Stability of the amorphous state in the system water—1,2-Propanediol

For the same water contents, the stability of the wholly amorphous state of the aqueous solutions of 1,2-propanediol is much greater than that for all the solutions previously studied by us with glycerol, dimethylsulfoxide, ethanol, and ethylene glycol. To the degree that cyroprotection is related to that stability, 1,2-propanediol should be a better cryoprotectant than all these other compounds. The aqueous solutions of 1,2-propanediol have a simple behavior. No hydrate cyrstallizes on cooling, and for intermediate concentrations, on warming, after fast cooling, only ice crystallizes from the wholly amorphous state—first cubic, then hexagonal. The great stability of the amorphous state is shown by the critical warming rates above which no crystallization occurs, as well as by the difficulty in crystallizing on cooling.     

Stability of the amorphous state in the system water--glycerol--dimethylsulfoxide

In aqueous solutions containing both glycerol and DMSO, the various states during rewarming after quenching have been identified by X-ray diffraction. The amorphous state of the whole solution has been observed at very low temperatures. The eutectic was seen by X rays after rewarming only in the solutions containing mainly DMSO. In the other solutions only pure ice has been seen. It crystallizes directly in the hexagonal system, if enough DMSO is present. Otherwise, a mixture of cubic and hexagonal ice appears first. The temperature of the end of fusion and the devitrification temperature were measured with a scanning differential calorimeter for a wide range of warming rates. From these measurements was deduced the stability of the amorphous state, defined by the critical heating rate above which no crystallization occurs. That stability presents no maximum, but increases from glycerol to DMSO for a given water concentration in agreement with the fact that Ashwood-Smith considers DMSO a better cryoprotector than glycerol. But a small amount of glycerol in a solution of DMSO greatly enhances the difficulty of crystallization of the eutectic, without decreasing the stability of the amorphous state of the whole solution by much. Then those containing about 10% ($\text{w}\text{w}$) glycerol/(glycerol + DMSO) are perhaps better cryoprotectants than those with only DMSO, at least for low cooling or warming rates where the eutectic may have enough time to crystallize, eventually with deleterious effects, outside or inside the cells.     

Japanese flounder (Paralichthys olivaceus) embryos are difficult to cryopreserve by vitrification

The first successful cryopreservation of fish embryos was reported in the Japanese flounder by vitrification [Chen and Tian, Theriogenology, 63, 1207-1219, 2005]. Since very high concentrations of cryoprotectants are needed for vitrification and fish embryos have a large volume, Japanese flounder embryos must have low sensitivity to cryoprotectant toxicity and high permeability to water and cryoprotectants. So, we investigated the sensitivity and the permeability of Japanese flounder embryos. In addition, we assessed the survival of flounder embryos after vitrification with solutions containing methanol and propylene glycol, following Chen and Tian's report. The embryos were relatively insensitive to the toxicity of individual cryoprotectants at lower concentrations, especially methanol and propylene glycol as their report. Although their permeability to water and cryoprotectants could not be measured from volume changes in cryoprotectant solutions, the embryos appeared to be permeable to methanol but less permeable to DMSO, ethylene glycol, and propylene glycol. Although vitrification solutions containing methanol and propylene glycol, which were used in Chen and Tian's report, were toxic to embryos, a small proportion of embryos did survived. However, when vitrified with the vitrification solutions, no embryos survived after warming. The embryos became opaque during cooling with liquid nitrogen, indicating the formation of intracellular ice during cooling. When embryos had been kept in vitrification solutions for 60 min after being treated with the vitrification solution, some remained transparent during cooling, but became opaque during warming. This suggests that dehydration and/or permeation by cryoprotectants were insufficient for vitrification of the embryos even after they had been over-treated with the vitrification solutions. Thus, Chen and Tian's cryopreservation method lacks general application to Japanese flounder embryos.     

Zona fracture damage and its avoidance during the cryopreservation of mammalian embryos

