Characteristics of ceruloplasmin synthesis in embryogenesis and in the early postnatal period of laboratory white rats

The dynamics of ceruloplasmin content was studied by immunochemical methods in the postimplantation rat embryos and postnatal animals. Ten to twenty two day old embryos contained ceruloplasmin (CP) in yolk sac, serum, and amniotic fluid. The highest CP levels were found in yolk sac. CP concentration profiles were almost identical in the serum and amniotic fluid being the highest on the 12th day (0.26 mg%) and the lowest (0.04) on the 16th day of gestation. CP concentration in the serum increased rapidly up to 3.5 mg% from the 17th day of gestation till the term (22nd day) while remaining at a constant and rather low level in the amniotic fluid. Within 16-18 days after birth, CP concentration in the serum remained at the level of 11 +/- 0.3 mg%. Later on it gradually increased and attained plateau (46-48 mg%) by the time of sex maturity. The maternal serum CP does not penetrate, in the embryo, as can be inferred from the experiments with 125I-CP injected into pregnant rats. Differences in the CP degradation rate and modes were found between the embryos and postnatal rats. It is suggested that CP is initially synthesized by the yolk sac endoderm during organogenesis (10-16 days of gestation) and predominantly by the liver during the foetal period (17-22 days).     

Effects of embryotrophic factors on the embryogenesis and organogenesis of mouse embryos in vitro

In order to study embryogenesis and organogenesis in vitro, two cell mouse embryos were cultured with alpha-MEM supplemented 10% FCS and embryotrophic factors (ETFs). The ETFs were separated from the conditioned medium of a SKG-II-SF cell line derived from a human uterine cervical epidermoid carcinoma. IL-1 beta, IL-6, IL-8, EGF, GH, PDGF-AB, basic FGF, VEGF were also detected in the conditioned media of this cell line. Using ETFs and a 10% FCS supplemented culture medium, 23% of the mouse two cell stage embryos developed to the bilaminar disc stage, 13% to the trilaminar germ disc stage, 9% were observed with blood islets in the yolk sac, and the heart beat was noted in 7% (28 embryos) of the embryos. Furthermore, primordial organs, such as the liver, heart, kidney, notochord, retina-like structure, etc. were observed. Usually, structures associated with the primordial streak stage (bilaminar germ disc embryo) developed in vitro using ETFs from two cell stage embryos. These closely resemble structures found at the same stage in the normal embryo in vivo. After the primordial streak stage, the cultured embryos showed no resemblance to the same stage in normal embryos. None of the external appearances of these embryos appeared normal. On the other hand, trilaminar disc stage embryos never developed when using only a 10% FCS supplemented culture system.     

Synergistic interaction between vindesine and X-rays in the prenatal development of mice

The modification of radiation damage by various concentrations of the oncolytic drug vindesine was studied macroscopically, using mouse embryos during the early organogenesis (days eight and nine of gestation) as the test system. The analysis at term showed that the developmental toxicity of vindesine depends on the dosage and the time of administration. In the lower dose-range (0.25 and 0.35 mg/kg), the only reaction was growth retardation, whereas higher concentrations (0.5 and 1.0 mg/kg) led mainly to an early resorption of implants. The more differentiated stage (day nine) exhibited a much higher sensitivity to vindesine than the embryo on day eight. Conversely, the harmful action of 0.9 Gy X-rays was restricted to the earlier period of organogenesis. The incidence of abnormalities after irradiation on day eight was 4.5 times higher than the one following exposure on day nine. The combined exposures showed a radiosensitizing capacity of the drug with respect to the teratogenic response on day eight only. The pretreatment with 0.25 mg/kg vindesine potentiated the radiation-induced malformation rate by a factor of 1.7, and the one with 0.35 mg/kg vindesine by a factor of 2.4.     

