Superovulatory responses of Holstein cows

Approximately 1000 registered cows and heifers were superovulated one to 10 times. Nonsurgical embryo recoveries were performed on all donors which exhibited estrus. Healthy donors produced more total ova and cleaving embryos and had a higher ovum recovery rate, fertilization rate and pregnancy rate from embryos transferred than did cows classified as infertile. While ovum number was not affected during 10 repeated superovulations, fertilization rate and embryo number decreased. The number of ova recovered from healthy cows was affected by season, and from infertile cows by the day of the estrous cycle on which FSH was started and by the number of days since calving. More ova were recovered from infertile cows synchronized with prostaglandins prior to superovulation than following a natural estrous cycle. The number of embryos recovered from infertile cows was affected by age and from healthy cows by daily milk production. Fertilization rates in both healthy and infertile cows were affected by age, time since calving, daily milk production, day of cycle FSH was injected and season. There was no effect of the day of recovery on the number of ova or embryos recovered from healthy or infertile cows.     

Effect of a deep uterine insemination on spermatozoal accessibility to the ovum in cattle: a competitive insemination study

A competitive insemination study was conducted to determine the effect of a deep uterine insemination on accessory sperm number per embryo in cattle. Cryopreserved semen of a fertile bull characterized by spermatozoa with a semi-flattened region of the anterior sperm head (marked bull) was matched with cryopreserved semen from an unmarked bull having spermatozoa with a conventional head shape. Using 0.25-mL French straws and a side delivery embryo transfer device, deep uterine insemination (0.125 mL deposited in each horn) was performed 2 cm from the uterotubal junction. Immediately after, the uterine body was artificially inseminated using semen (0.25 mL) from an alternate bull and a conventional insemination device. The complete dose (both inseminations) was 50x10(6) total sperm cells consisting of an equal number of spermatozoa from each bull. Single ovulating cows (n = 95) were inseminated at random with either the unmarked semen in the uterine body and marked semen in the uterine horn, or the unmarked semen in the uterine horn and marked semen in the uterine body. Sixty-one embryos(ova) were recovered nonsurgically 6 d post insemination, of which 40 were fertilized and contained accessory spermatozoa. The ratio and total number of accessory spermatozoa recovered was different among treatments: 62:38 (326) for the unmarked semen in the uterine body and marked semen in the uterine horn, and 72:28 (454) for the unmarked semen in the uterine horn and marked semen in the uterine body (P<0.05). Deep uterine insemination using this semen in a split dose and a side delivery device favors accessibility of spermatozoa to the ovum compared with conventional uterine body insemination.     

Recovery rate and quality of embryos from mares inseminated after ovulation

The aim of this study was to evaluate the quality of embryos and their recovery rate from mares inseminated at different intervals after ovulation. Finnhorse and warmblood mares were inseminated with fresh semen 8 to 16 h, 16 to 24 h, or 24 to 32 h after ovulation. Control mares were inseminated before ovulation. Sixty-seven embryo flushings were performed between Days 7 and 9 after ovulation/insemination. Thirteen mares were not flushed, but their uteri were scanned for pregnancy on Days 14 to 16. Embryo recovery rates decreased as time from ovulation to insemination increased, although embryo quality remained normal as evaluated by morphological criteria and mitotic index. However, postovulatory insemination in this trial appeared to delay embryo development, since the embryos recovered from mares inseminated after ovulation were appreciably smaller and at an earlier stage of development than control embryos recovered from mares inseminated prior to ovulation. Part of this delay in embryo development in the postovulation group could be due to the time needed for sperm capacitation. In addition, as the time from ovulation to insemination increased, embryo development might have been further delayed by defects in the aging oocyte.     

