Effects of egg yolk during the freezing step of cryopreservation on the viability of goat spermatozoa

Four experiments were conducted to investigate the effects of egg yolk during the freezing step of cryopreservation (namely, the process except for the cooling step), on the viability of goat spermatozoa. The effects of egg yolk on sperm motility and acrosome integrity during the freezing step were investigated in Experiment 1. Spermatozoa diluted with Tris-citric acid-glucose (TCG) solution containing 20% (v/v) egg yolk were cooled to 5 degrees C, washed, and then frozen in TCG with egg yolk (TCG-Y), TCG without egg yolk (TGG-NY), 0.370 M trehalose with egg yolk (TH-Y), or trehalose without egg yolk (TH-NY). All extenders contained glycerol. In frozen-thawed spermatozoa, the inclusion of egg yolk in the freezing extenders increased (P<0.05) percentages of motile sperm, progressively motile sperm, and the recovery rate (ratio of post-thaw to pre-freeze values), but decreased (P<0.05) acrosomal integrity. Moreover, extenders with trehalose had better (P<0.05) post-thaw sperm viability. In Experiment 2, the effects of egg yolk on acrosome status before and after freezing were studied. Egg yolk significantly decreased the proportion of intact acrosomes before freezing, leading to fewer (P<0.05) intact acrosomes post-thaw and lower (P<0.05) recovery rates for intact acrosomes. In Experiment 3, including sodium dodecyl sulfate (SDS) in a diluent containing egg yolk tended to preserve the acrosome compared with the egg yolk containing diluent free of SDS, however, spermatozoa had a lower (P<0.05) proportion of intact acrosomes than those in a yolk-free diluent. However, after cooling, spermatozoa were diluted with a glycerolated extender containing egg yolk. Therefore, the objective of Experiment 4 was to explore whether the egg yolk or glycerol was responsible for the reduced intact acrosome percentage. In this experiment, after cooling and washing the spermatozoa were diluted in TCG with glycerol and/or egg yolk. The combination of glycerol and egg yolk in the extender reduced (P<0.05) the proportion of intact acrosomes compared with egg yolk or glycerol alone. In conclusion, the inclusion of egg yolk significantly improved sperm motility, indicating its beneficial effects during the freezing step of cryopreservation; trehalose appeared to synergistically increase its cryoprotective effects. Furthermore, although neither glycerol nor egg yolk per se affected the proportion of intact acrosomes, the combination of the two significantly reduced the proportion of acrosome-intact spermatozoa.     

Combined effects of glycerol concentration, cooling velocity, and osmolality of skim milk diluents on cryopreservation of ram spermatozoa

The interaction of glycerol concentration from 0 to 16% and cooling velocity from 1 to 100 degrees C/min on freeze-thaw survival of ram spermatozoa was studied using a diluent based on 15% skim milk (450 mOs/kg water). Optimal spermatozoa survival (percentage motility and rating) was obtained with 4 to 6% glycerol and freezing rates of 10 to 100 degrees C/min. Similar results were obtained with 8% glycerol at freezing rates of 5 to 30 degrees C/min. Although the ram spermatozoa tolerated several cooling velocities at each glycerol concentration, increasing the concentration of glycerol resulted in a downshift in the range of optimal cooling velocities. Glycerol concentrations above 8% were toxic and contributed greatly to the progressive decrease in spermatozoa survival. Comparison of the 15% skim milk diluent (450 mOs/kg water) with a 19% skim milk diluent (600 mOs/kg water) showed that optimal cryosurvival was obtained with 4 to 6% glycerol and freezing rates of 10 to 100 degrees C/min with both diluents.     

