Decreased embryonic survival of in-vitro fertilized oocytes in rats is due to retardation of preimplantation development

Immature female rats (60-65 g) were injected with 4 i.u. PMSG on Day -2 and allocated to 3 groups. On the evening of Day 0, rats in Groups I and II were allowed to mate. Embryos were collected on Day 4 (Group I, control morulae) or Day 5 (Group II, control blastocysts) and were transferred into the oviduct or uterine horn of Day-4 pregnant recipient rats. On the transfer side of the recipients, the bursa had been peeled from around the ovary to prevent endogenous oocytes from entering the oviduct. For Group III, unmated donors were killed 65-67 h after PMSG injection. Ovulated oocytes recovered from the oviducts were fertilized in vitro and transferred 16-18 h later. Embryos developing from in-vitro fertilized (IVF) oocytes were recovered on Day 5, separated into morulae (Group IIIm) and blastocysts (Group IIIb) and transferred into Day-4 pregnant recipients similar to control embryos. Some embryos from each group were used to determine the mean number of cells/embryo. Embryo recipients were killed on Day 20. After transfer, the development of IVF oocytes was retarded compared to control embryos. IVF morulae contained significantly fewer cells/embryo than did control morulae but were able to implant and grow to fetuses, in proportions similar to controls, if transferred into the oviduct of the recipients. These results suggest that the developmental potential of rat oocytes fertilized in vitro is limited due to asynchrony between the embryo and the uterine environment at the time of implantation, rather than possible defects incurred by the oocyte during the fertilization procedure.     

Sex-dependent loss of bisected bovine morulae after culture and freezing.

The objective of this study was to determine the post-transfer survival rate of bovine embryos cultured between the time of bisection and freezing. In this experiment 158 morulae were bisected and both portions were cultured for 24-44 h either in vivo after transfer to sheep oviducts (n = 80 morulae) or in vitro (n = 78 morulae) in Ham's F10 medium with 20% fetal calf serum, with bovine oviduct cells or in medium collected from oviduct cultures (conditioned medium). After culture, half of each morula was fixed for cytogenetic sex determination (n = 125) and the other half was frozen. The frozen halves were later thawed and transferred (n = 115) to recipients, who were, if pregnant, slaughtered to determine the sex of the fetus. The culture resulted in better pregnancy rates than those previously reported for embryos frozen immediately after bisection. The sex of 49 (33 males, 16 females) of the fixed demi-morulae was determined, and 38 of the transferred demi-morulae established pregnancies (23 males, 10 females and 5 fetuses that were not recovered). The male:female ratio in in vivo and in vitro culture groups was significantly different from the expected ratio of 1:1 and suggests that manipulation and culture of embryos results in a preferential loss of female embryos.     

The fate of embryos transferred to the oviducts of entire, unilaterally ovariectomized and bilaterally ovariectomized ewes

Embryos collected from donor ewes 2 days after oestrus were transferred to the oviducts of entire cyclic (Group EC), unilaterally ovariectomized and cyclic (Group UO), entire anoestrous (Group EA), and bilaterally ovariectomized (Group BO) ewes, and 4 h, 1, 3 or 5 days after transfer the oviducts and uteri were flushed to recover embryos. Ewes in Group BO were untreated or treated with regimens of progesterone and oestradiol designed to simulate ovarian secretion before, around the time of, and after oestrus in entire ewes. There were no differences in the proportions of transferred embryos that were recovered, or in their location (oviduct or uterus), between the two sides of Group UO ewes and they were similar to recovery rates and locations of embryos in Group EC ewes. At 3 days after transfer, 62% and 50%, respectively, of embryos recovered from ewes in Groups EC and UO were in the uterus and by 5 days the percentages had risen to 89% and 75%, respectively. With all treatment regimens fewer of the transferred embryos were recovered from Group BO ewes than from Group EC ewes and few were located in the uterus. In Group BO ewes low recovery rates, and failure of embryos to enter the uterus, appeared to be due to deficiencies in the treatment regimens rather than to effects of ovariectomy. Most embryos recovered from treated ewes in Group BO and those in Groups EC and UO showed apparently normal development (86% and 79%, respectively), while 65% and 75%, respectively, recovered from untreated Group BO and Group EA ewes had developed normally. Only 9 of 163 embryos recovered from the untreated Group BO and EA ewes were located in the uterus and 8 of the 9 had failed to develop normally. Clearly, the steroid hormone requirements for development in the oviducts are not critical, but this is not so for the uterus.     

