Effect of polyols on the post-thawing motility of pellet-frozen ram spermatozoa

The cryoprotective effects of polyols in the absence and presence of glycerol in Tris-glucose-egg yolk based diluents on the post-thawing motility and acrosome integrity of pellet-frozen ram spermatozoa were examined. Incorporation of adonitol or xylitol (low molecular weight polyols; LMWPs) in diluents improved motility of spermatozoa in the absence of glycerol with maximum motility at 0.3 M (26.9 vs 13.3% mean motile spermatozoa; P < 0.001). Five concentrations of adonitol (0, 150, 300, 450, 600 mM) were examined in diluents containing 5 concentrations of glycerol (0, 1.5, 3.0, 4.5, 6.0% v/v). There was an additive effect of incorporation of 1.5% v/v glycerol with up to 450 mM adonitol (P < 0.001), but at higher levels of glycerol the incorporation of adonitol was detrimental to motility. The acrosome integrity of spermatozoa in diluents containing 0, 150 and 300 mM adonitol was superior to those containing 450 and 600 mM adonitol (46.1 vs 35.1% mean intact acrosomes; P < 0.05). Among the high molecular weight polyols (HMWPs) examined, better recovery of spermatozoa was obtained in diluents containing sorbitol than mannitol or inositol (P < 0.001). Sorbitol or mannitol (300 mM) improved the motility of spermatozoa in diluents without glycerol (P < 0.001), but the incorporation of HMWPs was detrimental in diluents containing glycerol. All five polyols were examined in isotonic diluents containing 360:0, 300:55, 240:110, 180:165, 120:220mM (Tris:polyol; 360 mosmol) and 6.0% v/v glycerol. There was a linear decrease in motility and acrosome integrity of spermatozoa with increasing polyol concentration in the diluent (P < 0.001) except for inositol, which was not detrimental. We conclude that the polyols examined have a cryoprotective effect on pellet-frozen ram spermatozoa except for inositol. However, in our study, no combination of polyols and glycerol was superior in terms of post-thawing motility and acrosome integrity of spermatozoa to 6.0% v/v glycerol alone in Tris-glucose-egg yolk diluents.     

Study on fish embryo responses to the treatment of cryoprotective chemicals using impedance spectroscopy

Investigations using electrical impedance spectroscopy to measure the responses of fish embryos to the cryoprotective chemicals, methanol and dimethyl sulphoxide (DMSO), were carried out. Zebrafish (Danio rerio) embryos were used as a model to study the newly proposed technique. The normalised permittivity and conductivity changes of the embryos were measured continuously over a 20-min period in a customised embryo-holding chamber. The normalised permittivity and conductivity spectra were obtained during embryo exposure to different concentrations of methanol (1.0, 2.0 and 3.0 M) and DMSO (0.5, 1.0 and 2.0 M) solutions. The results showed significant permittivity and conductivity changes after embryo exposure to methanol and DMSO at the optimum embryo loading level (six embryos). Embryos in different concentrations of methanol and DMSO also resulted in quantitative responses shown in the normalised permittivity and conductivity spectra. The results demonstrated that fish embryo membrane permeability to cryoprotective chemicals could be monitored in real-time. The measurement of permittivity at a lower frequency range (10–10³ Hz) and conductivity at a higher frequency range (10⁴–10⁶ Hz) during fish embryo exposure to cryoprotective chemicals using impedance spectroscopy can be used as a new tool for the fast screening of most effective cryoprotective chemicals. The results from the present study also demonstrated the possibility of quantifying the level of cryoprotective chemicals penetrating the fish embryos.     

Cryopreservation of bovine somatic cells using antifreeze polyamino-acid (carboxylated poly-l-lysine)

Carboxylated poly-l-lysine (CPLL) is an ampholytic polymer compound, obtained by converting 65 mol% of amino groups to carboxyl groups after synthesizing ε-poly-l-lysine aqueous solution and succinic anhydride. CPLL has cryoprotective properties similar to those of anti-freeze protein. The addition of CPLL to freezing medium has been reported to improve the post-thawing survival rate of murine cells, human induced pluripotent stem (iPS) cells, embryonic stem (ES) cells and embryos. In this study, investigating CPLL for its effectiveness as a new cryoprotective material is aimed. In experiments with bovine somatic cells, CPLL was suggested to have an equal or superior cryoprotective effect to dimethyl sulfoxide (DMSO), the conventional material for cellular frozen storage, based on the results for post-thawing cell survival and proliferation rates. CPLL was demonstrated to have another advantage; thawed cells can be cultured without removing the cryopreservation medium when CPLL is used, but not when DMSO is used. These results suggest that CPLL could be used as cryoprotective material for bovine cells. It is also expected that CPLL can be applied to embryo and oocytes storage for cattle, and similar functions for cells and embryos of other animal species.     