Although fracture damage to the zonae pellucidae and blastomeres is frequently observed after the cryopreservation of mammalian embryos, little is known of the mechanism by which this occurs. The incidence of damage to zonae was measured when bovine ova with normal zonae were frozen in straws or glass test tubes by standard embryo cryopreservation procedures that yield high rates of survival. Ova were examined for zona damage after warming by procedures that ought to produce little or no thermal stress (slow warming in 20 degrees C air) or high levels of stress (rapid warming in liquid baths). Ova frozen in straws exhibited no zona damage after slow warming at 150 degrees C/min in air (n = 206). However, the incidence of zona damage increased when the straws were warmed rapidly in 20 degrees C (n = 157) or 36 degrees C (n = 159) water (17 and 24%, respectively). Ova in straws warmed rapidly in nonaqueous liquids (ethylene glycol, or silicone oil) exhibited lower rates of zona damage (2 to 5%). Ova frozen in glass tubes exhibited a much higher incidence of zona damage than those frozen in straws, regardless of the warming conditions. Thus, 30% of 114 ova exhibited damage when tubes were warmed slowly at 25 degrees C/min in air, while 54% of 98 ova showed zona damage when tubes were warmed rapidly at 500 degrees C/min in 36 degrees C water. These results are consistent with the view that zona damage is associated with thermally-induced fracturing of the suspension during rapid changes of temperature.     

Glass-forming tendency in the system water-dimethyl sulfoxide

The glass-forming tendency on cooling and the stability of the wholly amorphous state on warming have been previously reported for many cryoprotective solutions. However, unlike the other solutions, those of dimethyl sulfoxide (Me(2)SO) have not been studied on cooling. In this paper, the glass-forming tendency of Me(2)SO aqueous solutions has been measured for solutions containing 40, 43, 45, and 47.5% (w/w) Me(2)SO. At a concentration of 45% (w/w), the glass-forming tendency decreases in the following order: levo-2, 3-butanediol, 1,3-butanediol, 1,2-propanediol, 1,2,3-butanetriol, dimethyl sulfoxide, dimethylformamide, diethylformamide, 1, 4-butanediol, ethylene glycol, glycerol, 1,3-propanediol. New measurements have also been made on warming the Me(2)SO solutions.     

Functional Trait Changes,Productivity Shifts and Vegetation Stability in Mountain Grasslands during a Short-Term Warming

Plant functional traits underlie vegetation responses to environmental changes such as global warming, and consequently influence ecosystem processes. While most of the existing studies focus on the effect of warming only on species diversity and productivity, we further investigated (i) how the structure of community plant functional traits in temperate grasslands respond to experimental warming, and (ii) whether species and functional diversity contribute to a greater stability of grasslands, in terms of vegetation composition and productivity. Intact vegetation turves were extracted from temperate subalpine grassland (highland) in the Eastern Pyrenees and transplanted into a warm continental, experimental site in Lleida, in Western Catalonia (lowland). The impacts of simulated warming on plant production and diversity, functional trait structure, and vegetation compositional stability were assessed. We observed an increase in biomass and a reduction in species and functional diversity under short-term warming. The functional structure of the grassland communities changed significantly, in terms of functional diversity and community-weighted means (CWM) for several traits. Acquisitive and fast-growing species with higher SLA, early flowering, erect growth habit, and rhizomatous strategy became dominant in the lowland. Productivity was significantly positively related to species, and to a lower extent, functional diversity, but productivity and stability after warming were more dependent on trait composition (CWM) than on diversity. The turves with more acquisitive species before warming changed less in composition after warming. Results suggest that (i) the short-term warming can lead to the dominance of acquisitive fast growing species over conservative species, thus reducing species richness, and (ii) the functional traits structure in grassland communities had a greater influence on the productivity and stability of the community under short-term warming, compared to diversity effects. In summary, short-term climate warming can greatly alter vegetation functional structure and its relation to productivity.     

Cryopreservation of isolated mint shoot tips by vitrification

Shoot tips isolated from a mint clone, Mentha aquatica x M. spicata, were gradually exposed to a mixture containing 35% ethylene glycol, 1 M dimethylsulfoxide and 10% polyethylene glycol-8000 and then immersed into liquid nitrogen. Cooling and warming rates were approximately 4800°C/min and 9000°C/min respectively. Survival after liquid nitrogen treatment ranged from 31% to 75% among experiments. There was no obvious reason for this variation. In many cases the treated shoot tip directly developed into a shoot without any or with only slight callus formation.Abbreviations DSC differential scanning calorimetry - DMSO dimethylsulfoxide - EG ethylene glycol - PEG-8000 polyethylene glycol - MW avg. 8000 - LN liquid nitrogen - IBA indolebutyric acid - BA benzyladenine     

Daytime warming lowers community temporal stability by reducing the abundance of dominant,stable species

Daytime warming and nighttime warming have the potential to influence plant community structure and ecosystem functions. However, their impacts on ecological stability remain largely unexplored. We conducted an eight‐year field experiment to compare the effects of daytime and nighttime warming on the temporal stability of a temperate steppe in northern China. Our results showed that the cover and stability of dominant species, stability of subordinate species, and compensatory dynamics among species strongly influenced community‐level stability. However, daytime, but not nighttime, warming significantly reduced community temporal stability mainly through the reduction in the abundance of dominant, stable species. These findings demonstrate the differential effects of daytime and nighttime warming on community stability and emphasize the importance of understanding the changes of dominant species for accurately predicting community dynamics under climate warming.     