Culture of one-cell bovine embryos in explanted mouse oviduct and bovine oviductal epithelial cells

One-cell bovine embryos fertilized in vivo were cultured in TCM-199 and bovine oviductal epithelial cells, in TCM-199, or in explanted immature mouse oviducts supported by TCM-199 to compare development to the blastocyst stage. The morphological stage of development and cell number were determined following 144 hours of culture. Of the embryos that cleaved at least once, 52.6, 30.4 and 0.0% developed to the morula/blastocyst stage after culture in oviductal epithelial cells, in TCM-199 alone, or in explanted mouse oviducts, respectively. The mean total cell number for embryos cultured in oviductal epithelial cells (24.5) was higher than for embryos cultured in TCM-199 (12.8) or in explanted mouse oviducts (5.9; P<0.05). The mean cell number of embryos cultured in TCM-199 or in explanted mouse oviducts did not differ. The explanted immature mouse oviduct supported by TCM-199 did not provide an environment adequate for development of one-cell bovine embryos to the blastocyst stage. Development of one-cell bovine embryos was best supported by co-culture with oviductal epithelial cells in TCM-199 medium.     

Development of porcine embryos from the one-cell stage to blastocyst in mouse oviducts maintained in organ culture

Successful development of porcine embryos from the one-cell stage to the blastocyst stage has been accomplished using mouse oviducts in organ culture. One-cell embryos were transferred to mouse oviducts maintained in organ culture and were cultured for 6 days. Control embryos from each donor pig were cultured in a modified Krebs-Ringer bicarbonate medium. Thus control and experimental embryos obtained from the same individual pig could be directly compared. At the end of the culture period, all embryos were scored for the stage of development attained and stained to allow the cell number of each embryo to be counted. In medium alone, only 35.7% of the one-cell embryos reached the morula or blastocyst stage, whereas 78.1% of the one-cell embryos transferred to mouse oviducts reached the morula or blastocyst stage. Of those embryos reaching the morula or blastocyst stage, cell numbers were similar for the two treatments (medium alone vs. oviduct culture). The procedure described for mouse oviduct organ culture provides a simple method for culturing early-stage pig embryos to the morula or blastocyst stage prior to embryo transfer.     

The effects of cryopreservation and transfer on embryonic development in the common marmoset monkey, Callithrix jacchus

Embryos were collected at the 4-10-cell stage from the oviducts (Day 4; Day 1 = ovulation) or as morulae (Day 7) from the uterus of marmosets and frozen in 1.5 M-DMSO (Days 4 and 7) or 1.0 M-glycerol (Day 4 only), using a slow freezing and thawing technique. Of 22 Day-4 embryos frozen in DMSO, 18 were recovered and 16 of these were transferred to 10 synchronized recipients; 7 recipients became pregnant compared with all 7 control recipients receiving 10 unfrozen embryos. Fifteen frozen-thawed morulae were transferred to 9 Day-6 recipients; the pregnancy rate (55.6%) was lower than for control embryos (85.7%). Embryos frozen in glycerol suffered severe osmotic stress during glycerol addition and removal. Of 8 recipients, 3 (37.5%) became pregnant but only one fetus was carried to term. These results on embryo collection, freezing and transfer in the marmoset have important implications for developing improved methods for freezing human embryos and the breeding of endangered primates.     

