Plasma progesterone concentration in relation to ovulation rate and embryo yield in Chios ewes superovulated with PMSG

The main purpose of this work was to investigate the relationship between plasma progesterone concentration and the number of ovulations and/or the number of embryos collected from Chios ewes induced to superovulate with various doses of PMSG.The oestrous cycles of the animals were synchronized by means of MAP intravaginal sponges for 14 days and PMSG was injected i.m. (1500 IU, Group 1; 1000 IU, Group 2; 750 IU, Group 3; 500 IU, Group 4; 0 IU, Group 5) at the time of sponge withdrawal. Seven days after sponge removal and 5 days after mating, mid-ventral laparotomy was performed and the uterine horns and/or oviducts were flushed. The number and diameter of corpora lutea (CL), the number of large (diameter > 0.5 cm) anovulated follicles and the total ovarian response (TOR = CL + large anovulated follicles) were recorded. The embryos were examined under a dissecting microscope and evaluated according to morphological criteria. Blood samples were collected once daily for 4 days starting on the day of sponge withdrawal. One more sample was taken on the day of embryo collection. Progesterone concentration was determined using a conventional ELISA.A significant positive correlation was found between plasma progesterone concentration and number of corpora lutea (r = 0.61, P < 0.001), total diameter of corpora lutea (r = 0.63, P < 0.001), total ovarian response (r = 0.63, P < 0.001), number of eggs (r = 0.51, P < 0.001), number of embryos (r = 0.43, P < 0.001) and number of transferable embryos (r = 0.36, P < 0.01) collected per ewe treated. A negative relation between progesterone concentration (≥ 2 ng ml⁻¹) at the beginning of oestrus and number of corpora lutea (CL) was observed. The investigation of the relationship between ovulation rate and plasma progesterone concentration on the day of embryo collection resulted in the calculation of a formula for the prediction of the response of Chios sheep after superovulation with the specific hormonal regimen.     

Embryo production and progesterone profiles in ewes superovulated with different hormonal treatments

The superovulatory response and embryo yield following hormonal treatments of Merino ewes during late spring and their estrous cycle were evaluated. Ewes (n=17) were treated with progestagen-impregnated sponges and assigned to Group I (800 IU PMSG plus 11.5 mg FSH-p); Group II (1200 IU PMSG); Group III (1600 IU PMSG). Ewes were naturally mated and followed by laparotomy 6 days later. After laparotomy, ewes were injected with a prostaglandin analogue (PGF) and serum samples were obtained prior to surgery and then for 25 days to measure progesterone (P4) by radioimmunoassay. There were no differences among groups neither for estrous incidence (Group I: 83.3%; Group II: 83.3%; Group III: 100%), nor for the time interval to estrous onset (Group I: 26.4±2.4 h; Group II: 28.8±2.9 h; Group III: 24.0±3.8 h). Group I had more corpora lutea than Group II (14.2±1.2 and 6.2±0.8; P<0.05), and Group III was intermediate (11.0±3.0). There was a low incidence of persistent follicles in all treatments (Group I: 0.5±0.5; Group II: 0.6±0.4; Group III: 1.8±1.2). Number of collected ova were 9.0±2.6, 3.8±0.6 and 6.5±0.9 for Groups I, II and III, respectively. Significant differences in number of ova were detected between Groups I and II. Unfertilized ova did not differ among groups (Group I: 3.5±1.0; Group II: 2.8±0.8; Group III: 5.2±1.4; P>0.05). Embryos and high viability embryos were higher (P<0.05) in Group I (5.2±1.9 and 4.8±2.0) than in Group II (1.0±0.5 and 1.0±0.5) or Group III (1.2±0.6 and 1.0±0.5). Total plasma progesterone (P4) and P4 per corpus luteum before PGF administration did not vary (P>0.05) among groups (Group I: 71.0±14.7 and 4.9±0.7 nmol/l; Group II: 50.6±13.3 and 7.9±1.6 nmol/l; Group III: 90.4±42.6 and 6.8±1.8 nmol/l). There was a significant and positive correlation between P4 before PGF administration and number of corpora lutea (r=0.76). No significant differences were detected among groups for: interval PGF to P4 <3.18 nmol/l (Group I: 2.7±0.3 days; Group II: 1.8±0.6 days; Group III: 2.2±0.5 days), cycle length (Group I: 18.3±1.4 days; Group II: 17.9±0.5 days; Group III: 16.8±0.9 days), duration of P4 levels <3.18 nmol/l (Group I: 11.3±1.9 days; Group II: 7.1±1.0 days; Group III: 7.2±2.4 days), duration of P4 levels ≥3.18 nmol/l (Group I: 7.0±1.3 days; Group II: 10.8±0.8 days; Group III: 9.5±1.7 days) and peak of P4 (Group I: 7.4±0.4 nmol/l; Group II: 10.8±1.6 nmol/l; Group III: 9.2±1.9 nmol/l). It was concluded that PMSG–FSH-p treatment was more efficient than PMSG alone for superovulation and embryo production in ewes while P4 profiles were similar among groups.     

