In vitro maturation of ovine oocytes in a portable incubator

Immature ovine oocytes were collected from ovaries obtained from an abattoir and assigned to one of three treatment groups for in vitro maturation. For Treatment 1 (T1), oocytes were matured in a conventional incubator, in tissue culture wells in an atmosphere of 5% CO(2) and air. Maturation medium consisted of bicarbonate buffered Tissue Culture Medium 199 (TCM199) supplemented with fetal calf serum (FCS), follicle stimulating hormone (FSH), luteinizing hormone (LH), and penicillin/streptomycin (pen/strep). For Treatment 2 (T2), oocytes were matured in a portable incubator, in plastic tubes containing the same medium as T1. The medium was equilibrated with 5% CO(2) and overlayed with oil. For Treatment 3 (T3) oocytes were matured in the portable incubator without CO(2) equilibration, in tubes containing HEPES buffered TCM 199 supplemented as in T1. After 24 hours at 39 degrees C, the percentage of oocytes undergoing normal nuclear maturation was 72.55, 68.14 and 66.96% for T1, T2 and T3, respectively (P >0.05). In a second experiment oocytes were matured in the 3 treatments described, then fertilized in vitro using frozen-thawed ram sperm. Fertilization rates were 44.09, 58.62 and 55.69% for T1, T2 and T3, respectively. T1 and T2 were significantly different (P < 0.05). For Experiment 3, oocytes matured and fertilized as described were cultured in drops of Modified Brinster's Mouse Ova Culture (MBMOC) containing bovine oviductal cells. These were incubated at 39 degrees C in an atmosphere of 5% CO(2) and air for 7 days. T1, T2 and T3 resulted in 20.26, 16.94 and 24.43% development to morulae, and 4.01, 3.06 and 1.85% development to blastocysts, respectively (P >0.05). The results of these experiments indicate that maturation, fertilization, and developmental rates of ovine oocytes matured in the portable incubator are similar to those of oocytes matured in a conventional incubator. This technique shows promise for transportation of oocytes to laboratories where abattoirs are not in close proximity, and holds promise for transportation of oocytes from non-domestic animals collected in the field or remote locations, to facilities capable of utilizing and preserving the gametes.     

Development of bovine embryos in single in vitro production (sIVP) systems

Single in vitro production (sIVP) of embryos enables the study of developmental parameters of individual oocytes or embryos. Because several previously published sIVP systems showed varying levels of success, we attempted to design a simple, semidefined sIVP system that resulted in developmental rates similar to those obtained through group production (gIVP). In a 5 × 3 × 4 factorial experiment, 4200 oocytes were randomly assigned to combinations of various maturation (sIVM), fertilization (sIVF), and culture (sIVC) treatments based on media TCM199 (5 treatments), TALP (3 treatments), and SOF/aa/BSA (4 treatments), respectively. All sIVP steps were carried out in 10–12 μl drops under oil. Embryo development to blastocyst on days 7 and 8 of culture was determined and blastocyst cell numbers measured as an indicator of embryo quality. No interaction was found within any combination of sIVM, sIVF and sIVC treatments. Also, there was no difference in percentage of development to various stages for embryos in any of the sIVM or sIVF treatments (over all treatment combinations). However, when treatment combinations included charcoal-treated serum addition on day 5 of culture, a significant increase in development (39.0% total blastocysts/total oocytes vs. 22.7, 23.8 and 23.5% for the other 3 sIVC treatments, respectively; P < 0.001) and decrease in mean cell number (114.2 vs. 149.1, 150.5 and 143.7 cells, respectively; P < 0.001) was observed. These results are comparable to those routinely obtained in this laboratory with gIVP and establish standard conditions for individual embryo production. Mol. Reprod. Dev. 51:143–147, 1998. © 1998 Wiley-Liss, Inc.     

