Cryopreservation of mouse embryos by vitrification: A meta-analysis

A meta-analysis of cryopreservation studies vitrifying mouse embryos was undertaken to determine the treatment effect of vitrification. Treatment by vitrification decreased embryo viability compared with controls: the odds ratio was 9.02 (CI: 3.73-21.78; P < 0.001), a 24.90% (CI: 14.88-34.91; P < 0.001) reduction in risk was associated with embryos in the control group, and for every 4.00 (CI: 3.91-4.09) embryos treated by vitrification, one does not survive. A multiple regression analysis evaluated covariates of embryo survival. For each hour increase post-hCG treatment when embryos were cryopreserved, there was a decrease of 0.36% (SEM ± 0.01) in survival (P < 0.001). The number of embryos surviving vitrification decreased 0.25% (SEM ± 0.02) per day increase in age of the female mouse (P < 0.001), whereas there was no significant difference for control group embryos. For each 1 h increase post-hCG treatment after cryopreservation when blastocysts were assessed for viability, there was a decrease of 0.13% (SEM ± 0.01) in survival. The later interval post-hCG treatment when blastocysts were assessed, the less viable they were compared with earlier blastocysts, independent of the vitrification protocol. This effect was not observed for control embryos. A high percentage of variability in the treatment effect for vitrification was likely due to underlying heterogeneity among studies. A portion of the risk associated with vitrification could be attributed to the general effects of cryopreservation. Future research should identify effects in a cryopreservation protocol specific to vitrification that affect viability of mouse embryos.     

Cryopreservation of mouse embryos at -196 degrees C by vitrification

Embryos (8-16 cell) were obtained from random bred albino mice (6-8 weeks old) that were induced to superovulate by injections of 5 I.U. PMSG and 5 I.U. hCG given 48 hr apart. Embryos were exposed to intracellular cryoprotecting medium (glycerol 10%, 1-2 propanediol 20% in PBS) for 10 min and then transferred to extracellular vitrification medium (25% glycerol, 25% 1-2 propanediol in PBS). Vitrification medium containing embryos, and diluent (1 M sucrose) were loaded in a straw and immediately plunged into liquid N2. After thawing at 20 degrees C, the contents of the straw were mixed by shaking (1 step dilution) and emptied in a petri dish. After 3 washings in culture medium the embryos were kept in CO2 incubator for further development. In 3-step dilution procedure the dilution of cryoprotectants was done in 0.5 and 0.25 M sucrose before culture. Embryos in 3-step dilution of cryoprotectants exhibited high survival as compared to 1-step dilution (20.23% vs 6.55%).     

不同群系小鼠胚胎玻璃化冷冻保存技术的研究

利用 EFS40 ,二步法对近交系 C5 7BL/6、DBA/2和远交群 ICR小鼠囊胚玻璃化冷冻保存 ,并对冷冻后胚胎体内、外发育效果进行比较。结果表明 ,相同条件下鲜胚经培养 ,近交系 C5 7BL /6小鼠的囊胚发育率 ( 93% )与 ICR( 1 0 0 % )相比差异不显著 ( P>0 .0 5 ) ;而两近交系的囊胚孵化率明显低于 ICR( P<0 .0 1 )。 C5 7BL/6、DBA/2小鼠囊胚冷冻后发育率 ( 93% ,96% )和孵化率 ( 5 2 % ,46% )与各自对照组 ( 1 0 0 % ,1 0 0 %和 61 % ,62 % )相比均无显著差异 ( P>0 .0 5 ) ;并且与 ICR冷冻组发育率和孵化率 ( 94% ,5 3% )之间也无显著差异 ( P>0 .0 5 )。两近交系冻胚移植妊娠与各自对照组和 ICR冷冻组比较均无显著差异 ( P>0 .0 5 )。C5 7BL/6胚胎移植产仔率 ( 35 % )与对照组 ( 5 1 % )之间差异显著 ( P<0 .0 1 ) ,而 DBA/2胚胎移植产仔率 ( 4 7% )与对照组和 ICR冷冻组 ( 39% ,5 8% )相比差异不显著 ( P>0 .0 5 )。     

