A simple and efficient procedure for cryopreservation of embryogenic cells of aromatic Indica rice varieties

Embryogenic suspension cells of two commercially cultivated aromatic Indica rice varieties, Basmati 385 and Pusa Basmati 1, were cryopreserved using a simple one-step freezing procedure that does not require a controlled-rate freezer. The procedure involves osmotic pre-conditioning of cells with mannitol, addition of a cryoprotectant solution consisting of sucrose, dimethyl sulfoxide, glycerol, proline, and modified R₂ medium, cooling to –25°C for 2 h in a freezer, and then storage in liquid nitrogen. After rapid thawing at 45°C, these cultures showed post-thaw cell viability of 5.6 to 10.5% and formed actively dividing, readyto-use cell suspensions in 20–35 d when cultured directly into liquid medium. Plants were regenerated from cell clumps as well as from colonies formed by protoplasts that were isolated from suspension cells re-established from cryopreserved cells, with frequencies higher (54–98%) than, or comparable to, those obtained from three to four-month-old original non-frozen cell cultures. Cell viability and regeneration frequencies of post-thawed Pusa Basmati 1 cultures were similar to those obtained from the suspension cells cryopreserved using the conventional slow-freezing procedure which involves pre-freezing cells to –40°C at the rate of –0.2°C per min prior to immersion in liquid nitrogen. In Basmati 385, however, cells frozen at ––25°C showed lower post-thaw cell viability than those preserved using the slow-freezing procedure, but these cells produced cell suspensions that had greater shoot morphogenetic potential. The study indicates the beneficial effect of this simple freezing procedure, not only for preserving desirable cultured cells but also for an enrichment of embryogenic cells.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - DMSO dimethylsulfoxide - LN liquid nitrogen - MS Murashige and Skoog (1962) medium - NAA -napthaleneacetic acid - pcv packed cell volume - TTC 2,3,5-triphenyltetrazolium chloride     

Quality evaluation of umbilical cord blood progenitor cells cryopreserved with a small-scale automated liquid nitrogen system

The performance of a small-scale automated cryopreservation and storage system (Mini-BioArchive system) used in the banking of umbilical cord blood (UCB) units was evaluated. After thawing the units, the viability and recovery of cells, as well as the recovery rate of hematopoietic progenitor cells (HPCs) such as CD34⁺ cells, colony-forming unit-granulocyte-macrophage (CFU-GM), and total CFU were analyzed. Twenty UCB units cryopreserved using the automated system and stored for a median of 34 days were analyzed. Mean CD34⁺ cell viabilities before freezing were 99.8 ± 0.5% and after thawing were 99.8 ± 0.4% in the large bag compartments and 99.7 ± 0.5% in the small compartments. The mean recovery values for total nucleated cells, CD34⁺ cells, CFU-GM, and total CFU were 94.8 ± 16.0%, 99.3 ± 18.6%, 103.9 ± 20.6%, and 94.3 ± 12.5%, respectively in the large compartments, and 95.8 ± 25.9%, 106.8 ± 23.9%, 101.3 ± 23.3%, and 93.8 ± 19.2%, respectively in the small compartments. A small-scale automated cryopreservation and storage system did not impair the clonogenic capacity of UCB HPCs. This cryopreservation system could provide cellular products adequate for UCB banking and HPC transplantation.     

Equine spermatozoa stored in the epididymis for up to 96 h at 4 °C can be successfully cryopreserved and maintain their fertilization capacity

