Effects of norgestomet-implants and fluorogestone acetate-impregnated sponges on oestrous cycle length and luteal function of ewes

Plasma progesterone profiles were used to assess luteal function and length and synchronization of oestrous cycles in ewes after insertion of subcutaneous ear implants containing Norgestomet or intravaginal sponges impregnated with fluorogestone acetate (FGA) for 12 or 14 days. Insertions were made 2, 9 or 16 days after synchronization of the oestrous cycle with FGA-sponges. An i.m. injection of 500 IU pregnant mares' serum gonadotrophin was given at the time of sponge or implant removal. Norgestomet- implants inserted 9 or 16 days after FGA-sponge treatment had no effect on luteal function but delayed the onset of a new oestrous cycle for the duration of treatment. Following withdrawal of implants, oestrus was effectively synchronized. When Norgestomet-implants were inserted 2 days after FGA-sponge treatment, luteal function was normal. At the time of implant removal, plasma progesterone levels were elevated suggesting the presence of functional corpora lutea. In contrast, insertion of FGA-sponges early in the oestrous cycle shortened the luteal phase and a new oestrous cycle was initiated within 48 h after sponge removal. These results indicate that Norgestomet- implants can artificially prolong the length of the oestrous cycle and do not affect the functional lifespan of corpora lutea in cycling ewes. However, when Norgestomet-implants are inserted early in the oestrous cycle, they are unable to cause premature regression of corpora lutea.     

Effect of exogenous gonadotrophin (PMSG) on the antral follicle population in the sheep.

Follicles were obtained from the ovaries of four groups of 15 ewes. Ewes in the control group were ovariectomized on the 12th day of the oestrous cycle. The other ewes were all given PMSG on the 12th day of the cycle; some were ovariectomized 24 or 40 h later, the others were given prostaglandin followed by hCG and were ovariectomized 6 or 12 h after the hCG injection. All follicles greater than 2 mm in diameter were measured and examined macroscopically for signs of atresia. Some were subjected to detailed morphological examination, the pattern of steroid secretion was determined in others. All the evidence from these three approaches suggested that, in vivo, reversal of the atretic process ('rescue') plays no part in the increase in the number of follicles observed following administration of PMSG.     

Ovarian response to PMSG treatment in ewes immunized against oestradiol-17 beta

The effects of active immunization against oestradiol-17 beta on the ovarian response to pregnant mare serum gonadotrophin (PMSG) was investigated in Merino ewes. Immunized (79) and control (41) ewes were synchronized with intravaginal sponges, given either 750 or 1500 i.u. PMSG and then mated to rams or inseminated laparoscopically with fresh diluted semen. All control ewes mated naturally exhibited oestrus and 40 out of 41 control ewes ovulated. The ovulation rate was higher in the controls receiving 1500 i.u. PMSG than in those ewes which received 750 i.u. PMSG (10.2 v. 3.3). Immunization against oestradiol-17 beta resulted in antibody titres varying from 100 to more than 100 000 in plasma taken 1-4 days after mating. The ovarian response increased significantly in the lowest titre group (100-1000) in conjunction with stimulation with 1500 i.u. PMSG. In these ewes the ovulation rate increased over controls (16.7 v. 10.2) as did the total ovarian response, which includes follicles greater than 10 mm diameter (22.3 v. 11.1). The total ovarian response was also increased in those ewes given 750 i.u. PMSG which had titres in the 1000-10 000 and 10 000-100 000 range, but this was not accompanied by significant increases in the ovulation rate. In general, the higher titre levels (greater than 1000) were correlated with decreases in the proportion of ewes showing oestrus and ovulating and in the embryo recovery rate. The 1500 i.u. PMSG treatment group with the highest titres (greater than 10 000) also showed a significant drop in the ovulation rate as compared to the 1500 i.u. PMSG controls.     

