Freezing injury to erythrocytes. I. Freezing patterns and post-thaw hemolysis.

The extent of hemolysis of human red blood cells suspended in different concentrations of glycerol and frozen at various cooling rates was investigated on the basis of morphological observation in the frozen state. Hemolysis of the cells in the absence of glycerol showed a V-shaped curve in terms of cooling rates. There was 70% hemolysis at an optimal cooling rate of approximately 10³ °C/min and 100% hemolysis at all other rates tested. Morphologically, a lower than optimal cooling rate resulted in cellular shrinkage, while a higher than optimal rate resulted in the formation of intracellular ice.The cryoprotective effect of glycerol was dependent upon its concentration and on the cooling rate. Samples frozen at 10³ and 10⁴ °C/min showed freezing patterns which differed from cell to cell. The size of intraand extracellular ice particles became smaller, and there was less shrinkage or deformation of cells as the rate of cooling and concentration of glycerol were increased.There was some correlation between the morphology of frozen cells and the extent of post-thaw hemolysis, but the minimum size of intracellular ice crystals which might cause hemolysis could not be estimated. As a cryotechnique for electron microscopy, the addition of 30% glycerol and ultrarapid freezing at 10⁵ °C/min are minimum requirements for the inhibition of ice formation and the prevention of the corresponding artifacts in erythrocytes.     

Freezing injury to erythrocytes. II. Morphological alterations of cell membranes.

Morphological alterations of human red blood cell membranes were examined with the cells containing different concentrations of glycerol being subjected to rapid rates of cooling, approximately 10⁴ and 10⁵ °C/min, and subsequent rewarming. Small membrane defects, similar to holes, were observed in specimens frozen with and without 10% glycerol. Various degrees of roughness were found on the surface of the cells at all freezing rates tested. The membrane alterations were reduced with increasing glycerol concentration, although roughness also appeared on the surface of the cells in 30% glycerol suspensions, frozen rapidly, and rewarmed to ?80 or ?60 °C. The cell membrane surface texture correlated with the growth of intra- and extracellular ice particles. There was also a positive correlation between these alterations and post-thaw hemolysis. It is concluded, therefore, that morphological alterations appearing on the erythrocyte membranes may be a manifestation of freezing damage.     

Freeze-induced membrane damage in ram spermatozoa is manifested after thawing: observations with experimental cryomicroscopy.

Cryoinjury in ram sperm was investigated by direct observation, using cryomicroscopy, to validate model hypotheses of freezing injury in such a specialized cell. Fluorescein diacetate was used to determine when during the freeze-thaw cycle the sperm membrane became permeable. In noncryoprotected sperm plasma membrane, integrity was maintained throughout the cooling and freezing process, but fluorescein leakage occurred during rewarming. The temperature of post-thaw permeabilization varied in relation to the minimum temperature reached during freezing; cells cooled to -10 degrees C retained fluorescence into the post-thaw temperature range of 9-24 degrees C (mean +/- SEM; 13.25 +/- 0.91 degrees C), whereas cells cooled to -20 degrees C lost fluorescence shortly after thawing (mean +/- SEM; 2.62 +/- 0.91 degrees C). Sperm cooled to 5 degrees C, but not frozen, retained fluorescence during rewarming up to 20-30 degrees C. The inclusion of glycerol and egg yolk in the freezing medium significantly and independently increased the post-thaw permeabilization temperature. Maintenance of fluorescence was also correlated with ability to resume motility after thawing. Sperm reactivation experiments were undertaken to examine deleterious effects of freezing upon the flagellar microtubular assembly. No direct evidence for such effects was obtained. Instead, a highly significant correlation between minimum freezing temperature and post-thaw temperature of initial reactivation was detected.     

