Effect of holding technique and culture drop size in individual or group culture on blastocyst development after ICSI of equine oocytes with low meiotic competence

The effect of medium-to-embryo ratio on blastocyst development of equine embryos from oocytes with compact cumuli was evaluated in the present experiment. In addition, two methods for holding oocytes before in vitro maturation were compared. In Experiment 1, oocytes cultured with roscovitine for 16-18h before maturation were fertilized by intracytoplasmic sperm injection and cultured individually in 2.5, 5, 10 or 50microl droplets. In Experiment 2, oocytes were either cultured with roscovitine or held in a modified M199 with 20% serum at room temperature (EH treatment) for 16-18h, then matured, fertilized and cultured in groups at 5microl medium per embryo. In Experiment 3, oocytes were held in the EH treatment, then were matured and fertilized. In Study 3.1, injected oocytes were cultured individually in drop sizes as for Experiment 1; in Study 3.2, groups of 2-7 oocytes were cultured in fixed drop sizes of 5 or 50microl. Blastocyst development rates of individually-cultured embryos were not significantly different among drop sizes in either Experiment 1 or 3 (15-29%). In Experiment 2, blastocyst rates were not significantly different between holding treatments (17-23%). In Experiment 3, for group-cultured oocytes, blastocyst development was not significantly different between 5 and 50microl drops (39 and 27%, respectively). In conclusion, compact-cumulus oocytes may be effectively held in the EH treatment before maturation, and single culture of equine embryos yields acceptable blastocyst development. The greatest blastocyst rate (39%) was obtained with group culture in a 5microl droplet.     

Bovine embryos cultured in serum-poor oviduct-conditioned medium need cooperation to reach the blastocyst stage

Immature bovine oocytes were matured and fertilized in vitro, and the resulting zygotes were cultured to the blastocyst stage in droplets of tissue culture medium 199 (TCM 199) conditioned by oviduct cells in the absence of serum. In Experiment 1, the effect of the number of zygotes in a constant culture volume was investigated by culturing 1, 4 or 40 zygotes in 40 mul of culture medium. The cleavage rate was low with a single embryo (36%) but increased with the number of embryos, to reach 50% with 4 embryos/40 mul and 59% with 40 embryos/40 mul. Blastocyst formation was nil with 1 embryo per 40 mul, reaching 2.5% with 4 embryos/40 mul and 18% with 40 embryos/40 mul. The effect of the size of the drop was assessed in Experiment 2, the concentration of embryos remaining constant (1 embryo/1 mul). The volumes tested were 10, 20, 30 and 40 mul. Development into blastocysts increased gradually from 12% in the 10 10 group to 20% in the 40 40 group. Experiment 3 was designed to find a minimal droplet volume able to support the development of a single embryo to the blastocyst stage. The minimum tested volume was 5 mul and was not successful. These results show that bovine embryos cultured in oviduct-conditioned TCM 199 need to cooperate to reach the blastocyst stage. The mechanism of this cooperation is not known, but some autocrine/paracrine factors, probably growth factors, could promote embryo development as was demonstrated in mice. From Experiment 2 we can hypothesize that the surface volume ratio of the droplets could play a role in the culture conditions by interfering with the exchanges between the culture medium and the surrounding environment.     

Effects of volume, culture media and type of culture dish on in vitro development of hamster 1-cell embryos