Effect of the method of estrus synchronization and PMSG dosage on estrus and twinning in Ethiopian Menze sheep

Mature, cyclic Ethiopian Menze ewes (n = 72) were used in this study. They were divided into 6 equal groups in a 2x3 factorial experimental design. Estrus and ovulation were synchronized in all ewes using either 2 dosages of prostaglandin F2 alpha 12 days apart (n = 36) or intravaginal progestogen sponges for an equal length of time (n = 36). At sponge removal or at the second prostaglandin injection, equal groups of ewes were injected with either 0, 200, or 300 IU of PMSG. Prostaglandin-synchronized ewes exhibit estrus significantly earlier (P = 0.025) than the progestogen-synchrcnized group. Although PMSG treatment increased twinning rates and therefore total number of lambs born, the differences between groups did not reach significant levels (P>0.10).     

Endocrine responses of goats after induction of superovulation with PMSG and FSH

Goats in Group A were pretreated for 9 days with a synthetic progestagen, administered via intravaginal sponge, and 1000 i.u. PMSG s.c. on Day 12 of the oestrous cycle. Goats in Group B had the same PMSG treatment, but not the progestagen pretreatment. Group C goats received a s.c. twice daily injection of a porcine FSH preparation (8 mg on Day 12, 4 mg Day 13, 2 mg Day 14 and 1 mg Day 15). Oestrus was synchronized in all animals by 50 micrograms cloprostenol, 2 days after the start of gonadotrophin treatment. The vaginal progestagen sponges were removed from Group A at the same time. Mean ovulation rate was slightly higher in FSH-treated than in the PMSG-treated animals, whereas the incidence of large follicles that failed to ovulate was significantly elevated in PMSG-treated animals in Group B. More goats in Groups A and B than in Group C exhibited premature luteal failure. Progestagen pretreatment appeared to suppress both follicular and luteal activity, as indicated by numbers of large non-ovulating follicles and by the magnitude and duration of elevated plasma oestradiol levels following PMSG stimulation, and by decreased plasma progesterone levels before and after PMSG treatment. Oestrogenic response to FSH was considerably less than that to PMSG, as indicated both by a considerably shorter duration of elevation of circulating oestradiol levels during the peri-ovulatory period, and by lower maximal oestradiol levels. Differences in the ovarian responses to PMSG and FSH may be attributed primarily to differences in the biological half-life of each preparation.     

Superovulation of a low fecundity sheep breed using a porcine gonadotrophin extract with a defined LH content (Pluset)

The aim of this study was to determine the efficiency of a porcine pituitary gonadotrophin extract with a defined pLH content in the superovulation of sheep. Estrus was synchronized in 61 Polish Mountain ewes with intravaginal fluorogestone acetate sponges. Twenty-four hours before the sponges were removed, the ewes underwent different superovulatory treatments: Group I 250 IU of pFSH with 250 IU of pLH (n=19); Group II 500 IU of pFSH with 500 IU of pLH (n=19); and Group III 750 IU of pFSH and 750 IU of pLH (n=18). Gonadotrophine was administered intramuscularly twice a day over a 3-day period in decreasing dosages. A control group of ewes (n=5) was treated with saline. In most of the ewes estrus began about 20 hours after sponges were removed. All the ewes were bred naturally every 12 hours. Superovulation was confirmed in 75% of the treated animals. The ewes receiving 250 IU each of pFSH and pLH produced an average of 7.6 +/- 3.1 corpora lutea (CL), 6.3 +/- 2.4 ova and 4.3 +/- 4.1 transferable embryos. Group II (500 IU of pFSH and pLH) produced 8.5 +/- 4.0 CL, 7.6 +/- 4.1 ova, and 4.1 +/- 2.9 transferable embryos. Group III (750 IU each of pFSH and pLH) produced 8.3 +/- 5.2 CL, 7.5 +/- 5.5 ova and 5.2 +/- 5.1 transferable embryos. The mean embryo recovery rate was 87% for all three groups. Differences in superovulatory response and embryo recovery rate among the groups were not statistically significant (P>0.05).     