One-step sucrose dilution of frozen-thawed sheep embryos

Sheep embryos of the late morula to early blastocyst stage were frozen, thawed and cultured to test several sucrose solutions for post-thaw dilution of the cryoprotective agent glycerol. Ewes of mixed breeding were superovulated and embryos were flushed from the uterus either surgically or at slaughter 5 d after estrus. Fifty-eight embryos were pooled in microdrops of modified Dulbecco's phosphate buffered saline (MDPBS) then randomly divided into four treatments. A 2 x 2 factorial design was used to compare 0.25 M sucrose in MDPBS as an in-straw cryoprotectant dilution with a standard step-wise dilution procedure within standard fast and slow freeze-thaw systems. After storage in liquid nitrogen for 6 to 8 d, the embryos were thawed and the cryoprotectant (1.4 M glycerol) removed before culture in microdrops of modified synthetic oviduct fluid under paraffin oil in water-saturated 5% CO(2) in air atmosphere at 37 C. No significant interaction was found between the freeze-thaw procedure and cryoprotectant + dilution procedures. Embryos in the fast freeze-thaw procedure had a mean development score of 1.3 +/- 0.3 and those in the slow freeze-thaw procedure had a mean score of 1.2 +/- 0.3. The mean development score 2.0 +/- 0.3 for the standard dilution procedure was superior (P<0.001) to the score of 0.6 +/- 0.2 for the 0.25 M sucrose dilution procedure. In a separate trial, 18 sheep morulae were collected and equilibrated with 1.4 M glycerol in MDPBS. A standard fast freeze-thaw procedure was used and, after 18 d of storage at -196 C, the glycerol was diluted from the embryo with 1.0 M sucrose. Culture was conducted in a similar manner and a mean development score of 1.0 +/- 0.3 was obtained. These results indicate standard cryoprotectant dilution procedures for sheep embryos are superior to dilution with 0.25 M sucrose. In a limited study, dilution with 1.0 M sucrose was also not as effective as standard dilution procedures.     

CRYOPRESERVATION OF SEA URCHIN EMBRYOS AND SPERM

A simple method for preserving live sea urchin embryos and sperm in liquid nitrogen (LN) wasdeveloped through the use of DMSO as a cryoprotective additive. Samples of late embryos in double test tubes were cooled to— I96°C by two-step freezing, first to — 76°C and then by plunging in LN. In the case of fertilized eggs, samples were previously frozen to — 40°C, at which temperature the samples were kept for 15 min; they were then transferred into LN. After preservation in LN for various lengths of time, samples in the double test tubes were thawed in water at 15°C. The post-thaw survival was more than 90% for late embryos, and about 10% for fertilized eggs. Difference in the length of the cryopreservation period did not affect survival. Post-thaw development in cryopreserved embryos often showed abnormalities in structure. Sperm with 1.5 M DMSO was successfully preserved in LN by a similar method to the one used for cryopreservation of late embryos. Fertilizability in cryopreserved sperm was complete, regardless of the length of the preservation period. Nearly all the eggs fertilized by cryopreserved sperm developed to normal plutei.     