The effects of rapid cooling (cold shock) of ram semen, photoperiod, and egg yolk in diluents on the survival of spermatozoa before and after freezing

The effects of rapid cooling of semen (cold shock) from 30 degrees C to various temperatures above 0 degrees C on survival of ram spermatozoa suspended in diluents with or without egg yolk were assessed before and after freezing. Rapid cooling of extended semen from 30 to 15 degrees C had little or no effect on spermatozoa survival before or after freezing. Rapid cooling of extended semen from 30 degrees C to 10, 5, or 0 degrees C was accompanied by a progressive decrease in percentage of motile spermatozoa and percentage of intact acrosomes before freezing and a decrease in percentage of motile spermatozoa and after freezing. The ability of spermatozoa motile after cold shock to survive freezing and thawing, evaluated as cryosurvival, was not significantly (P greater than 0.05) affected by the temperature to which semen was cooled. The addition of egg yolk to the initial extender had a beneficial effect on percentage of motile spermatozoa particularly after rapid cooling of semen to 10 and 5 degrees C. Although egg yolk had little effect before freezing on semen rapidly cooled to temperatures above 15 degrees C and therefore not actually cold shocked, it substantially improved the subsequent survival of spermatozoa after freezing and thawing. Percentage of motile spermatozoa after cooling and after freezing was generally higher when the semen was collected during a decreasing photoperiod than during an increasing photoperiod.     

Freezing rabbit semen by the use of BF5 diluent

Three experiments were carried out to find the optimal concentration of DMSO and glycerol in BF5 diluent for freezing rabbit spermatozoa. Semen was diluted 1:1 with diluent A (BF5 + DMSO) at 25 degrees C and diluted further 1:1 with diluent B (diluent A + glycerol) after cooling down to 5 degrees C. Diluted semen was frozen immediately and stored in liquid nitrogen. Maximum percentages for motility and normal acrosomes were obtained in the presence of 12% DMSO (as expressed in diluent A) and 3% glycerol (final concentration) after thawing.     

Effect of initial freezing temperature, addition of glycerol and dilution on the survival and fertilizing ability of deep-frozen ram semen.

The influence oftemperature, addition of glycerol, initial freezing temperature, method of dilution, level of glycerol in the diluted semen, equilibration time and type of diluent on the survival and fertilizing capacity of deep-frozen according to the best conditions was compared with that of "fresh" semen. The addition of glycerol at plus30 degrees C resulted in a highly significant decrease in the mean proportion of motile spermatozoa immediately after thawing compared with the effect of addition at plus 4 degrees C. The immersion of the straws at minus55 degrees C significantly reduced the revival of the spermatozoa compared with initial freezing at lower temperatures. The exposure time to glycerol had no significant effect on the survival of spermatozoa after thawing and incubation, but fertility was significantly higher with 4% than with 2% glycerol. The I. N. R. A. diluent provided better sperm survival and a significantly higher conception rate than did lactose-egg yolk extender. The semen frozen according to the best conditions (about 50% of the samples) had a fertilizing ability similar to that of "fresh" semen when the proportion of motile spermatozoa before, and after 1 or 3 hr of incubation was equal to or above 45, 40 and 30% respectively.     

Examination of some processing methods for freezing boar semen.

Five experiments were conducted to examine the effect of processing methods and diluents on survival and morphology of boar spermatozoa after freezing. Post-thawing survival of spermatozoa was better for Beltsville-F3 (BF3) than for tris-fructose-EDTA freezing diluent when the seminal plasma and glycerol were removed prior to freezing (method A). Both freezing diluents yielded similar viability results when the spermatozoa were frozen in the presence of siminal plasma and glycerol (method B). Viability of spermatozoa after thawing was better when glycerol concentration in the prefreezing diluent (method A) or in the freezing medium (method B) was 2-5 and 5-0 rather than 7-5%. Cooling of diluted semen to 5 degrees C beyond 4 h decreased the post-thawing survival of spermatozoa. The proportion of spermatozoa with undamaged acrosomes after processing and thawing by different methods was indistinguishable and relatively low. When the semen was frozen at cell concentrations ranging from 0-25 to 2-0 X 10(9)/ml, the viability of spermatozoa declined with increasing concentration following freezing in BF3, and S-1 diluents. Viability results were very similar for all cell concentrations examined when tris-fructose-EDTA diluent was used, indicating the possibility of freezing boar semen in a concentrated state.     