Effect of common cryoprotectants on critical warming rates and ice formation in aqueous solutions

Ice formation on warming is of comparable or greater importance to ice formation on cooling in determining survival of cryopreserved samples. Critical warming rates required for ice-free warming of vitrified aqueous solutions of glycerol, dimethyl sulfoxide, ethylene glycol, polyethylene glycol 200 and sucrose have been measured for warming rates of order 10–10⁴ K/s. Critical warming rates are typically one to three orders of magnitude larger than critical cooling rates. Warming rates vary strongly with cooling rates, perhaps due to the presence of small ice fractions in nominally vitrified samples. Critical warming and cooling rate data spanning orders of magnitude in rates provide rigorous tests of ice nucleation and growth models and their assumed input parameters. Current models with current best estimates for input parameters provide a reasonable account of critical warming rates for glycerol solutions at high concentrations/low rates, but overestimate both critical warming and cooling rates by orders of magnitude at lower concentrations and larger rates. In vitrification protocols, minimizing concentrations of potentially damaging cryoprotectants while minimizing ice formation will require ultrafast warming rates, as well as fast cooling rates to minimize the required warming rates.     

Statistical prediction of the vitrifiability and glass stability of multi-component cryoprotective agent solutions

Long-term biologic storage of articular cartilage has proven elusive due to cellular degradation over time or acute damage during attempts at cryopreservation. Vitrification is one option that may result in successful cryopreservation but difficulty with cryoprotective agent (CPA) toxicity at high concentrations of a single cryoprotectant has hindered development of successful protocols. This study was designed to determine the vitrifiability and glass stability of solutions containing combinations of commonly used CPAs and to document CPA interactions that occur. One hundred and sixty-four multi-CPA combination solutions of 6-9 M were evaluated for vitrifiability and glass stability using direct visualization after immersion in liquid nitrogen for 30 min and upon warming. Binary and ordinal logistic regression analysis was used to statistically analyze each CPA for its ability to vitrify and its effect on glass stability in multi-component CPA solutions. Propylene glycol had the greatest incremental contribution to vitrification while formamide had the least contribution. A threshold was established whereby the ability of a solution to vitrify could be determined by calculation. Glass stability was not as clearly defined due to variability in the results; however, contributions of interactions between CPAs to the glass stability of solutions were determined. This study provided values that predict if a solution will vitrify. Furthermore, the glass stability of solutions containing multiple CPAs do not behave as linear additions of binary solutions and interactions between CPAs have a significant effect on the glass stability of these solutions. These variables should be considered when designing vitrification solutions.     

Freezing tolerance in embryos and spermatozoa of the sea urchin

Late embryos of the sea urchin survive freezing, at least for a short period of time, at ?196 °C in the presence of a cryoprotectant. The freezing tolerance in glycolated embryos is greater in advanced developmental stages. High rates of both cooling and warming during a freezethaw sequence were more dangerous in one-cell embryos than in late ones. Both ethylene glycol and DMSO exerted a significant protection against freezing injury on embryos in all the stages after fertilization, but not on unfertilized egg cells. Cryopreservation of sea urchin sperm at ?196 °C in the presence of 1.5 m ethylene glycol has been achieved for 3 days. The fertilizability of eggs inseminated by frozen-thawed sperm was more than two-thirds. Nearly all the eggs thus fertilized developed to normal gastrulae.     