Superovulatory response and quality of embryos recovered from anestrus ewes after a single injection of porcine FSH dissolved in polyvinylpyrrolidone

The effects of a single injection of porcine FSH (pFSH) administered in long acting vehicle on the superovulatory response of milk (Sarda breed) sheep were determined during the anestrous season. The sheep (n=42), synchronized with intravaginal sponges (40 mg fluorogestone acetate -FGA- for 14 d) were submitted 24 h before sponge removal to three different superovulatory treatments. Group 1 (n=16) was treated with a single intramuscular (im) injection of 16 mg of pFHS dissolved in 30 % polyvinylpyrrolidone (PVP); Group 2 (n=12) was injected im with 6, 5, 3 and 2 mg of pFSH every 12 h over 2 d; Group 3 (n=14) was given 800 IU of PMSG and 12 mg of pFSH. All sheep were mated with a fertile ram. Embryos were recovered surgically at Day 7 of sponge removal and graded for the quality according to their morphology. The percentage of good quality embryos recovered was 84% in Group 1, 68% in Group 2 and 77% in Group 3. Data for the onset of estrus, number of corpora lutea (CL), number of unovulated follicles, embryo recovery rate, embryo quality and fertilization rate were recorded for the 3 groups. The onset of estrus, number of CL, number of unovulated follicles, fertilization rate and number of good quality embryos did not differ significantly among the 3 groups. The embryo recovery rate was significantly lower in the group treated with PMSG-FSH (Group 3) than in the 2 other groups. It is concluded that during the anestrous season a single injection im of pFSH results on average in a superovulatory response as good as the more traditional treatments like multiple injections of pFSH and PMSG-pFSH combined.     

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.     

Superovulation in immature and mature Chinese hamsters

Mature female Chinese hamsters ovulate an average of 8.8 ± 1.0 (mean ± SD) eggs per female in each estrous cycle. Superovulation can be induced in both immature and mature females by subcutaneous or intraperitoneal injections of pregnant mare serum gonadotropin (PMSG) and either human chorionic gonadotropin (hCG) or pituitary luteinizing hormone (PLH). The best superovulation in immature females was induced by the administration of 15 IU of PMSG followed 72 hr later by injection of 15 IU of hCG (about 25 eggs per female) or 0.2 mg (200 IU) PLH (about 46 eggs per female). Ovulation started about 13–15 hr after administration of hCG (or PLH) and was completed during the next 5–6 hr. Superovulation in mature females could be induced by injecting PMSG any day of the estrous cycle, but the best superovulation (about 39 eggs per female) was induced by injecting 15 IU of PMSG on day 1 (day of ovulation) followed by the injection of 0.4 mg of PLH 72 hr later. When immature females treated with the best superovulatory protocol were mated on the evening of PLH injection, only 5% of the eggs were found fertilized 50 hr after PLH administration. On the other hand, about 60% of the eggs were found fertilized in mature females mated following treatment with the best superovulatory protocol. The majority (83–85%) of superovulated eggs obtained from both immature and mature females were normally fertilized in vitro.     