Effect of dimethyl sulfoxide and protein concentration on the viability of two-cell mouse embryos frozen with a rapid freezing technique

Two-cell mouse embryos were frozen by direct plunging into liquid nitrogen after a 3-min exposure to solutions containing 0.25 M sucrose with 1.5, 3, or 4.5 M dimethyl sulfoxide (Me2SO), and 0, 4, 8, 16, or 32 mg/ml bovine serum albumin (BSA). In the absence of BSA, significantly more embryos were lost or damaged during freezing and thawing. Increasing the BSA concentration from 4 to 32 mg/ml had no significant effect on subsequent embryo viability in vivo or in vitro. Blastocyst formation in vitro was greater than 90% in embryos exposed to the cryoprotective solutions only. Although development to blastocysts was not significantly different to nonfrozen controls in most groups frozen in 3 and 4.5 M Me2SO (up to 92% blastocysts), it was significantly reduced when embryos were frozen in 1.5 M Me2SO (up to 65% blastocysts). The development to fetuses of embryos frozen in 3 M Me2SO (64 to 74% fetuses) was not significantly different from nonfrozen controls (68 to 79% fetuses) or embryos frozen by a conventional slow cooling method (70%). Frozen thawed two-cell embryos developed into normal adults which were able to reproduce normally. We conclude that this freezing method can efficiently cryopreserve early cleavage stage mouse embryos.     

Cryopreservation of in vitro-produced bovine embryos: effects of protein type and concentration during freezing or of liposomes during culture on post-thaw survival

Two experiments were conducted to examine the effect of membrane stabilization through the modification of in vitro culture medium or freezing medium on post-thaw survival of in vitro-produced bovine embryos. In Experiment 1, Day 7 (Day 0 = day of IVF) late morulae and blastocysts that developed following culture in SOF/aa/BSA (IVC medium) were frozen slowly to -35 degrees C in the presence of 1.5 M ethylene glycol prepared in ovum culture medium (OCM) or in OCM supplemented with 10, 25 or 50% fetal calf serum (FCS) or 5, 10 or 25 mg/mL BSA. Post-thaw survival was assessed by re-expansion and/or hatching following 48 h of culture in IVC medium + 10% FCS. Overall, survival was significantly (P < 0.01) affected by embryo stage, with more hatched blastocysts surviving (71%) than blastocysts (59%) or late morulae (51%). Addition of FCS significantly (P < 0.01) reduced survival compared with control embryos or those frozen in BSA-supplemented medium (50.48 vs 68.01 vs 63.53%, respectively). There was also a significant interaction between embryo stage and protein type (P < 0.05). The survival of late morulae/early blastocysts following freezing was improved in the presence of additional BSA but not FCS. In Experiment 2, the IVC medium was supplemented with liposomes containing lecithin, sphingomyelin and cholesterol. Sphingomyelin and cholesterol at ratios of 1:1, 1:4 and 4:1 were added to 50, 100 or 150 micrograms/mL lecithin to yield a final lipid concentration of 200 micrograms/mL. A further group contained 200 micrograms/mL lecithin only. Blastocysts were frozen in 1.5 M ethylene glycol in OCM, then thawed and assessed as in Experiment 1. The presence of liposomes during IVC did not affect the proportion of cleaved embryos that developed to blastocysts or survival following freezing. However, the survival of blastocysts that developed in the presence of 200 micrograms/mL lecithin only was significantly lower than in any other treatment (6%; P < 0.03). These studies demonstrate that the protein composition of the freezing medium can significantly affect survival after thawing and that the survival of late morulae can be improved with additional BSA. The presence of lecithin only in the liposome preparation did not affect embryo development, but significantly reduced survival after freezing, suggesting it can affect post-thaw embryo survival, perhaps by altering embryonic membrane composition.     

The effect of length of cryopreservation on the viability of bovine embryos in a commercial operation

A total of 2,232 bovine embryos was obtained from 294 flushings at a commercial embryo transfer operation. The embryos were frozen in groups from individual flushings using 0.25-cc straws and a conventional freezing procedure with glycerol as a cryoprotective agent. The embryos were stored in liquid nitrogen for up to 28 months. Sucrose was used for the removal of glycerol after the thawing of embryos. The thawed embryos were then examined morphologically, and 1,097 embryos (49%) with no apparent defects were used for subsequent transfer. The viability of the thawed embryos from the individual flushes was evaluated in relationship to the length of cryopreservation. No correlation (P > 0.1) was found between the two parameters in embryos from superovulations with above and below average yields. This finding was further confirmed in a proportion of the embryos by the evaluation of pregnancy rates. Thus, neither the typical length of embryo storage in a commercial operation nor the success of superovulation influenced the survival rate of embryos after thawing based on morphological criteria and pregnancy rates.     