Vitrification of early-stage bovine and equine embryos

The objectives of this study were to: (1) determine an optimal method and stage of development for vitrification of bovine zygotes or early embryos; and (2) use the optimal procedure for bovine embryos to establish equine pregnancies after vitrification and warming of early embryos. Initially, bovine embryos produced by in-vitro fertilization (IVF) were frozen and vitrified in 0.25 mL straws with minimal success. A subsequent experiment was done using two vitrification methods and super open pulled straws (OPS) with 1- or 8-cell bovine embryos. In Method 1 (EG-O), embryos were exposed to 1.5 M ethylene glycol (EG) for 5 min, 7 M ethylene glycol and 0.6 M galactose for 30 s, loaded in an OPS, and plunged into liquid nitrogen. In Method 2 (EG-DMSO), embryos were exposed to 1.1 M ethylene glycol and 1.1 M dimethyl sulfoxide (DMSO) for 3 min, 2.5 M ethylene glycol, 2.5 M DMSO and 0.5 M galactose for 30 s, and loaded and plunged as for EG-O. Cryoprotectants were removed after warming in three steps. One- and eight-cell bovine embryos were cultured for 7 and 4.5 d, respectively, after warming, and control embryos were cultured without vitrification. Cleavage rates of 1-cell embryos were similar (P > 0.05) for vitrified and control embryos, although the blastocyst rates for EG-O and control embryos were similar and higher (P < 0.05) than for EG-DMSO. The blastocyst rate of 8-cell embryos was higher (P < 0.05) for EG-O than EG-DMSO. Therefore, EG-O was used to cryopreserve equine embryos. Equine oocytes were obtained from preovulatory follicles. After ICSI, injected oocytes were cultured for 1-3 d. Two- to eight-cell embryos were vitrified, warmed and transferred into recipient's oviducts. The pregnancy rate on Day 20 was 62% (5/8) for equine embryos after vitrification and warming. In summary, a successful method was established for vitrification of early-stage bovine embryos, and this method was used to establish equine pregnancies after vitrification and warming of 2- to 8-cell embryos produced by ICSI.     

Cryopreservation of rat blastocysts by vitrification

Rat blastocysts equilibrated with vitrification solution (VS1), consisting of dimethyl sulfoxide, acetamide, propylene glycol, and polyethylene glycol were plunged directly into liquid nitrogen. The embryo suspension are solidified by an extreme elevation in viscosity of solution. The embryos are cryopreserved by vitrification without intra- and extracellular ice formation. The proportion of morphologically normal embryos after cooling and warming was 79% (117/149) and all (48/48) of the embryos cultured were developed to expanded or hatched blastocysts. Normal live young were obtained 41% of the time (28/69) after transfer of the cooled and warmed embryos to pseudopregnant recipients.     

模拟增温及隔离降雨对中亚热带杉木人工林土壤可溶性有机质的数量及其结构的影响

温度和水分影响森林生态系统的结构与功能,而全球变暖和降雨格局的改变是未来气候变化的趋势。我国中亚热带地区森林覆盖率大,碳库丰富,可溶性有机质(DOM)作为森林生态系统的重要组成部分,气候变化对它的数量和组成具有重要的影响。本文对我国湿润亚热带地区杉木人工林土壤进行模拟增温以及隔离50%的降雨试验,利用光谱技术手段研究增温及隔离降雨对土壤可溶性有机质(DOM)的数量及其结构的影响。试验设对照(CK)、增温(W)、隔离降雨(P)、增温与隔离降雨的交互作用(WP)4种处理。结果表明,与对照相比,土壤增温后,0—10cm和10—20cm土层的土壤可溶性有机碳(DOC)和可溶性有机氮(DON)增加,但其芳香性指数和腐殖化程度降低,增温加速DOM的流失,不利于土壤有机质的稳定。季节变化影响土壤的环境,导致隔离降雨有使DOM的数量增加或减少的趋势;在旱季(2014年10月和2015年1月),隔离降雨降低了土壤DOM的数量,但其芳香性指数和腐殖化程度增加,而进入雨季(2015年4月),隔离降雨有使DOM增加的趋势,但其组分中的芳香化合物较少。增温和隔离降雨的交互作用在一定程度上促进DOM的产生,其结构比对照简单。温度和降雨对DOM的影响较为复杂,在全球气候变化背景下,只有长期对其进行观测并探讨其他因素带来的影响才能深入了解气候变暖和降雨格局的变化对土壤碳、氮的影响。     

A simple method for mouse embryo cryopreservation in a low toxicity vitrification solution, without appreciable loss of viability