We examined effects of medium volume and two different culture media (HECM-3 and HECM-4) on in vitro development of hamster embryos. Groups of 5 to 8 1-cell embryos were cultured for 72 h in either < or =100 or > or =100 microl volumes. In the first experiment, embryos were cultured in Petri dishes with 2, 5, 20, 50 or 100 microl of medium using the two media (2 x 5 factorial experiment). Optimal volumes for morula and blastocyst development were 100 microl of HECM-3 and > or =50 microl of HECM-4; in HECM-4, > or =20 microl volumes were suitable whereas in HECM-3 < or = 50 microl volumes were unsuitable. In the second experiment, embryos were cultured in 100, 200, 500 and 1000 microl of HECM-3 and HECM-4 using organ culture dishes. Controls were 100 microl drops in Petri dishes. In organ culture dishes, blastocyst development was < or =6% in HECM-3 and 33-41% in HECM-4, and suitable volumes for development to at least morulae were > or =200 microl of HECM-3, and > or =100 microl of HECM-4. In both experiments development to morula and blastocyst stages with 100 microl volume in Petri dishes was significantly higher with HECM-4 (96 and 85% in Experiment 1 and 2, respectively) than that with HECM-3 (52 and 40% in Experiment 1 and 2, respectively; P < 0.05). These results indicate that attention should be paid to both type and volume of medium and interaction with type of culture dish for optimizing development of embryos in vitro.     

Secretion of stem cell factor and granulocyte-macrophage colony-stimulating factor by mouse embryos in culture: influence of group culture

Previous studies showed that the addition of a growth factor to the culture medium could modulate embryo development. The possible secretion of different factors to the culture medium by the embryo itself, however, has been poorly evaluated. The present study was designed to investigate: (1) the influence of single or group culture on the development of 2-cell mouse embryos (strain CD-1) to the blastocyst stage; (2) the release of granulocyte-macrophage colony-stimulating factor (GM-CSF) and stem cell factor (SCF) into the culture medium by the embryo; and (3) the levels of GM-CSF and SCF in the culture medium from both single and group embryos. Two-cell CD-1 mouse embryos were cultured for 96 h singly or in groups of five embryos per drop. GM-CSF and SCF were assayed by ELISA in the complete culture medium. It was found that embryos cultured in groups gave a higher percentage of total blastocyst formation and hatched blastocyst when compared with single embryo culture. The mouse embryos secreted GM-CSF and SCF to the culture medium. The concentration of these cytokines is significantly higher in the group cultures than the level found in single cultures. In conclusion, mouse embryos in culture secrete GM-CSF and SCF to the culture medium and the concentration of these cytokines increases during communal culture. These factors may be operating in both autocrine and paracrine pathways to modulate embryo development during in vitro culture.     

In vitro culture of bovine IVM-IVF embryos: Cooperative interaction among embryos and the role of growth factors

The objective of this study was to determine whether there is a cooperative interaction among bovine embryos during in vitro culture. Furthermore, culture medium was supplemented with the growth factors, epidermal growth factor (EGF) and transforming growth factor-beta1 (TGF-beta1), to determine if these factors had a stimulatory effect on bovine embryo development similar to that seen in mouse development. In vitro matured - in vitro fertilized bovine embryos (2- to 8-cell) were cultured singly and in groups of five in 25 mul of medium (CR1 + amino acids + fatty acid-free bovine serum albumin) with or without EGF and TGF-beta1. Bovine embryos cultured in groups had a significantly higher rate of development to the blastocyst stage than embryos cultured singly. Neither EGF (10 ng/ml) nor TGF-beta1 (2 ng/ml) affected blastocyst development, hatching or the cell number of the embryos cultured in groups. Epidermal growth factor stimulated hatching of embryos cultured singly from the 8-cell stage, but did not significantly affect blastocyst development.     

New method for culture of zona-included or zona-free embryos: the Well of the Well (WOW) system

Culture of mammalian zygotes individually and in small groups results in lower developmental rates than culture of large groups. Zona-free zygotes also have impaired developmental potential in current culture systems. This paper describes a new approach to resolve the problems, the Well of the Well (WOW) system. Small wells (WOWs) were formed in four-well dishes by melting the bottom with heated steel rods. The WOWs were then rinsed, the wells were filled with medium, and the embryos were placed into the WOWs. To test the value of the WOW system a 3 x 3 factorial experiment was performed. Bovine presumptive zygotes were cultured from day 1 to day 7 (day 0: day of insemination) using three modules (single embryos, embryo groups of five, or single zona-digested embryos) and three different culture systems (400 microl medium, 200 microl drops, or WOWs). An additional control group consisted of 40 to 50 embryos cultured in 400 microl medium. The WOW system resulted in higher blastocyst/oocyte rates for all three modules (single: 59%; group of five: 61%; single zona-digested: 53%) than the culture in drops or in wells (P < 0.05 for all). The developmental rate was independent of the number of WOWs per well. The cell number of blastocysts cultured in the WOW system did not differ from that of the controls. Apart from its theoretical value in revealing the role of different factors influencing embryo development in vitro, the WOW system may have immediate practical consequences in certain areas of mammalian embryo production.     