The effect of Equex STM paste and sperm morphology on post-thaw survival of cat epididymal spermatozoa

Cryopreservation of epididymal spermatozoa is a potentially valuable tool for preserving genetic material from individuals of endangered species that die accidentally. Improvement of sperm-freezing protocols would increase the efficacy of gene banking from endangered felids, and the domestic cat can be used as a model for the wild felids. Addition of the detergent Equex STM paste to semen freezing extenders has been found to improve post-thaw survival and longevity of spermatozoa from various species but has never been tested for cat spermatozoa. Spermatozoa from cats with a high percentage of morphologically abnormal spermatozoa are more susceptible for cold injury and osmotic stress than spermatozoa from normozoospermic cats. Therefore, the aims of this study were to investigate: (a) if addition of Equex STM paste to a semen freezing extender would improve post-thaw sperm survival, and (b) if there is a relation between the percentage of morphologically normal spermatozoa and cryopreservation induced damage in cat epididymal spermatozoa. Spermatozoa harvested from epididymides of 10 male cats were frozen in a Tris egg yolk extender with or without the addition of Equex STM paste (0.5%, v/v). Sperm motility, membrane integrity and acrosomal status were evaluated immediately after harvesting, and at 0, 2, 4 and 6 h post-thaw. Sperm membrane integrity and acrosomal status were also evaluated after cooling to 4 degrees C, just before freezing. Cooling did not cause significant damage to the spermatozoa, whereas freezing damaged sperm membranes and acrosomes. Addition of Equex to the freezing extender had a significant positive effect on the percentage of intact acrosomes immediately after thawing (P > 0.05), but had a negative effect on the longevity of the spermatozoa; the percentages of membrane intact and motile spermatozoa being significantly lower in the presence of Equex than in the controls at 6h after thawing. The percentage of morphologically normal spermatozoa was not found to be correlated with either cryopreservation induced acrosome or plasma membrane damage, or with post-thaw motility (P > 0.05). The results clearly show that addition of Equex STM paste in the freezing extender protects the acrosomes of cat epididymal spermatozoa during the freezing--thawing process, but reduces the sperm longevity during in vitro incubation at 38 degrees C. Our results also indicate that the percentage of morphologically normal epididymal spermatozoa is not correlated with cryopreservation induced sperm damage using the described freezing protocol.     

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.     

Microscopic and flow cytometric semen assessment of Dutch AI-bucks: effect of semen processing procedures and their correlation to fertility

This study was done to determine the effects of processing techniques on the quality of semen from Dutch AI-bucks with the view on improving pregnancy rates after artificial insemination (AI) with liquid or frozen-thawed semen. Motility of spermatozoa was estimated under a microscope whereas the percentage live spermatozoa and the percentage live spermatozoa with intact acrosomes were determined by means of flow cytometry. Aspects of semen processing that were investigated are storage temperature of liquid semen (i), the effect of glycerol on liquid-stored semen (ii), removal of seminal plasma (iii) and type of extender (iv). The correlation between semen quality and fertility rates in inseminated does was also investigated. The percentage motile spermatozoa in semen stored in liquid form for 72 h progressively declined over time, irrespective of whether storage occurred at 4 or 18 degrees C. The percentage motile spermatozoa in semen stored at 18 degrees C was similar to that in semen stored at 4 degrees C if stored for 24 h but lower if stored for 48 h. Goats differ in the sensitivity of their spermatozoa to the deleterious effects of glycerol. Neither the removal of seminal plasma nor the type of extender had any effect on semen quality before freezing but semen frozen in a Tris-citric acid-glucose (TCG) buffer with egg yolk without removal of the seminal plasma had better quality after thawing than semen frozen in another diluent or after removal of seminal plasma. Remarkably no significant correlation between fertility and membrane integrity of spermatozoa could be found. Thus, although integrity assays for spermatozoa are useful to asses resistance to semen handling, the validity of these assays for predicting fertility is questioned.     

