The type and extent of injuries in vitrified mouse oocytes

To improve the vitrification of mouse oocytes using straws, we attempted to estimate the type and extent of injuries during vitrification with a vitrification solution EAFS10/10. Injuries in oocytes were assessed based on cellular viability, the integrity of the plasma membrane, the status of the meiotic spindle/chromosomes, and morphological appearance. For morphologically normal oocytes, the ability to be fertilized and to develop into blastocysts was examined. Morphological assessment revealed 15% of oocytes to be injured by intracellular ice formed during vitrification, and 10% by osmotic swelling during removal of the cryoprotectant. When assessed by the status of spindles/chromosomes, the most sensitive criterion, damage was found in 16% of oocytes without any treatment. This value was similar to the proportion of fresh oocytes that did not cleave after insemination (13%). On exposure to EAFS10/10, the spindles/chromosomes were affected in 33% of oocytes. The exposure reduced the rate of cleavage by 18% points and the rate of development into blastocysts by 19 points. Vitrification reduced these rates by 15% and 36% points, respectively. Although the mechanism responsible for this moderate toxic effect on developmental ability is not known, information obtained in the present study will be useful to develop a practical method for the vitrification of mouse oocytes using straws.     

Review of vitreous islet cryopreservation

Transplantation of pancreatic islets for the treatment of diabetes mellitus is widely anticipated to eventually provide a cure once a means for preventing rejection is found without reliance upon global immunosuppression. Long-term storage of islets is crucial for the organization of transplantation, islet banking, tissue matching, organ sharing, immuno-manipulation and multiple donor transplantation. Existing methods of cryopreservation involving freezing are known to be suboptimal providing only about 50% survival. The development of techniques for ice-free cryopreservation of mammalian tissues using both natural and synthetic ice blocking molecules, and the process of vitrification (formation of a glass as opposed to crystalline ice) has been a focus of research during recent years. These approaches have established in other tissues that vitrification can markedly improve survival by circumventing ice-induced injury. Here we review some of the underlying issues that impact the vitrification approach to islet cryopreservation and describe some initial studies to apply these new technologies to the long-term storage of pancreatic islets. These studies were designed to optimize both the pre-vitrification hypothermic exposure conditions using newly developed media and to compare new techniques for ice-free cryopreservation with conventional freezing protocols. Some practical constraints and feasible resolutions are discussed. Eventually the optimized techniques will be applied to clinical allografts and xenografts or genetically-modified islets designed to overcome immune responses in the diabetic host.     

Comparison of two manipulation methods to produce in vitro fertilized, biopsied and vitrified bovine embryos

The objective of this study was to compare the overall efficiency, measured by in vitro embryonic survival, and practical value of bovine in vitro embryo production, biopsy, vitrification, and direct transfer technology using 2 different manipulation methods for biopsy. Slaughterhouse-derived oocytes were matured in vitro, fertilized (Day 0) with frozen-thawed, Percoll-separated spermatozoa and cultured on a granulosa cell monolayer. In Experiment 1, one or two blastomeres were expelled from Day 4 embryos by mechanical force through a hole made by partial zona dissection. Using a darning needle hole system for individual culture of biopsied embryos from Day 4 to Day 7.5, the blastocyst per oocyte rate was 50%, and 76% of the blastocysts survived subsequent vitrification and direct in-straw rehydration. Attempts to increase the cell number of the biopsies by further in vitro culture were unsuccessful. In Experiment 2, Day 7 and Day 8 embryos were manually biopsied before or after vitrification. When biopsy was performed before vitrification, 98% of the embryos survived manipulation, and 86% of these re-expanded after vitrification and in-straw dilution. Biopsy after vitrification was less efficient, since only 69% of the embryos survived both processes. The cumulative efficiency of embryo production, Day 7.5 biopsy and vitrification--in-straw direct rehydration was lower (P < 0.001) than that of Day 4 biopsy and Day 7.5 vitrification (29 vs 38%, respectively). However, a Day 7.5 biopsy may have the more practical application since the size of the biopsy is larger and the process is not as time-consuming as the long-term individual culture of the biopsied embryos.     