The effect of glycerol-related osmotic changes on post-thaw motility and acrosomal integrity of ram spermatozoa

Ram semen, collected by artificial vagina, was diluted and processed for long-term storage as described by P. S. Fiser, L. Ainsworth, and R. W. Fairfull (Canad. J. Anim. Sci. 62, 425-428, 1982). The concentration of the cryoprotectant, glycerol, was adjusted to 4% in the diluted semen prior to freezing by a one-step addition at 30 degrees C (Method 1), by cooling the semen to 5 degrees C and addition of the glycerol gradually over 30 min (Method 2), by one-step addition of glycerol prior to equilibration for 2 hr (Method 3), or by cooling to 5 degrees C, followed by a holding period of 2 hr at 5 degrees C, and the one-step addition of glycerol just prior to freezing (Method 4). After thawing, the glycerol concentration of the semen was reduced by stepwise dilution from 4 to 0.4% over 15 or 30 min or by a one-step ten-fold dilution. The average post-thaw percentage of motile spermatozoa was significantly lower after addition of glycerol by Method 1 (39.9%) than when the glycerol was added by the other three methods (range, 44.0-46.4% averaged over the glycerol dilution). The average post-thaw percentage of intact acrosomes (61.2%), highest in semen in which the glycerol was added by Method 2, was not significantly different from those in which glycerol was added to semen by Methods 3 and 4, but it was significantly higher than that found in semen in which the glycerol was added by Method 1 (54.4%). However, when averaged over the method of glycerolation, the post-thaw percentage of motile spermatozoa (range, 43.7-44.2%) and the percentage of intact acrosomes (range, 56.8-59.5%) did not differ significantly in semen subjected to gradual decrease in glycerol concentration and diluent osmolality (over 15 and 30 min) or by a one-step, 10-fold dilution. These data indicate that post-thaw survival of spermatozoa can be influenced by the way in which glycerol is added prior to freezing. However, post-thaw spermatozoa motility and acrosomal integrity can be maintained even after a rapid decrease in glycerol concentration such as that which accompanies insemination or dilution of semen for assessment of motility.     

Cryopreservation of epididymal dog sperm.

A method of cryopreservation was developed for sperm salvaged from the cauda epididymis and vas deferens of domestic dog testes. Four modifications of the glycerol concentration of a buffer used for cryopreservation of dog ejaculates and two freezing rates were assessed for their effect upon post-thaw spermatozoal motility and morphology. There was no statistical difference between the four glycerol concentrations or the two freezing rates and the buffer containing 6% glycerol and the freezing rate provided by 0.5 ml straws was chosen for further study. This method resulted in a significant reduction in the percentage of live spermatozoa detected with Hoechst staining and a reduction in the percentage of capacitated spermatozoa after freeze-thawing. However, there was no difference in the ability of frozen-thawed spermatozoa to penetrate homologous oocytes.This study demonstrates that cryopreservation of epididymal canine sperm can be performed using methods similar to those established for ejaculates of the same species, and that despite some damage, spermatozoa retain their functional ability.     

A method for one-step freezing of mouse embryos

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

An investigation into the preservation of microbial cell banks for α-amylase production during 5 l fed-batch <Emphasis Type="Italic">Bacillus licheniformis</Emphasis> fermentations

Fluorescent staining techniques were used for a systematic examination of methods used to cryopreserve microbial cell banks. The aim of cryopreservation here is to ensure subsequent reproducible fermentation performance rather than just post thaw viability. Bacillus licheniformis cell physiology post-thaw is dependent on the cryopreservant (either Tween 80, glycerol or dimethyl sulphoxide) and whilst this had a profound effect on the length of the lag phase, during subsequent 5 l fed-batch fermentations, it had little effect on maximum specific growth rate, final biomass concentration or α-amylase activity. Tween 80 not only protected the cells during freezing but also helped them recover post-thaw resulting in shorter process times.     