Female to female stimulation of ovarian activity in the ewe

The ovulatory and oestrus responses of seasonally anovulatory ewes to the presence of ewes with synchronised oestrus was evaluated. The experiment was carried between 4 June and 1 July when the ewes were in seasonal anoestrus. Two hundred adult Suffolk and Dorset ewes were used. The animals were randomly divided into five groups balanced according to breed: Group I (treated) consisted of 25 ewes induced to cycle by the treatment for 10 days with vaginal sponges containing 40 mg of fluorogestone acetate and an injection of 200 IU of pregnant mares' serum gonadotropin (PMSG) at the time of sponge removal. Group II (mixed) consisted of 25 untreated ewes housed in the same pen as the treated ewes throughout the experiment. Groups III, IV and V each consisted of 50 untreated ewes located in adjacent pens progressively more distant from the pen which contained the treated animals. The ewes in Group III had contact with the treated animals through the fence, while those in Groups IV and V were separated from the treated ewes by one and two pens respectively. Day 0 of the experiment was defined as the day in which the sponges were removed from the treated ewes. Blood samples for progesterone determination were obtained from 25 animals from each group on days 6, 10 and 13. Oestrus was detected twice a day using vasectomised rams introduced to each pen for 15 min in the morning and 15 min in the evening. As expected, the proportion of ewes with luteal activity was higher (P < 0.01) in the treated group than in the other four groups on days 6, 10 and 13. By day 13 progesterone levels were elevated in 87.5%, 52%, 37.5%, 32% and 13% of the ewes sampled in Groups I, II, III, IV and V respectively. There was a direct relationship between the proportion of non-treated ewes with ovarian activity and the intensity of contact with the treated ewes, being maximal in the ewes that remained mixed with the synchronised animals, and lowest in the ewes located in the most distant pen. The proportion of ewes that showed oestrus during the first 14 days after sponge removal was significantly higher in the treated (92%) and mixed (40%) groups than in Groups III (10%), IV (8%) and V (4%). It is concluded that the presence of a large number of ewes in oestrus can stimulate ovarian activity in seasonally anoestrous ewes. This female to female stimulation could be mediated by olfactory, visual and/or auditory stimuli.     

Cervical dilation, conception rate, and concentrations of progesterone and estradiol-17B in postpartum ewes treated with porcine relaxin

Experiments were conducted to determine the effects of porcine relaxin (pRLX) on cervical dilation and conception rates in postpartum ewes. In Experiment 1, ewes received medroxyprogesterone acetate (MAP) sponge on day 16 (day 0 = lambing) and 750 IU pregnant mare serum gonadotropin (PMSG) at sponge removal on day 30. Control ewes received saline and relaxin-treated (RLX) ewes received 0.5 mg pRLX (>/= 3000 U/mg) i.m. at 24 h and 1.0 mg pRLX at 36 h after PMSG. All ewes were inseminated (Al) at 55 h after PMSG with 0.4 ml fresh semen. The proportion of RLX treated ewes (6 6 ) in which the cervix was penetrated was greater (P < 0.05) than in Control ewes (0 5 ). However, ova recovery rate was lower (P < 0.05) for RLX ewes (1 6 ) than for control ewes (5 5 ). In Experiment 2, ewes between Days 90 to 120 post partum received MAP sponges for a period of 8 d and 750 IU PMSG at sponge removal. Control ewes (n = 9) received saline; RLX-1 ewes (n = 8) received 0.5 mg pRLX at 24 h and an additional 0.5 mg pRLX at 36 h after PMSG; and RLX-1.5 ewes (n = 9) received 0.5 mg pRLX at 24 h and an additional 1.0 mg pRLX at 36 h after PMSG. Ewes were mated to rams at estrus, and cervical dilation was checked at 55 h after PMSG. The cervix could not be penetrated in any of the ewes. Conception rates on Day 26 were 66, 56 and 63% for control, RLX-1 and RLX-1.5 groups, respectively. These results demonstrate that the effect of relaxin on cervical dilation and conception rate is dependent upon the postpartum stage of the ewes.     

Effect of pregnant mare's serum gonadotropin on increased ovulation in guinea pigs with synchronized estrous cycle

An ability of Pregnant Mare's Serum Gonadotropin (PMSG) to induce superovulation was investigated in guinea pigs with synchronized estrous cycle caused by the treatment for 21 days of progesterone tubing. On day 6 later following the removal of progesterone treatment, every animal given saline injection had synchronously ovulated. When compared with saline control, a significant increase of ova ovulated was induced by an injection of PMSG 8 hours before the removal of progesterone tubing, but not by the other PMSG treatment schedule. Present study indicates that PMSG injection given at a fixed stage of synchronized estrous cycle induced superovulation in guinea pigs treated with long-term implantation of progesterone tubing.     