Review of vitreous islet cryopreservation: Some practical issues and their resolution

Transplantation of pancreatic islets for the treatment of diabetes mellitus is widely anticipated to eventually provide a cure once a means for preventing rejection is found without reliance upon global immunosuppression. Long-term storage of islets is crucial for the organization of transplantation, islet banking, tissue matching, organ sharing, immuno-manipulation and multiple donor transplantation. Existing methods of cryopreservation involving freezing are known to be suboptimal providing only about 50% survival. The development of techniques for ice-free cryopreservation of mammalian tissues using both natural and synthetic ice blocking molecules, and the process of vitrification (formation of a glass as opposed to crystalline ice) has been a focus of research during recent years. These approaches have established in other tissues that vitrification can markedly improve survival by circumventing ice-induced injury. Here we review some of the underlying issues that impact the vitrification approach to islet cryopreservation and describe some initial studies to apply these new technologies to the long-term storage of pancreatic islets. These studies were designed to optimize both the pre-vitrification hypothermic exposure conditions using newly developed media and to compare new techniques for ice-free cryopreservation with conventional freezing protocols. Some practical constraints and feasible resolutions are discussed. Eventually the optimized techniques will be applied to clinical allografts and xenografts or genetically-modified islets designed to overcome immune responses in the diabetic host.     

Highly efficient vitrification for cryopreservation of human oocytes and embryos: the Cryotop method

Vitrification is frequently referred to as a novel technology of cryopreservation in embryology, although some young embryologists were born after its first successful application. Unfortunately, in spite of the accumulated evidence regarding its enormous potential value, most domestic animal and human laboratories use exclusively the traditional slow-rate freezing with its compromised efficiency and inconsistency. The purpose of this paper is to clarify terms and conditions, to summarize arguments supporting or disapproving the use of vitrification, and to outline its role among assisted reproductive technologies. To provide evidence for the potential significance of vitrification, achievements with the Cryotop technology, an advanced version of the "minimal volume approaches" is analyzed. This technology alone has resulted in more healthy babies after cryopreservation of blastocysts than any other vitrification technique, and more successful human oocyte vitrification resulting in normal births than any other cryopreservation method. The value of this method is also demonstrated by achievements in the field of domestic animal embryology. A modification of the technique using a hermetically sealed container for storage may help to eliminate potential dangers of disease transmission and open the way for widespread application for cryopreservation at all phases of oocyte and preimplantation embryo development in mammals.     

Spotiton: a prototype for an integrated inkjet dispense and vitrification system for cryo-TEM

Over the last three decades, Cryo-TEM has developed into a powerful technique for high-resolution imaging of biological macromolecules in their native vitrified state. However, the method for vitrifying specimens onto EM grids is essentially unchanged - application of ～3 μL sample to a grid, followed by blotting and rapid plunge freezing into liquid ethane. Several trials are often required to obtain suitable thin (few hundred nanometers or less) vitrified layers amenable for cryo-TEM imaging, which results in waste of precious sample and resources. While commercially available instruments provide some level of automation to control the vitrification process in an effort to increase quality and reproducibility, obtaining satisfactory vitrified specimens remains a bottleneck in the Cryo-TEM pipeline. We describe here a completely novel method for EM specimen preparation based on small volume (picoliter to nanoliter) dispensing using inkjet technology. A first prototype system (Spotiton v0.5) demonstrates feasibility of this new approach for specimen vitrification. A piezo-electric inkjet dispenser is integrated with optical real-time cameras (100 Hz frame rate) to analyze picoliter to nanoliter droplet profiles in-flight and spreading dynamics on the grid, and thus provides a method to optimize timing of the process. Using TEM imaging and biochemical assays we demonstrate that the piezo-electric inkjet mechanism does not disrupt the structural or functional integrity of macromolecules. These preliminary studies provide insight into the factors and components that will need further development to enable a robust and repeatable technique for specimen vitrification using this novel approach.     

Effect of vitrification on human oocyte maturation rate during in vitro maturation procedure: A systematic review and meta-analysis

Combination of in vitro maturation (IVM) and cryopreservation offers new opportunities for women with contraindication in ovarian stimulation, and females who desire to postpone the childbearing due to different problems. There are still controversies regarding IVM procedure and its impact on oocytes fertilization capability. This systematic review and meta-analysis were conducted to evaluate the impact of vitrification on human oocyte maturation rate during IVM procedure. In this review, we searched Medline, Embase, Scopus and ISI web of science to identify English-language studies. The last search was implemented on 3 February 2018. The original articles which assessed maturation rate after vitrification of MI or GV oocytes were included. Animal trials and the studies that performed cryopreservation using slow-freeze method were excluded. Bias and quality assessments were performed. 2476 articles were screened primarily. After duplication removing and the application of inclusion and exclusion criteria, 14 studies included for the analysis. All studies compared maturation rate between the oocytes that were vitrified at the GV or MI stage before maturation and oocytes which were matured in vitro without vitrification. Meta-analysis showed that oocyte vitrification at GV stage had a significant negative impact on maturation rate (RR = 0.76, 95% CI: 0.66–0.88); I² = 85.2%; P = 0.000). Finally, based on our results, oocyte vitrification decreases the maturation rate by 24%.     