After injury or death of a valuable male, recovery of epididymal spermatozoa may be the last chance to ensure preservation of its genetic material. The objective of this research was to study the effect of sperm storage, at 4 °C up to 96 h, in the epididymides obtained from castrated horses and its effect on different functional sperm parameters. Aims were to study the effect of (1) sperm storage on viability and chromatin condensation; (2) pre-incubation of recovered epididymal sperm in the freezing extender, prior cryopreservation, on viability and chromatin condensation; and (3) freezing–thawing on viability, chromatin condensation, ROS generation, protein tyrosine phosphorylation and heterologous fertilization rate (ICSI and IVF using bovine oocytes) of sperm recovered from the epididymis up to 96 h post castration. The average volume (720 ± 159 μL) and the concentration (6.5 ± 0.4 × 10⁹ spermatozoa/mL) of sperm recovered from the epididymis were not affected by storage. Sperm viability after refrigeration at 4 °C for up to72 h was similar (P < 0.01). The effect of sperm dilution in the freezing media showed similar values up to 48 h, while viability was preserved up to 72 h (P < 0.01). Cryopreserved spermatozoa show similar viability between different storage times. Chromatin condensation was not affected by storage time; however, incubation for 30 min in freezing medium and freezing–thawing process induced an increase in the chromatin decondensation. ROS generation was not affected by storage up to 96 h. Epididymal storage did not affect sperm protein tyrosine phosphorylation patterns; although the pattern of phosphorylation changed to strong staining of the equatorial segment when the sperm where capacitated in sperm–TALP. Finally, successful and similar pronuclear formation (analyzed by ICSI) and in vitro penetration (evaluated with bovine zone free oocyte) was observed using cryopreserved sperm obtained from prolong epididymal storage at 4 °C. In conclusion, cryopreservation of epididymal stallion sperm stored for up to 72 h in the epididymis at 4 °C, maintain both viability and ability to fertilize in vitro.     

Cryopreservation of periodontal ligament cells with magnetic field for tooth banking

The purpose of this study was to establish a long-term tooth cryopreservation method that can be used for tooth autotransplantation. Human periodontal ligament (PDL) cells were frozen in 10% dimethyl sulfoxide (Me₂SO) using a programmed freezer with a magnetic field. Cells were cryopreserved for 7 days at −150 °C. Immediately after thawing, the number of surviving cells was counted and the cells were cultured; cultured cells were examined after 48 h. Results indicated that a 0.01 mT of a magnetic field, a 15-min hold-time, and a plunging temperature of −30 °C led to the greatest survival rate of PDL cells. Based on these findings, whole teeth were cryopreserved under the same conditions for 1 year. The organ culture revealed that the PDL cells of cryopreserved tooth with a magnetic field could proliferate as much as a fresh tooth, although the cells did not appear in the cryopreserved tooth without a magnetic field. Histological examination and the transmission electron microscopic image of cryopreserved tooth with a magnetic field did not show any destruction of cryopreserved cells. In contrast, severe cell damage was seen in cells frozen without a magnetic field. These results indicated that a magnetic field programmed freezer is available for tooth cryopreservation.     

An improved purification approach with high cell viability and low cell loss for cryopreserved hepatocytes

A modified purification procedure is described for effectively eliminating dead cells after hepatocyte cryopreservation. Isolated hepatocytes from six pig tissue samples were cryopreserved in liquid nitrogen for 2 weeks. After thawing, we developed a pre-incubation step prior to gradient centrifugation. The hepatocytes were subsequent cultured in suspension overnight (12-16 h), and then dead cells were eliminated by Ficoll 400 purification. The results showed that a high viability (mean of 96%) of cells was obtained, with a low viable cell loss in number (2-5%), by using this modified method.     

Study of cryopreservation of articular chondrocytes using the Taguchi method

This study evaluates the effect of control factors on cryopreservation of articular cartilage chondrocytes using the Taguchi method. Freeze-thaw experiments based on the L₈(2⁷) two-level orthogonal array of the Taguchi method are conducted, and ANOVA (analysis of variables) is adopted to determine the statistically significant control factors that affect the viability of the cell. Results show that the type of cryoprotectant, freezing rate, thawing rate, and concentration of cryoprotectant (listed in the order of influence) are the statistically significant control factors that affect the post-thaw viability. The end temperature and durations of the first and second stages of freezing do not affect the post-thaw viability. Within the ranges of the control factors studied in this work, the optimal test condition is found to be a freezing rate of 0.61 ± 0.03 °C/min, a thawing rate of 126.84 ± 5.57 °C/min, Me₂SO cryoprotectant, and a cryoprotectant concentration of 10% (v/v) for maximum cell viability. In addition, this study also explores the effect of cryopreservation on the expression of type II collagen using immunocytochemical staining and digital image processing. The results show that the ability of cryopreserved chondrocytes to express type II collagen is reduced within the first five days of monolayer culture.     