Embryo quality and andrological study of two subfertile bulls versus five control bulls with normal fertility

Andrological studies and embryo morphology evaluation of superovulated cows were performed on 2 randomly selected subfertile dairy bulls whose semen was used for artificial insemination and on 5 control bulls with normal fertility. Neither sperm motility studies, nor sperm morphology or testicular measurements differed between the subfertile and the control bulls. Altogether 315 ova were recovered from 41 superovulated cows inseminated with semen collected from either the subfertile or the normal control bulls. The spermatozoa of one of the 2 subfertile bulls was shown to have a decreased ability to fertilize superovulated ova, while the other subfertile animal, the bull with the lowest noreturn rate, was found by chromosome analysis to have a reciprocal translocation (60, XY, rcp 20:24), causing embryonic death. We suggest that subfertile bulls should not be used in commercial embryo transfer programs nor in artificial insemination and that andrological studies on subfertile bulls with good sperm motility should include evaluation of 6- to 7-day-old ova from superovulated cows to determine if the fertilization rate is normal or impaired. A chromosome analysis should also be performed when a subjertile bull has a normal fertilization rate of ova.     

Accessory sperm: a biomonitor of boar sperm fertilization capacity

The number of accessory sperm found in the zona pellucida of porcine embryos was correlated to their individual quality and to the embryo quality range found within a single sow. Our goal was to determine whether accessory sperm counts provide semen evaluation with additional, useful information. Accessory sperm count was highest when only normal embryos were found in a given sow and diminished if oocytes or degenerated embryos were present (P<0.01). Within a given sow, normal embryos had higher (P<0.05) accessory sperm counts than degenerated embryos, although not when oocytes were also present. Fertilization capacity of sperm is optimal when only normal embryos are found in a given sow; this capacity is indicated by high accessory sperm counts. A decrease in fertilization capacity is reflected in diminishing accessory sperm counts. The boar had a significant effect (P<0.01) on accessory sperm count, but not on the percentage of normal embryos; this suggests that accessory sperm may be more sensitive indicators of the fertilization capacity of sperm than the percentage of normal embryos. We conclude that accessory sperm count can be used for the detection of compensable defects in sperm and is a valid parameter for assessing sperm fertilization capacity.     

Effects of insemination-ovulation interval on fertilization rates and embryo characteristics in dairy cattle

The objective of this study was to examine effects of the interval between insemination and ovulation on fertilization and embryo characteristics (quality scored as good, fair, poor and degenerate; morphology; number of cell cycles and accessory sperm number) in dairy cattle. Time of ovulation was assessed by ultrasonography (every 4h). Cows were artificially inseminated once between 36h before ovulation and 12h after ovulation. In total 122 oocytes/embryos were recovered 7d after ovulation. Insemination-ovulation interval (12h-intervals) affected fertilization and the percentages of good embryos. Fertilization rates were higher when AI was performed between 36-24 and 24-12h before ovulation (85% and 82%) compared to AI after ovulation (56%). AI between 24 and 12h before ovulation resulted in higher percentages of good embryos (68%) compared to AI after ovulation (6%). Insemination-ovulation interval had no effect on number of accessory sperm cells and number of cell cycles when corrected for embryo quality. This study showed that the insemination-ovulation interval with a high probability of fertilization is quite long (from 36 to 12h before ovulation). However, the insemination-ovulation interval in which this fertilized oocyte has a high probability of developing into a good embryo is shorter (24-12h before ovulation).     

Identification of embryo paternity using polymorphic DNA markers to assess fertilizing capacity of spermatozoa after heterospermic insemination in boars