Improved growth and development of presomite mouse embryos in whole embryo culture

A rotator whole embryo culture system was used to assess the growth and development of late-primitive-streak-stage (Theiler stage 9-10) mouse embryos to the limb-bud stage of organogenesis in a variety of media containing combinations of mouse serum (MS), rat serum (RS), and Tyrode's buffer (TB). The results demonstrate that embryonic growth and morphogenesis to the early limb-bud stage (20 somite pairs; 48-h total culture period) mimicked that in vivo when embryos were grown for 24 h in combinations of MS:RS:TB 1:2:1 or 2:1:1 (v/v/v) and then were transferred to fresh medium containing RS:TB 3:1 at the early somite stage. When the culture period was extended for an additional 24 h (total 72-h culture period) embryonic growth retardation was observed. Regardless of the medium employed, superior growth was observed in embryos transferred at the early somite stage when compared to embryos cultured continuously in the same medium for the entire 48- or 72-h culture period.     

Modulation of PGE2 generation in the diabetic embryo: effect of nitric oxide and superoxide dismutase

In this work we assessed NO levels in the control and diabetic embryo during early organogenesis, and the ability of NO and SOD to modify embryonic PGE2 levels. Rats were made diabetic by steptozotocin (60 mg/kg) before mating. Diabetic embryos (day 10 of gestation) show increased nitrate/nitrite levels and enhanced NOS activity. The diabetic embryos release to the incubation medium increased amounts of PGE2 and have diminished PGE2 content. In the control embryo NO modulates PGE2 levels, but this modulatory pathway is not observed in the diabetic embryos. The diminished PGE2 content and the enhanced PGE2 release is prevented by SOD additions, both in the diabetic embryos and in control embryos cultured in the presence of diabetic serum (24 h culture, explantation day 9). The present results show that SOD additions prevent the abnormalities in the accumulation, production and release of PGE2 in diabetic embryos, probably related to the decrease in malformations.     

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.     

Effect of delayed supplementation of fetal calf serum to culture medium on bovine embryo development in vitro and following transfer

Supplementation of synthetic oviduct fluid (SOF) medium plus amino acids and bovine serum albumin (BSA) with either fetal calf serum (FCS) or charcoal-treated FCS (CT-FCS) from Day 5 of development was investigated to determine if either in vitro or post-transfer development was altered. Development to the compact morula stage or beyond was similar for all 3 treatments. However, blastocyst development at Day 7 was accelerated when serum was added to the medium (21.6, 40.1 and 39.4% blastocysts from cleaved embryos for BSA, FCS and CT-FCS, respectively; P < 0.01), but cell number of the resulting embryos was unaffected. Furthermore, addition of CT-FCS decreased the between replicate variation in embryo development and produced more Grade 1 and 2 quality embryos (25.8%) than BSA supplementation (18.1%; P < 0.05). The transfer of Grade 1 and 2 embryos at Day 7 following culture resulted in similar pregnancy and embryo survival rates for the 3 treatments, with a tendency for lower embryo survival of embryos cultured in FCS (embryo survival at Day 50 = 37.7% vs 53.3% and 57.6% for FCS, BSA and CT-FCS, respectively; P = 0.1). Significant fetal loss from Day 50 to term occurred within all 3 treatments. There were no birth weight differences for calves amongst the 3 culture treatments; however, one of the sires produced calves that were significantly heavier than expected, suggesting a possible sire-by-embryo interaction. These results demonstrate that addition of FCS may promote blastocyst development; however, there was also a tendency for lower embryo survival. Thus charcoal treatment of FCS is recommended, because it decreases variability in embryo development between runs and results in embryo survival rates to term similar to that BSA-supplemented media.     

Exposure of female mice to ethylene oxide within hours after mating leads to fetal malformation and death

When previously mated female mice were exposed to inhaled ethylene oxide at the time of fertilization of their eggs or during early pronuclear stage of the zygote (before DNA synthesis), a high incidence of mortality among conceptuses and of congenital abnormalities among both the dead and the surviving fetuses was observed. The developmental stage at which death occurred ranged from near the time of implantation to day 17 of gestation when examination of the uterine contents was performed. In comparison, midgestation and late fetal deaths were absent or minimal when the females were exposed either before mating or when conceptuses were in later zygotic stages (pronuclear DNA synthesis) or had reached the early two-cell stage. The random types of congenital abnormality observed and the remarkable stage-dependent sensitivity suggest a genetic basis for the response. The effects differ, both from genetic damages induced in premating germ cells, which lead only to death near the time of implantation, and from teratogenic damage, which leads to malformations only when exposure of embryos occurs during the period of major organogenesis.     