Influence of extender,temperature, and addition of glycerol on post-thaw sperm parameters in ram semen

Using a two-step extension methodology, two experiments were conducted using a split-sample design to compare the effect on post-thaw ram sperm parameters of a milk-based extender (Experiment 1) containing four different egg yolk concentrations (5% [M5], 10% [M10], 15% [M15], and 20% [M20]), and a commercially available extender (Bioexcell); IMV, L'Aigle, France) free from additives of animal origin, containing two different final glycerol concentrations (3.2% [B] and 6.4% [BB]) (Experiment 2). In both experiments, glycerol was added either at 5 degrees C or at 15 degrees C together with the second fraction of each extender. The sperm characteristics assessed were motility (measured subjectively [SM] and by means of cell motion analysis (CASA), membrane integrity (SYBR-14/PI), and capacitation status (chlortetracycline (CTC)/EthD-1). Results of Experiment 1 showed no significant positive effect of increasing the concentration of egg yolk above 10% on post-thaw motility, membrane integrity, or induction of sperm capacitation-like changes. In Experiment 2, Bioexcell (BB) yielded similar post-thaw results as did the milk extender (control). In both experiments, post-thaw sperm parameters were better preserved when glycerol was added at 5 degrees C, although the results were not always statistically significant for all variables studied. In conclusion, when using milk-based extenders for freezing ram semen, low (5-10%) concentrations of egg yolk and the addition of glycerol at 5 degrees C are recommended. Furthermore, the results indicate that when freezing ram semen, Bioexcell containing 6.4% glycerol may be used as an alternative extender to the conventional milk extender containing 5% egg yolk.     

Medium composition for effective slow freezing of embryonic cell lines derived from marine medaka (Oryzias dancena)

This study was conducted to identify optimal medium composition for freezing Oryzias dancena embryonic cell lines. Different freezing media consisting of various concentration of dimethyl sulfoxide (DMSO), fetal bovine serum (FBS), and trehalose were prepared and long-term cultured embryonic cell line was frozen in each freezing medium by conventional slow freezing program for 7 days. Through measurement of viability and growth of post-thaw cells frozen in each freezing medium, it was determined that optimal composition of three components was 10 % DMSO, 20 % FBS, and 0.1 M trehalose. The post-thaw cells frozen in optimal freezing medium showed similar morphology and growth rate with non-frozen cells. Next, this condition was applied to two different sets of experiment; (1) freezing of the same cells during expanded period (57 days) and (2) freezing of short-term cultured cells from other batches for 7 days. The viability of post-thaw cells was significantly low and comparable in set 1 and 2, respectively, when compared with the result of long term-cultured cells frozen in optimal freezing medium for 7 days and similar morphology and growth rate with non-frozen counterparts were detected in the post-thaw cells from both sets. In conclusion, this study first reports the optimal medium composition for freezing O. dancena embryonic cells, which can contribute to fish species preservation as well as improvement of cell-based biotechnology by providing stable cell storage.     

On the mechanism of injury to slowly frozen erythrocytes.

When cells are frozen slowly in aqueous suspensions, the solutes in the suspending solution concentrate as the amount of ice increases; the cells undergo osmotic dehydration and are sequestered in ever-narrowing liquid-filled channels. Cryoprotective solutes, such as glycerol, reduce the amount of ice that forms at any specified subzero temperature, thereby controlling the buildup in concentration of those other solutes present, as well as increasing the volume of the channels that remain to accommodate the cells. It has generally been thought that freezing injury is mediated by the increase in electrolyte concentration in the milieu surrounding the cells, rather than reduction of temperature or any direct action of ice. In this study we have frozen human erythrocytes in isotonic solutions of sodium chloride and glycerol and have demonstrated a correlation between the extent of damage at specific subzero temperatures, and that caused by the action at 0 degrees C of solutions having the same composition as those produced by freezing. The cell lysis observed increased directly with glycerol concentration, both in the freezing experiments and when the cells were exposed to corresponding solutions at 0 degrees C, showing that the concentration of sodium chloride alone is not sufficient to account quantitatively for the damage observed. We then studied the effect of freezing in anisotonic solutions to break the fixed relationship between solute concentration and the volume of the unfrozen fraction, as described by Mazur, P., W. F. Rall, and N. Rigopoulos (1981. Biophys. J. 653-675). We confirmed their experimental findings, but we explain them differently. We ascribe the apparently dominant effect of the unfrozen fraction to the fact that the cells were frozen in, and returned to, anisotonic solutions in which their volume was either less than, or greater than, their physiological volume. When similar cell suspensions were subjected to a similar cycle of increase and then decrease in solution strength, but in the absence of ice (at 20 degrees C), a similar pattern of hemolysis was observed. We conclude that freezing injury to human erythrocytes is due solely to changes that occur in the composition of their surrounding milieu, and is most probably mediated by a temporary leak in the plasma membrane that occurs during the thawing (reexpansion) phase.     