Two-cell block to development of cultured hamster embryos is caused by phosphate and glucose

The failure of hamster 2-cell embryos to develop in vitro (2-cell block) was examined with experiments in which concentrations of glucose and phosphate in the culture medium were varied. Embryos were cultured in a protein-free modified Tyrode's solution that normally contains 5.0 mM glucose and 0.35 mM sodium dihydrogen phosphate. In the presence of 0.35 mM phosphate but without glucose, 23% of 2-cell embryos reached the 4-cell stage or further after culture for 1 day and 27% after 2 days. Glucose inhibited embryo development even at 0.1 mM (4% development to greater than or equal to 4-cells after culture for 2 days); there was no dose-related inhibition above this glucose concentration. In a second experiment, phosphate levels were varied in the absence of glucose. Phosphate was highly inhibitory to development, with 97% of 2-cell embryos reaching the 4-cell stage or further after culture for 1 day in the absence of phosphate compared to 9-21% in the presence of 0.1-1.05 mM phosphate. After culture for 2 days, 26% of embryos reached the 8-cell stage or further when phosphate was absent compared to 0% development to 8-cells with 0.1 mM phosphate or higher. In a factorial experiment, phosphate blocked development when glucose was present or absent, whereas glucose did not block embryo development in the absence of phosphate. However, 2-deoxyglucose (a non-metabolizable analogue of glucose) inhibited embryo development in the absence of phosphate. These data show that the in vitro block to development of hamster 2-cell embryos is caused at least in part by glucose and/or phosphate. Deletion of these compounds from the culture medium eliminates the 2-cell block to development in virtually all embryos, and approximately 25-75% of embryos develop to the 8-cell or morula stages in vitro. The observations provide a possible explanation for the 2-cell and 4-cell blocks that occur in conventional culture media: stimulation of glycolysis by glucose and/or phosphate may result in inefficient adenosine triphosphate (ATP) production. The data indicate marked dissimilarities in the regulation of in vitro development of early cleavage stage hamster embryos compared with embryos of inbred mice, since the latter have an inactive glycolytic pathway prior to the 8-cell stage of development and will grow from 1-cell to blastocyst with both phosphate and glucose in the culture medium.     

Development of sheep preimplantation embryos in media supplemented with glucose and acetate

Two experiments were conducted to examine the effect of supplemental glucose (G; 1.5 mM) and/or acetate (A; 0.5 mM) on the development of early sheep embryos to blastocysts when cultured in vitro in glucose-free synthetic oviductal fluid (SOF) + sheep serum or bovine serum albumin (BSA). In Experiment 1, 2- to 4-cell, 8- to 16-cell and >16-cell embryos were cultured in SOF, SOF+G, SOF+A or SOF+G+A. All media were supplemented with 10% sheep serum. In addition, embryos were cultured in either microdrops under polysiloxane oil or in multiwell dishes. Overall, development to the blastocyst stage was 3%, 30% and 68% for 2- to 4-cell, 8- to 16-cell and >16-cell stages, respectively, suggesting that an 8-cell developmental block existed under our culture conditions. Glucose supplementation had little effect on embryo development, and no overall effect was observed from the addition of acetate. In Experiment 2, 8- to 16-cell embryos were cultured in SOF or SOF+G, both supplemented with BSA. Development to the blastocyst stage was 25% and 18%, respectively. The results show that the presence of glucose or acetate did little to enhance embryonic development in our incubation systems. Further work is required to evaluate fully the energy requirements for development of the early sheep embryo.     