Total protein content and protein synthesis within pre-elongation stage bovine embryos

Protein content was measured in zona-free bovine oocytes and pre-elongation stage embryos, following in vitro maturation, fertilisation, and then culture in Synthetic Oviduct Fluid medium supplemented with amino acids and 8 mg ml^-1 bovine serum albumin (BSA). Values (ng embryo^-1) of 122 ± 7.8, 137 ± 8.6, 111 ± 8.8, 115 ± 10.4, 139 ± 9.0 and 152 ± 10.1 were obtained for zona-free mature oocytes, 2-cell (day 2), 8-cell (day 3), compact morula (day 6), blastocyst (day 7), and expanded blastocyst (day 8) stage embryos, respectively. The protein content of day 7 zona-enclosed blastocysts was 337 ± 58.0 ng embryo^-1. These values suggest that prior to compaction and blastulation, the early cleavage stage bovine embryo has a higher rate of protein degradation than that of synthesis. Net growth is observed only after initiation of compaction. The protein content of day 7 blastocysts was measured in embryos following in vitro production and culture in the same media supplemented with either 0.5% w/v polyvinyl alcohol (PVA), 8 mg ml^-1 BSA, 8 mg ml^-1 BSA and further supplemented with 10% fetal calf serum (FCS) from the beginning of culture (FCS-D1), 8 mg ml^-1 BSA and 10% FCS from the fourth day of culture (day 5 of development) or from in vivo-derived day 7 blastocysts. Protein content was significantly (P< 0.05) lower in PVA-cultured embryos than other treatments. To determine if this difference in PVA-cultured embryos was due to a difference in the rate of protein synthesis, comparisons were made between day 7 embryos derived from BSA-culture and either PVA-culture, FCS-D1 culture or in vivo-derived embryos. Despite differences in diameter, no significant difference was observed in the incorporation of L-[2,3,4,5,6-³H]-phenylalanine into the TCA-precipitable fraction in any of the three comparisons made. However, incubation in the presence of FITC-labelled BSA or β-casein and examination under either fluorescence or confocal microscopy revealed that protein in the extra-embryonic environment was actively taken up by the trophectoderm of day 7 blastocysts, most likely by endocytosis. These results suggest that exogenous protein is an important nutritive source, probably maintaining intracellular amino acid pools. Results obtained from the production of embryos in protein-free medium should be viewed with the knowledge that such embryos differ metabolically from those embryos grown in the presence of protein, including in vivo-derived embryos. Mol. Reprod. Dev. 50:139–145, 1998. © 1998 Wiley-Liss, Inc.     

The effects of macromolecular and serum supplements and oxygen tension during bovine in vitro procedures on kinetics of oocyte maturation and embryo development

Aiming to standardize in vitro production of bovine embryos and to obtain supplements to replace serum in culture media, this study evaluated the nuclear maturation kinetics and embryonic development in bovine after in vitro maturation (IVM) and culture (IVC) with several macromolecules (animal origin: bovine serum albumin (BSA), fetal calf serum (FCS); synthetic: polyvinyl alcohol (PVA), polyvinyl pyrrolidone (PVP), Ficoll, and Knockout) at two oxygen tensions (20% and 5% O(2)). Regarding nuclear kinetics, neither the presence of the expected stage (metaphase I, transition anaphase to telophase, and metaphase II) at each evaluation moment (6, 18, and 24?h after IVM, respectively) nor the accelerated polar body emission (at 18?h after IVM) related developmental competence to blastocyst stage when different supplements were compared. Independently of supplement, cleavage rates at 20% O(2) (61.6-79.2%) were higher than at 5% O(2) (38.9-58.7%). At 20% O(2), higher blastocyst and hatching rates, respectively, were obtained in treatments BSA, FCS, Knockout, and control group (IVM with FCS and IVC with BSA + FCS, 14.0-23.5% and 6.8-15.4%) in comparison to PVA, PVP, and Ficoll (0%). The same was observed at 5% O(2) for blastocyst rates with BSA, FCS, Knockout, and control (5.4-16.8%) and for hatching rates with BSA, FCS, and control (2.0-11.1%). We can conclude that producing bovine embryos at 20% O(2) during the entire IVP process resulted in higher developmental rates than at 5% O(2). In addition, while defined macromolecules PVA, PVP, and Ficoll were not suitable for embryonic development, the synthetic serum Knockout was able to replace serum and albumin for IVP in bovine at 20% O(2).     