The effect of glycerol concentration and cooling velocity on cryosurvival of ram spermatozoa frozen in straws

The effect of varying the concentration of glycerol from 0 to 16% on the survival of ram spermatozoa frozen at increasing rates of cooling (1–100 °C/min) or by direct plunging of spermatozoa in 0.5-ml straws in liquid nitrogen was studied after thawing at a constant rate (in water at 39 °C for 30 sec). For each glycerol concentration, the ram spermatozoa tolerated a range of cooling velocities and the best survival rates (percentage motility and rating) were obtained when the glycerol concentration was 4 or 6% and when the rate of freezing ranged from 10 to 100 °C/min. No spermatozoa survived in any glycerol concentration following freezing in straws plunged into liquid nitrogen. In general, the range of cooling rates shifts to lower values as the glycerol concentration increases for optimum cryosurvival. However, the toxic effect of increasing the concentration of glycerol over 8% contributes greatly to the gradual decrease in cryosurvival of spermatozoa at these particular concentrations.     

Combined effect of glycerol concentration and cooling velocity on motility and acrosomal integrity of boar spermatozoa frozen in 0.5 ml straws

The interaction of glycerol concentrations of 0-10% and cooling rates from 1 to 1,500 degrees C/min with boar spermatozoa motility and acrosomal integrity (proportion of spermatozoa with normal apical ridge) was studied after thawing 0.5 ml straws at a constant rate. While increasing the glycerol concentration from 0 to 4% progressively improved motility, the percentage of spermatozoa with a normal apical ridge gradually decreased. The magnitudes of the respective changes depended on cooling rate. A peak value of 48.1% and rating 3.8 were obtained in semen protected with 4% glycerol, frozen at 30 degrees C/min. Increasing the glycerol levels above 6% resulted in a gradual decrease in motility. The proportion of spermatozoa with normal apical ridge was highest in semen protected with 0-1% glycerol after cooling at 30 degrees C/min (64.4% and 66.1%, respectively), but at these glycerol concentrations the percentage of motile spermatozoa was low. At the 30 degrees C/min cooling rate, the decline in the proportion of cells with normal apical ridge due to increasing the glycerol levels to 3 and 4% was relatively slow (57.3% and 49.4%, respectively). Cooling at 1 degrees C/min was detrimental to acrosomal integrity, which decreased with increasing glycerol concentration, in contrast to increasing motility, which even at its maximum, remained low. The direct plunging of straws into liquid nitrogen (1,500 degrees C/min) resulted in damaged acrosomes in all spermatozoa with the total loss of motility. Balancing motility and acrosomal integrity, freezing boar semen protected with 3% glycerol by cooling at 30 degrees C/min resulted in optimal survival for boar semen frozen in 0.5 ml French straws.     

Effect of N-acetyl-D-glucosamine, and glycerol concentration and equilibration time on acrosome morphology and motility of frozen-thawed boar sperm.

A series of experiments were conducted to determine the effect of N-acetyl-D-glucosamine, glycerol concentration and equilibration time for the freezing of boar spermatozoa in 5 ml maxi-straws. The optimum final glycerol concentration in the diluent with 0.05% N-acetyl-D-glucosamine in the first diluent was 2-3% and the optimum glycerol equilibration time was 2-3h. In conclusion, we recommend the first diluent containing 11% lactose hydrate, 20% egg yolk and 0.05% N-acetyl-D-glucosamine in 100ml distilled water, and the second diluent containing 11% lactose hydrate, 20% egg yolk, 4% glycerol and 1% orvus es paste for the diluents of boar sperm freezing. Also, we found out that 0.05% soluble N-acetyl-D-glucosamine was the optimum concentration in the first diluent and a concentration of 0.05% soluble N-acetyl-D-glucosamine significantly enhanced the cryopreservation of boar spermatozoa.     