Comparison of assessment of fowl sperm viability by eosin-nigrosin and dual fluorescence (SYBR-14/PI)

The kinetics of fowl sperm viability/mortality following short-term and long-term in vitro storage were studied using 2 different staining methods: eosin/nigrosin (observed under light microscopy) and SYBR-14/PI (dual fluorescence). Based on data obtained at 0, 30 min and at 2, 4 and 24 h (T0, T30, T2, T4, and T24) after in vitro storage (4 degrees C, agitated) of fresh or frozen-thawed semen, the dual association SYBR-14/PI was more effective than eosin/nigrosin (P < 0.05) staining for the detection of sperm viability/mortality at early stages (30 min) in nonfrozen ejaculates stored above 0 degree C. In cryopreserved preparations, the 2 techniques were comparable for assessing viable spermatozoa immediately after thawing, but higher percentages (P < 0.05) of nonviable spermatozoa were detected by the SYBR-14/PI procedure for up to 4 h of in vitro storage post thawing (4 degrees C, agitated). Finally, comparable results were observed between the 2 techniques 24 h after beginning in vitro storage post thawing. It is concluded that the dual association SYBR-14/PI procedure is more effective (or, at least, more rapid) than eosin/nigrosin staining for the assessment of sperm viability/mortality in both fresh and cryopreserved samples of fowl semen. However, in the latter case, the thawing stage needs to be followed by a period of in vitro storage lasting at least 4 h to allow for easier discrimination between viable and nonviable populations of spermatozoa.     

Cryopreservation of organotypic brain spheroid cultures

The cryopreservation of hen and rat brain spheroids was investigated. Brain spheroid cultures were prepared from 7-day-old hen embryos or 16-day-old rat embryos, by using a rotation-mediated culture system. The spheroids were cryopreserved in medium containing 5-15% dimethyl sulphoxide (DMSO) and stored in liquid nitrogen, by using a two-stage cooling procedure. The results show that the viability, as indicated by the total protein content of hen embryo brain spheroids at 24 hours, and at 3, 7 and 28 days after thawing, ranged from 45.5% to 64.2% of control values. It took 3 days for the post-thaw brain spheroids to stabilise, as indicated by their morphology and selected neural markers of functionality. These functions were maintained over a 28-day observation period. Spheroids cultured for 12-15 days in vitro before cryopreservation survived better than those that were cryopreserved after 5-7 days in vitro. The viability and biochemical functionality of spheroids after long-term (up to 6 months) storage were similar to those following short-term storage. The viability of rat brain spheroids cryopreserved in 15% DMSO, as indicated by total protein content, at 24 hours, and at 3 or 7 days after thawing, ranged from 23.1% to 32.1% of control values. This study shows for the first time that brain spheroids prepared from primary tissue can be successfully cryopreserved.     

Effect of storage duration, storage temperature, and diluent on the viability and fertility of fresh ram sperm

Cervical artificial insemination (AI) in sheep with fresh semen yields a much higher pregnancy rate than when frozen-thawed semen is used, and consequently frozen semen is only acceptable for laparoscopic insemination. The short life span of fresh semen is a major constraint on the use of AI in genetic improvement programs for sheep. The main objective of this study was to examine the effects of storage conditions on viability and fertilization ability of fresh ram (Ovis aries) semen up to 72 h postcollection. Experiment 1 was designed to evaluate the effect of diluent type (standard skim milk, AndroMed, OviPro, and INRA 96) and storage temperature (5 °C and 15 °C) on the motility and viability of fresh ram semen. Storage temperature, irrespective of diluent, had a significant effect on both motility and viability. Storage at 5 °C maintained acceptable motility and viability up to 72 h compared with that of storage at 15 °C. In Experiment 2, the penetrating ability of fresh ram semen, diluted in either skim milk, AndroMed, or INRA 96, was assessed using artificial mucus. Flat capillary tubes containing artificial mucus were suspended in 250 μL semen at a sperm concentration of 20 × 10⁶/mL. Semen was stored at 5 °C and tested after 6, 24, 48, and 72 h. There was a significant diluent by time interaction. In Experiment 3, the fertilizing ability of fresh ram semen stored at 5 °C was evaluated in vitro. Fresh semen (diluted in either skim milk, AndroMed, or INRA 96) was added to matured ewe oocytes at 6, 24, or 72 h after semen collection. Cleavage rate was recorded at 48 h postinsemination, and blastocyst development was recorded on Days 6 to 9. There was a significant treatment effect on cleavage and blastocyst rates; insemination of semen stored for 24 h resulted in higher rates than those for storage at 72 h. In Experiment 4, the fertilizing ability of fresh ram semen was evaluated in vivo. Semen was diluted in INRA 96, stored at 5 °C, and used to inseminate ewes on the day of collection or at 24, 48, and 72 h postcollection. Multiparous ewes were cervically inseminated at a synchronized estrus. Fertility rate decreased linearly (P < 0.001) up to 72 h after semen collection.     