In vitro development up to hatching of bovine in vitro-matured and fertilized oocytes with or without support from somatic cells

To verify the importance of somatic cells upon in vitro embryo development, in vitro-matured (IVM) and -fertilized (IVF) bovine oocytes were cultured in TCM 199 supplemented with estrous cow serum (10% v/v) and 0.25 mM sodium pyruvate (ECSTCM) under the following treatments: 1) ECSTCM alone; 2) together with bovine oviduct epithelial cells (BOEC); 3) with cumulus cells (CC); 4) in fresh BOEC conditioned ECSTCM; or 5) in frozen-thawed BOEC conditioned ECSTCM. Culturing zygotes encased in cumulus cells significantly reduced the cleavage rate (P<0.05). There was no difference between culture systems in the proportions of embryo development through the 8-cell stage (P=0.42) up to the morula/blastocyst stages (P=0.50) at Day 7 post insemination. However, co-culture with BOEC yielded the highest percentage (21.2% of zygotes; P<0.05) of quality Grade-1 and Grade-2 embryos with the number of blastomeres per embryo (114.4) comparable to that of 7-day-old in vivo-developed embryos of similar grades (102.5), and higher (P<0.05) than those of the other treatments. The ratio of blastocysts to total morulae/blastocysts obtained from frozen-thawed conditioned medium was lower (P<0.05) than that from ECSTCM or after co-culture with BOEC at Day 7 post insemination. On average, 7.5 to 17.5% of the zygotes developed to blastocyst, expanded blastocyst and hatched blastocyst stages by Day 10 post insemination, depending upon the culture system. The difference between treatments, however, was not significant (P=0.68). The results indicate that chronological development up to hatching of bovine IVM-IVF embryos is not favored by somatic cells; however, the presence of viable oviduct epithelial cells in culture significantly improves the quality of 7-day-old embryos.     

Embryo-initiated oviductal transport in mares.

The hypothesis that equine embryos initiate oviductal transport in mares was tested by placing day 6 uterine embryos in the oviducts of day 2 (n = 10) or day 5 (n = 10) recipient mares and attempting to collect the embryos from the uterus 48 h later. To determine whether the surgical transfer procedure initiated oviductal transport, medium alone was placed in the oviducts of day 2 (n = 10) inseminated mares (sham transfer), and uterine embryo collections were attempted 48 h later. Embryos were transported through the oviduct of day 2 recipients by day 4 (instead of day 5 to 6) in six of ten mares, which was not significantly less (P greater than 0.1) than in day 5 recipients (9 of 10). Oviductal transport was not primarily initiated by the surgical transfer procedure, since oviductal transport occurred in only one sham transfer. There was no significant difference (P greater than 0.1) in the diameter of embryos placed in the oviducts of day 2 and day 5 recipient mares (180 +/- 13.8 versus 187 +/- 11.3 microns, respectively). However, embryos collected from the uterus were significantly smaller (P less than 0.05) in day 2 than in day 5 recipients (375 +/- 85.4 versus 659 +/- 43.6 microns, respectively). One uterine embryo had shed its zona pellucida before being placed in, and transported through, the oviduct of the recipient mare.     

Effects of superovulation, embryo recovery, culture system and embryo transfer on development of rabbit embryos in vivo and in vitro

Uninterrupted development of rabbit embryos in vivo was studied in 7 superovulated and 7 normally ovulating (GnRH-treated) does, while another 7 does were superovulated and 1-cell embryos were collected from them at 19 h after LH to compare development in vivo and in vitro. Embryos from the last group were either cultured in the presence or absence of rabbit oviduct epithelial cells for 65 h in Medium 199, or were immediately transferred to recipients. At 84 h after LH or GnRH, blastomere number, embryo volume and stage of development were assessed for all embryos. Intrazonal embryo volumes were significantly reduced in embryos recovered from superovulated donors. Superovulation also had a negative effect on embryo cell numbers. However, this reduction was more severe in embryos remaining in vivo in superovulated donors until 84 h after LH than it was in embryos transferred to nonsuperovulated recipients at the 1-cell stage (19 h after LH). The embryo recovery procedure apparently caused little harm to the embryos, except that the mucin layer on flushed and immediately transferred embryos was significantly thinner than that of embryos residing continuously in vivo. Co-culture with rabbit oviduct epithelial cells resulted in improved development in vitro, but this development was still significantly retarded compared with embryos developing in vivo.     

Hypotaurine requirement for in vitro development of golden hamster one-cell embryos into morulae and blastocysts, and production of term offspring from in vitro-fertilized ova.