Differences in sperm fertilizing capacity of males often remain undetected by routine semen parameters. Heterospermic insemination with equal numbers of spermatozoa from 2 males is an accurate method for assessing differences in fertility. Use of heterospermic insemination depends on a reliable, efficient assay to identify paternity of conceptuses or offspring. In this study, polymorphic DNA markers amplified by PCR were tested to determine paternity of Day 5 to 6 embryos. The fertilizing capacity of 2 boars (A and B) with similar semen parameters was compared after homospermic (n=14 gilts) and heterospermic (n=11 gilts) insemination. Single AI's were performed under suboptimal conditions using 1 x 10(9) spermatozoa at 12 to 24 h before ovulation to prompt differences in fertilization and to stimulate sperm competition. The fertilization rate and the number of accessory spermatozoa were determined in Day 5 to 6 embryos. Using 5 different polymorphic DNA markers, paternity could be determined in 95.8% of the embryos. Boar B sired significantly (P<0.05) more offspring than Boar A after insemination with pooled semen, and this was reflected by a significantly (P<0.05) higher number of accessory spermatozoa following homospermic insemination with semen from Boar B, although fertilization rates did not differ between the 2 boars after homospermic insemination. The results suggest that the viability of spermatozoa in the female reproductive tract contributes to differences in fertility rates of males with similar in vitro sperm quality parameters. The number of accessory spermatozoa is a more sensitive measure of boar fertility than the fertilization rate. Polymorphic DNA markers are suitable for verification of parentage even at a very early stage of embryonic development.     

Embryo production from superovulated cattle following insemination of sexed sperm

Two trials were conducted to ascertain fertilization rate, embryo quality and numbers of transferable embryos in superovulated heifers and cows inseminated with sexed sperm. Inseminates contained 2 x 10(6), 10 x 10(6) or 20 x 10(6) total sperm enriched for the X- or Y-chromosome ( approximately 90%) by flow cytometry/cell sorting. Non-sexed inseminates contained 40 x 10(6) total sperm. Donors in each trial were allocated to one of each of the bulls included in that study. Each donor was inseminated with frozen/thawed sperm from the same bull for each treatment in successive courses of superstimulation with twice daily i.m. injections of FSH for 4 d. Heifers and cows were inseminated 12 and 24 h after visually observed standing estrus in Trial 1. In Trial 2, a single timed inseminate was used 70-72 h following PGF(2alpha). Ova/embryos were collected non-surgically 7-7.5 d after insemination. In both trials, fewer ova were fertilized with sexed versus non-sexed treatments and with 2 x 10(6) sexed sperm compared to higher doses (P < 0.05). However, insemination of 20 x 10(6) total sexed sperm of >or=90% purity resulted in similar numbers of transferable embryos of the desired sex compared to that for non-sexed sperm.     

Effect of time of insemination relative to ovulation on fertility with liquid and frozen boar semen

Precise data on fertility results following peri- and postovulatory insemination in spontaneously ovulating gilts is lacking. Using transcutaneous sonography every 4 h during estrus as a tool for diagnosis of ovulation, the effects of different time intervals of insemination relative to ovulation were investigated with liquid semen (Experiment 1, n=76 gilts) and frozen semen (Experiment 2, n=80 gilts). In Experiment 3 (n=24 gilts) the number of Day-28 embryos related to the various intervals between insemination and ovulation was determined after the use of liquid semen. Using liquid semen the fertilization rates based on Day-2 to Day-5 embryos and the number of accessory spermatozoa decreased significantly in gilts inseminated with 2 x 10(9) spermatozoa per dosage in intervals of more than 12 h before or more than 4 h after ovulation. In the time interval 4 to 0 h before ovulation, comparable fertilization rates were obtained using frozen semen (88.1%) and liquid semen (92.5%). Fertilization rates and numbers of accessory spermatozoa decreased significantly when gilts were inseminated with frozen semen more than 4 h before or 0 to 4 h after the detection of ovulation. The percentage of Day-28 embryos was significantly higher following preovulatory insemination compared to inseminations 0 to 4 h and 4 to 8 h after ovulation. It is concluded that the optimal time of insemination using liquid semen is 12 to 0 h before ovulation, and 4 to 0 h before ovulation using frozen semen. The results stress the importance of further research on sperm transport and ovulation stimulating mechanisms, as well as studies on the time of ovulation relative to estrus-weaning intervals and estrus duration.     