Administration of 6-methoxybenzoxazolinone (MBOA) does not augment ovulatory responses in St. Croix White ewes superovulated with PMSG

The objective of this investigation was to examine the effects of 6-methoxy-benzoxazolinone (MBOA), a plant compound that resembles melatonin and alters ovarian function in rodents, in combination with PMSG on superovulatory responses in the cycling ewe. In Experiment I, St. Croix White ewes (n = 44) were synchronized (intra-vaginal progestin sponge) for 14days followed by hCG (750 IU) at 1 day after sponge removal (day 0). Ewes were assigned to one of six treatments administered on day -1: Control (no PMSG or MBOA; n = 7); PMSG (1000 IU i.m.; n = 7); Low MBOA (0.43 mg/kg i.m.; n = 7); High MBOA (1.15 mg/kg i.m.; n = 7); Low MBOA + PMSG (n = 8); High MBOA + PMSG (n = 8). In Experiment II, St. Croix White ewes (n = 24) were synchronized (progestin CIDR) for 14 days followed by hCG on day 1 after CIDR removal (day 0). Ewes were assigned to one of three treatments administered on day -1: Control (n = 8); PMSG (n = 8); Low MBOA+PMSG (n = 8). Laparoscopy was performed on day 9 to assess numbers of corpora lutea (CL) and visible follicles on each ovary. Blood samples were collected on day -13, -1, 0, 1, and days 6 or 7-12 for analysis of serum progesterone (P4) by RIA. Treatment groups receiving PMSG (alone or with MBOA) exhibited greater (P < 0.05) serum concentrations of P4 post-synchrony than Control and MBOA-only groups. Ovulation rate was lower (P < 0.05) for Control and MBOA-only treated ewes than ewes receiving PMSG. Ovulation rate in ewes treated with MBOA alone was similar (P > 0.10) to Controls, and PMSG treatment alone did not differ (P > 0.10) from MBOA + PMSG treatment. Ewes treated with PMSG alone did not differ (P > 0.10) in follicle number from High MBOA + PMSG treated ewes, however, Low MBOA + PMSG treated ewes had greater numbers of follicles at day 9 (P < 0.05) than the PMSG or High MBOA + PMSG groups in Experiment I; although, this was not replicated in Experiment II with numbers of follicles in the Low MBOA + PMSG group being similar (P > 0.10) to PMSG alone. In summary, the addition of MBOA in combination with PMSG as part of a synchronization-superovuation protocol in the ewe did not increase ovulation rate.     

Plasma hormone levels and reproductive behaviour in anoestrous ewes after treatment with progesterone and PMSG

Plasma progesterone and gonadotrophin levels were studied in anoestrous ewes treated during June or July with a subcutaneous progesterone implant and/or an injection of oestradiol or PMSG. Of 32 ewes treated with progesterone during July, 9 showed a gonadotrophin surge after removal of the implant, and 10 ewes showed oestrous behaviour during the following 4 days. Six ewes conceived at this induced oestrous. Progesterone treatment during June was much less effective, with only 2 of 19 treated ewes showing a gonadotrophin surg and oestrous behaviour. Administration of PMSG at the time of implant removal in the June experiment was followed by a gonadotrophin surge and oestrous behaviour in 18 of 19 ewes, and 15 ewes conceived at the induced oestrus. An injection of PMSG, without progesterone pretreatment, stimulated a gonadotrophin surge and ovulation, but did not result in oestrous behaviour. The treatments employed appeared to initiate cyclic ovarian activity in the July experiment, but not in the June experiment.     