Use of ethylene glycol as a cryoprotectant for bovine embryos allowing direct transfer of frozen-thawed embryos to recipient females

Four experiments were conducted to define a system for the direct transfer of frozen-thawed bovine embryos to recipient females. In Experiment I, nonsurgically recovered embryos were frozen in 1.5 M ethylene glycol (EG), 1.5 M propylene glycol (PG), 1.5 M DMSO or 1.4 M glycerol (GLY), and then thawed and placed directly into holding medium. Viability at 72 hours of post-thaw culture was 70, 11, 25 and 30% for the four groups, respectively. In Experiments II and III, 1.0, 1.5 and 2.0 M concentrations of EG were compared; a concentration of 1.5 M appeared to provide optimal cryopreservation and survival after direct rehydration. In Experiment IV, embryos were packaged in straws containing only 1.5 M EG, in straws containing a column of 1.5 M EG and the embryo and two columns of PB1 in a 1:3 ratio of volumes (EG PB1 ), or were frozen in 1.4 M glycerol. After thawing, embryos in EG and EG PB1 treatments were transferred directly to recipient females, while embryos frozen in GLY were rehydrated using a three-step procedure. In the first trial, pregnancy rates at approximately 60 days of gestation for embryos frozen in EG and GLY groups were 39 and 62%, respectively (P<0.10). In the second trial, the pregnancy rate for embryos frozen in EG PB1 was equal to that of embryos frozen in GLY (50% in both groups). These experiments demonstrate the potential for using ethylene glycol as a cryoprotectant for bovine embryos, thus permitting direct transfer of frozen-thawed embryos to recipient females.     

Enhancing the Viability of Lactobacillus plantarum Inoculum by Immobilizing the Cells in Calcium-Alginate Beads Incorporating Cryoprotectants

Many literature reports have cited the importance of the rehydration conditions of lyophilized cultures in determining viability. The rate of rehydration and the volume of fluid used have been identified as two important factors. One possible means of controlling these is by immobilizing the cells before lyophilization within a gel matrix in which the subsequent rehydration rate and fluid volume would be controlled by the properties of the gel. In this study Lactobacillus plantarum was immobilized and lyophilized in Ca-alginate beads in which 1 M glycerol or 0.75 M adonitol with skim milk were incorporated as a cryoprotectant. The properties of these Ca-alginate beads were examined before and after lyophilization and rehydration. The beads incorporating glycerol were smaller and stronger than those with adonitol. After lyophilization, size decreased and strength increased but to a greater extent in the beads with glycerol, indicating that the microenvironment within the two bead types was probably different. The protective effect of the bead microenvironment on immobilized L. plantarum was also examined. Lyophilization and rehydration within the alginate beads with either polyol yielded higher survival rates than that attained with free cell cultures during rehydration in optimal or suboptimal conditions. During rehydration under suboptimal conditions, the immobilized cell survival was greatest when 0.75 M adonitol was the incorporated cryoprotectant.     

A method for one-step freezing of mouse embryos

A simple one-step method of freezing mouse embryos directly in liquid nitrogen is described. The main objective of this study was to assess post-thaw survival following predehydration in various mixtures of glycerol and sucrose. Also investigated was pretreatment with glycerol prior to dehydration and effects of embryo stage. When sucrose was held constant (0.25 M) and glycerol concentration varied (1.0-4.0 M), post-thaw survival was best (67%) in 2.0 M glycerol. Pretreatment in glycerol provided no advantage over no pretreatment. When glycerol was held constant (2.0 M) and sucrose concentration varied (0-1.0 M), optimum post-thaw survival (81%) was found in 0.5 M sucrose. Morulae survived better than blastocysts (86% vs 72%, respectively). Transfer of thawed embryos frozen by the optimum treatment (2.0 M glycerol + 0.5 M sucrose) resulted in a birthrate of 41%, compared to 54% for fresh controls. This technique could find application in freezing and thawing of livestock embryos on the farm.     