Fertilizing potential of mouse spermatozoa cryopreserved in a medium containing whole eggs

Experiments were conducted to improve survival of mouse spermatozoa through the cryopreservation process. In the first experiment, percentages of motile spermatozoa and fertilizing capacities of spermatozoa were evaluated when mouse spermatozoa were cryopreserved using three previously reported cryopreservation media: (1) 18% raffinose in 3% skim milk; (2) Tes/Tris medium containing 25% egg yolk and 1.25% glycerol; and (3) PBS containing 18% raffinose and 1.75% glycerol, each at three different cooling rates (-3, -10, and -50 degrees C/min). Spermatozoa frozen in the skim milk/raffinose medium exhibited the highest percentage of motile spermatozoa (39%) when cells were frozen at -10 degrees C/min (P<0.05). The second experiment evaluated the effects of modifying the Tes/Tris/egg yolk medium, comparing different concentrations of egg yolk, BSA, and sodium dodecyl sulfate. Reducing egg yolk from 25% of the medium volume to 5%, increased percentages of motile spermatozoa after cryopreservation from 29 to 36% (P<0.05). Addition of 1% BSA and sodium dodecyl sulfate to medium containing 5% egg yolk further improved percentages of motile spermatozoa after freezing. In the final experiment, 20% whole egg was substituted for 5% egg yolk and 1% BSA used in previous experiments and resulted in percentages of motile spermatozoa (51%) equal to that of the skim milk-raffinose medium. However, fertility rates were higher (68%) than for spermatozoa frozen in the skim milk-raffinose medium (P < 0.05) and were comparable to the fertility rates of fresh spermatozoa (77%; P>0.05). In conclusion, freezing mouse spermatozoa in a medium containing 20% whole egg, 0.035% sodium dodecyl sulfate, and 1.25% glycerol using a cooling rate of -10 degrees C/min preserves the motility and fertilization capacity of mouse spermatozoa.     

Effects of egg yolk and glycerol levels in lactose-EDTA-egg yolk extender and of freezing rate on the motility of frozen-thawed stallion spermatozoa

Two experiments were designed to evaluate the effects of egg yolk and glycerol concentrations, freezing rate, and clarification of a lactose-EDTA-egg yolk extender on the post-thaw motility of stallion spermatozoa. In both experiments there was no influence of freezing rate (vapor vs controlled) on the percentage of progressively motile spermatozoa after thawing. Furthermore, no significant interaction among treatments was detected. In Experiment 1, clarified (centrifuged at 34,400 × g for 30 min) lactose-EDTA-egg yolk extenders containing 16 or 20% egg yolk and 3 or 4% glycerol were superior to those containing 12% egg yolk or 2% glycerol, based on the percentage of progressively motile stallion spermatozoa at 0, 30, 60, and 90 min after thawing. However, in Experiment 2, clarification of the lactose-EDTA-egg yolk extender was detrimental to the ability of the stallion spermatozoa to survive after thawing; 4% glycerol was superior to 2% glycerol. The best extender based on the percentage of progressively motile spermatozoa after thawing was nonclarified lactose-EDTA-egg yolk extender containing 20% egg yolk and 4% glycerol.     

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.     

Lactose-egg yolk diluent supplemented with N-acetyl-D-glucosamine affect acrosome morphology and motility of frozen-thawed boar sperm

These experiments were carried out to investigate the effect of N-acetyl-D-glucosamine, and to obtain additional information about the effect of orvus es paste (OEP) and egg yolk concentration in the freezing of boar sperm in the maxi-straw. The highest post-thaw acrosomes of normal apical ridge (NAR) and motility were obtained with 0.025 or 0.05% N-acetyl-D-glucosamine concentration in the first diluent. However, there were no effects of N-acetyl-D-glucosamine among the diluents with or without N-acetyl-D-glucosamine at the second dilution. The N-acetyl-D-glucosamine in the first and second diluents was added at room temperatures (20-23 degrees C) and 5 degrees C, respectively. It is suggested that the temperature of N-acetyl-D-glucosamine addition is important for the effect of boar sperm protection during freezing and thawing. When the 0.05% N-acetyl-D-glucosamine was supplemented in the first diluent, the optimum final OEP content was 0.5%. The optimum content of egg yolk in the diluent with 0.05% N-acetyl-D-glucosamine concentration was 20% and egg yolk was one of the main cryoprotective agents. In conclusion, we found out that the diluent with 0.025 or 0.05% soluble N-acetyl-D-glucosamine in the first diluent, 0.5% final orvus es paste concentration and 20% egg yolk concentration significantly enhanced NAR acrosomes and motility of boar sperm after freezing and thawing.     