Almost 30 years after the first successful in vitro fertilization (IVF) in golden hamsters (Mesocricetus auratus), we report that IVF hamster embryos can develop in a chemically defined, protein-free culture medium into morulae and blastocysts, and produce normal offspring after transfer to recipients. When examined 96 h post-insemination, 82% (160/200) of IVF ova had cleaved to at least 2 cells, 55% (97/200) had developed beyond the 4-cell stage, and 22% (38/200) had developed into morulae/blastocysts. In vitro development of IVF embryos to greater than or equal to 8 cells was absolutely dependent on hypotaurine. Twenty living offspring were produced from transfer of IVF embryos to recipients, with an overall success rate of 5% and 17% for oviductal (2-cell) and uterine (8-cell/morulae) transfers, respectively. In vivo-fertilized pronucleate embryos collected 3 h after egg activation were less able to develop in vitro than embryos collected only 6 h later, revealing a critical influence of the oviduct within the first hours of embryo development. Hypotaurine partly compensated for the decreased oviductal exposure of early 1-cell embryos. Establishment of a key role for hypotaurine in hamster embryo development, support of IVF embryos to morula/blastocyst stages in vitro, and production of living offspring after IVF embryo transfer are significant steps towards the goal of obtaining comparative data on preimplantation embryogenesis.     

In vitro development of bovine embryos in Buffalo rat liver- or bovine oviduct-conditioned medium

A culture system for bovine embryos was developed using Buffalo rat liver cell (BRL) line-conditioned medium without serum. Zygotes, obtained by in vitro maturation and fertilization of oocytes, were cultured either in unconditioned medium (TCM 199 or DMEM/F12) or in the same medium conditioned by bovine oviduct or BRL cells. No serum was added during conditioning or during embryo culture. The DMEM/F12 medium was superior to TCM 199 for development of bovine embryos to the 5 to 8-cell stage: on average between 50 and 57% of the embryos reached this stage after 2 d of culture in DMEM/F12 or in conditioned medium, while 36% reached this stage in TCM 199. Further development to the blastocyst stage was enhanced by conditioning. The highest percentage of blastocysts was achieved in DMEM/F12 medium conditioned with BRL cells (30%). The yield of blastocysts was similar in TCM 199 and in DMEM/F12 media conditioned with bovine oviduct cells (22 versus 20%), but after conditioning with BRL cells, DMEM/F12 medium yielded a higher percentage of blastocysts than TCM 199 (30 versus 18%). This might be explained by the fact that viability of BRL cells was better in DMEM/F12 medium than in TCM 199 when serum was omitted. Blastocysts produced in BRL-conditioned medium had a higher number of cells than blastocysts obtained in bovine oviduct-conditioned medium, and their transfer to recipients led to pregnancies and birth of calves. In conclusion, culture of bovine embryos in DMEM/F12 medium conditioned with BRL cells without serum led to the development of good-quality blastocysts and is thus a promising method for producing embryos for the study of potential embryotrophic factors. The use of rat liver cell lines guarantees against bovine viruses and allows for better production of embryos.     

Successful production of piglets derived from vitrified morulae and early blastocysts using a microdroplet method

This study was conducted to determine the efficiency of vitrification using the microdroplet (MD) method for early stage porcine embryos. Embryos at compacted morulae to early blastocyst stage were vitrified in a vitrification solution containing 40% (v/v) ethylene glycol, 0.6M sucrose and 2% (w/v) polyethylene glycol in M2 (ESP) without any pretreatment. The equilibration and dilution were carried out in third and fourth steps, respectively, at 38 degrees C. The survivability of the cryopreserved embryos was assessed for both in vitro culture (Experiment 1) and by embryo transfer (Experiment 2). In Experiment 1, the embryos were vitrified within a microdroplet or 0.25 ml straw (ST) and fresh embryos were used as a control group. The survival rates after 24h culture in the MD, ST and control groups were 21/23, 14/20 and 20/20, respectively. The hatching rates of the embryos after 48 h incubation were 14/23, 4/20 and 16/20, respectively. In Experiment 2, 171 vitrified embryos were transferred to 5 recipient gilts, and 17 healthy piglets were produced from 2 recipients (3 recipients aborted) in Group 1. In Group 2, 81 vitrified embryos and 16 fresh embryos in total were transferred to 4 recipient gilts, and 10 healthy piglets from the vitrified embryos were produced from 3 recipients. These results indicated that porcine embryos of compacted morulae to early blastocyst stage can survive cryopreservation using the microdroplet method without any special intracellular manipulation or treatment.     