Factors affecting survival of deep frozen bovine embryos in vitro: The effect of freezing container and method of removing cryoprotectant

The effect of freezing container and method of glycerol removal on in vitro survival of frozen-thawed Day 7 bovine embryos was investigated. Two hundred and fifteen embryos were frozen in ampules or straws, in either vertical or horizontal position and at a cooling rate of 0.3 degrees C/minute from -7 degrees C to -35 degrees C, before being plunged into liquid nitrogen. Samples were thawed in a water bath at +35 degrees C and glycerol was removed by either step-wise dilution (increments 0.25 M) or by exposure to 1.0 M sucrose for 10 minutes. A total of 197 embryos was recovered post-thaw (91%) with an overall survival after 1, 3, 6 and 24 hours in culture of 87, 81, 71, and 23%, respectively. Embryonic quality and percent survival, as assessed morphologically, did not change significantly between 1 and 3 hours but decreased significantly between 6 and 24 hours in culture (p < 0.05). Survival at 24 hours was significantly higher after removal of the cryoprotectant with sucrose when compared to the step-wise glycerol dilution (p < 0.05). Overall, embryonic survival in straws equaled that in ampules; freezing orientation of straws did not affect results. Further, glycerol removal with sucrose tended to yield survival superior to that provided by a step-wise dilution technique.     

The effect of freezer type, cryoprotectant, and processing methods on viability of frozen embryos

Two hundred forty excellent-quality blastocysts flushed from 53 superovulated Holstein heifers were frozen by 1 of 16 procedures in a 2 x 2 x 2 x 2 factorial design. The main effects included a simple, inexpensive, portable mechanical freezing unit instead of a programmable Liquid Nitrogen (LN) freezer for freezing bovine embryos, cryoprotective agents dimethyl sulfoxide (DMSO) and glycerol, addition rates of the cryoprotectants and freezing rates. Embryo viability was assessed morphologically and by fluorescein diacetate (FDA) evaluation. Neither the type of freezer, the cryoprotectant nor the rate of cryoprotectant addition affected embryo viability. Embryo survival after 12 h of incubation was higher (P < 0.05) using a conventional freezing rate than a two-step method (37.2 vs 16.5%). The correlation coefficient between viability evaluation methods (morphology vs FDA) was influenced by cryoprotectant and embryo processing methods and ranged from -0.13 to +0.70. This study indicates that more simplified embryo freezing equipment and handling procedures may provide protection equal to that of more complicated, expensive equipment and more time-consuming methods. Economical on-farm embryo freezing is feasible.     

Depression of the ice-nucleation temperature of rapidly cooled mouse embryos by glycerol and dimethyl sulfoxide.

The temperature at which ice formation occurs in supercooled cytoplasm is an important element in predicting the likelihood of intracellular freezing of cells cooled by various procedures to subzero temperatures. We have confirmed and extended prior indications that permeating cryoprotective additives decrease the ice nucleation temperature of cells, and have determined some possible mechanisms for the decrease. Our experiments were carried out on eight-cell mouse embryos equilibrated with various concentrations (0-2.0 M) of dimethyl sulfoxide or glycerol and then cooled rapidly. Two methods were used to assess the nucleation temperature. The first, indirect, method was to determine the in vitro survival of the rapidly cooled embryos as a function of temperature. The temperatures over which an abrupt drop in survival occurs are generally diagnostic of the temperature range for intracellular freezing. The second, direct, method was to observe the microscopic appearance during rapid cooling and note the temperature at which nucleation occurred. Both methods showed that the nucleation temperature decreased from - 10 to - 15 degrees C in saline alone to between - 38 degrees and - 44 degrees C in 1.0-2.0 M glycerol and dimethyl sulfoxide. The latter two temperatures are close to the homogeneous nucleation temperatures of the solutions in the embryo cytoplasm, and suggest that embryos equilibrated in these solutions do not contain heterogeneous nucleating agents and are not accessible to any extracellular nucleating agents, such as extracellular ice. The much higher freezing temperatures of cells in saline or in low concentrations of additive indicate that they are being nucleated by heterogeneous agents or, more likely, by extracellular ice.     