In vitro production of bovine embryos using individual oocytes

The development of a bovine in vitro embryo production system where individual oocytes could be followed through to the morula or blastocyst stage would be of interest to several fields of study and would allow us to characterise developmentally competent oocytes and their corresponding follicular environment. Several studies have, however, reported significantly reduced embryo development when oocytes or embryos were cultured individually compared to in groups. The aim of this study was to establish such an embryo production system, with embryo development rates similar to that observed under control (grouped) conditions. This study showed that conservation of the oocyte/embryo medium densities generally employed for grouped culture does not facilitate embryo development if oocytes/embryos are cultured individually. However, individual oocytes could effectively undergo IVM/IVF/IVC to the expanded blastocyst stage with some small modifications to the standard protocol. Individual IVF was effective if carried out in either 100 μl of medium in wells or in 50 μl droplets. Individual IVC, if carried out in 10 or 20 μl droplets of SOF with FCS added at either 0 or 24 hr, was effective in terms of blastocyst yields but 20 μl droplets did yield significantly fewer hatched blastocysts compared to grouped controls (P < 0.05). An entirely individual embryo production system was effective when it included individual IVM in 10 μl droplets of M199 + 10 ng/ml EGF resulting in day 8 blastocyst yields not significantly different from controls (38% vs. 35% respectively). The use of 10% FCS during individual IVM appeared, at least under our experimental conditions, to be detrimental to subsequent development. The uses of an individual system for embryo production are many and varied. The results of this study show clearly that a large proportion of bovine oocytes can develop to the blastocyst stage when matured, fertilized, and cultured individually. This opens the way for studies regarding the quality of specific oocytes in such a way as will greatly improve our understanding of the events of late folliculogenesis. © 1996 Wiley-Liss, Inc.     

In vitro production of bovine embryos using sex-sorted sperm

The objective of this study was to investigate the suitability of sex-sorted sperm for producing viable in vitro embryos for subsequent transfer into recipient cows and heifers on commercial dairy farms. From August 2002 to June 2003, ovaries were collected from 104 producer-nominated Holstein donor cows on seven Wisconsin farms via colpotomy or at slaughter. Oocytes (N=3526) were aspirated from these ovaries, fertilized 22+/-0.2h later, and cultured to the morula or blastocyst stage. The fluorescence-activated cell sorting ("Beltsville") approach was used to produce (primarily) X-bearing sperm from the ejaculates of three young Holstein sires, and 365 transferable embryos were produced. On average, 3.6+/-0.3 (means+/-S.E.M.) transferable embryos were produced per donor, including 1.4+/-0.2 (Grade 1), 1.5+/-0.2 (Grade 2), and 0.7+/-0.1 (Grade 3) embryos. Number of usable oocytes per donor (33.9+/-3.3) and percent cleavage (51.1+/-1.9) were significant predictors of the number of blastocysts that developed. Mean conception rates for the resulting in vitro embryos were 34.2+/-1.6% in yearling heifer recipients and 18.2+/-0.7% in lactating cow recipients. Additional oocytes (N=3312) from ovaries of anonymous donors (N unknown) collected at a commercial abattoir were fertilized using unsorted sperm, and the percentage of these that developed to blastocyst stage (20.1+/-2.9) was greater (P<0.05) than the corresponding percentage (12.2+/-2.3) achieved with sex-sorted sperm using oocytes (N=1577) from the same source. In summary, we inferred that in vitro embryo production may be a promising application of sex-sorted sperm in dairy cattle breeding, but that the biological causes of impaired embryo development in vitro and compromised conception rates of transferred embryos should be further investigated.     