Oviductal and uterine influence on the development of Day-2 equine embryos in vivo and in vitro

The objective of this experiment was to contrast the influence of the oviductal and uterine environments on development of Day-2 embryos. Embryos were transferred to oviducts or uteri of synchronous recipient mares, or were incubated in oviductal co-culture, in uterine co-culture or in defined culture medium. Significantly more (P < 0.02) embryos transferred to the oviduct versus the uterus survived until Day 11 after ovulation (5 7 vs 0 7 , respectively). Significantly more (P < 0.001) embryos developed to expanded and hatched blastocysts in uterine co-culture than in culture medium (6 7 vs 0 7 , respectively). The rate of embryo development to expanded blastocysts was not significantly different (P > 0.1) in oviductal co-culture versus uterine co-culture (3 7 vs 6 7 , respectively), or in oviductal co-culture versus culture in medium (3 7 vs 0 7 , respectively). Three of 7 and 6 of 7 embryos developed to hatched blastocysts greater than 2000 mum in diameter during oviductal and uterine co-culture, respectively, while 0 of 7 embryos cultured in medium expanded to greater than 500 mum in diameter. Proportions of embryos that developed for at least 9 days.     

Developmental competence and metabolism of bovine embryos cultured in semi-defined and defined culture media.

Development of in vitro-produced bovine embryos was studied in 3 two-step culture media: synthetic oviduct fluid (SOF), Gardner's G1/G2, and control (hamster embryo culture medium with 11 amino acids [HECM-6] followed by tissue culture medium 199 + 10% bovine calf serum). Modifications were made to reduce or eliminate protein. Glycolysis and Krebs cycle activity of morulae and blastocysts developed from selected immature oocytes were measured. There were no differences in development to the morula and blastocyst stages between SOF, G1/G2, or control (41%, 36%, and 46%, respectively), although more blastocysts developed in control medium than in G1/G2 (46%, 30%, respectively). Reducing or removing BSA during the initial culture period did not significantly reduce development to blastocyst (31%, 33%, respectively), although development was reduced in SOF with BSA removed from the final culture period (19%). There were no differences in development to the blastocyst stage between SOF, SOF with BSA removed during the initial culture period, and control (44%, 32%, 49%, respectively), but development was reduced in chemically defined protein-free medium throughout the culture period (21%). Krebs cycle activity did not differ between treatments; however, glycolysis was highest in the control embryos and lowest in embryos cultured in protein-free medium. Embryos that developed in the presence of serum appeared dark and granular and had elevated glycolytic rates compared to embryos developed in completely defined medium. This study shows that both metabolism and blastocyst development of embryos are altered by different culture media, implying a functional linkage between these two indicators of successful embryogenesis.     

Effect of culture-medium supplementation with alpha-mannosidase and/or beta-N-acetyloglucosaminidase on in vitro bovine embryonic development