Effect of desiccation level and storage temperature on green spore viability of Osmunda japonica

In order to effectively preserve green spores, which have relatively higher water content and lose viability more quickly than non-green spores, we studied the effect of desiccation level and storage temperature on Osmunda japonica spores. The water content of fresh spores was 11.20%. After 12 h desiccation by silica gel, the water content decreased to 6% but spore viability did not change significantly. As the desiccation continued, the decrease in water content slowed, but spore viability dropped. For almost all storage periods, the effects of storage temperature, desiccation level, and temperature × desiccation level were significantly different. After seven days of storage, spores at any desiccation level stored at 4 °C obtained high germination rates. After more than seven days storage, liquid nitrogen (LN) storage obtained the best results. Storage at −18 °C led to the lowest germination rates. Spores stored at room temperature and −18 °C all died within three months. For storage at 4 °C and in LN, spores desiccated 12 and 36 h obtained better results. Spores without desiccation had the highest germination rates after being stored at room temperature, but suffered the greatest loss after storage at −18 °C. These results suggest that LN storage is the best method of long-term storage of O. japonica spores. The critical water content of O. japonica spores is about 6% and reduction of the water content to this level improves outcome after LN storage greatly. The reason for various responses of O. japonica spores to desiccation and storage temperatures are discussed.     

Outcome of adrenal tissue fragments allotransplantation: The impact of cryopreservation

Cryopreservation is thought to have the potential to preserve tissue for transplantation. In addition, it can also be used for decreasing tissue immunogenicity, which might be important for prolonging allograft survival. In the present study we examined the impact of cryopreservation at various cooling rates on the outcome of allotransplantation of murine adrenal tissue fragments (ATFr). ATFr were cryopreserved with a cooling rate at 1; 10; 40 and more than 100 °C/min. After thawing it was found that the number of the cells expressing markers of dendritic cells (CD11c) and macrophages (CD11b) in the suspension obtained from ATFr decreased with increasing cooling rate. After allotransplantation the survival rates of adrenalectomized mice and the blood serum levels of corticosterone were higher in recipients of cryopreserved ATFr. By immunohistochemistry, cryopreserved allografts displayed a decreased infiltration by CD4⁺ and CD8⁺ T-lymphocytes as compared to fresh grafts. These findings suggest that cryopreserved allografts cause a less severe rejection by decreasing graft immunogenicity.     

Season of ejaculate collection influences the freezability of boar spermatozoa

The aim of this retrospective study was to evaluate whether the season of ejaculate collection influences the freezability of porcine sperm. A total of 434 ejaculates were collected from boars of six different breeds over three years (2008–2011) and throughout the four seasons of the year identified in the northern hemisphere (winter, spring, summer and autumn). The ejaculates were cryopreserved using a standard 0.5 mL straw freezing protocol. Sperm quality was assessed before (fresh semen samples kept 24 h at 17 °C) and after freezing and thawing (at 30 and 150 min post-thawing in semen samples kept in a water bath at 37 °C), according to the percentages of total motility, as assessed by the CASA system, and viability, as assessed by flow cytometry after staining with SYBR-14, PI and PE-PNA. The data, in percentages, on sperm motility and viability after freezing and thawing were obtained at each evaluation time (recovered) and were normalized to the values before freezing (normalized). The season of ejaculate collection influenced (P < 0.01) sperm quality before freezing and after thawing (recovered and normalized), irrespective of the breed of boar. Sperm quality was lower in summer, both in terms of motility and viability, and in autumn, in terms of motility, than in winter and spring. Seasonality in the normalized data indicates that the season of ejaculate collection influences sperm freezability, regardless of the season’s influence on sperm quality before freezing. Consequently, the spermatozoa from ejaculates collected during summer and, to a lesser extent, also in autumn, are more sensitive to cryopreservation than those from ejaculates collected during winter and spring.     