Optimal equilibration conditions for practical vitrification of two-cell mouse embryos

The objective of the study reported here was to elucidate the optimal equilibration conditions for carrying out vitrification of two-cell mouse embryos, using a solution containing 2M dimethyl sulfoxide, 1M acetamide, and 3M propylene glycol (DAP213) as a cryoprotectant. Embryos were subjected to an equilibration process under 20 conditions of a combination of different temperatures (10 to 37 degrees C) and times (5 to 90 sec), and viability of the embryos was assessed by the rate of development into blastocysts and into live fetuses. As a result, these rates of development into blastocysts did not differ from those for unfrozen embryos. The rate of development of frozen-thawed embryos into live fetuses under conditions of 30 sec. at 20 degrees C, which was selected as having by highest operability, was 55.2%, comparable to the value (65.0%) for unfrozen embryos. Thus, the optimal equilibration condition for vitrification of two-cell mouse embryos, using DAP213 solution, was 30 sec at 20 degrees C, under which embryo viability was maximized, and this equilibration process was considered useful as a practical two-cell embryo freezing process in the vitrification method.     

Thermal analysis of marginal conditions to facilitate cryopreservation by vitrification using a semi-empirical approach

This study aims at the thermal analysis of marginal conditions leading to cryopreservation by vitrification, which appears to be the only alternative for indefinite preservation of large-size tissues and organs. The term “marginal conditions” here refers to cooling rates in close range with the so-called critical cooling rate, above which crystallization is avoided. The analysis of thermal effects associated with partial crystallization during vitrification is associated with the coupled phenomena of heat transfer and kinetics of crystallization. This study takes a practical, semi-empirical approach, where heat transfer is analyzed based on its underlying theoretical principles, while the thermal effects associated with partial crystallization are taken into account by means of empirical correlations. This study presents a computation framework to solve the coupled problem, while presenting a proof-of-concept for DP6 as a representative cryoprotective agent. The thermal effects associated with crystallization at various relevant cooling rates are measured in this study by means of differential scanning calorimetry. Results of this study demonstrate that, due to the thermal effects associated with partial crystallization, the cooling rate at the center of a large organ may lag behind the cooling rate in its surroundings under some scenarios, but may also exceed the surroundings cooling rate in other scenarios, leading to counter-intuitive effects associated with partial crystallization.     

包埋玻璃化法超低温保存植物种质的研究进展

包埋玻璃化法是在玻璃化法和包埋脱水法基础上发展起来的超低温保存植物种质的新技术。它具有能同时处理大量材料,处理后恢复生长快,对材料的毒害作用较小及成芽率高等优点,已成功地用于辣根、山嵛菜等20余种植物,在植物种质资源的保存上显示出了巨大的应用潜力。本文介绍了包埋玻璃化法产生的背景及其优点, 阐述了包埋玻璃化法的基本方法和预培养、包埋、脱水、化冻及恢复培养等过程,比较了该法冻存后的效果和冻存后所形成植株的遗传稳定性,同时指出了进一步研究的重点。     

Factors affecting the outcome of human blastocyst vitrification

With single blastocyst transfer practice becoming more common in ART, there is a greater demand for a convenient and reliable cryostorage of surplus blastocysts. Vitrification has emerged in the last decade as an alternative promising substitute for slow freezing. Blastocysts represent a unique challenge in cryostorage due to their size, multicellular structure and presence of blastocoele. The continuous acquisition of experience and introduction of many different technological developments has led to the improvement of vitrification as a technology and improved the results of its application in blastocyst cryostorage. The current information concerning safety and efficacy of the vitrification of blastocysts will be reviewed along with the variables that can impact the outcome of the procedure.     

Improved vitrification solutions based on the predictability of vitrification solution toxicity