Glycosidases are enzymes with a potential role in embryonic development. The objectives of this study were to assess: (a) whether in vitro bovine embryonic development is affected by the addition of beta-N-acetyloglucosaminidase (beta-NAGASE) and/or alpha-mannosidase to the culture medium and (b) whether these enzymes are utilized by bovine embryos during their development in vitro. Bovine embryos were produced using standard methods of IVM, IVF and IVC. Presumptive zygotes were cultured in groups of 20 in 50 microl drops of SOF medium (plus 5% FBS after 24 h culture) incubated in 5% CO2, 5% O2 and 90% N2 at 38.5 degrees C. The groups of zygotes were allocated to four treatments in which the culture medium was supplemented with: (1) beta-NAGASE, (2) alpha-mannosidase, (3) beta-NAGASE plus alpha-mannosidase, and (4) control (no supplement). Embryos were evaluated and samples of culture medium collected and frozen prior to assay for glycosidases at day 7 of culture. The experimental design was a randomised block arrangement of 4 treatments x 7 replicates with 20 zygotes per plot (culture droplet). Data were analysed by ANOVA and presented as mean +/- S.E.M. The osmolarity of the control culture medium was 272 mOsm. This was increased to 279 mOsm by the addition of alpha-mannosidase, 424 mOsm by beta-NAGASE and 337 mOsm with a combination of the two enzymes. The beta-NAGASE supplemented medium and the combined supplement reduced (0%) the development of zygotes to morula or blastocyst stages (P < 0.002) relative to control medium (35.7 +/- 8.4%). Embryo development was also reduced to 21.9 +/- 3.2 (P< 0.002), relative to control, by alpha-mannosidase supplementation. The reduced embryo development in the beta-NAGASE-supplemented medium was attributed to increased osmolarity of the culture medium. Embryos appeared to utilize alpha-mannosidase because its concentration decreased from 600.95 +/- 174.03 IU/l in drops without zygotes/embryos to 211.01 +/- 71.59 IU/l in drops with zygotes/embryos. Other culture media supplementation showed no significant differences between droplets, with or without zygotes/embryos. It was concluded that beta-NAGASE increased medium osmolarity, embryos utilized alpha-mannosidase and both glycosidases (singly or in combination) inhibited the development of bovine zygotes to morulae/blastocysts.     

Differential patterns of blastulation in bovine morulae cultured in synthetic oviduct fluid medium containing FCS or BSA

This study examined the effects of fetal calf serum (FCS) supplementation of culture medium on blastulation and hatching of bovine morulae cultured in vitro. The presumptive zygotes derived from in vitro maturation and fertilization (IVM/IVF) were cultured in the modified synthetic oviduct fluid medium containing 3 mg/ml BSA (mSOF-BSA). At 120 h post insemination, morulae were randomly assigned to culture with mSOF-BSA (control) or mSOF containing 5% FCS (mSOF-FCS) instead of BSA. The replacement of BSA with FCS in mSOF significantly increased the percentage of blastocyst formation from Day 6 to Day 10 (Day 0 = the day of in vitro insemination) and the hatching rate of embryos on Days 8 and 9. The total number of cells in morulae and blastocysts on Day 6, in blastocysts on Day 7, and in blastocysts and hatched blastocysts on Day 8 were similar among the treatments. However, the replacement of BSA with FCS in mSOF significantly increased the total number of cells in hatched blastocysts on Day 10. Although the time of blastulation of embryos was significantly accelerated by the replacement of BSA with FCS in mSOF, the total number of cells in embryos at blastulation was lowered. The total number of cells in embryos at blastulation showed a time-dependent decrease when the embryos were cultured in mSOF-BSA. In contrast, the total number of cells in embryos that were cultured in mSOF-FCS depended little on the time after in vitro insemination. The results indicate that FCS supplementation of culture medium increased the percentage of embryos developing to the blastocyst stage without an increase in the total number of cells. However, an acceleration in the hatching rate and an increase in the total number of cells in hatched blastocysts were observed, compared with that in BSA-supplemented medium. It is suggested that FCS in the culture medium initiates earlier blastulation with fewer total numbers of cells in the morulae than BSA during in vitro culture of bovine embryos.     

Early development and location of embryos in the reproductive tract of Nili Ravi buffalo (Bubalus bubalis): a retrospective analysis

One year data on embryo recovery were analyzed to study the development and descent of preimplantation embryos in Nili Ravi water buffalo. Forty-five superovulatory attempts were performed on 23 buffalo. A total of 45 embryos were recovered either nonsurgically or after slaughtering the animals at various time intervals (85 to 176 h) post estrus. Embryos were located in the oviducts at 85 h after estrus. At 108 h post estrus, most of them (78%) were recovered from the uteri. The embryos had 8 to 16 cells at 85 h post estrus, grew to morulae at 108 h and to compact morulae at 125 h post estrus. Early blastocysts were observed at 141 h post estrus. Blastocysts were predominant (69%) at 156 to 176 h after estrus; no hatched blastocysts were recovered during this time interval. Based on our findings, embryo recovery at around 150 h post estrus (i.e., Day 6 of the cycle) is recommended for compact morulae or blastocysts in the water buffalo.     