Cryopreservation in liquid nitrogen of cultured navel organe (Citrus sinensis Osb.) nucellar cells and subsequent plant regeneration

Suspension cultured cells of nucellar callus of navel orange (Citrus sinensis Osb. var. brasiliensis Tanaka) were successfully cryopreserved. The nucellar cells were cryoprotected in Murashige-Tucker basal medium supplemented with 5% DMSO+1.2 M sucrose in an ice bath for 1 h, and then were frozen in this solution at a cooling rate of 0.5°C/min to –40°C prior to immersion in LN₂. After rapid thawing in a +40°C water bath, regrowth was achieved by transferring the treated cells, without washing, onto filter paper discs over nutrient media solidified with agar. The viability after thawing, as evaluated by FDA and phenosafranine double staining, was about 70% of controls. The revived cells resumed growth within 3 days and produced cotyledonary embryos that developed into plants within 2 to 6 months of culture. Plants regenerated from cryopreserved cells were morphologically uniform and had the characteristics typical of navel orange.Abbreviations BA 6-benzyladenine - DMSO dimethylsulfoxide - FDA fluorescein diacetate - LN₂ liquid nitrogen - NAA -naphthaleneacetic acid - SE standard error     

Preservation at ultra-low temperature of in vitro cultured arbuscular mycorrhizal fungi via encapsulation–drying

At present, over 300 species of arbuscular mycorrhizal fungi (AMF) have been identified, most of which being stored in international collections. Their maintenance is mostly achieved in greenhouse via continuous culture on trap plants or in vitro in association with excised root organs. Both methods are work-intensive and for the former present the risk of unwanted contaminations. The in vitro root organ culture of AMF has become an alternative preventing contamination. Nevertheless, the risk for somaclonal variation during the sub-cultivation process cannot be excluded. A method for the long-term conservation that guarantees the stability of the biological material is thus highly demanded to preserve the microorganisms and their genetic stability. Here, 12 AMF isolates cultured in vitro in association with excised carrot roots were encapsulated in alginate beads and subsequently cryopreserved. Several protocols were tested taking into consideration culture age, alginate bead pre-drying, and rate of decrease in temperature. The viability of the AMF isolates was estimated by the percentage of potentially infective beads (%PIB) that measure the % of beads that contain at least one germinated propagule. Thermal behaviour of alginate beads was analysed by a differential thermal calorimeter before and after drying to estimate the frozen and unfrozen water during the cryopreservation process. It was shown that the spore damage was directly related to ice formation during cryopreservation. The encapsulation and culture age were also determinant parameters for the successful cryopreservation. Irrespective of the AMF isolate, the optimal procedure for cryopreservation comprised five steps: (1) the encapsulation of propagules (i.e. spores and mycorrhizal root pieces) isolated from 5 m old cultures, (2) the incubation overnight in trehalose (0.5 M), (3) the drying during 48 h at 27 °C, (4) the cryopreservation in the freezer at −130 °C following a two-step decrease in temperature: a fast decrease (∼12 °C min⁻¹) from room temperature (+20 °C) to −110 °C followed by a slow decrease in temperature (∼1 °C min⁻¹) from −110 °C to −130 °C, and (5) the direct thawing in a water bath (+35 °C). The % PIB was above 70 % for all the isolates and even above 95 % for 11 out of the 12 isolates after several months of storage at ultra-low temperature. All the isolates kept their capacity to associate to an excised carrot root in vitro and to reproduce the fungal life cycle with the production of several hundreds to thousands of spores after 2 m. This method opens the door for the long-term maintenance at ultra-low temperature of AMF isolates within international repositories.     

