The objective was to determine serum progesterone concentrations, ovarian responses, and pregnancy rate in sheep inseminated following a short-term protocol (6 days of treatment) with a previously used controlled internal drug release-G (CIDR-G) device. In experiment 1, 30 ewes were put on a short-term protocol using a CIDR-G of first use (new devices, N = 10), second use (previously used for 6 days, N = 10), or third use (previously used twice for 6 days, N = 10). All ewes were given prostaglandin F 2α (10 mg dinoprost) and eCG (300 IU) im at device withdrawal. Mean serum progesterone concentrations were greater for ewes treated with new versus reused devices (P < 0.05), but there were no significant effects on ovarian follicular development, namely: proportion of ewes that reached ovulation/treated ewes (8/10, 9/10, and 10/10); day of emergence of the ovulatory follicle (2.9 ± 1.8, 1.8 ± 2.4, and 2.5 ± 1.1 days after CIDR-G insertion); and lifespan of the ovulatory follicle (5.4 ± 1.8, 6.5 ± 2.2, and 5.6 ± 1.0 days) for devices of first, second, and third use, respectively. The proportion of ewes that ovulated from a new follicle emerging after CIDR-G insertion was 100% (10/10) with new devices, and 77.8% (7/9) and 80% (8/10) with devices used two and three times, respectively (P = not significant). In experiment 2, ewes (N = 319) received the short-term protocol as in experiment 1, using CIDR-G of first or third use (N = 158 and N = 161, respectively) for 6 days, with prostaglandin F 2α and eCG given im at device withdrawal. Intrauterine (laparoscopy) fixed-time AI with fresh semen (100 × 10 6 sperm) was done 52 to 57 hours after device withdrawal. Pregnancy rates were 80.4% (127/158) and 71.4% (115/161) for devices of first and third use, respectively (P = 0.06). We concluded that the CIDR-G with short-term protocol was effective for estrous synchronization and ovulation, with lower serum progesterone concentrations for reused devices. Three times used CIDR-G yielded a pregnancy rate >70%, which tended to be lower than that obtained with new devices, adding evidence of the detrimental effect of low serum progesterone concentrations on fertility in sheep.