Effect of cooling and rewarming rates on glycerolated human erythrocytes.

Human erythrocytes suspended in a sodium-free buffered salt solution containing glycerol in 1 m concentration (1 part of packed cells to 4 parts buffered salt solution) were frozen by slow, moderately rapid, or very rapid cooling to various subzero C temperatures. The frozen specimens, after a 5-min storage period at a given temperature, were thawed at low, moderately high, or very high rates. The hemolysis in the frozen and thawed samples was measured by a colorimetric determination of the hemoglobin released from the damaged cells. At ?10 °C, the highest freezing temperature employed, nearly 100% recovery of intact erythrocytes was obtained irrespective of the cooling and rewarming conditions. The extent of the hemolysis after exposure to lower freezing temperatures depended upon the cooling and rewarming conditions. Moderately rapid and very rapid freezing to, and thawing from temperatures below ?40 °C permitted significantly higher recoveries of intact cells than the other freezing/ thawing combinations. In the temperature range ?15 to ?30 °C the combination slow cooling and slow rewarming afforded maximum protection. Very rapid freezing/ slow thawing was the most damaging combination throughout the entire freezing range. The results were interpreted in part by a conventional two-factor analysis, lower cooling rates allowing concentrated salts to determine hemolysis, higher cooling rates destroying the cells by intracellular freezing. Apparent anomalies were explained in terms of a generalized “thermal/osmotic” shock according to which the erythrocytes were subject to greater hemolysis the higher the rates of cooling and/or warming.     

Synergistic effects of liposomes, trehalose, and hydroxyethyl starch for cryopreservation of human erythrocytes

Red blood cells (RBCs) can be cryopreserved using glycerol as a cryoprotective agent, but one of the main disadvantages is the time-consuming deglycerolization step. Novel cryopreservation strategies for RBCs using nontoxic cryoprotective agents are urgently needed. The effect of DMPC, DOPC, and DPPC liposomes on survival of RBCs cryopreserved with trehalose and HES has been evaluated. DMPC caused hemolysis before freezing and affected RBC deformability parameters. DMPC treated RBCs displayed a strong increase in trehalose uptake compared to control cells, whereas DOPC treated liposomes only displayed a slight increase in trehalose uptake. High intracellular trehalose contents were observed after cryopreservation. The recovery of cells incubated with trehalose and liposomes, frozen in HES ranged between 92.6 and 97.4% immediately after freezing. Recovery values of RBCs frozen in HES, however, decreased to 66.5% after 96 h at 4°C compared to 77.5% for DOPC treated RBCs. The recovery of RBCs incubated and frozen in trehalose medium was 77.8%. After 96 hours post-thaw storage recovery of these cells was 81.6%. DOPC and DPPC treated RBCs displayed higher recovery rates (up to 89.7%) after cryopreservation in trehalose compared to control RBCs. Highest survival rates were obtained using a combination of trehalose and HES: 97.8% directly after thawing and 81.8% 96-h post-thaw. DOPC liposomes, trehalose and HES protect RBCs during cryopreservation in a synergistic manner. The advantage is that the protective compounds do not need to be removed before transfusion.     