Co-culture of rabbit 2-cell embryos with rabbit oviduct epithelial cells and other somatic cells

Rabbit 2-cell embryos were co-cultured in Basel Synthetic Medium II + 10% fetal bovine serum with one of the following: primary cultures of rabbit oviduct epithelial cells (ROEC), a rabbit kidney epithelioid cell line (RK13), a rabbit epidermal epithelioid cell line (Sf1), or a rabbit skin fibroblast-like cell line (RAB9). Embryos cultured in medium alone served as controls. After 4 d of culture at 39 degrees C in 5% CO2 in air, 77-93% of the rabbit embryos which were co-cultured with somatic cells had reached the blastocyst stage, and 60-76% were hatching through their zonae pellucidae. These percentages, however, were not significantly different (P greater than .05) from those of embryos in medium alone, of which 90% had reached the blastocyst stage and 83% were hatching. Mean intrazonal embryo diameters also did not differ significantly among treatments (239-302 microns). Bovine 1-8-cell embryos were also co-cultured with ROEC. This stimulated 60% of these embryos to develop beyond the so-called "16-cell block" in vitro, whereas 0% of the embryos cultured in medium alone developed past this block. Evaluation of the ROEC cultures by light microscopy, immunocytochemistry, and gel electrophoretic analysis of conditioned medium, together with the positive results with bovine embryos, indicate that the ROEC culture partially simulates oviductal conditions in vivo. Therefore, our results suggest that oviduct epithelial cells may play a less pivotal role in regulating early development in the rabbit than in the cow.(ABSTRACT TRUNCATED AT 250 WORDS)     

An attempt at embryo transfer as a means of controlling Bordetella bronchiseptica infection in the rabbit

Embryo transfer was attempted in order to control disease in rabbits. Embryos were collected by flushing of the oviducts of donor rabbits on Day 2 of gestation, into small tubes containing the medium, transported within the body warmth of the person carrying the tubes and transferred into the oviducts of SPF pseudopregnant recipients. The time between embryo collection and transfer was 7-8 hours. Ten of 56 embryos derived from Bordetella bronchiseptica infected animals developed into newborns. As a result of bacteriological examination of intranasal exudate in six weanlings, no pathogens were detected. We suggest that embryo transfer is an effective and simple alternative to caesarean operation in Bordetella bronchiseptica infected rabbits.     

Deep freezing of sheep embryos.

Sheep embryos, collected 1-8 days after oestrus, were placed in Dulbecco's phosphate-buffered saline medium (PBS). After treatment, the viability of the embryos was tested by temporary transfer to ligated rabbit oviducts. In Exp. 1, Days 5-8 embryos survived for at least 15 min at 0 degrees C in the presence of 1-5 M-DMSO. In Exp. 2, 12/14 Days 5-8 embryos survived after being frozen in 1-5 M-DMSO at 0-3 degrees C/min to temperatures ranging between-15 degrees and -60 degrees C and then thawed at 12 degrees C/min. In Exp. 3, Days 5-8 embryos were frozen in 1-5 M-DMSO at 0-3 degrees C/min to below-65 degrees C before being transferred to liquid nitrogen (-196 degrees C), and stored for 12 hr to 1 month. The embryos were thawed at 3 degrees C/min, 12 degrees C/MIN or 360 degrees C/min and, after transfer to rabbit oviducts, 0/4, 10/36 and 1/4, respectively, developed normally. The 11 embryos which were considered normal when recovered from the rabbit oviducts plus 1 slightly retarded embryo were transferred to 7 recipient ewes. Four ewes subsequently lambed, producing 5 lambs. In addition, 8 embryos were transferred to 4 ewes directly after thawing. Three of these ewes subsequently lambed, producing 3 lambs.