Mouse morulae were exposed to solutions containing 30-50% of permeable agents (ethylene glycol, glycerol, propylene glycol) in modified phosphate-buffered saline (PB1 medium) at 20 degrees C for 20 min. A high percentage of them developed to expanded blastocysts in culture, after exposure to 30% and 40% ethylene glycol (98 and 84%, respectively), or 30% glycerol (88%). Ethylene glycol and glycerol were diluted to 30 and 40% with PB1 medium or with PB1 containing 30% Ficoll or 30% Ficoll + 0.5 M-sucrose, immersed in liquid nitrogen in straws and warmed in 20 degrees C water. Solutions containing 40% of a permeable agent with Ficoll did not crystallize during cooling or warming. Mouse morulae were exposed to 40% ethylene glycol in PB1 medium containing 30% Ficoll (EF) or PB1 medium + 30% Ficoll + 0.5 M-sucrose (EFS) for 5-20 min at 20 degrees C. EFS solution was non-toxic to the embryos during 5 min of exposure. When embryos, equilibrated in EFS solution for 2 or 5 min at 20 degrees C, were vitrified at -196 degrees C and were warmed rapidly, nearly all embryos developed in culture (97-98%), and 51% developed to live young at term after transfer. This method, which results in virtually no decrease in embryonic viability, may be of practical use for embryo preservation.     

Vitrification of germinal-vesicle stage equine oocytes: Effect of cryoprotectant exposure time on in-vitro embryo production

Previous studies have found low rates of blastocyst development (0–11%) after vitrification of germinal vesicle (GV)-stage equine oocytes. In this study, we systematically evaluated a short (non-equilibrating) system for GV-stage oocyte vitrification. In Exp. 1, we assessed oocyte volume in cumulus-oocyte complexes (COCs) exposed to components of a short protocol, using 2% each of ethylene glycol and propylene glycol in the first solution (VS1); 17.5% of each plus 0.3 M trehalose in the second solution (VS2); and fetal bovine serum as the base medium. Based on the time to oocyte minimum volume, we selected a 40-sec exposure to VS1. In Exp. 2, we evaluated exposure times to VS2 and, based on rates of subsequent maturation in vitro, we selected 65 s. In Exp. 3, we used the optimized vitrification system (40-VS1; 65-VS2) and evaluated three warming procedures. Blastocyst development after ICSI was equivalent (15%) for COCs warmed in either standard (trehalose stepwise dilution) or isotonic (base medium) solutions, but was reduced (0%) for COCs warmed in a highly hypertonic (1.5 M trehalose) solution. Exposure to the vitrification and warming solutions, without actual vitrification, was associated with reduced blastocyst development (0–5%; Exp. 4). We conclude that this optimized short protocol supports moderate blastocyst production after vitrification of GV-stage equine COCs. Oocytes can be warmed in isotonic medium, which simplifies the procedure. The systems used still showed a high level of toxicity and further work is needed on both vitrification and warming methods to increase the efficiency of this technique.     

The influence of temperature on the function of renal cortical slices frozen in various cryoprotectants

Renal cortical slices were frozen to various subzero temperatures after treatment with 2.1 M of one of three cryoprotectants, dimethyl sulfoxide (Me2SO), ethylene glycol, or glycerol. The effects on tissue [K+]/[Na+] of cooling to these temperatures were tested (using identical procedure times, cooling rates, and warming rates) by holding the slices at each experimental temperature for appropriate periods of time prior to rewarming. The effects of the holding time were assessed by comparison with slices which were cooled and rewarmed with no intermediate holding time. Slices treated with ethylene glycol or glycerol were found to exhibit a continuous decrease in [K+]/[Na+] with lowered temperatures, in contrast to those treated with Me2SO. Slices treated with Me2SO actually experienced a continuous increase in [K+]/[Na+] with lowered temperature (-12 to -33 degrees C). Me2SO does exhibit toxic effects at subzero temperatures. Adverse effects of holding time on viability are seen for Me2SO-treated slices at higher subzero temperatures. These effects were alleviated as the temperature is reduced, suggesting that temperature has a greater effect on survival of renal cortical tissue than Me2SO concentration. However, the toxicity observed at higher subzero temperatures is expected to be of importance, particularly for slowly cooled tissues which are exposed to these temperatures for relatively long periods of time.     

Effect of sugars-addition on the survival of vitrified bovine blastocysts produced in vitro

