Cryoprotective effect of antifreeze polyamino-acid (Carboxylated Poly-l-Lysine) on bovine sperm: A technical note

In this study, investigating Carboxylated Poly-l-Lysine (CPLL) for its effectiveness as a new cryoprotectant for bovine sperm is aimed. CPLL is an ampholytic polymer compound, has cryoprotective properties similar to those of anti-freeze protein. The cryopreservation medium used for control group consisted of 6.5% (v/v) glycerol, the cryopreservation medium used for experimental group consisted of 3.25% (v/v) glycerol + 0.5% (w/v) CPLL. There was no consequential difference in sperm motility parameter after thawing whereas there was huge distinction for sperm membrane integrity rate (control vs experimental; 49.6 vs 60.7%, P < 0.01). Conception rate of artificial insemination of experimental group was significantly higher than that of control group (79.0% vs 53.1%, P < 0.01). These results suggest CPLL has protected sperm membrane and leads to improve fertility. This is the first report using CPLL for bovine sperm cryopreservation, it is also expected CPLL can be applied to other animal species.     

The uptake of glycerol, alpha-aminoisobutyric acid and 2-deoxy-D-glucose by spermatozoa of a line of chickens selected for fertility of frozen-thawed semen and a control line

The uptake of glycerol, alpha-aminoisobutyric acid and 2-deoxy-D-glucose by fowl spermatozoa was each measured in two trials using seventh generation males of a line selected for duration of fertility of frozen-thawed semen and those of a randomly selected control line. The selected line had significantly (P< 0.01) higher fertility of frozen-thawed and fresh semen than the control line. The association between glycerol level in spermatozoa before freezing and the fertility of frozen-thawed semen was examined. Significantly greater amounts (CPM/10(9) cells) of glycerol, alpha-aminoisobutyric acid and 2-deoxy-D-glucose were taken up by the spermatozoa of the selected line than those of the control line at 15, 30 and 60 min of incubation. Rank correlations between the fertility of frozen-thawed semen and glycerol levels were generally positive but low in magnitudes.     

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.     

Detection of lipid peroxidation in frozen-thawed avian spermatozoa using C(11)-BODIPY(581/591)

The aim of this study was to perform flow cytometric analysis of C11-BODIPY581/591 oxidation in fowl and geese sperm as a marker for membrane lipid peroxidation (LPO) and to establish if the cryopreservation process would make sperm membranes more susceptible to oxidative stress. The experiment was carried out on 10 meat type line Flex roosters and 10 White Koluda® geese. The semen was collected two times a week, by dorso-abdominal massage method and pooled from 10 individuals of each species. Fowl semen samples were subjected to cryopreservation using the “pellet” method and Dimethylacetamide (DMA) as a cryoprotectant. Geese semen samples were cryopreserved in plastic straws in a programmable freezing unit with Dimethyloformamide (DMF) as the cryoprotectant. A fluorescent lipid probe C11-BODIPY581/591 provided with two double bonds that are oxidized during their contact with ROS, was used for the purpose of the assessment of the LPO in freshly diluted semen samples and frozen-thawed semen samples. This probe changes its color according to its state (non peroxidized: red; peroxidized: green). Flow cytometric analysis was used to monitor these changes. The White Koluda® geese fresh semen had a higher level of LPO than the Flex fresh semen (P > 0.01). The cryopreservation of fowl semen significantly (P > 0.01) increased the percentage of live and dead spermatozoa with lipid peroxidation. In frozen-thawed semen of White Koluda® geese the percentage of live spermatozoa with LPO significantly decreased (P > 0.05) whereas significantly (P > 0.01) higher level of dead cells with LPO was observed. There were significant differences between the two studied species. After thawing, the percentage of live and dead spermatozoa with lipid peroxidation was higher in fowl semen than in geese semen (P > 0.01). In conclusion, our data clearly indicate the existence of species specific differences in susceptibility of spermatozoa to the oxidation of PUFAs in the cell membranes, where such oxidation is caused by cryopreservation. This study shows that avian spermatozoa are vulnerable to radicals and frozenthawed sperm have higher level of LPO than fresh sperm. According to our observation, fowl semen is more susceptible to LPO than geese semen.     