Laparoscopy for intrauterine insemination and embryo recovery in superovulated ewes at a commercial embryo transfer unit

Of 111 variable age, pedigree ewes subjected to a range of superovulatory regimens and then submitted to embryo recovery by laparoscopy, nine had adhesions corresponding to a mid-line laparotomy (presumably from a previous attempt to recover embryos) and could not have their embryos recovered by the laparoscopic technique. Of the remainder, 27 ewes (26.5%) had less than three ovulations or had prematurely regressing corpora lutea at the selected time for embryo recovery (Days 5 to 6 following insemination), and no attempt was made to recover embryos from them. For the 75 ewes subjected to laparoscopic ovum recovery following laparoscopic intrauterine insemination, the average number of ovulations (+/- SEM) was 7.9 +/- 0.6; the average ovum recovery (mean of values for each ewe) was 51.7% +/- 3.5; and the percentage of recovered ova that were fertilized was 87.3%. For a further nine 3-yr-old crossbred ewes the mean values for ovulation and ovum recovery were 7.6 +/- 1.2 and 70.1 +/- 7.7, and were not significantly different for the two insemination methods used (laparoscopic intrauterine vs cervical). In general, ovulation rates for ewes given pregnant mare serum gonadotrophin (PMSG) tended to be lower (5.2 +/- 0.7) than for those given porcine follicle stimulating hormone (pFSH, 7.7 +/- 0.8) or human menopausal gonadotrophin (hMG, 7.7 +/- 2.3). Ova recovery rates were similar on Days 5 and 6 (Day 0 = insemination), and were not affected by method of insemination (laparoscopic intrauterine vs cervical).     

Fertilization and embryo recovery rates in superovulated chios ewes after laparoscopic intrauterine insemination.

Forty superovulated dairy ewes of the Greek Chios breed were used in an experiment to evaluate the efficiency of laparoscopic intrauterine insemination on fertilization and embryo recovery rates as well as embryo quality. Estrus was synchronized by intravaginal progestagen impregnated sponges and superovulation was induced by administration of 8.8 mg o-FSH i.m. following a standard 8 dose protocol. A small volume (0.3 mL) of diluted fresh ram semen was deposited in each uterine horn 24 to 28 h after onset of the estrus by a laparoscopic technique. The animals were allocated randomly into two groups (Group A and B) of 20 animals each. In Group A, embryos were recovered 18 to 24 h after the intrauterine insemination and in Group B on Day 6. The average number of corpora lutea was 12.8 +/- 1.2 and 11.5 +/- 1.1 (+/- SEM); the overall embryo recovery was 66.4% and 57% and the percentage of recovered fertilized ova was 81% and 82.8% in Groups A and B, respectively. More fertilized ova were collected per ewe from Group A (P < or = 0.1). Results indicated that in Chios breed, superovulation using homologous FSH combined with laparoscopic AI leads to good ovarian response with satisfactory results in fertilization, embryo recovery and quality of embryos. This could lead to improved and more efficient methods for obtaining large numbers of high quality oocytes and embryos for embryo transfer programs which could contribute to genetic improvement and increase of the population size.     

Subzonal insemination with a single spermatozoon using manipulation assisted sperm adhesion onto the ooplasmic membrane in mouse ova.

A simple and successful method of microinjection of a single spermatozoon under the zona pellucida of a mouse oocyte has been developed. A characteristic of this method is that the tip of the sperm injection needle pierces the zona pellucida without touching the ooplasmic membrane. All the ova (277) used for this series of experiments had normal morphology after the injection procedure. Spermatozoa preincubated in culture medium for capacitation and those treated with ionophore A23187 for induction of acrosome reaction were used. In combination with some of these injections, a manipulation assisting the adhesion of the sperm head onto the ooplasmic membrane was employed. The fertilization rate (67.3%) of the ova injected with the ionophore-treated sperm using the sperm-adhesion treatment was significantly higher (P less than 0.005) than that obtained by the injection of the preincubated sperm without applying the adhesion treatment (23.6%). All three of the recipients that received the 24 fertilized ova became pregnant and gave birth to 11 offspring (45.8%). The inseminations performed with the sperm-adhesion treatment using the immotile sperm from the preincubated population and/or those from the ionophore-treated population did not result in fertilization in any case. These results suggest that the fertilization rate of subzonal insemination with motile ionophore-treated sperm can be improved by applying the sperm-adhesion treatment and that sperm motility might be involved in the establishment of fertilization, even after the adhesion of the sperm head with the mouse ovum membrane.     