Cryopreservation of flounder (Paralichthys olivaceus) embryos by vitrification

Conventional cryopreservation of complex teleost embryos has been unsuccessful, possibly because their large size (1-7 mm diameter), multi-compartmental structure and low water permeability lead to intracellular ice formation and chilling injury. To overcome these obstacles, we have developed a vitrification procedure for cryopreservation of flounder (Paralichthys olivaceus) embryos. In initial toxicity tests, propylene glycol (PG) and methanol (MeOH) were less toxic to embryos than dimethylformamide (DMF) or dimethyl sulfoxide (Me2SO), whereas ethylene glycol (EG) and glycerol (Gly) were toxic to all tested embryos. Embryos between four-somite and tail bud stages were more tolerant to vitrifying solutions than embryos in other developmental stages. Four vitrifying solutions (FVS1-FVS4) were prepared by combining a basic saline solution (BS2) and cryoprotectants PG and MeOH in different proportions (FVS1: 67, 20 and 13%; FVS2: 60, 24 and 16%; FVS3: 55, 27 and 18%; FVS4: 50, 30 and 20% of BS2, PG and MeOH, respectively). Their impact on flounder embryos was then compared. FVS1 produced the highest survival rate; whereas deformation rate was highest for FVS4. Five-step equilibration of embryos in FVS2 resulted in higher survival rates than equilibration in 4, 3, 2 or 1 steps. Flounder embryos varying from the 14-somite to the pre-hatching stage were cryopreserved in the four vitrifying solutions in liquid nitrogen for 1-7 h. From eight experiments, 20 viable thawed embryos were recovered from 292 cryopreserved embryos. Fourteen larvae with normal morphology hatched successfully from the 20 surviving frozen-thawed embryos from five experiments. Embryos at the tail bud stage exhibited greater tolerance to vitrification than embryos at other stages. These results establish that cryopreservation of flounder embryos by vitrification is possible. The technology has many potential applications in teleost germplasm resource conservation.     

Cryopreservation of ovine embryos: slow freezing and vitrification

Different methods for the cryopreservation of ovine embryos were evaluated in vitro (survival upon culture in vitro) and in vivo (pregnancy and lambing rates after transfer in field conditions). In the first 2 experiments, slow freezing conditions were evaluated. When glycerol and ethylene glycol were compared, no differences in the overall pregnancy rate were found (40.2 vs 51.3%), but better results were obtained with ethylene glycol than with glycerol in morulae (29.7 vs 59.4%, P < 0.05). In the second experiment, 2 methods of removing ethylene glycol were compared: a 1-step procedure using 0.5-M sucrose and a 3-step process for decreasing ethylene glycol concentration. There were no differences in the overall pregnancy rate (48.0 vs 48.0%) between the 2 methods. The last series of experiments were designed to compare 2 vitrification solutions: propylene glycol--glycerol (PG) and ethylene glycol--Ficoll 70--sucrose (EFS). There were no differences between the 2 vitrification solutions, based on the overall pregnancy rate (28.1 vs 40.0%). The vitrification technique and specially with EFS solution has resulted in good pregnancy rates. The EFS solution was particularly efficacious with morulae (55.5% pregnancy). These results demonstrate that vitrification with EFS can be used successfully for the cryopreservation of ovine embryos.     