Freezability of porcine blastocysts at different peri-hatching stages

The freezability of porcine peri-hatching stage blastocysts was investigated by the cryopreservation of embryos at -196 degrees C with 1.5 M glycerol and by thawing, followed by in vitro culture. Of 66 expanded blastocysts frozen, 34 (51.5%) developed in vitro after thawing, while only 2 (6.7%, P<0.05) of 30 earlier stage blastocysts survived freezing. After freezing of 85 hatched blastocysts with an embryonic diameter of 150 to 300 mum, 59 (69.4%) surviving embryos were obtained, whereas none of the 78 advanced staged hatched blastocysts (>300 mum) survived the cryopreservation. High post-thaw survival (32 39 , 82..1%) was obtained with in vitro-hatched blastocysts precultured in Whittingham's M-16 medium containing 12mg/ml bovine serum albumin (BSA). In contrast, none of the 14 in vitro-hatched blastocysts precultured in the M-16 medium supplemented with 15% fetal calf serum (FCS) survived freezing. Similarly 51 of 56 hatced blastocysts (diameter = 150 to 300 mum) precultured in the M-16 medium supplemented with BSA survived cryopreservation, compared with 3 of 26 embryos precultured in the medium supplemented with FCS (P<0.001). Because both groups of the embryos precultured with BSA or FCS possessed normal ability to develop after transfer (developmental rate = 61.1 and 93.3%), the improved freezability of the embryos precultured with BSA may relate to a favorable change of embryonic cell membranes during the culture period. It was concluded that in vitro-hatched blastocysts precultured in medium containing BSA and in vivo-hatched blastocysts at the appropriate stage of development could both tolerate deep freezing to -196 degrees C; however, a differece in the freezability of embryos between breeds of pig was suggested from a further experiment performed with German Landrace embryos.     

Role of the thymus in generation of lymphocyte functions: II. Serum-mediated inhibition of development of mitogen-reactive lymphocytes in embryonic mouse thymus organ cultures

The thymuses of 14-day-old mouse embryos could be grown in serum-free organ cultures for at least 14 days with development of relatively large numbers of lymphocytes. These also acquired a strong reactivity to the mitogens concanavalin A (Con A) and leucoagglutinin (LA). Supplementing the organ culture medium with serum from calf (CS), fetal calf (FCS), mouse (MS), or fetal mouse (FMS) gave a serum concentration-dependent inhibition of development of mitogen reactivity, without clearly altering the quantitative lymphoid development in the organ cultures. Adult sera were more suppressive than fetal sera. All of nine tested FCS lots were inhibitory and the inhibiting activity was mainly found in the albumin fraction upon Sephadex G-200 gel filtration. Although FCS prevented development of mitogen-reactive cells in organ cultures of thymuses of 14-day-old embryos, it had much less effect on cultures of 15-day-old thymuses. FCS present during the entire organ culture period most efficiently inhibited generation of mitogen reactivity. If present only during the first or second half of the 14-day culture period, the inhibition was still marked but less complete.     

Invitro culture and maintenance of ovine embryos transported in Dulbecco's enriched phosphate-buffered saline

An initial comparative evaluation was made on the response of ovine morulae and blastocysts cultured in Dulbecco's PBS enriched with either 20% fetal calf serum (FCS). 20% neonatal lamb serum (NLS) or 20% lamb serum (LS). There were no significant differences (P≤0.05) in embryo development in these sera, except that the blastocysts hatched only in PBS plus FCS. Sixty percent of the morulae and 100% of the blastocysts continued to develop within 24 hr of culture. Based on these data, PBS plus FCS was selected as the transport medium. There was a significant decrease (P≤0.05) in the development of embryos transported in PBS plus FCS. Firty-five percent of the 298 morulae and blastocysts transported underwent development within 22 to 27 hr, in contrast to 83% of those maintained under similar culture conditions within the laboratory. Of those embryos that developed further during transport, 54% resulted in a lamb, whereas of embryos that remained visually unchanged, only 9% developed to term. The overall lambing rate of all morulae and blastocysts transported in PBS plus FCS was 0.42.     