Partially irreversible cold-induced lipid phase transitions in mammalian sperm plasma membrane domains: freeze-fracture study

In an effort to investigate the nature of the cellular injury caused when mammalian spermatozoa are cooled prior to cryopreservation, the occurrence of thermal phase transitions amongs the lipid components of the sperm plasma membrane was investigated by the use of freeze-fracture electron microscopy. The mechanisms by which glycerol and egg yolk exert protective effects during semen cooling and freezing were also examined. Ram and blackbuck spermatozoa, maintained at 30 degrees C prior to fixation at this temperature, exhibited randomly distributed intramembranous particles over the acrosomal, postacrosomal, and flagellar regions of the plasma membrane. In contrast, spermatozoa fixed at 5 degrees C after slow cooling to this temperature exhibited particle clustering over the postacrosomal region of the head as well as over the tail. These effects were not influenced by the presence of egg yolk or glycerol during the cooling procedure, although these substances protected the spermatozoa against loss of motility. Particle clustering over the sperm tail, induced by the slow cooling process, was found to be only partially reversible. The extensive areas of particle-free lipid, noted to result from the cooling procedure, were absent if the spermatozoa were rewarmed to 30 degrees C; however, the original distribution of particles was not restored and numerous small particle-free domains persisted. It is proposed that this type of irreversible change within the sperm plasma membrane may contribute to the loss of motility and fertility suffered by spermatozoa after cooling and freezing. Furthermore, it is suggested that protective substances such as egg yolk may exert their effects by countering these deleterious changes, rather than by preventing their occurrence.     

Post-thaw plasma membrane integrity of bull spermatozoa separated with a Sephadex ion-exchange column

Previous experiments have established that filtration of bovine semen through a Sephadex ion-exchange column improves its quality before and after freezing. The present study was conducted to determine the post-thaw membrane integrity of bull spermatozoa separated with a Sephadex ion-exchange column and to determine the kind of protection to spermatozoa is provided by glycerol during freezing and thawing. Semen from Holstein bulls diluted in TEST-yolk extender (with and without glycerol) was filtered through a Sephadex ion-exchange column and frozen in liquid nitrogen (-196 degrees C). After thawing, there were more normal acrosomes in filtered spermatozoa than nonfiltered (P < 0.01). Post-thaw plasma membrane integrity and swelling ability in a hypoosmotic solution revealed that the filtered spermatozoa had a stronger (P < 0.005) plasma membranes than the nonfiltered. Filtered spermatozoa demonstrated higher zona-free hamster oocyte penetration than the nonfiltered (30.5 vs 11.5%; P < 0.0005). Spermatozoa extended in TEST-yolk without glycerol had the lowest (P < 0.001) normal acrosomes, intact plasma membranes and swelling ability. Plasma membrane over the post-acrosomal region of the head and post-midpiece region of the tail was more sensitive to damages caused by freezing and thawing than acrosomal and midpiece regions of spermatozoa. Glycerol in the extender provided significant (P < 0.05) protection to the sensitive regions of filtered and nonfiltered spermatozoa during freezing and thawing. Filtered plus glycerolated spermatozoa had the highest (P < 0.01) normal acrosomes, intact plasma membranes and swelling ability. In conclusion, the pre-freezing filtration of bovine semen harvested the spermatozoa possessing stronger plasma membranes which enabled them to endure freezing and thawing stresses. The addition of glycerol to the extender protected the post-acrosomal region of the head and post-midpiece region of the tail of spermatozoa from freezing and thawing shocks.     