Optimization of the cryopreservation of dromedary camel semen: Cryoprotectants and their concentration and equilibration times

Research into an optimal cryoprotectant, its concentration and equilibration time underlies the successful cryopreservation of dromedary camel spermatozoa. This study assessed the cryo-efficiency of different cryoprotectants, their concentration and equilibration time and any interactions. In experiment 1, semen samples (n = 4 males; 2 ejaculates/male) were frozen using Green Buffer containing one of four cryoprotectants (3% glycerol, ethylene glycol, methyl formamide, dimethyl sulfoxide) and using 4 equilibration times (10 min, 0.5, 1 and 2 h). Glycerol and ethylene glycol provided the best motility recovery rates and different equilibration times were not significant for any cryoprotectant nor were any interactions noted. However different equilibration times were pertinent for improved kinematic parameters BCF and VSL. In experiment 2, glycerol and ethylene glycol were evaluated at 4 concentrations (1.5, 3, 6, 9%) with 0.5 h equilibration (n = 4 males, 3 ejaculates/male). Sperm motility recoveries, kinematics and acrosome status were assessed. Higher values for LIN and STR were found with ethylene glycol. At 0 and 1 h post thaw 3 and 6% of either cryoprotectant resulted in better motility values than 1.5%. Acrosome integrity was compromised at 9% cryoprotectant. There were interactions between cryoprotectant and concentration in total motility at 0 and 1 h. For glycerol, total motility recoveries were best at 3–9%; for ethylene glycol 1.5–6% were best at 0 h and 3–6% at 1 h. In conclusion, 3–6% glycerol or ethylene glycol offered the best cryoprotection for camel sperm while different equilibration times were not critical.     

Effects of different cryoprotective agents on ram sperm morphology and DNAintegrity

This study investigates the effects of glycerol, 1,2 propanediol, sucrose, and trehalose on post-thaw motility, morphology, and genome integrity of Awassi ram semen. Ejaculates of thick consistency with rapid wave motion (>+++) and >70% initial motility were pooled. Sperm were diluted to a final concentration of 1/5 (semen/extender) in 0% cryoprotectant, 6% glycerol, 6% 1,2 propanediol, 62.5 mM sucrose or 62.5 mM trehalose using a two-step dilution method. The equilibrated semen was frozen in 0.25-ml straws. Semen samples were examined for sperm motility, defective acrosomes (FITC-Pisum sativum agglutinin (FITC PSA)), DNA integrity (acridine orange staining (AO)) and apoptotic activity (terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) and Caspase-3 activity) at four time points: after dilution with extender A, after cooling to 5 °C, after equilibration and post-thaw. Freezing and thawing procedures (cooling at 5 °C, dilution, equilibration, and thawing) had negative effects on motility (P < 0.001), acrosome integrity (P < 0.001), and DNA integrity as determined by AO (P < 0.001) and TUNEL (P < 0.001) assays. There were positive correlations between sperm with defective acrosomes and apoptotic (AO- and TUNEL-positive) spermatozoa. In contrast, a significant negative correlation was found between sperm motility and defective acrosomes and AO- and TUNEL positivity (P < 0.01). The cryopreservation process acts as an apoptotic inducer in ram semen; all cryoprotectants used in the present study allowed apoptosis to some extent, with negative effects on sperm morphology and DNA integrity. The glycerol group performed better than the propanediol, sucrose, trehalose, and control groups in terms of post-thaw sperm motility but not DNA integrity.     

Artificial insemination of sheep: Effects on fertility of number of spermatozoa inseminated and of storage of diluted semen for up to 18 hours at 5°C

Ram semen was prepared in a buffered glucose-saline solution containing 3% (v/v) egg yolk so that insemination doses of 25 or 100 million spermatozoa in volumes of 50 or 250 μl could be given per ewe at artificial insemination (AI). Fertility was significantly reduced by dilution and, within the treatments of diluted semen, significantly higher lambing rates followed the use of doses of 100 million spermatozoa. The volume of the AI dose had no significant effect on fertility.Of 945 inseminations performed using diluted semen, 388 were with samples that had been cooled to 5°C and stored chilled for 5 or 18 hr. The mean lambing result of 40% for freshly diluted semen was significantly higher than 31.6% and 30.2% for samples stored chilled for 5 and 18 hr respectively. Ewes inseminated with doses of chilled semen containing 25 million spermatozoa had a low lambing rate of 21.3%. The presence of 7.5% glycerol (v/v) in the diluent did not significantly affect the fertility of chilled semen.     

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.     