Effect of glycerol and dimethyl sulfoxide on cryopreservation of rhesus monkey (Macaca mulatta) sperm

Glycerol and dimethyl sulfoxide (DMSO) are widely used as penetrating cryoprotectants in the freezing of sperm, and various concentrations are applied in different species and laboratories. The present study aimed to examine the effect of these two cryoprotectants at different concentrations (2%, 5%, 10%, and 15% glycerol or DMSO) on rhesus monkey sperm cryopreservation. The results showed that the highest recovery of post-thaw sperm motility, and plasma membrane and acrosome integrity was achieved when the sperm was frozen with 5% glycerol. Spermatozoa cryopreserved with 15% DMSO showed the lowest post-thaw sperm motility, and spermatozoa cryopreserved with 15% glycerol and 15% DMSO showed the lowest plasma membrane integrity among the eight groups. The results achieved with 5% glycerol were significantly better for all parameters than those obtained with 5% DMSO. The functional cryosurvival of sperm frozen with 5% glycerol was further assessed by in vitro fertilization (IVF). Overall, 85.7% of the oocytes were successfully fertilized, and 51.4% and 5.7% of the resulting zygotes developed into morulae and blastocysts, respectively. The results indicate that the type and concentration of the penetrating cryoprotectant used can greatly affect the survival of rhesus monkey sperm after it is frozen and thawed. The suitable glycerol level for rhesus monkey sperm freezing is 5%, and DMSO is not suitable for rhesus monkey sperm cryopreservation.     

Effects of glutamine on post-thaw motility of stallion spermatozoa: an approach of the mechanism of action at spermatozoa level

The cryoprotective effect of l-glutamine and an approach of its mechanism of action, in preserving motility of stallion spermatozoa during the freezing-thawing process, were studied. In Experiment 1, thirty-six ejaculates were collected from six stallions (two good, two middle, and two of poor sperm freezability) and were diluted with 10 different freezing media derived from INRA 82 medium supplemented with 20 mM HEPES and 2% (v/v) centrifuged egg yolk (BM). After thawing, sperm motility was evaluated by a computer-assisted semen motility analyser. The effects of glutamine and glycerol at different concentrations on post-thaw sperm motility were studied. A possible interaction between medium and semen freezability was investigated. Only the 50 mM glutamine + 2.5% glycerol medium significantly improved sperm motility compared to classical freezing medium (2.5% glycerol). The presence of glutamine at 50 mM was not sufficient to offset the need to use glycerol in the freezing extender. The use of glutamine at a higher concentration >100 mM in the presence of 2.5% of glycerol was toxic. Reducing the glycerol proportion from 2.5% to 2 or 1.5% in the presence of glutamine at 50, 75, and 100 mM had no influence on post-thaw motility of semen of middle and good freezability. Moreover, the substitution of 2.5% glycerol by 50 mM glutamine in BM, did not significantly change the post-thaw motility of semen of good freezability. In Experiment 2, 3H-glutamine and 3H-glycerol were used to study the kinetics of penetration of glutamine and glycerol in sperm cells. The radioactivity of each radio-labelled semen pellet was measured at different times (0, 15, 30, 60, 90, 120 min), by using a Packard tri-carb 4530 apparatus. The percentages of incorporated radioactivity (%IRA) in semen pellets were calculated at different times. The %IRA of 3H-glycerol in semen pellets were significantly higher than the %IRA of 3H-glutamine. The %IRA of 3H-glycerol in semen pellets increased greatly from time 0 to 60 min, and then it is stabilized from 60 to 120 min. In contrast, the %IRA of 3H-glutamine in semen pellets increased slightly from 0 to 60 min, then it stabilized until 120 min. These experiments demonstrate that glutamine has a synergistic cryoprotective effect with glycerol on cryopreservation of stallion spermatozoa, and suggest that glutamine acts at the extra-cellular level, independently of glycerol.     