Long-term preservation of complex engineered tissues and organs at cryogenic temperatures in the absence of ice has been prevented to date by the difficulty of discovering combinations of cryoprotectants that are both sufficiently non-toxic and sufficiently stable to allow viability to be maintained and ice formation to be avoided during slow cooling to the glass transition temperature and subsequent slow rewarming. A new theory of the origin of non-specific cryoprotectant toxicity was shown to account, in a rabbit renal cortical slice model, for the toxicities of 20 vitrification solutions and to permit the design of new solutions that are dramatically less toxic than previously known solutions for diverse biological systems. Unfertilized mouse ova vitrified with one of the new solutions were successfully fertilized and regained 80% of the absolute control (untreated) rate of development to blastocysts, whereas ova vitrified in VSDP, the best previous solution, developed to blastocysts at a rate only 30% of that of controls. Whole rabbit kidneys perfused at -3 degrees C with another new solution at a concentration of cryoprotectant (8.4M) that was previously 100% lethal at this temperature exhibited no damage after transplantation and immediate contralateral nephrectomy. It appears that cryoprotectant solutions that are composed to be at the minimum concentrations needed for vitrification at moderate cooling rates are toxic in direct proportion to the average strength of water hydrogen bonding by the polar groups on the permeating cryoprotectants in the solution. Vitrification solutions that are based on minimal perturbation of intracellular water appear to be superior and provide new hope that the successful vitrification of natural organs as well as tissue engineered or clonally produced organ and tissue replacements can be achieved.     

Effects of reproductive aging and postovulatory aging on the maintenance of biological competence after oocyte vitrification: insights from the mouse model

Cryopreservation of female reproductive cells allows preservation of fertility and provides materials for research. Although freezing protocols have been optimized, and there is a high survival rate after thawing, the in vitro fertilization (IVF) pregnancy rate is still lower in cycles with cryopreserved oocytes, thus highlighting the importance of identifying intrinsic limiting factors characterizing the cells at time of freezing. The aim of the present study is to investigate in the mouse model the impact of reproductive aging and postovulatory aging on oocyte biological competence after vitrification. Metaphase II oocytes were vitrified soon after retrieval from young and reproductively old mice. Part of the oocytes from young animals was vitrified after 6 h incubation (in vitro aged oocytes). All classes of oocytes showed similar survival rate after vitrification. Moreover, vitrification did not alter chromosomal organization in young cells, whereas in vitro aged and old oocytes presented an increase of slightly aberrant metaphase configurations. Compared to fresh young oocytes, in vitro aged and old oocytes showed increased ROS levels which remained unchanged after vitrification. By contrast, cryopreservation significantly increased ROS production in young oocytes. Both the aging processes negatively impacted oocyte ability to undergo pronucleus formation and first cleavage after vitrification by stimulating cellular fragmentation. These results could be helpful for establishing the correct time table for cryopreservation in the laboratory routine and improving its application in reproductively old females. Moreover, our observations highlight the importance of oxidative stress protection during vitrification procedures.     

Factors affecting the survival of mouse embryos cryopreserved by vitrification

Preimplantation stage mouse embryos have been used to examine the response of a simple multicellular system to cryopreservation by the complete vitrification of the suspension. Successful vitrification requires the use of a solution of cryoprotectants that is sufficiently concentrated to supercool and solidify into a glass at practicable cooling rates. Factors that influence the survival of embryos include the concentration and composition of the vitrification solution, the procedure used to equilibrate embryos in this solution, the cooling and warming conditions, and the procedure used to dilute embryos from the vitrification solution. High rates of survival are obtained when embryos are dehydrated prior to vitrification in solutions composed of saline plus multimolar concentrations of either mixtures of permeating cryoprotectants (e.g. dimethyl sulphoxide-acetamide-propylene glycol) or single permeating cryoprotectants (propylene glycol or glycerol). Full permeation of cryoprotectants into the cells is not necessary and may lead to chemical toxicity and osmotic injury. Partial permeation and osmotic shrinkage concentrates the endogenous cytoplasmic macromolecules and greatly increases the likelihood of intracellular vitrification. Vitrification is a practical approach for embryo cryopreservation and offers new opportunities to examine fundamental aspects of cryoprotection and cryoinjury in the absence of freezing.     

牛血清白蛋白对小鼠原核期胚胎玻璃化冷冻的影响

以小鼠原核期胚胎为对象,以胚胎的存活率、卵裂率、囊胚率以及囊胚细胞数作为检测指标,在M2液的基础上添加8种浓度(0,2,4,8,16,32,64,96mg/mL)牛血清白蛋白(BSA)配置防冻液,探讨防冻液和玻璃化冷冻后对胚胎发育的影响。BSA防冻液对胚胎发育影响的实验结果表明,8个浓度组间以及与对照组间胚胎的卵裂率、囊胚率以及囊胚细胞数无显著差异(P>0.05),说明在防冻液中加入一定浓度的BSA对小鼠胚胎无毒性作用。防冻液经玻璃化冷冻后对胚胎发育影响的实验表明,8个浓度组间冷冻胚胎复苏后的存活率、卵裂率、囊胚率及囊胚细胞数无显著差异(P>0.05)。表明BSA在这种防冻液中没有明显的保护作用。从经济、实用、生物安全角度考虑,不支持在玻璃化防冻液中添加BSA。     