Tubal transfer of bovine embryos: a simple endoscopic method reducing long-term exposure of in vitro produced embryos

Although numerous trials had shown the need to define a procedure to get free access to the bovine oviduct, there was no adequate report of a technique which was accepted for the routine transfer of early tubal-stage embryos. We have now report an endoscopically mediated transvaginal method for transferring embryos into the oviduct. The in vitro produced embryos were loaded into a curved glass capillary tube which was connected to a perfusor tube plus 1-mL syringe. The capillary tube was directly inserted via the infundibulum into the ampulla. After first having checked the ovaries for the presence of a corpus luteum the embryos were deposited under visual guidance in about 20 to 50 microL medium. Twenty-four Simmental and Brown Swiss heifers received 26 embryos and 9 animals became pregnant, of which 7 recipients delivered 8 live calves. With practice, the time used for endoscopic transfer was reduced to less than 10 min. The results demonstrate that the described technique is suitable for practical application. Especially for the early transfer of IVP-derived embryos this technique might be advantageous. In conclusion, this method is also of great potential interest for the recovery of tubal-stage embryos and for the in vivo culture of embryos followed by conventional flushing at Day 7.     

Electrofusion of two-cell bovine embryos for the production of tetraploid blastocysts in vitro

Tetraploid bovine blastocysts were produced experimentally by electrofusion of in vitro matured and fertilized, zona-enclosed two-cell embryos (33-35 hr after initiation of sperm-egg incubation) using three fusion protocols. Field strengths of 1.0, 1.4, and 2.4 kV/cm were tested and the rate of fusion, subsequent cleavage, and blastocyst development were measured for each. High rates of fusion (76.5% +/- 2.8%), cleavage (72.5% +/- 7.4%) and blastocyst development (56.1% +/- 6.4%) were achieved with the application of 1. 4 kV/cm as a single 100-microseconds pulse. Embryos were scored 30 and 60 min after stimulation for fusion. No time effect for fusion, cleavage, or blastocyst development was observed. Chromosome preparations of day 7 blastocysts revealed 12.5% of fused embryos were tetraploid. This is a significant increase from that found in nonfused embryos where spontaneous tetraploidy did not occur. An electrical stimulus of 1.0 kV/cm applied as two 50-microseconds pulses produced significantly less one-cell embryos (64.2% +/- 3.0%) compared to 1.4 kV/cm while cleavage (79.9% +/- 3.4) and blastocyst development (44.6% +/- 4.0%) were not different from that for unexposed control embryos (89.5% +/- 2.3% and 57.2% +/- 3.2%, respectively). Embryos fused at 2.4 kV/cm applied as a single 30-microseconds pulse (69.7% +/- 5.7%) showed significantly lower cleavage (72.1% +/- 3.7%) and blastocyst rates (40.2% +/- 4.6%) compared to the unexposed control.     

In vitro production of bovine embryos and their application for embryo transfer

This review introduces newly developed serum-free media (IVD101 and IVMD101), that are effective for producing high yields of transferable embryos of good quality from in vitro-matured and -fertilized oocytes. Both serum-free media produced better results than serum-containing medium, including increased rates of blastocyst formation, post-thaw embryo viability, and pregnancy after transfer. In addition, reduced risks of calf mortality and large calf syndrome were also observed for the serum-free-derived embryos. Serum-derived embryos contained a large number of lipid droplets and immature mitochondria in their cytoplasm that may account for the lower production of transferable embryos and poor embryo quality. A non-invasive technique using scanning electrochemical microscopy was successful in quantitatively measuring oxygen consumption of single embryos. This technique may prove to be reliable for predicting embryo viability and subsequent developmental ability.     

Abnormal offspring following in vitro production of bovine preimplantation embryos: a field study