Infertility in a bull with a nuclear sperm defect: A case report

A Simmental bull with a history of low fertility, both by natural service and artificial insemination, was presented for examination. Two previous semen evaluations had revealed no specific semen abnormalities that would support the breeding history. A comprehensive cytochemical analysis of the bull's ejaculate revealed a complex nuclear lesion affecting over 80% of sperm. This condition was expressed in abnormal shaping of the nuclei, with deficient distribution, condensation and stabilization of the nucleoplasm. These abnormalities were associated with various-sized intranuclear pouches or depressions. The acrosome was moderately involved and the tail was relatively free of abnormalities resulting in normal sperm motility.Two controlled breeding trials utilizing a total of 15 super-ovulated females were conducted to evaluate the bull's fertilization rate. Combined data demonstrated an 18% ($\text{23}\text{128}$) fertilization rate of recovered ova. At the same time, the fertilization rate of seven bulls classified as satisfactory potential breeders was 72% ($\text{353}\text{490}$).Data from two embryo transplant units regarding ova collected from eight donor females inseminated with semen from this bull revealed a fertilization rate of 41% ($\text{30}\text{73}$). Of the fertilized ova, 37% ($\text{11}\text{30}$) were degenerate and were not transferred. A pregnancy rate of 57% ($\text{11}\text{19}$) resulted from the transfer of 19 fertilized ova.A natural breeding pregnancy rate of 5% ($\text{2}\text{42}$) and artificial breeding pregnancy rate of 8% ($\text{15}\text{180}$) support the breeding trial results.     

The minimum effective spermatozoa : egg ratio for artificial insemination and the effects of mercury on sperm motility and fertilization ability in Clarias gariepinus

The optimal ratio of spermatozoa : egg (15 000 : 1) for artificial insemination of African catfish Clarias gariepinus gave fertilization and hatching rates of 80 and 67%, respectively. Below a sperm : ova of 3000 : 1 fertilization success decreased significantly. Excessive sperm (>15 000 : 1) partly inhibited fertilization success. Sperm motility was decreased significantly by 0·001 mg 1⁻¹ Hg²⁺ as HgCl₂, but its effect on fertilization was dependent on the sperm : ova ratio, since excess sperm masked the effect of the pollutant. The most sensitive sperm : ova ratio for monitoring pollutant effects on fertilization success was 1500 : 1, which corresponds to half the minimal amount that yields a high fertilization rate in artificial insemination. There was a good correlation between fertilization and hatching rates ( r =0·83; P<0·05). Although both fertilization and hatching rates provide equally good indicators of fertilization success, the more rapid fertilization rate test is recommended since it requires only 12 h.     

No seasonal effect on embryo donor performance in the southwest region of the USA

Detailed superovulation and embryo collection records from this commercial transplant unit were statistically analyzed to evaluate seasonal effects, if any, on embryo donor performance. The raw data set included all the superovulation-collection attempts (n=1,029) by this unit on beef donor females during a 12-month interval (1982). Seasons (fall, winter, spring and summer), breed types (European and Brahman), FSH treatment schedules (A, B and C) and two-way interactions were evaluated by analysis of variance for an effect on mean corpora lutea (CL), ova collection rate, ova collected, fertilized ova, fertilization rate, embryo degeneration rate, transferable embryos and transferable embryo rate. Parameters were analyzed in two different data sets. First, Data Set I included records from all cows started on superovulatory treatments during a 12-month period whether or not they responded to treatment and whether or not ova were recovered at the time of collection. Mean values from this data set would be for all females started on superovulatory treatments and should be viewed only for their economic implications. A more realistic approach was made with Data Set II, which includes only those records from donors responded to superovulatory treatment and where at least one ovum was recovered at the time of non-surgical collection. Results showed that there was no season effect on superovulatory responses and ova parameters for beef donors in Data Sets I and II. When parameters were evaluated by breed type, European breed types produced more transferable embryos per donor (P<.05) and had a greater fertilization rate and transferable embryo rate (P<.001) than Brahman-type donors in both Data Sets I and II. However, Brahman-type donor animals produced more ova per collection (P<.05) than European donors in Data Set II. Season × Breed Type interaction was not different for superovulatory response or embryo parameters. This information further establishes a data base for stating that season does not affect embryo donor performance in the southwestern region of the USA.     