Effect of supplementation of different growth factors in embryo culture medium with a small number of bovine embryos on in vitro embryo development and quality

When embryos are cultured individually or in small groups, blastocyst yield efficiency and quality are usually reduced. The aim of this work was to investigate the effect of supplementation of the embryo culture medium (CM) with several growth factors (GFs) on embryo development and apoptosis rate when a reduced number of embryos were in vitro cultured. Two experimental studies (ES) were carried out. In ES 1, five treatments were tested to study the effect of GF on embryo development: Control (∼30 to 50 embryos cultured in 500 μl of CM); Control 5 (Five embryos cultured in 50 μl microdrops of CM), without addition of GF in either of the two control groups; epidermal GF (EGF); IGF-I; and transforming GF-α (TGF-α) (Five embryos were cultured in 50 μl microdrops of CM with 10 ng/ml EGF, 10 ng/ml IGF-I or 10 ng/ml TGF-α, respectively). In ES 2, following the results obtained in ES 1, four different treatments were tested to study their effect on embryo development and quality (number of cells per blastocyst and apoptotic rate): Control; Control 5; EGF, all three similar to ES 1; EGF + IGF-I group (five embryos cultured in 50 μl microdrops of CM with 10 ng/ml EGF and 10 ng/ml IGF-I). In both ESs, it was observed that a higher proportion of embryos cultured in larger groups achieved blastocyst stage than embryos cultured in reduced groups (22.6% v. 14.0%, 12.6% and 5.3% for Control v. Control 5, IGF-I, TGF-α groups in ES 1, and 24.9% v. 17.1% and 19.0% for Control v. Control 5 and EGF in ES 2, respectively; P < 0.05), with the exception of embryos cultured in medium supplemented with EGF (18.5%) or with EGF + IGF-I (23.5%), in ES 1 and ES 2, respectively. With regard to blastocyst quality, embryos cultured in reduced groups and supplemented with EGF, alone or combined with IGF-I, presented lower apoptosis rates than embryos cultured in reduced groups without GF supplementation (11.6% and 10.5% v. 21.9% for EGF, EGF + IGF-I and Control 5 groups, respectively; P < 0.05). The experimental group did not affect the total number of cells per blastocyst. In conclusion, this study showed that supplementation of the CM with EGF and IGF could partially avoid the deleterious effect of in vitro culture of small groups of bovine embryos, increasing blastocyst rates and decreasing apoptosis rates of these blastocysts.     

Bovine amniotic and allantoic fluids for the culture of murine embryos

This study evaluated bovine amniotic and allantoic fluids as culture media for two-cell murine embryos to the hatched blastocyst stage. Amniotic and allantoic fluids were collected from four 70-d periods of pregnancy and pooled from at least five different animals. In Experiment 1 (n = 470) the fluids were frozen twice. Treatments consisted of twice frozen amniotic or allantoic fluid from each pregnancy period, Whitten's medium and fetal calf serum. The later two media were controls. Twice-frozen amniotic fluid <70 d pregnancy period, fetal calf serum and Whitten's medium supported the development of embryos to the hatched blastocyst stage. Whitten's medium was superior to twice-frozen amniotic fluid <70 d pregnancy period or fetal calf serum (P<0.01). Biochemical analysis showed lower glucose in amniotic and allantoic fluids than in Whitten's medium. Experiment 2 (n = 425) was performed to evaluate the effect of glucose supplementation to amniotic fluid. No benefit of glucose supplementation of the amniotic fluid was observed. In Experiment 3 (n = 432), the fluids were transported nonfrozen on ice. Treatments consisted of nonfrozen amniotic fluid <70 d pregnancy period; nonfrozen amniotic fluid <70 d pregnancy period + glucose), nonfrozen allantoic fluid <70 d pregnancy period; and Whitten's medium. The percentages of embryos developing to hatched blastocyst stage were 66.6, 56.5, 57.4 and 63.9% respectively, for each of the four treatments. No differences were found between any two treatments (P<0.05). In Experiment 4 (n = 231) the fluids were stored at -20 degrees C for 15 d. Whitten's medium was superior to amniotic or allantoic fluid <70 d pregnancy period in sustaining embryo development (P<0.05). In conclusion, these data indicate that nonfrozen bovine amniotic or allantoic fluid <70 d pregnancy period can support the development of murine embryos to the hatched blastocyst stage comparable to culture in Whitten's medium. Glucose supplementation of the amniotic fluid offered no advantage, and freezing of fluids had an adverse effect on in vitro embryo development.     