Development of mouse embryos cryopreserved by vitrification

Eight-cell mouse embryos were cryopreserved by vitrification in a concentrated solution of dimethylsulphoxide, acetamide, propylene glycol and polyethylene glycol. This solution (designated VS1) does not crystallize when cooled to subzero temperatures but instead forms a glassy transparent solid. Embryos were exposed in three steps to a stock VS1 solution or a saline solution containing 90% of the cryoprotectants in the stock VS1 (90% VS1) and then the suspensions were vitrified by rapid cooling in liquid nitrogen. Of 568 embryos vitrified in 90% VS1, 80% developed in vitro and 98 normal fetuses or young (17% of the total) were produced after transfer to pseudopregnant recipients. By contrast, 22% of 153 embryos vitrified in the stock VS1 developed in vitro, but only one normal fetus was obtained after transfer. These results demonstrate that normal fetuses and young can be produced from embryos cryopreserved by the simple and rapid method of vitrification.     

鲈鱼胚胎的玻璃化冷冻保存

本文对鲈鱼(Lateolabrax japonicus)胚胎进行了玻璃化冷冻保存研究,筛选出了浓度较低、玻璃化程度较稳定的5种玻璃化液,冷冻时形成玻璃化的概率在48．1％～100％,在35～43℃的水浴中解冻时保持玻璃化的概率在44．4％～63．0％;玻璃化液VSD2在解冻时保持玻璃化的概率最高。对鲈鱼神经胚、20对肌节胚、尾芽胚、心跳胚、出膜前胚在玻璃化液VSD2中的适应能力及适合于玻璃化冷冻的胚胎时期进行了比较,结果显示：不同时期胚胎对玻璃化液的耐受能力不同,鲈鱼神经胚耐受能力最低,心跳胚耐受能力最强,出膜前期胚次之,心跳胚和出膜前胚适合于进行玻璃化冷冻。对0．5mol/L蔗糖的洗脱时间进行了选择,结果显示,洗脱10～20min效果较好。利用玻璃化程度较好的VSD2对鲈鱼不同时期胚胎进行超低温(-196℃)冷冻,获得了2．1％～27．9％的透明胚。将鲈鱼心跳胚冷冻解冻后获2粒复活胚,培养至出膜期,成活42～50h;出膜前期胚在冷冻解冻后有1粒胚复活,并且孵化出鱼苗[动物学报49(6)：843～850,2003]。     

Cryopreservation of porcine embryos by vitrification: A study of in vitro development

Until recently, attempts to preserve porcine embryos have been unsuccessful. Vitrification has been developed as a method of cryopreserving mammalian embryos by avoiding ice crystal formation, assuring a cryopreserved glass state during storage in liquid nitrogen. Vitrification may be a useful method of overcoming the deleterious effects of chilling injury when pig embryos are cryopreserved using conventional slow freezing procedures. In this study, we applied vitrification procedures for rodent and/or bovine embryos to cryopreserve porcine embryos. Following warming, survival was defined as normal development of embryos in culture, namely the formation or reexpansion of the blastocoelic cavity. Experiment 1 tested the relative toxicity of 3 vitrification procedures on Day-5, 6 and 7 porcine embryos. Embryos equilibrated in vitrification solution (VS3a) continued to develop in vitro at rates comparable to that of untreated control embryos. Experiment 2 was designed to evaluate embryonic development following cryopreservation by vitrification in VS3a. Day-5 porcine embryos did not survive cryopreservation while Day-6 and Day-7 embryos survived and continued development in vitro. In Experiment 3, we evaluated a period of culture prior to vitrification and its effect on cryosurvivability of porcine embryos. A 3-h culture period prior to vitrification had no effect on cryosurvivability over that of freshly recovered, immediately vitrified embryos. These studies indicate, for the first time, that porcine embryos can be successfully cryopreserved by vitrification based on morphology and subsequent development in vitro. However, survival following cryopreservation appears to depend upon embryonic age or stage of development.     