Efforts to correlate laboratory with field observations on bull sperm fertility

This work represents efforts towards development of the zona-free hamster ovum sperm penetration assay for predicting relative levels of fertility for semen from individual bulls. Results reported here followed insemination of hamster vitelli with bull sperm, after frozen storage, with observations of sperm acrosomes and parallel inseminations of more than 1000 cows with semen from each bull. The average 75-day non-return rate for the four bulls was 74.0% (range 71.6 to 75.6). Laboratory studies indicated the following: the percentage of sperm with intact acrosomes varied from 55 to 73 between bulls, the percentage of motile sperm varied from 41 to 64, the percentage of sperm with progressive motility ranged from 24 to 40, the number of sperm interacting per (zona-free hamster) ovum ranged from 1.6 to 3.8, the number of sperm attached per ovum ranged from 1.4 to 2.9, the number of sperm within each penetrated ovum ranged from 1.5 to 1.8, the percentage of ova interacting with sperm ranged from 76 to 92, the percentage of ova penetrated ranged from 62 to 85, and the percentage of ova with male pronuclei ranged from 33 to 49. Although predictive ranking in the laboratory of these bulls with less than 4% variation in fertility levels was not possible, the zone-free hamster ovum test could be useful in identifying potentially subfertile bulls before they enter a young sire-sampling program.     

The effect of timing of laparoscopic insemination in superovulated ewes, with or without sedation, on the recovery of embryos, their stage of development and subsequent viability

Twenty ewes were used as donors in a 2x2 factorial design experiment to investigate the effects of two different insemination times (48 vs 60 h after pessary withdrawal), with or without sedation, on the ovum recovery rate 5 d after insemination, the proportion of transferable embryos recovered, and the subsequent survival rate of embryos transferred to recipients. The ovum recovery rate following intauterine insemination at 48 h after progestagen pessary withdrawal was 63.8 and 53.4% for sedated and nonsedated control ewes, respectively. Following intrauterine insemination at 60 h the corresponding values for sedated and control ewes were 72.6 and 73.9%, respectively. The proportion of transferable quality embryos recovered was not affected by sedation but was improved by insemination at 48 h rather than 60 h after pessary withdrawal (100 vs 35.4%). Embryo survival following laparoscopic transfer to recipients from donor ewes inseminated at 48 h, with or without sedation was 38.8% (7 18 ) and 50% (7 14 ), respectively. Following intrauterine insemination of the donors at 60 h, the survival rate in recipients was reduced for embryos transferred from both the sedated and control ewes to 6.25% (1 16 ) and 36.3% (4 11 ). It is concluded that delaying the timing of intrauterine insemination relative to pessary withdrawal and the use of acepromazine maleate as a sedative at the time of insemination are deleterious to embryo development and subsequent viability.     

Xenogenous fertilization of laboratory and domestic animals in the oviduct of the pseudopregnant rabbit

Xenogenous fertilization was accomplished using bovine, porcine, and hamster follicular oocytes. The xenogenous fertilization rates for bovine and porcine follicular oocytes in the oviduct of the pseudopregnant rabbit were 13.4% and 2.0%, respectively. Temperatures of ovary, during transport to the laboratory, of 0 degrees or 37 degrees C had no effect on xenogenous fertilization rates of bovine oocytes. In vitro culture in 50 mug/ml FSH did not alter the xenogenous fertilization rates of bovine oocytes. Fertilization was observed with oocytes recovered 40 to 75 hr after insemination. Two cell embryos were recovered 70 to 75 hr after insemination. Ligation of the rabbit oviduct, number of ova deposited and sperm concentration did not affect the xenogenous fertilization rates of hamster ova. Cleavage of xenogenously fertilized hamster oocytes occurred between 28 and 29 hours after insemination.     