Improved in vitro development of OPU-derived bovine (Bos taurus) embryos by group culture with agarose-embedded helper embryos

The average number of oocytes collected by ovum pick up (OPU) from Bos taurus cattle is <8 per live donor. The objective was to determine whether development of small numbers of cattle embryos (produced by OPU and IVF), was enhanced by including “helper” embryos, produced from abbatoir-derived oocytes and embedded in agarose. Oocytes were from abbatoir-derived ovaries (Experiments 1 and 2) or OPU of elite donors (Experiment 3). In Experiment 1, cleaved embryos (2–8 cells), were randomly allocated. Controls were groups of 1, 3, 5, 10, and 20 cleaved embryos cultured in 50 μL serum-free SOF, whereas treatments were groups of 1, 3, and 5 embryos freely cultured along with helpers in groups of either 9, 7 or 5 embedded in agarose per droplet. Therefore, there were 10 cleaved embryos per droplet in combinations of 1 + 9, 3 + 7 or 5 + 5 (free + helper), respectively. There was an increase in the progression to blastocyst for 1–5 embryos per droplet, compared to 10 and 20 (6.6–24.2% vs. 39.2–43.3%, P < 0.05). For the tested free embryos, those cultured with helpers had increased blastocyst development over their control counterparts (39.3–49.5% vs. 6.6–24.2%, P < 0.05). When the number of embryos per droplet was 10 or 20, blastocyst percentage was similar (39.2–49.5%, P > 0.05). In Experiment 2, addition of an agarose chip to the culture medium did not significantly affect development to the blastocyst stage. In Experiment 3, after fertilizing OPU oocytes with sorted X-sperm, a group of three cleaved embryos were cultured in a droplet with either seven helpers (3 + 7) or alone (3 + 0). Blastocyst development of OPU oocytes in the 3 + 7 group was 37.1%, higher than that in the 3 + 0 group (11.8%, P < 0.05). In conclusion, limited numbers of OPU/IVF oocytes had competent development when cultured with helpers (embedded in agarose to provide physical separation).     

Oviductal fluid and growth factors failed to enhance development of porcine embryos

Porcine embryos (1-, 2- and 4-cell) were cultured in a basal medium consisting of Krebs-Ringer bicarbonate buffer supplemented with oviductal fluid and several growth factors and observed for further development. Oviducts were flushed at either 48 h (Experiment 1) or 96 h (Experiment 2) after the onset of estrus. Observations were made every 48 h (Experiment 1) or 12 h (Experiment 2) until failure of the embryos to develop for 2 consecutive observations. Embryos were scored 0 = no development, 1 = cleavage, 2 = morula, 3 = blastocyst, or 4 = hatched blastocyst. In the first experiment, development of 1-, 2- and 4-cell embryos (n=282) in the basal medium supplemented with oviductal fluid (4:1) or 3 sets of growth factors, was less or equal to one cleavage stage. Those embryos cultured in the basal medium supplemented with bovine serum albumin (fatty acid free) (BSA) advanced to the blastocyst stage. In the second experiment, 96 h aged embryos (n=142) were cultured in the basal medium supplemented with IGF-1 and - 2 and EGF, or with BSA alone or with BSA and the three growth factors. In the treatments without BSA, the embryonic development was less than one cleavage, whereas in those treatments with BSA, embryos advanced beyond hatching and began to expand. We conclude that for culture of porcine embryos, supplementation with several growth factors or with oviductal fluid, in the concentration used in this study, was of little benefit at this stage of development. However, the type of BSA significantly affected development. More than 90% of the embryos reached the morula and blastocyst stages in medium than included BSA (fatty acid free).     