Cryopreservation of rye protoplasts by vitrification

A procedure has been developed for the vitrification of mesophyll protoplasts isolated from leaves of nonacclimated (NA) and cold-acclimated (ACC) winter rye seedlings (Secale cereale L. cv Puma). The procedure involves (a) equilibration (loading) of the protoplasts with an intermediate concentration (1.5, 1.75, or 2.0 molar) of ethylene glycol (EG) at 20°C; (b) dehydration of the protoplasts in a concentrated vitrification solution made of 7 molar EG + 0.88 molar sorbitol + 6% (w/v) bovine serum albumin (BSA) at 0°C; (c) placing the protoplasts into polypropylene straws and quenching in liquid nitrogen (LN₂); and (d) recovery of the protoplasts from LN₂ and removal (unloading) of the vitrification solution. For NA protoplasts, 47 + 1% survival was obtained following recovery from LN₂ if the protoplasts were first loaded with 1.75 molar EG prior to the dehydration step. However, to achieve this level of survival, NA protoplasts had to be unloaded in a hypertonic (2.0 osmolal [osm]) sorbitol solution. If they were unloaded in an isotonic solution (0.53 osm), survival was 3±2%. In contrast, survival of ACC protoplasts following recovery from LN₂ was 34 ± 10% when the protoplasts were loaded in a 2.0 molar EG solution and unloaded in an isotonic sorbitol solution (1.03 osm). If ACC protoplasts were unloaded in an hypertonic sorbitol solution (1.5 osm), survival was 51 ± 9%. These results indicate that the osmotic excursions incurred during the procedure are a major factor affecting survival.     

Selection of mouse preimplantation embryos carrying exogenous DNA by polymerase chain reaction

A polymerase chain reaction (PCR) system to detect transgenes in mouse preimplantation embryos was employed so that transgenic embryos could be selected before they were transferred to recipient mice. The selection system involves bisection of morulae, selection of the half-morulae containing target sequences within 7 hr, and culture and transfer of the sister half-morulae. PCR analysis of morulae derived from transgenic mice confirmed that the PCR system was reliable. However, five of 41 implanted embryos derived from PCR-positive morulae did not contain the transgenes. Also, one of 28 implanted embryos from PCR-negative morulae were transgenic. The selection system was applied to fertilized mouse eggs into which pSV2-gpt-gE1A DNA was injected. The injected DNA was detected in 30 of 84 morulae derived from the microinjected eggs. All seven implanted embryos developed from PCR-negative morulae had no detectable amount of transgenes, and one of two successfully implanted embryos from PCR-positive morulae was transgenic.     

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.     

Cryopreservation of zygotic embryos of a Japanese terrestrial orchid (Bletilla striata) by vitrification

The seeds of a Japanese terrestrial orchid (Bletilla striata Rchb.f.) were germinated and cultured on solidified new Dogashima (ND) medium for 10 days. These embryos were then precultured on ND medium supplemented with 0.3 m sucrose for 3 days at 25°C in continuous dark. The embryos were then overlaid with a mixture of 2 m glycerol and 0.4 m sucrose for 15 min at 25°C and finally dehydrated with highly concentrated vitrification solution (PVS2) for 3 h at 0°C prior to immersion into liquid nitrogen for 30 min. After rapid warming, the embryos were washed with liquid ND medium supplemented with 1.2 m sucrose for 20 min and then plated on ND medium. Successfully vitrified and warmed embryos developed into normal plantlets. The rate of plant regeneration amounted to about 60%. This vitrification method appears to be a promising technique for cryopreservation of orchids. Received: 19 September 1996 / Revision received: 3 January 1997 / Accepted: 24 February 1997     