The effect of cell concentration on the recovery of human erythrocytes after freezing and thawing in the presence of glycerol

Human erythrocytes, suspended in 2.5 M glycerol in phosphate-buffered saline, were frozen at 35 °C/min to between ?60 and ?65 °C and thawed at 5 °C/min. It was found that cell concentration had a marked effect on cell recovery. When the hematocrit was less than 20%, hemolysis was less than 1% but when the hematocrit exceeded 50%, hemolysis increased, reaching 16% at an hematocrit of 80%. Possible causes of this effect are discussed, and it is suggested that augmentation of solution effects and intracellular freezing may provide a sufficient explanation. The importance of this cell-packing effect for attempts to preserve whole organs is discussed.     

Evaluation of post-thaw Asian elephant (Elephas maximus) spermatozoa using flow cytometry: the effects of extender and cryoprotectant

Although the development of semen cryopreservation in the African elephants (Loxodonta africana) has been accomplished, effective procedures for cryopreservation of Asian elephant (Elephas maximus) spermatozoa have not been established. In the present study, we investigate the freezing methods for conservation of Asian elephant spermatozoa under field conditions and identify the most suitable freezing protocols which provide acceptable post-thaw semen quality. Semen was collected from two Asian elephant bulls (EM1 and EM2, 10 ejaculates from each bull) by manual manipulation and were assessed for volume, pH, sperm cell concentration, and progressive motility. Eight out of 20 ejaculates were of acceptable quality (progressive motility >/= 60%), and were used for cryopreservation studies. Semen were frozen in TEST + glycerol, TEST + DMSO, HEPT + glycerol, or HEPT + DMSO. The post-thaw progressive sperm motilities were assessed, and sperm cells were stained with PI and FITC-PNA for membrane and acrosomal integrity assessment using flow cytometry. Post-thaw progressive motility of spermatozoa (EM1: 42.0 +/- 4.3%; EM2: 26.0 +/- 17.3%) and the percentage of membrane and acrosome intact spermatozoa (EM1: 55.5 +/- 8.1%; EM2: 46.3 +/- 6.4%) cryopreserved in TEST + glycerol were significantly higher than (P < 0.05) those frozen in the other medium investigated choices for cryopreservation of Asian elephant spermatozoa. The data support the use of TEST + glycerol as an acceptable cryopreservation media of Asian elephant semen for the establishment of sperm banks.     

Cryopreservation of kangaroo spermatozoa using alternative approaches that reduce cytotoxic exposure to glycerol

Alternative techniques for the cryopreservation of kangaroo spermatozoa that reduced or eliminated the need for glycerol were investigated including; (1) freezing spermatozoa with 20% glycerol in pre-packaged 0.25 mL Cassou straws to enable rapid dilution of the glycerol post-thaw, (2) investigating the efficacy of 20% (v/v) dimethyl sulphoxide (DMSO) and dimethylacetamide (DMA—10%, 15% and 20% v/v) as cryoprotectants and (3) vitrification of spermatozoa with or without cryoprotectant (20% v/v glycerol, 20% v/v DMSO and 20% v/v DMA). Immediate in-straw post-thaw dilution of 20% glycerol and cryopreservation of spermatozoa in 20% DMSO produced no significant improvement in post-thaw viability of kangaroo spermatozoa. Spermatozoa frozen in 20% DMA showed post-thaw motility and plasma membrane integrity of 12.7 ± 1.9% and 22.7 ± 5.4%, respectively, while kangaroo spermatozoa frozen by ultra-rapid freezing techniques showed no evidence of post-thaw viability. The use of 10–20% DMA represents a modest but significant improvement in the development of a sperm cryopreservation procedure for kangaroos.     

Understanding the freezing responses of T cells and other subsets of human peripheral blood mononuclear cells using DSMO-free cryoprotectants