Survival of IVF-derived bovine embryos frozen in glycerol or ethylene glycol

Survival of IVF-derived bovine embryos of different ages and stages of development, produced in 2 different co-culture systems and frozen in 2 different cryoprotectants, was investigated. In vitro-derived bovine embryos (n = 5,525) were utilized to study survival following exposure to cryoprotectants and after freezing. Survival of the frozen embryos was based on blastocyst re-expansion 24 h and hatching 72 h after thawing. There was no difference in survival when embryos were exposed to either glycerol (Gly) or ethylene glycol (EG) for 10 or 40 min with the cryoprotectant diluted with or without freezing. In 2 of 3 experiments in which a comparison was possible, more blastocysts frozen in 1.4 M glycerol than in 1.5 M ethylene glycol survived. Addition of 0.25 M sucrose to 1.5 M ethylene glycol in the freezing solution did not improve embryo survival. More blastocysts frozen on Day 7 of in vitro culture survived than those frozen on Day 6 or Day 8. On Days 6, 7 and 8, embryos in the most advanced stage of development survived better than those at less advanced stages. Post-thaw survival did not differ for embryos produced in co-culture with Buffalo Rat Liver (BRL) cells with either Menezo B2 Medium or Tissue Culture Medium 199 and frozen in 1.4 M glycerol.     

Cryoprotective role of polyols independent of the increase in supercooling capacity in diapausing adults of Pyrrhocoris apterus (Heteroptera: Insecta)

Diapausing cold-acclimated adults of the bug Pyrrhocoris apterus accumulate four 'winter' polyols, ribitol, sorbitol, mannitol and arabinitol, in total concentrations of up to 100 mM. The accumulation started only when the temperatures dropped below a threshold of +5 degrees C in laboratory acclimated insects. The supercooling capacity (SCP) was not affected by polyol accumulation and remained constant at approximately -17 degrees C. Cold hardiness, measured as survival time (Lt50) at -15 degrees C, increased from approximately 1 day to approximately 1 week in parallel with polyol accumulation. There was a tight correlation (r=0.98) between the concentration of 'winter' polyols in haemolymph and Lt50(-15). When a mixture of ribitol and sorbitol was injected into the haemolymph of the bugs acclimated to +5 degrees C, the concentration of polyols increased from 2.5 to 83.1 mM in haemolymph, or from 0.07 to 6.61 microg/mg of fresh weight in the whole body, the SCP remained unchanged and survival after exposure to -14 degrees C for 3 days increased approximately three-fold in comparison to untreated controls. Such results were interpreted as evidence for the cryoprotective role of accumulated polyols independent of the depression of SCP. Acclimation protocol using thermoperiod, mimicking daily temperature oscillations, resulted in moderately lower SCP, higher sum of polyols accumulated and significantly longer Lt50(-15) than at acclimation protocol with constant temperatures.     

Osmotic and cryoprotective effects of glycerol-sucrose solutions on day-3 mouse embryos

The relative volume of Day-3 mouse embryos changed as a linear function of the reciprocal of osmolality [corrected] of non-permeating solutes after 10 min exposure to sucrose and glycerol-sucrose solutions at 20 degrees C. The slope of the linear regression line was less in glycerol-sucrose than in sucrose solutions because glycerol permeation caused re-expansion. Before freezing by direct transfer to -180 degrees C the embryos were placed into glycerol-sucrose in 1-step (1-step equilibration) or first into glycerol and then into glycerol-sucrose (2-step equilibration). Using 2-step equilibration the post-thaw survival rate was substantially higher at 3.0 and 4.0 M-glycerol levels and less dependent on changes in the sucrose concentration within the range of 0.125 to 1.0 M than with 1-step equilibration. Under optimal conditions 90-95% of rapidly frozen embryos developed to blastocysts in vitro and 30% into live young in vivo. It is suggested that the cryoprotective role of glycerol is due to its ability to reduce osmotic pressure differences between the extra and intracellular spaces during rapid freezing of embryos.     

Osmotic and cryoprotective effects of a mixture of DMSO and ethylene glycol on rabbit morulae