Use of progestagen-gonadotrophin treatments in estrus synchronization of sheep

The main objective of this study was to investigate the effectiveness of certain progestagen-gonadotrophin treatments on synchronization of estrus in sheep. In Experiment I, 30 Chios ewes were treated at the beginning of the breeding season with medroxyprogesterone acetate (MAP) intravaginal sponges for 12 days and a single i.m. treatment of either FSH (Group 1,10 IU, n = 8; Group 2, 5 IU, n = 8; Group 3, 2.5 IU, n = 8) or eCG (Group 4, 400 IU, n = 6) at the time of sponge removal. Ten days after sponge removal laparotomy was performed to record ovarian response. Clinical estrus was observed in more (though not at a significant level) FSH treated than eCG treated sheep (62.5% versus 33.3%). Administration of 400 IU eCG resulted in the highest mean number of CL perewe ovulating (2.8 +/- 0.2), with administration of 10 IU FSH producing the next best results (2.1 +/- 0.3). Statistically significant differences in the mean number of CL per ewe ovulating were found only between ewes in Group 3 (1.7 +/- 0.4) and Group 4 (2.8 +/- 0.2) (P < 0.05). In Experiment II, 53 Chios and 30 Berrichon ewes were treated during the mid-breeding season with MAP intravaginal sponges for 12 days and a single i.m. treatment of either 10 IU FSH (27 Chios and 16 Berrichon ewes) or 400 IU eCG (26 Chios and 14 Berrichon ewes), at the time of sponge removal. Ewes that were in estrus on Days 2-4 and 19-23 after sponge removal were mated to fertile rams. No significant differences were recorded between treatment or breed groups in the proportions of ewes observed in estrus after treatment. In the Berrichon breed, FSH administration resulted in higher lambing rates (93.8% versus 57.1%, P < 0.05) and higher mean number of lambs born per ewe exposed to rams (1.4 +/- 0.2 versus 0.8 +/- 0.2, P < 0.05) than that of eCG. After treatment with eCG, the mean number of lambs born per ewe exposed to rams was higher in the Chios than the Berrichon breed (1.4 +/- 0.2 versus 0.8 +/- 0.2, P < 0.05). After treatment with FSH, the lambing rate was higher in the Berrichon than the Chios breed (93.8% versus 63.0%, P < 0.05). In conclusion, a single FSH treatment (5 or 10 IU) at the end of progestagen treatment appears to be more effective than eCG for the induction of synchronized estrus in sheep at the beginning of the breeding season, with no cases of abnormal ovarian response observed. During the mid-breeding season FSH (10 IU) appears to be equally as effective as eCG (400 IU) in respect of lambing rate and mean number of lambs born per ewe.     

Effect of time of artificial insemination on fertility of progestagen and PMSG treated indigenous Greek ewes,during non-breeding season

A total of 2567 indigenous Greek ewes (Chios, Vlachiki and Vlachiki×Chios breeds) were used to determine the optimum time for insemination, following synchronization of oestrus with MAP-impregnated intravaginal sponges and PMSG during non-breeding season. Within each breed group, the ewes were divided into three subgroups and submitted to a double blind cervical artificial insemination 48 and 60 h (subgroup I), 60 and 72 h (subgroup II) and 48 and 72 h (subgroup III) after sponge withdrawal. From the results of the present investigation it can be concluded that the conception rate in the Chios island breed is better than that in the Vlachiki×Chios breed, with the latter being better than that in the Vlachiki breed. Using fixed time for AI, a better conception rate is obtained when applied 48 and 72 h after sponge withdrawal for Chios and Chios×Vlachiki breeds, while for Vlachiki breed a better conception rate is obtained when fixed AI is applied 48 and 60 h after sponge withdrawal.     

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.     

Superovulation of dairy cows with purified FSH supplemented with defined amounts of LH

This study investigated the effects of a purified follicle stimulating hormone (FSH) preparation supplemented with three different amounts of bovine luteinizing hormone (bLH) and a commercially available FSH with a high LH contamination on superovulatory response, plasma LH and milk progesterone levels in dairy cows. A total of 112 lactating Holstein-Friesian crossbred dairy cows were used for these experiments; the cows were randomly assigned to treatment groups consisting of purified porcine FSH (pFSH) supplemented with bLH. Group 1 was given 0.052 IU LH 40 mg armour units (AU) FSH (n = 6); Group 2 was given 0.069 IU LH (n = 32); Group 3 received 0.423 IU LH (n = 34); while Group 4 cows (n = 36) were superovulated with a commercially available FSH-P((R)). This compound appeared to contain 8.5 IU LH 40 mg AU FSH according to bioassay measurement. All animals received a total of 40 mg AU FSH at a constant dose twice daily over a 4-d period. Levels of milk progesterone and plasma LH were determined during the course of superovulatory treatment. The Group 1 treatment did not reveal multiple follicular growth, and no embryos were obtained. Superovulation of Group 3 cows resulted in significantly (P<0.05) more corpora lutea (CL; 12.6+/-1.1) and fertilized ova (5.1+/-1.3) compared with Groups 2 and 4 (10.1+/-0.9 and 2.6+/-0.6, 9.0+/-0.9 and 2.7+/-0.5, respectively). Due to a high percentage of degenerated embryos (33%) Group 3 yielded only one more transferable embryo than Groups 2 and 4. Among groups, LH levels differed in the period prior to induction of luteolysis and were similar thereafter. The progesterone pattern following FSH LH administration reflected the amount of LH supplementation. Milk progesterone levels on the day prior to embryo collection were correlated to the number of CLs and recovered embryos. It is concluded that under the conditions of our experiment superovulation with 0.423 IU LH 40 mg AU FSH may yield a significantly improved superovulatory response in dairy cows. It is further suggested that LH supplementation exerts its effects mainly on follicular and oocyte maturation during the period prior to luteolysis.     