Influence of environmental temperature on reproductive performance of bovine embryo donors and recipients in the southwest region of the United States

Superovulation and embryo transfer records on performance of embryo donor (n = 3,908; beef 99%, dairy 1%) and recipient (n = 19,936; beef 92%, dairy 8%) cattle from a commercial transfer unit were analyzed for environmental effects. Embryos (n = 42,428) were recovered on Days 5 to 8 postestrus from superovulated donors. Numbers of ova, fertilized ova and embryos of transferable quality were recorded. Transferable embryos were classified according to stage of development and morphological quality. Embryos (n = 19,936) were transferred nonsurgically. Responses were modeled with maximum-likelihood procedures using log-linear functions of independent variables and ANOVA. Fluctuations in daily maximum temperature (1 to 43 degrees C), for Days 0 to 7 of embryo development, had no effect on distribution of embryos classified as good (48%), fair (40%) and poor (12%). Temperature did not affect the percentage of donors flushed with recoverable ova (89%), mean number of ova (12.2 +/- 0.3), fertilization rate (76%) or percentage of transferable embryos (57%). Recipient pregnancy rate (56%) was not affected by mean maximum temperature for Days 0 to 10 posttransfer. Interactions between temperature and breed type (dairy vs beef), parity (cow vs heifer), or lactational status (lactating vs dry) on pregnancy rate were recorded. Elevated environmental temperature does not appear to adversely affect reproductive responses of donor and recipient cattle intensely managed in a commercial transfer unit.     

The effect of time of intrauterine insemination on the development and viability of embryos collected from superovulated ewes

Eighteen Border Leicester x Scottish Blackface ewes, primed with 300 mg progesterone (12 d) and superovulated with decreasing doses (6, 5, 3 and 2 mg) of porcine FSH, were inseminated with fresh semen, using laparoscopic intrauterine procedures at 48 (Group E) or 60 h (Group L) after exogenous progesterone removal. Five days after insemination, embryos were collected and classified on the basis of their morphological development. During the subsequent 3 d of in vitro culture (38.5 degrees C; 5% CO2) the embryos were evaluated at 24-h intervals. After 72 h, the embryos were individually fixed (24 h) and stained with aceto-orcein and the nuclei were then counted to provide an objective index of cell proliferation and development. Mean (+/-SEM) ovulation rates for the 2 groups (9.2+/-1.5 and 7.1+/-1.2, respectively) and the corresponding percentages (53 vs 59) of embryos collected by laparoscopy were unaffected by insemination time. All donors yielded fertilized ova, but whereas all Group-E donors yielded 1 or more viable embryos (i.e., >32 cells), only 5 Group-L ewes yielded viable embryos (P<0.10). At collection, the percentages of embryos at the morula stage of development were 98 (Group E n = 44) and 39 (Group L n = 38; P<0.001). Few of the remaining ova (Group E = 0% Group L = 8%) were at the 1-cell stage of development when collected, indicating that retarded development post fertilization, not fertilization failure, was the principal consequence of delayed insemination. The percentages of embryos that continued to develop during in vitro culture were 91 and 37 for Groups E and L, respectively (P<0.001), and all of these reached the blastocyst stage. Of these blastocysts, 75 and 50% in Groups E and L hatched in vitro (P<0.10), with mean (+/-SEM) nuclei counts of 148+/-22.7 and 76+/-13.8 (P<0.02), respectively. In conclusion, while delayed intrauterine insemination did not affect the efficiency of ovum collection, it caused a major reduction in the yield of embryos that were capable of developing during in vitro culture. However, fertilization failure accounted for only 13% of the loss in viability following late insemination.