Improved in vitro development of OPU-derived bovine (Bos taurus) embryos by group culture with agarose-embedded helper embryos

The average number of oocytes collected by ovum pick up (OPU) from Bos taurus cattle is <8 per live donor. The objective was to determine whether development of small numbers of cattle embryos (produced by OPU and IVF), was enhanced by including “helper” embryos, produced from abbatoir-derived oocytes and embedded in agarose. Oocytes were from abbatoir-derived ovaries (Experiments 1 and 2) or OPU of elite donors (Experiment 3). In Experiment 1, cleaved embryos (2–8 cells), were randomly allocated. Controls were groups of 1, 3, 5, 10, and 20 cleaved embryos cultured in 50 μL serum-free SOF, whereas treatments were groups of 1, 3, and 5 embryos freely cultured along with helpers in groups of either 9, 7 or 5 embedded in agarose per droplet. Therefore, there were 10 cleaved embryos per droplet in combinations of 1 + 9, 3 + 7 or 5 + 5 (free + helper), respectively. There was an increase in the progression to blastocyst for 1–5 embryos per droplet, compared to 10 and 20 (6.6–24.2% vs. 39.2–43.3%, P < 0.05). For the tested free embryos, those cultured with helpers had increased blastocyst development over their control counterparts (39.3–49.5% vs. 6.6–24.2%, P < 0.05). When the number of embryos per droplet was 10 or 20, blastocyst percentage was similar (39.2–49.5%, P > 0.05). In Experiment 2, addition of an agarose chip to the culture medium did not significantly affect development to the blastocyst stage. In Experiment 3, after fertilizing OPU oocytes with sorted X-sperm, a group of three cleaved embryos were cultured in a droplet with either seven helpers (3 + 7) or alone (3 + 0). Blastocyst development of OPU oocytes in the 3 + 7 group was 37.1%, higher than that in the 3 + 0 group (11.8%, P < 0.05). In conclusion, limited numbers of OPU/IVF oocytes had competent development when cultured with helpers (embedded in agarose to provide physical separation).     

Development of porcine embryos from one- and two-cell stages to blastocysts in culture medium supplemented with porcine oviductal fluid

Oviductal fluid (OVF) was harvested chronically from 5 sows beginning on Day 1 of the estrous cycle (Day 0 of estrous cycle = day of detected estrus) and used for embryo culture (Day 3 OVF only). Two experiments were conducted to investigate in vitro development of 1-cell and 2-cell porcine embryos in a modified Kreb's Ringer bicarbonate medium (culture medium, CM), early luteal phase OVF or CM supplemented with OVF (CM-OVF, 25% OVF v/v in CM) with or without transfer to fresh CM. In Experiment 1, 1-cell and 2-cell embryos were harvested from sows (n = 7) approximately 44 h after detected estrus. In Experiment 2, 1-cell embryos were collected from 5 sows treated with altrenogest and gonadotropins, approximately 50 h after injection of human chorionic gonadotropin. The volume of OVF (ml) declined progressively throughout the 4 days of collection (24 h, 8.44 +/- 0.28; 48 h, 6.88 +/- 1.78; 72 h, 4.96 +/- 0.35; 96 h, 4.64 +/- 0.25 after onset of estrus; p less than .01). In both experiments, development to blastocyst stage was lowest among embryos cultured in OVF and highest among those cultured in CM-OVF (Experiment 1: CM, 27.3; OVF, 10; CM-OVF, 63.6; Experiment 2: CM, 26.7; OVF, 0; CM-OVF, 82.4; % blastocyst formation).(ABSTRACT TRUNCATED AT 250 WORDS)     

