animal. Fertility during aging followed a similar but more dramatic pattern of decline than did the incidence of regular cyclicity. While almost all females became infertile when their regular ovulatory cycles ceased, an increasing proportion of middle-aged (10-12 mo of age) regularly cyclic rats also failed to reproduce successfully. These observations indicate that the loss of fertility in aging female rats is due largely, but not exclusively, to the cessation of regular ovulatory cycles. Beginning at 8 mo and continuing to 12 mo of age, a significant (p less than 0.01) decline in litter size was observed in these multiparous rats. This decline was associated with a similar decrease in the number of implantation
scars. Neither the estimated number of
fetal resorptions nor the number of dead pups delivered per pregnant rat changed significantly during 5 consecutive gestations. There were, however, age-related gradual increases in the percentage of
fetal resorptions/implantation
scars and of dead pups/total number of pups delivered. These data indicate that the age-related decline in fecundity is due mainly to reproductive failures early in gestation. The patterns of decreases in both fertility and fecundity found in repeatedly sampled and laparotomized females were similar to those seen in untreated multiparous rats.(ABSTRACT TRUNCATED AT 400 WORDS)