Data on 944 calves from 2228 in vitro-produced (IVP) bovine preimplantation embryos were compared with data on 2787 AI calves born in the same herds in 1995. Bovine preimplantation embryos were produced in vitro following ovum pick up (OPU) from donor cows and pregnant heifers in an open nucleus breeding program. After 7 d of in vitro culture on a BRL cell monolayer in the presence of 10% FCS, frozen-thawed expanded blastocysts and fresh morulae to expanded blastocysts were transferred into recipient heifers and cows at 119 contracted farms throughout the Netherlands. The pregnancy rate, as confirmed by palpation per rectum between 90 and 150 d after transfer was 43.5% for both fresh and frozen embryos. Data on IVP and AI calves were registered by the farmers. The percentage of calves with a congenital malformation and the percentage of male calves were related to the total number of calves born. Gestation length, birth weight (measured by a balance), perinatal mortality and ease of calving were analyzed in a subdataset (699 IVP and 2543 AI calves, respectively) by a comparative analysis of variance (ANOVA). The ANOVA model included herd, month of calving, sire nested within AI or IVP, parity and breed of the inseminated cow/embryo recipient, sex of calf, type of calf (AI or IVP) and two-way interactions between type of calf and sex, parity and breed. The percentage of calves with congenital malformations was 3.2% and 0.7% for IVP and AI calves, respectively. An increased incidence of hydro-allantois and abnormal spinal cords and limbs was observed in IVP calves. The percentage of male calves was significantly different between IVP and AI, 55.5% and 48.9%, respectively (Chi-square, 1 degree of freedom, P < 0.05). On the average, IVP calves showed a significant increase of birth weight by 10% (4-5 kg), a 3-d longer gestation period, 2.4% more perinatal mortality and a more difficult calving process compared to AI calves (P < 0.05). From these results it is concluded that calves produced by IVP deviate significantly from calves produced by AI.     

Bovine blastocysts obtained from reconstructed cytoplast and karyoplasts using a simple portable CO2 incubator

To enable both the multiplication of elite livestock and the engineering of transgenic animals for various agricultural and biochemical purposes, scientists around the world are intensively studying efficient ways of improving developmental competency of bovine embryos reconstructed by somatic cell nuclear transfer. Because it is widely accepted that culture conditions along with many other factors contribute to the developmental competency of reconstructed embryos, this preliminary study was designed to test whether or not bovine reconstructed embryos could develop in vitro using a simple portable CO(2) incubator. CO(2) and O(2) gas tensions and air pressure can be varied using this system. The parameters used in the five conducted trials were low CO(2) (2-5%) and O(2) (8-10%) gas tensions, and negative air pressure (of 300 mm Hg). Chamber temperature was maintained at 38.5 degrees C. Bovine fetal fibroblasts were used as donor karyoplasts and were fused into microsurgically enucleated M II oocytes followed by activation and culture. From the 250 enucleated oocytes, 217 (86.8%) fused, 183 (73.2%) cleaved, and 43 (17.2%) developed to the blastocyst stage. While relatively low developmental rates were achieved, technical proficiency may have been a contributing factor. Further studies using this system are needed to determine optimal levels of O(2), CO(2), and air pressure.     

Development of a bovine luteal cell in vitro culture system suitable for co-culture with early embryos

The cross talk between the corpus luteum (CL) and the early embryo, potentially relevant to pregnancy establishment, is difficult to evaluate in the in vivo bovine model. In vitro co-culture of bovine luteal cells and early embryos (days?2?C8 post in vitro fertilization) may allow the deciphering of this poorly understood cross talk. However, early embryos and somatic cells require different in vitro culture conditions. The objective of this study was to develop a bovine luteal cell in vitro culture system suitable for co-culture with early embryos in order to evaluate their putative steroidogenic and prostanoid interactions. The corpora lutea of the different stages of the estrous cycle (early, mid, and late) were recovered postmortem and enriched luteal cell populations were obtained. In experiments 1 and 2, the effects of CL stage, culture medium (TCM, DMEM-F12, or SOF), serum concentration (5 or 10%), atmosphere oxygen tension (5 or 20%), and refreshment of the medium on the ability of luteal cells to produce progesterone (P₄) were evaluated. The production of P₄ was significantly increased in early CL cultures, and luteal cells adapted well to simple media (SOF), low serum concentrations (5%), and oxygen tensions (5%). In experiment 3, previous luteal cell cryopreservation did not affect the production of P₄, PGF_2??, and PGE₂ compared to fresh cell cultures. This enables the use of pools of frozen?Cthawed cells to decrease the variation in cell function associated with primary cell cultures. In experiment 4, mineral oil overlaying culture wells resulted in a 50-fold decrease of the P₄ quantified in the medium, but had no effect on PGF_2?? and PGE₂ quantification. In conclusion, a luteal cell in vitro culture system suitable for the 5-d-long co-culture with early embryos was developed.     