An improved culture medium supports development of random-bred 1-cell mouse embryos in vitro

One-cell CF-1 x B6SJLF1/J embryos, which usually exhibit a 2-cell block to development in vitro, have been cultured to the blastocyst stage using CZB medium and a glucose washing procedure. CZB medium is a further modification of modified BMOC-2 containing an increased lactate/pyruvate ratio of 116, 1 mM-glutamine and 0.1 mM-EDTA but lacking glucose. Continuous culture of one-cell embryos in CZB medium allowed 83% of embryos to develop beyond the 2-cell stage of which 63% were morulae at 72 h of culture, but blastocysts did not develop. However, washing embryos into CZB medium containing glucose after 48 h of culture (3-4-cell stage) was sufficient to allow development to proceed, with 48% of embryos reaching the blastocyst stage by 96 h of culture. Exposure of embryos to glucose was only necessary from the 3-4-cell stage through the early morula stage since washing back into medium CZB without glucose at 72 h of culture still promoted the development of 50% of embryos to the blastocyst stage. The presence of glucose in this medium for the first 48 h of culture (1-cell to 4-cell stage) was detrimental to embryo development. Glutamine, however, exerted a beneficial effect on embryo development from the 1-cell to the 4-cell stage although its presence was not required for development to proceed during the final 48 h of culture. Blastocysts which developed under optimum conditions contained an average of 33.7 total cells. The in-vitro development of 1-cell embryos beyond the 2-cell stage in response to the removal of glucose and the addition of glutamine to the culture medium suggests that glucose may block some essential metabolic process, and that glutamine may be a preferred energy substrate during early development for these mouse embryos.     

Improved in vitro development of porcine embryos with different energy substrates and serum

The effect of replacing 5.5 mM glucose in North Carolina State University (NCSU)-23 medium with 0.5 mM pyruvate/5.0 mM lactate on porcine IVF embryo development was investigated in Experiment 1. Culturing embryos with pyruvate/lactate for 7 days or with pyruvate/lactate from Days 0 to 2, and then glucose from Days 2 to 7 improved cleavage rates. In Experiment 2, embryos were cultured for 7 days in pyruvate/lactate containing NCSU-23 medium supplemented with 0.05% PVA, 0.4% BSA or 10% fetal bovine serum (FBS). The BSA supplement increased the rates of cleavage, blastocyst formation, and the number of total cells in blastocysts. In Experiment 3, embryos were cultured in pyruvate/lactate containing NCSU-23 medium supplemented with 0.4% BSA for 7 days (BSA-PL), 0.4% BSA from Days 0 to 4 and then 10% FBS from Days 4 to 7 (BSA-PL-->F ) or 0.4% BSA from Days 0 to 7 with addition of 10% FBS (BSA-PL + F ) at Day 4. More blastocysts in BSA-PL--> F and hatching or hatched blastocysts in BSA-PL-->F and BSA-PL+F were obtained. Total cell number in blastocysts derived from BSA-PL-->F and BSA-PL+F were increased. Our results demonstrated that supplementing pyruvate/lactate containing NCSU-23 medium with 0.4% BSA for 4 days and replacing it with 10% FBS for another 3 days improved porcine IVF embryo development.     

Influence of short-term maternal zinc deficiency on the in vitro development of preimplantation mouse embryos