Cryopreservation of rat hippocampal slices by vitrification

Although much interest has attended the cryopreservation of immature neurons for subsequent therapeutic intracerebral transplantation, there are no reports on the cryopreservation of organized adult cerebral tissue slices of potential interest for pharmaceutical drug development. We report here the first experiments on cryopreservation of mature rat transverse hippocampal slices. Freezing at 1.2 degrees C/min to -20 degrees C or below using 10 or 30% v/v glycerol or 20% v/v dimethyl sulfoxide yielded extremely poor results. Hippocampal slices were also rapidly inactivated by simple exposure to a temperature of 0 degree C in artificial cerebrospinal fluid (aCSF). This effect was mitigated somewhat by 0.8 mM vitamin C, the use of a more "intracellular" version of aCSF having reduced sodium and calcium levels and higher potassium levels, and the presence of a 25% w/v mixture of dimethyl sulfoxide, formamide, and ethylene glycol ("V(EG) solutes"; Cryobiology 48, pp. 22-35, 2004). It was not mitigated by glycerol, aspirin, indomethacin, or mannitol addition to aCSF. When RPS-2 (Cryobiology 21, pp. 260-273, 1984) was used as a carrier solution for up to 50% w/v V(EG) solutes, 0 degree C was more protective than 10 degrees C. Raising V(EG) concentration to 53% w/v allowed slice vitrification without injury from vitrification and rewarming per se, but was much more damaging than exposure to 50% w/v V(EG). This problem was overcome by using the analogous 61% w/v VM3 vitrification solution (Cryobiology 48, pp. 157-178, 2004) containing polyvinylpyrrolidone and two extracellular "ice blockers." With VM3, it was possible to attain a tissue K(+)/Na(+) ratio after vitrification ranging from 91 to 108% of that obtained with untreated control slices. Microscopic examination showed severe damage in frozen-thawed slices, but generally good to excellent ultrastructural and histological preservation after vitrification. Our results provide the first demonstration that both the viability and the structure of mature organized, complex neural networks can be well preserved by vitrification. These results may assist neuropsychiatric drug evaluation and development and the transplantation of integrated brain regions to correct brain disease or injury.     

Cryopreservation of Doritaenopsis suspension culture by vitrification

 Cells of a suspension culture of Doritaenopsis cv. New Toyohashi were placed in a mixture of 2 M glycerol and 0.4 M sucrose for 15 min at room temperature and then dehydrated with a vitrification solution (PVS2) for 1–3 h on ice and plunged into liquid nitrogen. The highest viability (64% by 2,3,5-triphenyltetrazolium chloride stainability) was obtained when the cells were precultured in liquid New Dogashima medium with 0.1 M sucrose and 1.0 mg/l abscisic acid for 1 week at 25  °C in the light. Dehydration by PVS2 was important for the cryopreservation of Doritaenopsis cells. Protocorm-like bodies were induced from cryopreserved cells without morphological variations. Received: 18 January 2000 / Revision received: 16 June 2000 / Accepted: 22 June 2000     

Cryopreservation of Teucrium polium L. shoot-tips by vitrification and encapsulation-dehydration

Teucrium polium L. with the common name of Felty Germander is one of the plants flora that is widely used in folk medicine in many Middle East countries, it is an endangered plant species and must be highly considered for preservation. Cryopreservation of T. polium by vitrification and encapsulation-dehydration was successfully achieved in this study. Shoot-tips were excised aseptically from in vitro grown plants and incubated for 3?days on solid hormone free-Murashige and Skoog (HF-MS) media supplemented with 0.3?M sucrose under complete darkness at 24?±?1?°C. In vitrification, shoot-tips were loaded in 0.4?M sucrose and 2?M glycerol for 20?min followed by desiccation with different combinations and concentrations of plant vittrification solution 2 (PVS2), before immersion in Liquid Nitrogen (LN). Whereas for the encapsulation-dehydration; shoot-tips were encapsulated in calcium alginate and dehydrated under laminar air flow cabinet for 0, 3, 6, or 9?h. A total of 60?% of the cryopreserved vitrified shoot-tips survived when desiccated in concentrated PVS2 solution for 20?min, whereas, 28?% of the cryopreserved vitrified shoot-tips were regrown after 20?min of desiccation by two step increase in PVS2 concentration. Complete survival were obtained for the non-cryopreserved encapsulated shoot-tips treated for 3?days in 0.5?M sucrose with MS media without or with 3?h of dehydration, whereas, only 20?% of the cryopreserved encapsulated shoot-tips were regrown. The procedures developed in this study are easy to handle and produced a high levels of shoot formation.