Evaluation of different culture systems on the in vitro production of bovine embryos

The objective of this study was to determine the development potential and quality of in vitro produced bovine embryos cultured individually or in groups. After IVM and IVF, presumptive zygotes were cultured in groups or individually, either in drops or in the modified "well of the well" (mWOW) system. In Experiment 1, four culture systems were utilized: T1: drop in group (control); T2: mWOW in groups; T3: mWOW individually; and T4: drop individually. Cleavage and blastocyst rates at Days 6, 7 and 8 and total cell number of Day 6 blastocysts were similar (P > 0.05) for all treatments. However, in Day 7 blastocysts, total cell number was lower (P < 0.05) in embryos cultured individually in a small drop than those cultured in the mWOW. In Experiment 2, blastocysts of T1, T2 and T3 were allocated into two groups, control and vitrified. After warming, the vitrified embryos were cultured for 72 h. At 48 h, the development of the Days 6 and 7 embryos was similar (P > 0.05) for all treatments in the control group. For the vitrified embryos, lower hatching rates (P < 0.05) were observed in the T3 group. In conclusion, embryos cultured in groups in the mWOW system had the same blastocyst rates but better quality (measured by their survival after vitrification) than those cultured individually in the mWOW system.     

Freezing bovine embryos with a portable liquid nitrogen freezer requiring no external seeding

One-hundred and twenty excellent morula to blastocyst stage bovine embryos were obtained nonsurgically from superovulated Holstein heifers. Completely portable, nonelectric (manual) liquid nitrogen (LN) freezers combined with simplified freezing curves utilizing self-seeding were compared to a programmable LN freezer (Planner-R204) following the conventional freezing rate for freezing embryos. Seeding was self induced in ampules at -6.8 degrees C and at -5.5 degrees C in straws in the manual freezers. Glycerol was used as the cryoprotectant at 1.5 M concentration. Post-thaw appearance, fluorscein diacetate testing (FDA), and growth after 12 and 24 h incubation were used as indicators of embryo viability. There were no significant differences between embryos frozen in the two types of freezers in terms of the viability tests used. Pregnancy rates resulting from transfer of embryos frozen in the two types of freezers will be determined in subsequent field trials. The manual LN freezers used in this study are capable of successfully freezing bovine embryos. The simplified nature of these freezers and the freezing procedures used with them greatly decreases the complexity and expense of freezing embryos.     

In vitro production of bovine embryos: developmental competence is acquired before maturation

Few studies have examined the importance of the time during which oocytes are left in the ovaries following animal slaughter. The objective of this study was to determine the optimal time for retrieving oocytes after slaughter and to ascertain if superovulating cows in association with this optimal time could increase the developmental competence of bovine oocytes. In Experiment 1, oocytes were left in the postmortem ovaries for 2,3,4,5,6 or 7 h and were then transported to the laboratory at approximately 30 degrees C. Recovered oocytes were processed in vitro using standard techniques. In Experiment 2, cyclic heifers (n = 18) were superovulated between Days 8 and 12 of the estrous cycle with 8 constant doses (4 mg each, twice daily) or 8 decreasing doses (2 injections of 4,3,2 and 1 mg every 12 h) of FSH-P +/- 1 mg prostaglandin 24 or 48 h before slaughter. Oocytes were left in the ovaries for 4 h and were classified according to the state of their cumulus and cytoplasm. The results indicated that oocytes aspirated from ovaries collected 4 h after slaughter produced significantly more > or =64-cell embryos after 7 d of in vitro development than those collected 2, 6 or 7 h postslaughter. Oocytes (87%) from superovulated animals had numerous layers of cumulus cells and originated from medium (2.7 to 8 mm) and large (> or =8 mm) follicles. Significantly more oocytes developed from large follicles than from medium follicles. Although individual culture of the oocytes negatively affected the percentage of embryos produced, group culture of oocytes from animals that were superovulated and left in the postmortem ovaries for 4 h resulted in exceptionally high rates of embryos after 5 d of IVD. On average, 60 to 80% of 16-cell embryos were produced, indicating that under the proper conditions, developmental competence is acquired before in vitro maturation.     