Cryopreservation of Iberian red deer (Cervus elaphus hispanicus) epididymal spermatozoa: effects of egg yolk, glycerol and cooling rate

Two experiments were conducted to determine the effects of egg yolk (EY), glycerol, and cooling rate on the cryosurvival of red deer epididymal spermatozoa. The aim of Experiment 1 was to examine the effects of two EY types (clarified EY, CE, prepared by centrifugation, and whole EY, WE), and four EY concentrations (0, 5, 10 and 20%) on cryosurvival of red deer epididymal spermatozoa. Sperm samples were diluted to a final sperm concentration of approximately 200 x 10(6)spermatozoa/ml with a Tris-citrate-fructose-EY extender (TCF) prior to freezing. Sperm cryosurvival was judged in vitro by microscopic assessments of individual sperm motility, viability and of plasma membrane (by means of the HOS test) and acrosome (NAR) integrities. Cryopreservation of red deer epididymal spermatozoa frozen in a clarified EY extender, and with a 20% EY resulted in more vigorous post-thaw and post-incubation motilities (P<0.0001). Moreover, our results showed that regardless of the egg yolk concentration tested, the best sperm quality was obtained with the use of CE. Therefore, the objective of Experiment 2 was to explore the post-thaw effects of four clarified egg yolk concentrations (0, 5, 10 and 20%), two final glycerol concentrations (3 and 6%), and two cooling rates from 22 to 5 degrees C (slow: 0.23 degrees C/min; rapid: 4.2 degrees C/min) on red deer epididymal spermatozoa. At thawing, the effects of CE and glycerol concentrations, and cooling rate, all independently affected post-thaw sperm quality, while there were no effects of interactions on post-thawing sperm quality. Therefore, we studied each variable separately. Differences (P<0.05) for most of the semen parameters evaluated were found between the two final glycerol concentrations tested, with the high values after thawing found with the use of 6% glycerol (58.8+/-1.4 versus 46.2+/-1.4, for sperm motility). Moreover, the cooling rate did not have an effect on the semen characteristics, except for NAR (P<0.05), with the high values after thawing found with the use of the rapid protocol (64.5+/-1.4 versus 59.9+/-1.4). In conclusion, the use of 20% CE and 6% glycerol in combination with a rapid cooling rate, significantly improved red deer epididymal spermatozoa freezability.     

Effect of egg yolk, cryoprotectant, and various sugars on semen cryopreservation in endangered Cuvier's gazelle (Gazella cuvieri)

Cryopreservation of spermatozoa from endangered species is a valuable tool for genetic management. Previous studies showed the feasibility of cryopreservation of spermatozoa from various endangered gazelles but have also revealed difficulties with available protocols for semen freezing in Cuvier's gazelle (Gazella cuvieri). Experiments were carried out to investigate the effect of (a) 5% or 20% egg yolk or 4% or 6% glycerol, and (b) addition of sugars (glucose, fructose, lactose and raffinose) on cryopreservation using a Tes-Tris-based diluent (TEST). A diluent containing 13.5% raffinose, 5% or 20% egg yolk, and 6% glycerol (REYG) was also evaluated. Semen was obtained by electroejaculation from 22 G. cuvieri males. Diluted samples were loaded into 0.25 ml straws, cooled to 5 °C over 1.5 h (−0.16 °C/min), equilibrated at that temperature for 2 h, frozen in nitrogen vapours for 10 min and plunged into liquid nitrogen. Subsamples were assessed for motility and acrosome integrity upon collection, after refrigeration–equilibration, after freezing and thawing, and 2 h after thawing. Use of TEST with 20% egg yolk or with 4% glycerol led to worse motility preservation, whereas TEST with 5% egg yolk and 6% glycerol led to better results. Addition of fructose, lactose or raffinose to TEST resulted in similar or worse preservation of motility than inclusion of glucose. On the other hand, use of a raffinose-based medium with 20% egg yolk and 6% glycerol (REYG) afforded better preservation of motility than use of TEST. With REYG, 20% egg yolk was better than 5% egg yolk for motility preservation. Differences were noted between males in their responses to cryopreservation when using different egg yolk or glycerol concentrations. Moreover, spermatozoa from most males exhibited better cryopreservation with REYG although some were better cryopreserved in TEST. The raffinose-based diluent thus represents an improvement over previous results but more work is needed to better characterize cryopreservation conditions for future routine banking of Cuvier's gazelle spermatozoa.