Use of two replacements of serum during bovine embryo culture in vitro

This study evaluated the effect of two commercial serum replacements (Ultroser G and CPSR-3 on in vitro bovine embryo culture. In Experiment 1, zygotes were cultured in SOF+Ultroser G (2, 4 and 6%), SOF+CPSR-3 (2, 4 and 6%), and SOF+5% FCS (control). Blastocyst rates obtained after culturing with Ultroser G were lower than those with FCS. However, blastocyst rates for CPSR-3 were similar to those for serum. In addition, embryos produced in SOF+CPSR-3 had the same proportion inner cell mass number and total cell number as embryos cultured with FCS. In Experiment 2, a combination of serum replacements during different periods showed that treatment before the five-to eight-cell stages had no effect on further embryo development. However, treatments up to the morula stage affected blastocyst formation. The concentration of supplement and the timing of its inclusion in culture markedly affected embryo development. The serum replacement CPSR-3 can supplement embryo culture with blastocyst rates and quality similar to those for serum.     

Hormonal inducibility of liver-specific enzymes in cultured rat embryos

In monolayer cultures, hepatocyte-specific enzymes are inducible by hormones as soon as hepatocytes differentiate from the embryonic foregut (15-somite stage). Though offering an excellent opportunity for quantitative studies, several features of a normal cell environment are lost in such a model system. To determine the inducibility of such tissue-specific enzymes in intact organisms, rat embryos were cultured in vitro for 48 h and exposed to the hormonal factors that had been found effective in monolayer culture, viz. dexamethasone, triiodothyronine and dibutyryl cyclic AMP. Normal development of the embryos during culture in vitro was assessed by general criteria reflecting growth, morphogenesis and cytodifferentiation. Development of external features, organogenesis, the distribution of cell divisions and the appearance of tissue-specific proteins such as alpha-fetoprotein and glutamate dehydrogenase served as parameters. Despite undisturbed development of the embryos as judged by these criteria, irrespective of whether the culture was started at day 10 or at day 11 of gestation (just before, respectively after the appearance of the liver primordium), induction of hepatocyte-specific enzymes like carbamoylphosphate synthetase by hormones could not be demonstrated immunohistochemically. However, induction of this enzyme by hormones could be demonstrated in monolayers of hepatocytes isolated from such embryos after 48 h of culture, providing yet another demonstration of the adequate culture conditions. In addition, an adequate uptake of hormones by the embryo during culture could be shown with radio-actively labeled dexamethasone and triiodothyronine and with a radioreceptor assay for cyclic AMP. Therefore, the presence of factors in young embryos that inhibit tissue-specific enzyme synthesis has to be postulated.     

Nonspecies-specific effects of mouse oviducts on the development of bovine IVM/IVF embryos by a serum free co-culture

In Experiment 1, development of bovine embryos derived from in vitro-matured (IVM) and in vitro-fertilized (IVF) oocytes was examined under 4 culture conditions: 1) co-culture with mouse ampullae continuously for 8 d, 2) co-culture with mouse ampullae that were replaced with fresh ampullae at 48-h intervals, 3) co-culture with bovine granulosa cell monolayers, and 4) culture in medium alone. Culture medium consisted of tissue culture medium 199 (TCM-199) supplemented with 1% fetal calf serum (FCS). Inseminated oocytes were transferred to each of the culture treatment 24 h after insemination and were cultured for 8 d. The number of blastocysts per number of cleaved ova obtained after co-culture with mouse ampullae (42.9%) was significantly (P<0.05) higher than that obtained after co-culture with granulosa cell monolayers (28.3%) or culture without cells (4.2%). In Experiment 2, the developmental ability of bovine IVM/IVF embryos co-cultured with mouse ampullae supplemented with or without serum was examined. When serum was excluded from the culture medium, 26.4% (33 125 ) of the total number of embryos cultured were able to develop to the blastocysts stage using this co-culture system. This value was comparable to that obtained in a serum-supplemented co-culture system (30.7%; 39 125 ). In addition, the developmental ability of embryos that reached to the 4-cell stage or beyond at 46 to 48 h after insemination was not significantly different when the embryos were co-cultured with mouse ampullae with (38.5 vs 44.6%) or without (37.0 vs 33.8%) serum.     