Natural and induced ovulation rate in prolific and non-prolific breeds of sheep in Ireland, Morocco and New Zealand

Ovulation rate, in mixed-age groups of prolific and non-prolific ewe breed types, after administration of a range of doses of PMSG (0, 375, 750 and 1500 i.u.) during the follicular phase of the oestrous cycle, were compared in Ireland, Morocco and New Zealand. The ewes in Ireland and Morocco were from the Finnish Landrace and Galway, and D'Man and Timhadite breeds, respectively. In New Zealand Booroola Merino x Romney ewes which had been previously identified as heterozygous carriers (F+) of the Booroola high fecundity gene and purebred Romneys were used to represent the prolific and non-prolific genotypes respectively; in addition a group of Booroola Merino x Romney non-carriers (++) of the major gene were also included for comparison. Ovulation rate at the oestrus which preceded stimulation with PMSG was also measured in all animals. In all 3 locations the ewes of the prolific genotype had a greater ovulation rate after PMSG stimulation than did the non-prolific controls. However, this association between prolificacy and response to PMSG was removed when ovulation rate after PMSG was transformed by dividing by the ovulation rate observed before PMSG administration. Despite the differences in the genetic basis of their high prolificacy the pattern of response to PMSG over the range of dosages used was similar in Finnish Landrace, D'Man and Booroola Merino x Romney (F+) ewes and all breeds had means of about 10 ovulations in response to 1500 i.u. PMSG. Amongst the non-prolific breeds, the Timhadite was the most responsive to PMSG although it had the lowest natural ovulation rate.(ABSTRACT TRUNCATED AT 250 WORDS)     

Intravaginal sponges to synchronize estrus decrease sexual attractiveness in ewes

Vaginal secretions are an important source of chemical signals, which affect ewes' attractiveness. Moreover, alterations of vaginal flora reduce sexual attractiveness of estrous ewes. As intravaginal sponges containing progestagens (widely used for estrous synchronization) affect vaginal flora, our aims were to determine if estrous ewes pretreated with intravaginal sponges were less attractive than ewes displaying spontaneous estrus, and if the addition of antibiotic to the sponge mitigated the decreased sexual attractiveness. Seventy-two estrous ewes were used in experiment 1: in 36, estrus was synchronized with commercial intravaginal sponges (50 mg medroxyprogesterone acetate for 14 days, group MAP1), whereas the other 36 were given a PGF2α analogue 19 to 20 days earlier and displayed spontaneous estrus (group C1). In experiment 2, 72 ewes were treated with intravaginal sponges for 14 days; for 36 ewes, the sponges contained 0.02 mg oxytetracycline (group Ox), whereas there was no antibiotic in the sponges for the remaining 36 ewes (group MAP2). In both experiments, sexual attractiveness was determined in 12 groups of six estrous ewes (three MAP1 vs. three C1, and three MAP2 vs. three Ox for Experiments 1 and 2, respectively) located in a 4 × 4 m pen. Courting and mating time that each ram spent with each ewe was recorded. After 5 min, the ewe with which the ram spent more time (most attractive ewe, ranked one, scale one to six) was taken out from the pen. The procedure was repeated until the ram ranked all six ewes, and repeated in the 12 groups in both experiments. In experiment 1, C1 ewes were more attractive than MAP1 ewes (ranks: 2.9 ± 0.3 vs. 4.1 ± 0.3, mean ± SEM, respectively; P < 0.002). In experiment 2, sexual attractiveness of MAP2 and Ox ewes was similar (3.5 ± 0.3 vs. 3.4 ± 0.3, respectively). We concluded that the use of intravaginal sponges impregnated with medroxyprogesterone acetate negatively affected ewes' sexual attractiveness, but this decrease was not mitigated by inclusion of a local antibiotic.     

Egg transfer in the bovine: Effect of injecting PMSG on different days

Sixty one (61) donor animals were inoculated with 500 I.U./100 kg body-weight of Pregnant Mare Serum Gonadotropin (PMSG) on days 9–14 of their oestrous cycle and given 25 mg PGF_2α 48 hrs. later. The superovulatory response to the PMSG injection on different days were evaluated based on the number of corpora lutea (CL) present in both ovaries at the time of surgical ova collection 5 days after standing heat. The average number of CL's was 11,1. The highest number of CL's was observed when PMSG was injected on day 11 (12,5 ± 5,5) and the lowest following day 14 treatment (4,5 ± 3,2). No statistical difference was found between days 9–10–11, 12 and 13. The results suggest that a certain “day of injection variation” may exist and contribute to the umpredictability of PMSG treatments.     