Repeated endoscopic ovum pick-up in sheep

Endoscopy is an effective and minimally invasive technique which offers the possibility of repeated ovum pick-up (OPU). In this study 4 different treatment programs (Groups A, B, C and D) for repeated endoscopic OPU in sheep were investigated. The number of follicles and oocytes, quality of cumulus-oocyte-complexes (COCs), and detectable effects on fertility of the donor ewes were compared. Each group consisted of 5 East Friesian Milksheep. In Group A, follicles were punctured twice a week, in Group B once a week, and in Group C once a week followed by administration of 1500 IU PMSG 48 h prior to OPU. In Group D follicles were punctured and the sheep stimulated with 1500 IU PMSG 48 h prior to OPU once every 2 weeks. The PMSG-stimulated sheep received anti-PMSG immediately after OPU. Over a period of 10 weeks 216 OPU-sessions were performed. A total of 1978 follicles was punctured, and 1098 oocytes were recovered, for a collection rate of 55.5%. In the Groups A, B, C and D an average of 6.8, 8.6, 12.2 and 14.9 follicles per animal and session was aspirated, and an average of 3.8, 4.9, 7.0 and 7.6 COCs per animal per session was recovered, respectively. No significant differences between groups were observed in the collection rates (51.1 to 57.1%) or in the quality of the COCs, and 65 to 70% of the COCs were suitable for in vitro production of ovine embryos. Seven sheep developed small adhesions between the ovary and infundibulum. After the study 15 ewes became pregnant following natural mating with the same fertile ram (5 from Group A, 1 from Group B, 4 from Group C and 5 from Group D). In conclusion, OPU once a week in PMSG/anti-PMSG treated ewes was found to be the most effective treatment program for oocyte collection.     

The ovarian response and embryo recovery rate in Boer goat does following different superovulation protocols,during the breeding season

Twenty-four Boer goat does were used to compare three superovulation protocols, with 8 does allocated per treatment during the natural breeding season. In Group 1 (Day 0 protocol), the oestrous cycles of does were synchronised for 7 days with CIDR's and injected PGF2α at CIDR insertion. Does were then superovulated with pFSH in 7 dosages at 12 h intervals, starting 88 h following CIDR removal. Concurrently with the 6th dosage, does were injected PGF2α. Cervical inseminations were performed 24 h and 36 h following the last superovulatory treatment. For Groups 2 and 3, the oestrous cycles of the does were also synchronised for 17 days using CIDR's. On day 14 of CIDR insertion, Group 2 does were injected with PGF2α. A superovulation treatment similar to Group 1 was administered in Groups 2 and 3, starting 48 h before CIDR removal. All does in these groups were also cervically inseminated with fresh undiluted Boer goat semen 24 h and 36 h following CIDR withdrawal. Embryos from all 3 treatment groups were flushed on day 6 following AI. Does in Group 1 responded to the short oestrous synchronisation protocol before the administration of a superovulation treatment (71.4% response), with time to onset of oestrus of 37.2 ± 0.7 h and duration of an induced oestrous period of 36.4 ± 0.5 h being recorded. Following superovulation only two does exhibited signs of oestrus in Group 1, while Groups 2 and 3 exhibited a 100% oestrous response. Groups 1 and 2 recorded similar intervals to the onset and durations of the induced oestrous period. The number of ovulations per donor was significantly lower in Group 1 (4.0 ± 0.7), compared to Groups 2 and 3 (14.5 ± 0.6 and 16.5 ± 0.8, respectively), with no significant difference between Groups 2 and 3. The Day 0 protocol (Group 1) also resulted into a significantly lower total number of structures recovered, compared to Group 3. Groups 2 and 3 recorded a relatively similar number of structures recovered. The number of embryos recovered was significantly lower (P < 0.01) in Group 1 (0.2 ± 0.1) than in Group 2 (13.2 ± 0.5) and Group 3 (11.5 ± 1.1), with the mean number of unfertilised ova and degenerated embryos being similar for all 3 treatment groups. Groups 2 and 3 also produced a similar number of transferable embryos. The blood progesterone concentrations followed a similar trend in the 3 treated groups, from CIDR insertion to embryo flushing. However, the mean serum progesterone concentration was significantly lower on day 4 in the Day 0 group, compared to Groups 2 and 3. The inclusion of PGF2α treatment in the superovulation protocol for Boer goats had no beneficial effect, while the Day 0 protocol engaged in this trial, resulted in a lower superovulation response. Further research is warranted, focusing on synchronisation, time when initiating superovulatory treatment and AI to improve the embryo yield in goats.     