A simple carbon dioxide injection system for photosynthetic studies

A simple carbon dioxide injection system has been developed for the maintenance of CO₂ concentrations in semiclosed cuvette systems suitable for photosynthesis and gaseous pollutant studies. The device injects small volumes of pure carbon dioxide into the cuvette in response to a signal from an infrared gas analyzer.     

In vitro assessment of a direct transfer vitrification procedure for bovine embryos

We developed a simple vitrification technique for bovine embryos that could permit direct transfer. Embryos were produced in-vitro by standard procedures. The base medium for cryopreservation was a chemically defined medium similar to SOF + 25 mM Hepes and 0.25% fatty acid free bovine serum albumin (FAF-BSA) (HCDM2). In experiment 1, embryos were first exposed to 3.5M ethylene glycol (V1) for 1, 2 or 3 min at room temperature (20-24 degrees C), and then moved to 7 M ethylene glycol (V2) at 4 or 20-24 degrees C and loaded in 0.25-mL straws. After 45 s in 7 M ethylene glycol, straws were placed in liquid nitrogen. Embryos that were loaded at 20-24 degrees C had higher survival rates than those loaded at 4 degrees C (P<0.05). Exposure for 1 min was best for morulae, while 3 min was best for blastocysts. In experiment 2, blastocysts were handled at 24 degrees C and exposed to two concentrations of ethylene glycol in V1 (3.5 or 5 M) followed by V2 as in experiment 1, two warming temperatures (20 or 37 degrees C) and two post-warming holding times until culture (5 or 15 min). Exposure to 5 M ethylene glycol and warming at 37 degrees C was the optimal combination of procedures, and embryos survived well after 15 min in straws if warmed at 37 degrees C. In experiment 3, ethylene glycol concentration (3, 4 or 5 M) and exposure time (0.5 or 1 min) during two-step addition of cryoprotectant were studied for bovine morulae. In experiment 4, morulae were exposed to V2 for 30 or 45 s in HCDM2 or Vigro holding medium and then held in 22-24 degrees C air or 37 degrees C water post-warming. Experiment 5 was like experiment 4 except blastocysts were used. Overall survival rates of blastocysts in experiment 5 averaged 80% of non-vitrified controls after 48 h culture. The survival rates with in vitro-produced morulae in experiments 1, 3 and 4 were unacceptable. Vitrification solutions based on Vigro tended to result in higher survival than HCDM2 for blastocysts, but not morulae. In experiment 6, the survival rate in vitro of in vivo-produced morulae and blastocysts after two-step vitrification was nearly 100%. Our vitrification technique was very effective for in vitro produced blastocysts, but not for in vitro-produced morulae.     

Noninvasive characterization of metabolites secreted in culture media by bovine embryos during in vitro production

Introduction

Secreted molecules could be correlated with the potential of embryonic development. The development of new technologies, such as mass spectrometry (MS), has enabled analyzes in culture medium to favor the determination of embryos viability in order to improve embryo selection.

Objectives

To perform a non-invasive characterization of the secretome of in vitro produced embryos with different kinetics of cleavage and in different stages of development to obtain specific patterns based on embryonic phenotype through MALDI–TOF–MS.