Embryo production and endocrine response in ewes superovulated with PMSG, with or without monoclonal anti-PMSG administered at different times

Mature nonlactating Altamurana ewes (n = 168) were synchronized in the seasonal anestrus period with FGA-impregnated intravaginal pessaries for 12 d. In Experiment 1, 48 ewes were divided into a 3 x 4 factorial design for anti-PMSG monoclonal antibody (AP) bioassay test. Concomitant injections of PMSG (1000, 1500, 2000 IU) and AP (0, 1, 2, 3 microl/IU PMSG) were given, and ovarian response was evaluated by laparoscopy. In Experiment 2, 120 ewes were divided into 8 experimental groups (n = 15 per group). The ewes treated with 1000 or 1500 IU PMSG at -24 h from sponge removal were given AP intravenously at 50 h after pessary withdrawal, 12 or 24 h after the onset of estrus, while the controls did not receive AP. Blood samples were collected from ewes (n = 6) treated with 1500 IU PMSG with or without anti-PMSG. Ovarian response and embryo production were evaluated on Day 7 after sponge removal upon laparotomy. It was found that 1 microl AP was effective in neutralizing 1 IU PMSG. No significant differences in serum concentrations of progesterone were observed among the groups of superovulated ewes. Estradiol-17 beta levels were reduced following AP treatment 12 h after the onset of estrus. At a lower dosage of superovulatory treatment (1000 IU PMSG), AP injected at 12 or 24 h after the onset of estrus significantly lowered large follicles (P < 0.01) and increased the rate of ovulation (P < 0.05). Moreover, embryo production showed a more than two-fold increase (P < 0.01) of viable embryos following AP injection at 12 or 24 h after the onset of estrus (3.2 to 3.3 vs 1.3, with vs without anti-PMSG). It is concluded that superovulatory treatment with 1000 IU PMSG plus AP administered at a fixed time after the onset of estrus may improve ovarian response and the yield of viable embryos in ewes.     

Effects of progestagen treatments and PMSG on the induction of the preovulatory LH discharge in ewes

The characteristics of the induced preovulatory LH discharge were compared in ewes after treatment for 12 days with intravaginal sponge pessaries impregnated with 40 mg Fluorogestone Acetate or with subcutaneous ear implants containing varying quantities of Norgestomet. In Experiment 1, ewes were treated with intravaginal sponges or implants alone. In Experiment 2, ewes received similar treatments and 500 IU pregnant mares' serum gonadotropin (PMSG) i.m. at the time of sponge or implant removal. The duration of the LH discharge and an estimate of the total LH discharged were similar among treatment groups within the same experiment. Overall, the onset of LH release occurred approximately 8 h earlier in ewes treated with implants, whether or not PMSG was used. Use of PMSG, in conjunction with implant or sponge treatments, shortened the mean interval from sponge or implant removal to the onset of LH release from 41 to 28 h and doubled the estimated total LH discharged, compared with treatments using sponges or implants alone.     

Radioimmunoassay and enzymeimmunoassay of plasma progesterone as monitors of progesterone sponge treatment in ewes

The daily plasma progesterone (P) concentrations achieved during insertion of P (750 mg) sponges into two groups of ewes were examined. Group I received prostaglandin (PG) treatment, which was required to suppress the P production (to levels of < 0.3 ng hormone/ml plasma) from the corpora lutea (CL) of a previous superovulation treatment, following which these Group I ewes and the anestrous Group II ewes were sponge treated. Radioimmunoassay (RIA) and enzymeimmunoassay (EIA) were used to measure the P levels in both groups. Progesterone (750 mg) sponges with and without citric acid impregnation were inserted into all the ewes for 12 days (d). Citric acid lowered the P levels reaching the plasma from the sponges, but it did not mask the characteristic profile (during the treatments) determined by the states of the ewes (single PG and double PG injected, Group I or in the anestrous Group II). The plasma P levels in Group I and II ewes rose to at least 7.0 ng/ml at intervals during treatment. The duration and magnitude of the P concentrations in the plasma were higher in the single PG compared with the double PG ewes during sponge insertion in Group I. The anestrous Group II ewes showed two major peaks (Day 1, P<0.01 and Days 11 to 12, P<0.05) during sponge treatment. A P level > 2.0 ng/ml was maintained over the entire treatment in the single PG and in the anestrous hormone-treated ewes, and was of shorter duration (7 d) in the double PG-treated animals. These endogenous patterns in P profiles of the ewes indicate that the hormone level during sponge insertion varies in magnitude and duration, parameters determined by the physiological/endocrinological state of the ewes at the start of the treatment. The EIA correlated significantly (P<0.001) with the RIA for the measurement of P concentration, when analyzed daily on an individual animal basis.     