Fertilization rate after synchronization of the oestrous cycle in heifers with prostaglandin F2alpha.

Oestrus was synchronized in 31 heifers by the intrauterine administration of PGF₂α than salt. Nineteen were given 2 doses of 0.5mg 24 hr apart, and 10 of these received 1500 I.U. of PMSG i.m. 24 hr before the treatment with PGF₂α. The remaining 12 heifers in the experiment were given a single dose of 2mg followed at the beginning of oestrus by 1500 I.U. of HCG i.m. Of 9 heifers which received only the two doses of 0.5mg (Group 1), 7 were observed to have corpora lutea when slaughtered 56–72 hr after the onset of oestrus, and four fertilized eggs were recovered. In those which received PMSG before the double injection of PGF₂α(Group 2), 118 corpora lutea were observed at slaughter and 34 fertilized eggs were recovered. Each heifer which received a single injection of PGF₂α and HCG had a corpus luteum, and 9 fertilized eggs were recovered. Unovulated follicles were most commonly observed in the PMSG-treated heifers but they were also observed in the heifers given the double injection treatment. It was observed that in the two-injection treatments, whether or not given PMSG, time of ovulation relative to the onset of oestrus was variable, and eggs were found in the uterus before the expected time.     

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.     

Effects of FSH commercial preparation and follicular status on follicular growth and superovulatory response in Spanish Merino ewes

Ovarian follicular development was characterized in 24 Spanish Merino ewes to study effects of the follicular status and the FSH commercial product used on follicular growth and subsequent superovulatory response. Estrus was synchronized using 40 mg fluorogestone acetate sponges. The superovulatory treatment consisted in 2 daily i.m. injections of FSH from 48 h before to 12 h after sponge removal. Sheep were assigned randomly to 2 groups treated with 6 decreasing doses (4, 4, 3, 3, 2, 2 mg) of FSH-P or with 6 doses of 1.25 mL of OVAGEN. Growth and regression of all follicles > or = 2 mm were observed by transrectal ultrasonography, and recorded daily from Day 6 before sponge insertion to the first FSH injection, and then twice daily until estrus was detected with vasectomized rams. Differences were detected in follicular development from the first FSH injection to detection of estrus (-48 to 36 h from sponge removal) between groups. Administration of FSH-P increased the appearance of new follicles with respect to OVAGEN (6.3 +/- 0.7 vs 4.8 +/- 0.4; P < 0.05), and the mean number of medium (4 to 5 mm) follicles (8.9 +/- 1.2 vs 6.6 +/- 0.9; P < 0.05). However, the mean number of follicles that regressed in size after sponge removal (5.9 +/- 0.4 vs 3.3 +/- 0.4) and the number of preovulatory sized follicles that did not ovulate (60 vs 42.4%) were also higher in FSH-P treated ewes (P < 0.05). So, finally, there were no differences in ovulation rate, as determined by laparoscopy on Day 7 after sponge removal, between ewes treated with FSH-P or OVAGEN (6.3 +/- 1.9 vs 7.0 +/- 1.7 CL). In all the ewes, the ovulatory response was related (P < 0.05) both to the number of small follicles (2 to 3 mm in diameter) present in the ovaries at the start of treatment with exogenous FSH and to the number of follicles that reached > or = 4 mm in size at estrus, despite differences in the pattern of follicular development when using different commercial products.     