Potent and stage-specific action of glutathione on the development of goat early embryos in vitro

The effect of glutathione (GSH) addition on the development of 1- or 2-cell goat early embryos in vitro was examined. Embryos were collected from superovulated Korean black goat (Capra hircus aegagrus) and cultured for 6 days in synthetic oviduct fluid medium supplemented with either bovine serum albumin (BSA) or serum. Without GSH addition, almost all embryos could not develop beyond 8- to 16-cell block. However, GSH addition greatly improved in vitro development of early embryos to blastocyst stage, and its action was highly dependent on the presence and source of proteins supplemented into the culture medium. Among the protein-supplemented cultures, GSH effect was most prominent in 10% FBS-supplemented culture, in which the proportion (91%) of blastocysts developed from early embryos was much higher than that of BSA- (42-64% depending on its content) or goat serum (GS)-supplemented cultures (21%), or even than that of somatic cell-supported co-culture (60%). As well as in terms of the morphological development, mean cell number of blastocysts (185 +/- 12) developed from FBS condition was significantly higher than that of blastocysts developed from any other culture conditions and moreover comparable to that of blastocysts developed in vivo (190 +/- 9). The viability of these blastocysts was finally confirmed by their term development (6/12) from embryo transfer. To delineate action time of GSH during embryo development, GSH was treated at 1-day intervals through 6-days culture periods excepting the last day. In the GSH-treated embryos at day 3 of culture, which corresponds to the time of in vitro 8- to 16-cell block stage, the proportion of blastocyst was markedly increased up to 77% of cultured embryos and conversely that of the arrested embryos was decreased to 7%. In the embryos treated later, however, their developmental potency decreased abruptly. Therefore, these results clearly demonstrated that GSH could greatly improve the in vitro development of goat early embryos by specifically acting on the 8- to 16-cell block stage during in vitro development, suggesting that GSH may be one of the important regulators on the development of goat embryos in vivo.     

Serum free embryo culture medium improves in vitro survival of bovine blastocysts to vitrification

The aim of this study was to examine the effects of co-culture with Vero cells during the in vitro maturation (IVM) and three culture media, B2+5% fetal calf serum (FCS) on Vero cells, synthetic oviduct fluid (SOF)+5% FCS, and SOF+20 gL(-1) bovine serum albumin (BSA), on the developmental competence of the embryos and their ability to survive vitrification/warming. We also tested the effect of morphological quality and the age of the embryo on its sensitivity to vitrification. The IVM system neither affects the embryo development up to Day 7 nor survival rates after vitrification. The culture of embryos in SOF+FCS and in Vero cells+B2 allowed obtaining more Day 6 and Day 7 blastocysts, and a higher % of Day 7 blastocysts vitrified than culture in SOF+BSA. Contrarily, on Day 8, more blastocysts were vitrified in SOF+BSA than in SOF+FCS. Blastocysts quality affected development after vitrification/warming, and Day 7 embryos showed higher survival rates than their Day 8 counterparts. Day 7 blastocysts produced in Vero cells or in SOF+BSA survived at higher rates than those produced in SOF+FCS at 24 and 48 h after warming. Embryo culture with BSA allows obtaining hatching rates after vitrification/warming higher than those obtained after co-culture with Vero cells in B2 and FCS. Moreover, this system provides hatching rates from Day 8 blastocysts comparable to those obtained on Day 7 in Vero cells. Further studies, including embryo transfer to recipients, are needed to clarify factors affecting the freezability of in vitro produced bovine embryos.     

Lethal and teratogenic effects after exposure to X-rays at various times of early murine gestation

Various well-defined stages during completion of the second meiotic division and early organogenesis of mouse embryos were X-irradiated with doses of 1-4 Gy (100-400 rad). The major risk was prenatal mortality with radiation sensitivity changing markedly with dependence on the developmental stage irradiated; in the case of day 1 even within hours. The surviving fetuses did show a significantly enhanced frequency of malformations on day 19 of gestation (mostly gastroschisis and some exencephalies). This was true for all stages between days 1 and 8; only sensitivity again changed considerably. The radiation doses used in this study are markedly higher than doses that can be expected from radiation diagnostics, but exposure is in a range comparable to doses that can occur in radiation therapy (e.g., Morbus Hodgkin).