In this study, we evaluated the use of mouse preimplantation embryos as a model to study zinc deficiency-induced abnormal development. In Experiment 1, the effect of culture medium Zn concentrations on blastocyst development was studied. Preimplantation embryos (2 and 4 cells) obtained from superovulated females developed normally in media containing 0.7-30 microM Zn for up to 72 hr; higher levels of medium Zn resulted in abnormal development. In Experiment 2A, females were fed diets containing 50 (+Zn) or 0.4 (-Zn) micrograms Zn/g (760 vs 6 nmol/g, respectively) from 1 day before to 1 day after mating (3 days total). Preimplantation embryos were removed from the dams and cultured for 72 hr in 0.7 microM Zn medium. Embryos from the -Zn dams were morphologically normal at time zero; however, over the 72-hr period, these embryos tended to develop at a slower rate than controls, although compaction and cavitation frequency were similar. By the end of the 72-hr culture period, embryos from -Zn dams had significantly fewer cells than did embryos from control dams. In Experiment 2B, an extended period of maternal Zn deprivation (6 days) was used to investigate the potential for further impairment of in vitro preimplantation embryo development observed in Experiment 2A. Results from this experiment were consistent with those from Experiment 2A, in addition to providing evidence that the developmental progress of embryos obtained from mice fed Zn-deficient diets for 6 days was significantly impaired. In Experiment 3, the potential for supplemental Zn in culture medium to overcome the impairment in development due to maternal Zn deficiency was investigated. Embryos from female mice subjected to the same dietary regimen described in Experiment 2A were cultured to the blastocyst stage in medium containing Zn at a concentration of either 0.7 or 7.7 microM. Medium Zn supplementation did not improve development of embryos from dams fed Zn-deficient diets. In summary, embryos from mice fed -Zn diets for a 3- or 6-day period encompassing oocyte maturation and fertilization exhibited impaired development in vitro. This impairment was not overcome by medium Zn supplementation.     

Development of 1-cell embryos from different strains of mice in CZB medium

One-cell embryos from several different strains of mice have been cultured to the blastocyst stage in CZB medium. CZB medium can be used to culture CF1 x B6SJLF1/J 1-cell embryos to the blastocyst stage provided glucose is introduced into the medium on Day 3 of culture. The amount of glucose required for embryo development was titrated using a concentration range of 5.5 to 49.5 mM. With the exception of the highest concentration, all glucose levels tested supported 65-85% development to the morula and blastocyst stages. Variations of CZB medium were tested for their ability to support the development of 1-cell embryos from 4 strains of mice. For embryos from CF1 and DBA/2J (both x B6SJLF1/J) mice, which exhibit a "2-cell block" to development in vitro, CZB medium containing glutamine with the addition of glucose on Day 3 supported optimum development from the 1-cell stage to morula and blastocysts (79% and 87%). For embryos from B6D2F1/J and CD1 female mice (both x B6SJLF1/J males), which do not exhibit a "2-cell block" to in vitro development, optimum development to morula and blastocyst stages (95% and 50%) was in CZB medium containing both glutamine and glucose from the start of culture.     

Effect of a serum extender containing growth factors on development of IVM and IVF bovine embryos

The present experiments were conducted to determine if supplementation of the culture medium with a serum extender containing growth factors would increase development of bovine embryos into morulae or blastocysts, following in vitro maturation (IVM) and in vitro fertilization (IVF). In Experiment 1, bovine zygotes were cultured in CR1 medium supplemented with 0, 0.01, 0.1, 1 or 10% serum extender. In Experiment 2, bovine zygotes were cultured in the presence of cumulus cells in CR1 medium supplemented with 0, 0.01, 0.1, 1 or 10% serum extender. In Experiment 3, bovine oocytes were matured in Medium 199 supplemented with 0, 0.01, 0.1, 1 or 10% serum extender. In Experiment 4, oocytes were matured in Medium 199 with 10% fetal bovine serum (FBS) or 5% FBS with serum extender. Following maturation, zygotes were cultured in CR1 medium with 10% FBS or 5 % FBS and serum extender. In all 4 experiments, the embryos were cultured in vitro until Day 7 after IVF, and development to the morula or blastocyst stage was assessed. The findings of the first 2 experiments showed that the serum extender did not directly influence embryo development but did stimulate development when cumulus cells were included in the culture system. The remaining 2 experiments showed that the serum extender did influence development through its interactions with cumulus cells during maturation and/or culture. These findings suggest that although growth factors or other products do not directly stimulate bovine embryo development their effects may be mediated through secondary cell systems.