We investigated the effect of addition of sugars to a vitrification solution on the survival rate of bovine blastocysts produced in vitro. In vitro-matured (IVM) and in vitro-fertilized (IVF) bovine Day-6 to Day-8 bovine blastocysts were classified into 3 developmental stages: early blastocysts, blastocysts and expanded blastocysts. The blastocysts were cryopreserved in 1 of 3 vitrification solutions: 1) 25% glycerol25% ethylene glycol (GE); 2) 20% glycerol20% ethylene glycol3/4 M sucrose (GES); and 3) 20% glycerol20% ethylene glycol3/8 M sucrose3/8 M dextrose (GESD). The basic solution was Dulbecco's PBS supplemented with 20% of fetal calf serum. Embryos were exposed to each vitrification solution in 3 steps, and after loading into 0.25-ml straws, were plunged into liquid nitrogen. After warming in water bath at 20 degrees C, cryoprotectants were diluted in 1/2 M and 1/4 M sucrose each for 5 min. Equilibration and dilution procedure except warming were conducted at room temperature (23 to 27 degrees C). After dilution, the embryos were cultured in Ham's F10 medium0.1 mM beta-mercaptoethanol20% fetal calf serum. Survival rates of embryos at 48 h of incubation of each of the 3 developmental stages (early blastocysts, blastocysts and expanded blastocysts) exposed to the 3 types of the vitrification solutions (GE, GES and GESD) were 23.5, 33.3, 65.8% (early blastocysts, blastocysts and expanded blastocysts respectively) in GE, 55.6, 71.9, 90.5% in GES and 84.6, 83.3, 95.8% in GESD respectively. These results indicate that a mixture of 25% glycerol25% ethylene glycol is not suitable for vitrification of early bovine blastocysts; however, addition of sugars to the solution significantly (P<0.01) improved the survival rate of the vitrified blastocysts, independently of their stage of development.     

Vitrification of human monocytes

Human monocytes purified from peripheral blood by counterflow centrifugal elutriation were cryopreserved in a vitreous state at 1 atm pressure. The vitrification solution was Hanks' balanced salt solution (HBSS) containing (w/v) 20.5% Me2SO, 15.5% acetamide, 10% propylene glycol, and 6% polyethylene glycol. Fifteen milliliters of this solution was added dropwise to 1 ml of a concentrated monocyte suspension at 0 degrees C. Of this, 0.8 ml was drawn into silicone tubing and rapidly cooled to liquid nitrogen temperature, stored for various periods, and rapidly warmed in an ice bath. The vitrification solution was removed by slow addition of HBSS containing 20% fetal calf serum. The numerical cell recovery was about 92% and most of these retained normal phagocytic and chemotactic ability. Differential scanning calorimeter records of the solution show a glass transition at -115 degrees C during cooling and warming, but no evidence of ice formation during cooling. Devitrification occurs at about -70 degrees C during warming at rates as rapid as 80 degrees C/min. The amount of devitrification is dependent upon the warming rate. Freeze-fracture freeze-etch electron microscope observations revealed no ice either intra- or extracellularly in samples rapidly cooled to liquid nitrogen temperatures except for small amounts in some cellular organelles. However, if these cell suspensions were warmed rapidly to -70 degrees C and then held for 5 min, allowing devitrification to occur, the preparation contained significant amounts of both intra- and extracellular ice. Biological data showed that this devitrification was associated with severe loss of cell function.     

Morphological changes of in-vitro-produced bovine blastocysts after vitrification,in-straw direct rehydration,and culture

Morphological signs of injury and regeneration following vitrification and warming of bovine embryos were studied by light and electron microscopy. In-vitro-produced Day 7 expanded blastocysts (Day 0 = day of insemination) were vitrified by a two-step equilibration method using ethylene glycol and dimethyl sulphoxide as cryoprotectants. Thawing was performed by in-straw direct rehydration, followed by in vitro culture on a granulosa cell monolayer. Embryos were processed for transmission electron microscopy immediately after warming (0 hr) as well as after 4 hr or 24 hr of culture following warming. A control group of unfrozen embryos was also processed. At 0 hr after warming, except for a rapid collapse of the blastocoele, only minor changes were detectable by stereomicroscope. However, at the ultrastructural level, signs of extensive injury were seen, including a general distension or shrinkage of mitochondria, disintegration of cell adhesions between adjacent trophoblastic cells, and complete rupture of some cells. At 4 hr, stereomicroscopic investigation revealed collapsed blastocoele and a darkened granular appearance of the cell mass. At the ultrastructural level, signs of regeneration were also observable: cells with minor injuries were re-assembled in a central area forming a small blastocoele, cell adhesion structures were re-established, and damage of mitochondria was less severe. The majority of irreversibly damaged cells or cell debris was accumulated in the perivitelline space. At 24 hr, stereomicroscopic investigation of surviving blastocysts showed no signs of the previous injury. At the ultrastructural level, cellular debris in the perivitelline space and some degenerated cells in the blastocoele were the only signs of previous injuries. In conclusion, ultrastructural investigation revealed unexpectedly extensive damage followed by a rapid regeneration and reorganization of the embryonic structure. Mol. Reprod. Dev. 48:9–17, 1997. © 1997 Wiley-Liss, Inc.