Harvesting and cryopreservation of lymphatic endothelial cells for lymphatic tissue engineering

In order to provide a suitable source of cells for lymphatic tissue engineering, the present study was designed to investigate techniques for harvesting and cryopreservation of human dermal lymphatic endothelial cells (LECs) in vitro. The LECs were isolated from children’s foreskins and then cultured in endothelial growth medium-2 MV (EGM-2-MV) with 5% FBS. The second passage LECs were suspended in cryopreservation solution containing 40% FBS and 10% Me₂SO in EGM-2-MV, cooled to −80 °C at about 1 °C/min and stored in liquid nitrogen. Samples were thawed quickly in a 37 °C water bath, and the cryoprotectant was removed by serial elution. The membrane integrity of thawed LECs was determined by trypan blue staining exclusion, and their proliferation was evaluated using the MTT method. The expanded cells of two groups were identified using immunofluorescence staining and RT-PCR with lymphatic-specific markers such as Podoplanin and VEGFR-3. Uptake of fluorescent DiI-Ac-LDL and microtubular formation in three-dimensional cultures were used to detect the function of LECs. Flow cytometry was applied to identify cells and to measure the apoptosis rate as well. Cryopreservation resulted in a retrieval of 67 ± 4% and an intact cell rate of 80 ± 3%. The early apoptosis rate of thawed LECs (9.15 ± 0.34%) was higher than that of fresh control LECs (5.31 ± 0.23%). The growth curves of thawed LECs were similar to those of fresh LECs. The thawed LECs were propagated for at least 6-7 passages without alterations in phenotype and function. Highly purified LECs can be isolated by immunomagnetic beads from human dermis. The cryopreserved/thawed and recultivated LECs are proven to have high vitality and growth potential in vitro and may be considered suitable seed cells for lymphatic tissue engineering.     

l-Cysteine improves survival and growth of mesothelial cells after freezing

Enzymic isolation, cryopreservation and culture of cells places considerable demand on intracellular antioxidant thiol status. Thiol status is carefully regulated in the cell by the balance of reduced and oxidized thiol species, including glutathione (GSH/GSSG) and l-cysteine (l-Cys/l-CySS disulphide). These play a pivotal role in redox signaling, cell attachment, proliferation and differentiation. Thiol depletion exposes cells to “thiol debt”, increasing their vulnerability to sustained pro-oxidant attack and injury. This study focused on the ability of l-Cys-enriched medium to enhance survival and growth of human peritoneal mesothelial cells (hPMC) after prolonged storage at −196 °C. HPMC derived from human omentum suspended in freezing solution (90 % foetal bovine serum, 10% dimethylsulfoxide) were cryopreserved at passage 1 for 6 years. Thawed cells cultured in medium M199 plus or minus l-Cys (0.25 mmol/L) were subjected to morphological, growth, ultrastructural studies, RT-PCR and cell signaling studies to assess cell function after cryopreservation. Viability of thawed cells was lower (85 ± 3%) than non-frozen control cells (98 ± 2% viable). l-Cys added to the cryopreservation fluid and the post-thaw medium increased cell viability to 94 ± 2%. Cell growth plus l-Cys was 2-fold greater compared with the minus l-Cys controls. The former had a cobblestone appearance. Ultrastructural studies showed lamellar bodies, indicative of surfactant production not evident in cells in minus l-Cys, which were a fibroblastic appearance. l-Cys treated hPMC constitutively expressed message for growth factors, TGFβ1, PDGF-A, PDGF-B and PDGFβ-receptor. The functionality of the PDGFβ-receptor was confirmed in fura-2 loaded cells with release of intracellular calcium when challenged with exogenous PDGF-BB. The addition of reduced thiols to culture media may have wider application in survival and enhance cell-based therapies.     

Cryopreservation of collared peccary (Pecari tajacu) semen using different freezing curves,straw sizes,and thawing rates

The objective of this study was to verify the effect of different freezing curves, straw sizes, and thawing rates on the cryopreservation of collared peccary semen. Twelve ejaculates were obtained from captive adult males by electroejaculation, and evaluated for sperm motility, kinetic rating, viability, morphology, and functional membrane integrity. The ejaculates were diluted in a coconut water extender (ACP-116c) with egg yolk and glycerol, packaged into 0.25 mL or 0.50 mL plastic straws and cryopreserved in liquid nitrogen following a slow (−10 °C/min) or a fast (−40 °C/min) freezing curve. After one week, samples were thawed at 37 °C/1 min or 70 °C/8 s and evaluated as reported for fresh semen, and also for kinematic parameters (computerized analysis). A significant decrease in sperm motility and kinetic rating was observed after glycerol addition at 5 °C and also after thawing for all the treatments (P < 0.05). Regarding post-thaw semen variables, no differences were verified between freezing curves when the same straw size and thawing rate were taken as reference (P > 0.05). In general, values for sperm characteristics found after thawing at 37 °C were better preserved than at 70 °C (P < 0.05), both in the use of 0.25 mL or 0.50 mL straws, which were similar for semen packaging (P > 0.05). The evaluation of the kinematic parameters of sperm motility confirmed these results at values varying from 20% to 30% motile sperm for the samples thawed at 37 °C, and values fewer than 12% motile sperm for samples thawed at 70 °C (P < 0.05). In conclusion, we recommend the use of a fast freezing curve that reduces the time spent on the cryopreservation of collared peccary semen, which could be packaged both in 0.25 mL or 0.50 mL straws, but the thawing should be conducted at 37 °C/1 min.     