Prospects for the management of arthropod resistance to pesticides

Extensive use has been made of mathematical modelling to examine many of the factors which are involved in the development of pesticide resistance in arthropods. These models have demonstrated that the emergence of resistance can be delayed if more attention is given to planned use of pesticides at the time of their introduction. However the practical application of such delaying strategies at the national or even regional level may be difficult. It is unfortunate that the suggestions made have not been subjected to more extensive testing in the field situation.It is suggested that the contribution of molecular biology to the management of pests and pesticide resistance in arthropod livestock pests will be significant and will be seen in a variety of ways. Very definitely, a greater understanding of the basic molecular processes involved in the development of resistance will be seen. Such work, always in conjunction with the other biological disciplines, will provide new techniques for the control, prediction, detection and prevention of pesticide resistance. A few entirely conjectural examples of the practical application of molecular biology to pesticide resistance and its management have been presented.     

Obesity does not aggravate vitrification injury in mouse embryos: a prospective study

ABSTRACT: BACKGROUND: Obesity is associated with poor reproductive outcomes, but few reports have examined thawed embryo transfer in obese women. Many studies have shown that increased lipid accumulation aggravates vitrification injury in porcine and bovine embryos, but oocytes of these species have high lipid contents (63 ng and 161 ng, respectively). Almost nothing is known about lipids in human oocytes except that these cells are anecdotally known to be relatively lipid poor. In this regard, human oocytes are considered to be similar to those of the mouse, which contain approximately 4 ng total lipids/oocyte. To date, no available data show the impact of obesity on vitrification in mouse embryos. The aim of this study was to establish a murine model of maternal diet-induced obesity and to characterize the effect of obesity on vitrification by investigating the survival rate and embryo developmental competence after thawing. METHODS: Prospective comparisons were performed between six--eight-cell embryos from obese and normal-weight mice and between fresh and vitrified embryos. Female C57BL/6 mice were fed standard rodent chow (normal-weight group) or a high-fat diet (obese group) for 6 weeks. The mice were mated, zygotes were collected from oviducts and cultured for 3 days, and six--eight-cell embryos were then selected to assess lipid content in fresh embryos and to evaluate differences in apoptosis, survival, and development rates in response to vitrification. RESULTS: In fresh embryos from obese mice, the lipid content (0.044 vs 0.030, P<0.01) and apoptosis rate (15.1% vs.9.3%, P<0.05)were significantly higher, the survival rate (83.1% vs. 93.1%, P<0.01) on day 5 was significantly lower, and embryo development was notably delayed on days 3--5 compared with the normal-weight group. After vitrification, no significant difference was found between thawed embryos from obese and normal-weight mice in apoptosis, survival, and development rates on days 4 and 5. In both groups, pre- and post-vitrification embryo apoptosis, survival, and development rates were similar. CONCLUSIONS: This study demonstrated that differences in survival and developmental rates between embryos from obese and normal-weight mice were eliminated after vitrification. Thus, maternal obesity does not aggravate vitrification injury, but obesity alone greatly impairs pre-implantation embryo survival and development.     

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.     

Surface-based cryopreservation strategies for human embryonic stem cells: A comparative study

Human embryonic stem cells (hESC) hold tremendous potential in the emerging fields of gene and cell therapy as well as in basic scientific research. One of the major challenges regarding their application is the development of efficient cryopreservation protocols for hESC since current methods present poor recovery rates and/or technical difficulties which impair the development of effective processes that can handle bulk quantities of pluripotent cells. The main focus of this work was to compare different strategies for the cryopreservation of adherent hESC colonies. Slow‐rate freezing protocols using intact hESC colonies was evaluated and compared with a surface‐based vitrification approach. Entrapment within ultra‐high viscous alginate was investigated as the main strategy to avoid the commonly observed loss of viability and colony fragmentation during slow‐rate freezing. Our results indicate that entrapment beneath a layer of ultra‐high viscous alginate does not provide further protection to hESC cryopreserved through slow‐rate freezing, irrespectively of the cryomedium used. Vitrification of adherent hESC colonies on culture dishes yielded significantly higher recovery rates when compared to the slow‐rate freezing approaches investigated. The pluripotency of hESC was not changed after a vitrification/thawing cycle and during further propagation in culture. In conclusion, from the cryopreservation methods investigated in this study, surface‐based vitrification of hESC has proven to be the most efficient for the cryopreservation of intact hESC colonies, reducing the time required to amplify frozen stocks thus supporting the widespread use of these cells in research and clinical applications. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 28: 1079–1087, 2012