Ovarian activity in progesterone treated mares following administration of pregnant mare serum gonadotropin

Twelve non-pregnant, non-lactating mares were randomly assigned to four treatment groups using a 2x2 factorial arrangement with three replicates per group. Mares were administered PGF(2alpha) (10 mg, IM) on days -14 and 0, followed by HCG (3000 IU, IM) on day 5. The following treatments were administered: Group A received PMSG on days 2 (4000 IU, IM) and 5 (1000 IU, IV); Group B received PMSG (4000 IU, IM) on day 2; Group C received PMSG (1000 IU, IV) on day; Group D received no PMSG. Mares received progesterone (25 mg, IM) on days 1 through 4. Reproductive tracts were recovered at necropsy on day 16 (10 days post-ovulation). Ovaries were weighed, CL number and weight determined, follicles counted and measured, and volume of follicular fluid quantified. Mean ovarian weight (g) and number of CL per mare, respectively were: Group A, 100.0+/-15.6, 1.7+/-.7; Group B, 128.6+/-40.4, 1.3+/-.7; Group C, 92.4+/-21.0, 2.0+/-.0; Group D, 93.3+/-12.3; .3+/-.3. Mean number of follicles >10 mm and total volume (ml) of follicular fluid per mare, respectively, were: Group A, 9.4+/-2.0, 21.8+/-10.9; Group B, 1.3+/-.3, 32.2+/-28.9; Group C, 4.3+/-1.8, 5.4+/-2.3; Group D, 6.0+/-4.5, 24.0+/-10.3. There was no difference (P>.05) in mean ovarian weight, CL number, CL weight, follicular fluid volume, number of follicles, or size of follicles between treatment groups. These results show no significant effect on ovarian activity in progesterone treated mares following administration of exogenous PMSG.     

Activation of quiescent ovaries by administration of PMSG after LH-RH analogue treatment in heifers

The effect of pregnant mare serum gonadotrophin (PMSG) treatment on activation of quiescent ovaries was examined in heifers. Groups of thirteen, twenty and twelve heifers which showed ovulation within 2 d and corpus luteum (CL) development after injection with a luteinizing hormone releasing hormone analogue (LH-RH-A) were supplementally injected with 500 IU of PMSG (Group I); 500 IU of PMSG and 500 mug of Prostaglandin F(2alpha) analogue (PGF(2alpha)-A; Group II); and 500 mug of PGF(2alpha)-A (Group III) on Day 6 after the injection of 200 mug of LH-RH-A (Day 0), respectively. Estrus appeared in 33.3 to 45.0% of the heifers of the respective groups after the treatment. Ovulation occurred at a significantly (P<0.01) higher rate in Groups I (100%) and II (90.0%) than in Group III (41.7%). The ovarian cyclic activity was initiated in all the heifers that ovulated. Plasma progesterone levels decreased significantly (P<0.05) to about 1 ng/ml on Day 8 and Day 7 in Group I and Groups II and III, respectively. Plasma estradiol-17beta (E(z)) levels increased significantly (P<0.05), reaching a peak on Days 7 to 7.5 in Groups I and II but not in Group III. It is concluded that PMSG treatment stimulates maturation and E(z) secretion of a follicle, thus promoting ovulation and the onset of ovarian cyclic activity.     

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.     

Follicular activity and ovulation regulated by exogenous progestagen and PMSG in anestrous ewes

Follicular dynamics and ovulation were compared in 3 groups of anestrous ewes: those treated with medroxyprogesterone acetate (MAP) sponges for 12 d, then with 750 IU PMSG at the time of sponge removal (P4 + PMSG, n = 6), or PMSG alone (n = 6) and untreated controls (n = 6). Waves of follicular activity were observed in all the animals. In the P4 + PMSG treatment group, MAP priming permitted more ovulatory follicles (P < 0.001) to be recruited without changing follicle growth rate; MAP priming also delayed the time of ovulation (P < 0.001) and the time of the LH surge (P < 0.01), which allowed for an increase in the size of ovulatory follicles (P < 0.05). Ovulation also resulted in normal luteal function after P4 + PMSG (P < 0.01) but not after PMSG alone, since premature luteal regression occurred in 80% of the cases and was related to the presence of follicles > 4 mm when P4 levels were < 1 ng/mL on the day following ovulation. The results showed that MAP priming increased the ovulation rate by increasing the number of follicles that responded to PMSG.     