Influence of cryopreservation on human periodontal ligament cells in vitro

Cryopreservation of teeth before autotransplantation may create new possibilities in dentistry. The purpose of this study was to examine the effect of a standardised cryopreservation procedure on human periodontal ligament (PDL) cell cultures. Human PDL fibroblasts obtained from immature third molars of 11 patients were cultured and divided into two groups. The experimental group was cryopreserved and cultured after thawing. The control group was cultured without cryopreservation. A comparison was made between cryopreserved and control cells. To evaluate possible differences in the characteristics of the fibroblasts, the cells in both groups were tested for viability (membrane integrity), growth capacity and alkaline phosphatase (ALP) expression. The Wilcoxon test for paired comparison between cryopreserved and non-cryopreserved cells was performed for each characteristic. The results showed that membrane integrity of cells was not influenced by cryopreservation. There was no statistically significant difference in growth capacity between cryopreserved and control cells. Non-cryopreserved cells were slightly stronger positive for ALP, but the difference was not statistically significant. From these experiments it can be concluded that the observed parameters are not influenced by cryopreservation.     

Motility and fertility of cryopreserved semen in Persian sturgeon,Acipenser persicus,stored for 30–60 min after thawing

We investigated the effect of storage times of frozen–thawed Persian sturgeon (Acipenser persicus) semen on the duration of sperm motility, percentage of motile sperm, and fertilization and hatching rates of fresh sperm and sperm stored for 0, 30, and 60 min at 4 °C post-thawing. Frozen thawed semen analyzed immediately after thawing had similar quality characteristics as fresh semen. For cryopreserved semen stored for 30 min after thawing the characteristics did not differ to fresh semen and cryopreserved semen. For cryopreserved semen stored for 60 min a significant decline in the parameters was observed. Fertilization and hatching rates were not affected by storage times of maximally 30 min of storage.     

Cryopreservation of ovarian tissues temporarily suppresses the proliferation of granulosa cells in mouse preantral follicles

Cryopreservation of ovarian tissue has been reported to delay the development of preantral follicles during in vitro culture, but the mechanism causing this impairment has not been brought to light. In order to elucidate the underlying mechanism of delayed follicular development, we evaluated the effects of cryopreservation on the proliferation of granulosa cells during culture of mouse preantral follicles, as a sufficient population of granulosa cells is critical for normal follicular development. Additionally the initial cell death of granulosa cells was estimated immediately after cryopreservation. The ovarian tissues obtained from 12-day-old female mice were cryopreservation by vitrification. The granulosa cell proliferation was evaluated by measuring the PCNA expression and the expression of cell cycle regulators such as cyclin D2, CDK4, cyclin E and CDK2 in preantral follicles isolated from fresh and cryopreserved ovarian tissues that were cultured for 48 h. The viability of granulosa cells was evaluated by measuring the proportion of necrotic areas. The granulosa cell proliferation of the cryopreserved preantral follicles was decreased significantly compared to that of the fresh controls at 0 and 24 h after culture (P < 0.05), and this was increased to the control levels after 48 h of culture. The expressions of cyclin D2, Cdk 4, cyclin E and Cdk2 were also decreased in the cryopreserved ovarian tissues at 0 and 24 h after culture (P < 0.05), but they were increased to the control levels after 48 h of culture. The proportion of the necrotic area was significantly higher in cryopreserved preantral follicles compared to that of the fresh preantral follicles (P < 0.05). This suggests that cryopreservation of ovarian tissues may delay the preantral follicle development by temporary suppressing the granulosa cell proliferation through the cell cycle regulators (cyclin D2, Cdk4, cyclin E and Cdk2) and by granulosa cell death immediately after warming.