Evidence for prostaglandin involvement in early luteal regression of the superovulated nanny goat (Capra hircus)

Feral does of various ages were treated with intravaginal progestagen sponges for 16 days to synchronize oestrus. On Day 2 before sponge removal the goats were given 1200 i.u. PMSG to induce superovulation: 6 of the goats were also injected every 12 h with flunixin meglumine, a prostaglandin (PG) synthetase inhibitor, from Day 3 to 7 of the synchronized oestrous cycle. Jugular blood samples were collected from all females into heparinized syringes at daily intervals over the 2 days before sponge removal, twice daily for the next 2 days, then at hourly intervals from 09:00 to 17:00 h for 2 days and then twice daily for a further 2 days, for measurement of plasma progesterone and the PGF metabolite 13,14-dihydro-15-keto-PGF (PGFM) by radioimmunoassay. Intermittent surges in plasma PGFM concentrations were observed in hourly samples collected from 4/4 untreated females but in only 2/6 of the inhibitor-treated females (P less than 0.05), and the peak plasma PGFM concentrations were reduced in these 2 inhibitor-treated goats compared with the control goats. The corpora lutea (CL) of the inhibitor-treated females appeared to be functional as indicated by the plasma progesterone profile and endoscopic examination of CL. In the control females, however, there was evidence of premature regression of CL. These results suggest that the premature release of PGF-2 alpha may be the cause of premature regression of CL in nanny goats induced to superovulate.     

Comparison of control of oestrus and ovulation in sheep by an ear implant (SC-21009) or by intravaginal sponge (cronolone or map)

Oestrus and ovulation were observed in 234 Galway ewes in the breeding season in a preliminary evaluation of an implant progestagen treatment. A miniature ear implant (3 mg SC-21009) was used in a comparison with two intravaginal sponges (30 mg Cronolone and 60 mg medroxy progesterone acetate (MAP)). Each progestagen treatment was used in conjunction with pregnant mare serum gonadotrophin (PMSG) (0, 375 i.u. and 750 i.u.). The percentage of ewes showing oestrus after treatment was significantly affected by progestagen (Cronolone, 95%; MAP, 71%; SC-21009, 74%; P < 0.01), but not by PMSG dose level (0.1 < P < 0.2). Oestrus onset was similar among treatments, but heats ended significantly earlier in implant sheep. Significantly (P < 0.01) more ewes ovulated following Cronolone treatment (92%) than following MAP (74%) or SC-21009 (71%), and there was also a significant effect of PMSG (0, 73%; 375 i.u., 86%; 750 i.u., 93%; P < 0.01). PMSG dose level had a highly significant effect on the mean ovulation rate (0, 1.23; 375 i.u., 1.52; 750 i.u., 2.12; P < 0.001).     

Duration of oestrus, ovulation rate, time of ovulation and plasma LH, total oestrogen and progesterone in Galway adult ewes and ewe lambs

The mean duration of oestrus, ovulation rate, duration of the preovulatory LH discharge, time interval between sponge removal and beginning of the LH discharge, total LH discharged, maximum LH value observed and the concentration of progesterone in the peripheral plasma during the luteal phase of the oestrous cycle was similar in Galway adult ewes and 8-month-old ewe lambs after treatment with intravaginal sponges containing 30 mg cronolone for 12 days and injection of 500 i.u. PMSG. The interval between sponge removal and the onset of oestrus was shorter for adults than for ewe lambs; the interval between the onset of oestrus and the beginning of the LH discharge was longer in adults. During the period 12-36 h after sponge removal the mean plasma total oestrogen concentration was significantly higher in lambs than in adults. In a separate study of the time of ovulation in Galway ewe lambs given the same progestagen-PMSG treatment, ovulation did not occur in any lamb before 17 h after the onset of oestrus and the majority ovulated close to the end of oestrus.