BackgroundThis study examined the freezing responses of peripheral blood mononuclear cells (PBMCs) and specific white blood cell subsets contained therein when cryopreserved in three combinations of osmolytes composed of sugars, sugar alcohols and amino acids.MethodsA differential evolution algorithm with multiple objectives was used to optimize cryoprotectant composition and thus the post-thaw recoveries for both helper and cytotoxicity T cells simultaneously.ResultsThe screening of various formulations using a differential evolution algorithm showed post-thaw recoveries greater than 80% for the two subsets of T cells. The phenotypes and viabilities of PBMC subsets were characterized using flow cytometry. Significant differences between the post-thaw recovery for helper T cells and cytotoxic T cells were observed. Statistical models were used to analyze the importance of individual osmolytes and interactions between post-thaw recoveries of three subsets of T cell including helper T cells, cytotoxic T cells and natural killer T cells. The statistical model indicated that the preferred concentration levels of osmolytes and interaction modes were distinct between the three subsets studied. PBMCs were cultured for 72 h post-thaw to determine the stability of the cells. Because post-thaw apoptosis is a significant concern for lymphocytes, apoptosis of helper T cell and cytotoxic T cells frozen in a DMSO-free cryoprotectant was analyzed immediately post-thaw and 24 h post-thaw. Both cell types showed a decrease in cell viability 24 h post-thaw compared with immediately post-thaw. Helper T cell viability dropped 17%, and cytotoxic T cells had a 10% drop in viability. Immediately post-thaw, both cell types had >30% of cells in early apoptosis, but after 24 h the number of cells in early apoptosis decreased to below 20%.ConclusionThis study helped us identify the freezing responses of different human PBMC subsets using combinations of osmolytes.     

Effect of glycerol concentration on frozen boar sperm

In experiment 1, Beltsville F3 extender containing 0 to 7% glycerol was added to boar sperm. Glycerol was either retained during freezing or removed by centrifugation before freezing. When glycerol was retained, there was a significant negative linear relationship between the percentage of sperm acrosomes with a normal apical ridge (NAR) and the percentage of glycerol. When glycerol was removed before freezing, the percentage of NAR acrosomes did not differ among samples. The percentage of motile sperm and the percentage of glycerol in the original extender were linearly related regardless of whether glycerol was retained or removed before freezing.In experiment 2, four concentrations of glycerol, three cooling times and two dilution rates were compared when semen was frozen in Beltsville F5 extender. The post-thaw results for percentages of NAR acrosomes and sperm motility were optimum with 1% glycerol and a 1:4 dilution rate. Cooling time had a minor effect on the freezing results.In experiment 3, the competitive fertilizing capacity of boar sperm frozen with 1% glycerol was compared with that frozen without glycerol. The number of ova fertilized by sperm frozen with 0 or 1% glycerol, 52 and 72 ova, respectively, were nearing statistical difference from a 50:50 ratio (P<.07). These results indicated that under the conditions of this study glycerol was of some positive value as a cryoprotectant for boar sperm.     

Successful fertilization of Varicorhinus macrolepis eggs with sperm subjected to two freeze-thaw cycles

Although sperm from several fish species have been successfully cryopreserved, few studies have been done in small and/or endangered species. The aim of the present work was to develop a method of freezing and refreezing Varicorhinus macrolepis semen in 1.8 mL cryovials. The effect of extenders and cryoprotectants on the motility of post-thaw sperm was examined. The motility of frozen-thawed sperm in extender D-15 was higher than that in MPRS and fish Ringer solution (P<0.05). Dimethyl sulfoxide (DMSO) and glycerol provided greater protection to sperm than methanol during freezing and thawing; the most effective concentration of DMSO and glycerol was 10%. The fertilization rate of frozen-thawed sperm was not significantly different from that of fresh sperm. Furthermore, mean (+/-S.D.) hatching rate did not differ significantly between frozen-thawed (82.7+/-12.4%) and fresh sperm (90.7+/-4.5%). Although frozen-thawed sperm that was immediately refrozen had 0% post-thaw motility, frozen semen that was refrozen after dilution with D-15 (containing DMSO at a ratio of 1:2) had post-thaw motility of 38.3+/-2.9%. Motility was lower for refrozen than for frozen sperm (P<0.05). Furthermore, fertilization and hatching rates of refrozen sperm were 42.9+/-6.7 and 34.1+/-10.5%, respectively, which were lower than that of fresh sperm (P<0.05).