Effects of estradiol-17β and hCG supplementation on superovulatory responses and embryo quality in swamp buffalo (Bubalus bubalis) implanted with norgestomet

Twenty-four cycling swamp buffaloes with normal reproductive histories and 2–3 months postpartum were used to investigate the effect of addition of estradiol-17β and human chorionic gonadotrophin (hCG) to the superovulation regime on the level of ovarian stimulation and embryo production.The estrous cycles of buffaloes were synchronized by prostaglandin injection and then divided into two groups for superovulatory treatment. Those in Group 1 (n = 12) received a implant containing 3 mg norgestomet (Syncro-Mate-B) for 9 days (insertion day is Day 0), with 4000 IU of equine chorionic gonadotrophin (eCG) and 500 μg cloprostenol i.m. given at Day 7. Group 2 (n = 12) received the same regime as Group 1, together with 7.5 mg estradiol-17β given in three intramuscular injections on Days 3, 5 and 7 in decreasing doses (4.0, 2.5 and 1.0 mg, respectively) and 5000 I.U hCG i.v. coincidentally with the first insemination. Estrus was monitored visually and by placing treated animals with bulls. Each animal was inseminated twice with frozen sperm after standing estrus. The numbers of corpora lutea (CL) and follicles greater than 8 mm in diameter were recorded via palpation per rectum at 6 days after implant removal. Two days later 11 animals from Group 2 and two from Group 1 were slaughtered for direct observation of ovarian responses and for embryo collection.The mean number of CL were 0.91 ± 0.66 and 9.08 ± 5.0 for Groups 1 and 2, respectively. The average recovery rate based on CL counts at slaughter was 60% in Group 2. No embryos were recovered from the two animals in Group 1. Seventy-nine percent of the collected ova were fertilized and more than 60% of them had developed into hatched blastocysts. The percentages of buffalo with excellent and good estrus were 41.6 and 91.6% for Groups 1 and 2, respectively.These results showed that the supplementation of estradiol-17β and the hCG treatment significantly improved the level of ovarian stimulation in swamp buffalo.     

Embryo transfer in cattle: Factors affecting superovulatory response,number of transferable embryos,and length of post-treatment estrous cycles

The effect of multiple ampules of frozen semen on conception rate in superovulated Holstein heifers was studied using 3 breeding regimens (n=25): 1 ampule at 12 hr (0 hr = beginning of estrus), 3 ampules at 12 hr, and 1 ampule at each of 0, 12, and 24 hrs. There was no significant effect of breeding regimen on recovered number of ova or percentage of fertilized ova. In another project, months during which heifers were superovulated with PMSG (5–8 heifers/month) did not significantly affect rate of superovulation (number of CL). Clinical records for 173 superovulatory treatments in 150 Holstein heifers were studied to obtain preliminary information on efficacy of treatment regimens, repeatability of response within heifers, and relationships between superovulation and length of estrous cycle; where indicated, contemporary, nontreated heifers were used for comparisons. Efficacy of PMSG vs FSH treatments did not differ in number of CL or number of ova recovered, but percentage of recovered ova that were transferable was greater (P<.05) for FSH (58.3) than for PMSG (42.9). There was an intraclass correlation coefficient of 0.33 (n=37) indicating repeatability within heifers in the magnitude of response to superovulatory treatment. Mean length (days) and coefficient of variation were significantly greater for superovulatory estrous cycles (cycles during which multiple CL were present; n, 141; mean, 31.2; SE, ± 1.2; CV, 46.2%) than for contemporary cycles in nontreated heifers (n, 63; mean, 20.8; SE, ± 0.4; CV, 13.9%). Treated heifers with short cycles (<15 days) had fewer CL (6.8 ± 1.4; mean ± S.E.) than heifers with intermediate cycles (15 to 27 days; 9.4 ± 0.6) or prolonged cycles (>27 days; 11.5 ± 0.7). Collection of an ovum from nontreated heifers resulted in shortening (P<.05) of the estrous cycle (n, 16; mean, 18.1 days) when compared to cycles from contemporary heifers in which collections were not done (n, 16; mean, 20.4 days).