Methods

Bovine embryos were produced in vitro by standard protocols. The zygotes were transferred to individual culture medium and divided into two groups: Fast [4 cells-22 hours past the beginning of culture (hpc)] and Slow (2 cells-22 hpc). Culture media drops were collected at 22, 96 and 168 hpc. Analysis of embryonic secretome was made by MALDI–TOF–MS after extractions of the metabolites. Spectra were acquired in positive ionization mode. Univariate (Fold-change) and multivariate (Partial Least Squares Discriminants Analysis) analyses were performed by the online software Metaboanalyst.

Results

It was demonstrated that embryos with different kinetics have different spectrometric profiles during embryonic development. Moreover, secreted molecules in each developmental stage are differentially represented in embryos with different kinetics, and are related to specific pathways such as lipid and amino acids metabolism and cell proliferation.

Conclusion

We propose that the analysis of culture media by MALDI–TOF–MS can be used for qualitative characterization of bovine embryos, allowing the identification of key molecules during in vitro culture.

     

Progesterone enhances in vitro development of bovine embryos

Increased pregnancy rates in cattle given progesterone (P₄) prior to 5 d after breeding have recently been reported. The objective was to determine if this increase in pregnancy rate could be attributed to a direct positive effect of P₄ on the developing embryo. In Experiment 1, 280 bovine oocytes were inseminated in vitro and at Day 3 (insemination = Day 0), good quality 8 cell embryos (n = 206) were randomly allocated to be cultured in either CR1aa+serum with 0 or ∼15 ng/mL (n = 102 and n = 104, respectively). In Experiment 2, 881 bovine oocytes were used; on Day 3, good quality 8 cell embryos (n = 511) were randomly allocated to either the control (CR1aa+FCS, n = 168), vehicle (CR1aa + FCS + ethanol, n = 170), or P₄ treatment (CR1aa + FCS + ∼15 ng/mL P₄ in ethanol, n = 173). On Day 7, in both experiments, there were increased numbers of blastocysts developing in the P₄ group (Experiment 1, 59% and Experiment 2, 71%) compared to the vehicle (Experiment 2, 53%) or control (40 and 62% in Experiments 1 and 2, respectively). The addition of P₄ (8%) stimulated the rate of embryo development (early blastocysts or more advanced stages on Day 6) compared to vehicle (3%) and control (0%) and the P₄ group had more hatched or hatching blastocysts (33%) on Day 9 compared to the control or vehicle group (21 or 22%). Additionally, the P₄ group had greater embryo diameter and significantly more Grade 1 blastocysts on Day 7. In conclusion, P₄ had a direct, positive effect on developing bovine embryos cultured in vitro.     

Comparison of the effects of using standard and simple portable CO2 incubators on the in vitro developmental competence of bovine embryos reconstituted by somatic cell nuclear transfer

In an attempt to determine the cultural factors that would improve cloning efficiency, we compared the effects of two incubation systems-a simple portable system and a standard CO2 incubator-on the production of bovine embryos by electrofusion of quiescent fetal fibroblast nuclei to enucleated oocytes matured in vitro. While the temperature (38.5 degrees C) and CO2 concentration (5%) were similar in both systems, the portable incubator operated in a vacuum of 300 mmHg and at an O2 level of 8-10%, which is lower than the standard. Although there were no significant differences between the two systems in terms of in vitro oocyte maturation (MII stage), fusion rates, and the number of cells in Day 7 blastocysts, significantly higher proportions of nuclear-transferred oocytes cleaved (P < 0.05) and developed to the blastocyst stage (P < 0.01) in the portable incubator (70.5 +/- 0.6 and 36.1 +/- 1.4%, respectively) than in the standard incubator (64.1 +/- 3.2 and 23.5 +/- 1.4%, respectively). Following the transfer of six blastocysts from the portable incubator group to three recipients, survival rates on Days 60, 90, and 120 were 100, 66.7 and 33.3%, respectively. This relatively high early embryonic loss may be associated with multiple pregnancy complications or other abnormalities of placentation frequently observed in cloned embryos. Further studies using this portable incubator system are needed to determine the optimum levels of O2, CO2, and air pressure.