Comparisons were made of the osmotic and cryoprotective effects on rabbit embryos preserved by vitrification with 2 solutions and by conventional freezing. Embryos obtained from rabbits killed 70 to 72 h after mating were used in the study (n = 948). Initially, toxicity of the 3 cryoprotectants was studied in fresh (unfrozen) embryos (n = 135). Subsequently, embryos placed in ethylene glycol (EG, 40% v/v; n = 88) and ethylene glycol with dimethyl sulfoxide (EG+DMSO, 20% v/v each, respectively; n = 344) were loaded into straws and plunged directly into liquid nitrogen. Embryos placed in 1.5 M DMSO and 20% heat inactivated rabbit serum were subjected to conventional freezing in a programmable freezer (control group, n = 363). The osmotic effect was estimated by measuring the changes in the embryonic and interzonal volume (crossectional area) and in the thickness of the mucin coat (n = 18). Cryoprotective effectivity was determined by development to the blastocyst stage in vitro, or birth of normal pups after transfer into synchronized recipients. Osmotic effects of cryoprotective solutions on embryonic and interzonal volume and mucin coat thickness were variable and overall not significant. Survival rate of cryopreserved embryos in vitro and development to blastocysts, was worst in the EG-treated embryos. Survival rate at birth was higher in vitrified vs frozen embryos. We conclude that rabbit morulae can be vitrified successfully in EG+DMSO medium.     

Effect of equilibration period on the viability of frozen-thawed mouse morulae after rapid freezing

Mouse morulae were frozen with 1.5-4.0 M glycerol + 0.25 M lactose solution by direct plunging into liquid nitrogen vapor 0.5-30 min after equilibration at room temperature. After thawing, embryos were cultured in vitro, and the highest survival rates were obtained after exposure for 3 min at 3.0 and 4.0 M and for 5 min at 1.5 and 2.0 M glycerol levels. Significant reductions in the survival rates (P less than 0.05) were observed when equilibration periods were extended for 3-5 min at 3.0 and 4.0 M and for 5-10 min at 1.5 and 2.0 M glycerol levels. These results clearly demonstrate that the equilibration time of embryos in glycerol-lactose mixture is one of the most important factors in the present rapid freezing conditions. To clarify the factors that lower embryo viability after prolonged equilibration, we performed further experiments on the effects of exposure to glycerol-lactose mixture on the developmental potential of embryos without freezing and on the volume changes of embryos during the exposure to glycerol solution with or without lactose. It was suggested that the detrimental effects of prolonged equilibration are due not only to the toxicity and osmotic injury of higher concentrations of cryoprotectant solution but also to the influx of water into embryonic cells caused by the hypotonic salt concentration of the extracellular (freezing) solution.     

Vitrification of bovine IVF blastocysts in an ethylene glycol/sucrose solution and heat-stable plant-extracted proteins

The use of heat-stable plant proteins in an ethylene glycol-based solution for the vitrification of in vitro-derived embryos was examined. Day 7, 8 and 9 bovine in vitro matured, fertilized and cultured (IVMFC), full and expanded blastocysts were vitrified in solutions composed of 40% ethylene glycol (EG) plus 0.3 M sucrose supplemented with 20% Ficoll and 0.3% BSA (VF-1), 25 mg/ml heat-stable plant proteins (HSPP; VF-2), or with no supplement (VF-3). In Experiment 1, embryos were expelled from the straw after thawing, and EG was diluted from embryos with 0.5 M sucrose. There were no differences in post-thaw embryo survival rates or in hatching/hatched rates after 24 h of culture between the VF-1, VF-2 and VF-3 solutions (40.1, 54.1 and 50.8% and 10.7, 16.4 and 17.5%, respectively). Transfer of 12 frozen/thawed embryos to 6 recipients (2 recipients per treatment) resulted in 2 pregnancies from the VF-2 group and 1 pregnancy from the VF-3 group. In Experiment 2, EG was diluted from embryos after thawing within the straw with 0.5 M sucrose. There were no differences in post-thaw survival or hatching/hatched rates after 24 h of culture (19.0, 13.6 and 23.8% and 9.5, 9.0 and 14.4% for VF-1, VF-2 and VF-3, respectively). Transfer of 6 frozen/thawed embryos to 3 recipients (1 recipient per treatment) resulted in no pregnancies. The post-thaw histology of Day 7, 8 and 9 IVMFC blastocysts showed typical ultrastructure with well preserved cell-to-cell contacts. There were no major differences in the fine structure of blastocysts regardless of treatment. The use of HSPP at a concentration of 25 mg/ml in the vitrification medium did not affect the post-thaw embryo survival over that of no protein supplementation. The presence of macro molecules in a 40% EG/sucrose vitrification solution also did not improve post-thaw viability of IVMFC-derived blastocysts.