Differences in ability of jennies and mares to conceive with cooled and frozen semen containing glycerol or not

A suitable method for the cryopreservation of donkey semen would be very valuable for the ex situ management of genetic diversity in this species. This report uses a variety of observation and trials to evaluate the effect of cryoprotectants in per-cycle pregnancy rates (PC) in equids females (jennies (donkey) and mares (horse)). This was explored by (1) comparing the results of insemination of jennies and mares with cooled or frozen donkey semen, (2) examining the possible toxic effect of the cryoprotectant (CPA) glycerol in these two species and (3) studying alternative solutions. Donkey and horse semen was either used immediately, or cooled according to some steps of the pre-freezing procedure or frozen and thawed. The pre-freezing procedure included semen dilution, centrifugation, resuspension in milk or in INRA82+2% egg yolk+various % CPA (expressed as final concentrations in extended semen (v/v)) and then cooling to 4 degrees C. PC was similar in mares and jennies inseminated with donkey semen cooled to 4 degrees C in milk. However, the PC was significantly higher in mares than in jennies when donkey semen was frozen with 2.2% glycerol (36%, n=50 cycles vs. 11%, n=38 cycles; P<0.01). Increasing the concentrations of glycerol (0, 2.2, 3.5, 4.8%) before cooling stallion semen resulted in a progressive decrease in mare PC (87, 53, 53, 13% (n=15 cycles for each concentration); P<0.0001). The addition of 2.2% glycerol before cooling donkey semen decreased the PC measured in jennies to 0. The replacement of glycerol by 2% dimethylformamide increased the fertility obtained in jennies with cooled donkey semen (PC: 67%, n=12 cycles) but did not increase the fertility obtained with frozen-thawed donkey semen (PC: 11%, n=28 cycles with dimethylformamide vs. 0%, n=16 cycles with glycerol). In conclusion, this study clearly shows that the ability of jennies to conceive after AI with donkey frozen semen is lower than that of mares. Glycerol affects the fertility of donkey and stallion spermatozoa as early as during the pre-freezing procedure. In consequence, the glycerol level must be low in frozen equine semen to provide good fertility. The toxic dose of glycerol for donkey spermatozoa seems to be almost half that for stallion spermatozoa. Whether this greater sensitivity of donkey spermatozoa to glycerol is responsible for the low success of semen cryopreservation in jennies is not so obvious because replacement of glycerol by dimethylformamide was not much more effective in terms of fertility.     

Cryopreservation of turkey semen: Effect of breeding line and freezing method on post-thaw sperm quality,fertilization, and hatching

Cryopreservation methods for poultry semen are not reliable for germplasm preservation, especially for turkeys, where fertility rates from frozen/thawed semen are particularly low. The objective was to evaluate cryopreservation methods for effectiveness in promoting cryosurvival and post-thaw function of sperm from five turkey lines: one commercial line and four research (RBC1; E; RBC2; F) lines from Ohio State University (OSU). The model for cryopreservation was set up as a 2 × 2 × 2 × 5 design for cryoprotectant (glycerol or dimethylacetamide (DMA)), cryopreservation medium (Lake or ASG), method of dilution (fixed dilution volume versus fixed sperm concentration) and turkey line, respectively. The final cryoprotectant concentrations were 11% glycerol or 6% DMA. Thawed sperm were evaluated for plasma membrane integrity and quality, motility, acrosome integrity and, after artificial insemination, for egg fertility and hatchability. Commercial turkey hens were used for all fertility trials, regardless of semen source. Turkey sperm frozen with glycerol exhibited higher membrane integrity and membrane quality upon thawing than turkey sperm frozen with DMA although no differences in total motility, and only minimal differences in progressive motility, were detected among the eight cryopreservation treatments. Within line, fertility was affected by cryoprotectant, medium and dilution method, where the overall highest percentages of fertile, viable embryos (Day 7) occurred for the DMA/ASG/fixed sperm concentration method, while high percentages (15.8–31.5%) of fertile, non-viable embryos (Day 1–6) were observed for multiple cryopreservation methods, including two glycerol treatments. From a single insemination, the duration of true and viable fertility in all lines was 10–13 weeks and 9–10 weeks, respectively. The duration of hatchability was 4–6 weeks after insemination for four of the turkey lines. The highest percentage of viable embryos was observed for the commercial line (9.5 ± 2.4%), followed by the E line (5.3 ± 1.3%), F line (3.7 ± 2.0%) and RBC2 line (2.6 ± 0.8%). For the RBC1 line, there was 100% embryonic death by Day 6 of incubation. Overall, better fertility results were obtained with the cryoprotectant DMA, the ASG diluent and fixed sperm concentration. However, the applicability of this method for preserving semen from research populations may be line dependent.     

In vitro comparison of fowl sperm viability in ejaculates frozen by three different techniques and relationship with subsequent fertility in vivo.

A series of experiments was conducted to compare the viability of fresh fowl spermatozoa, samples suspended in three cryoprotectants (CPAs), frozen/thawed samples, and frozen/thawed samples maintained in vitro for up to 24 h. The CPAs used were glycerol (Glyc), dimethylacetamide (DMA), and dimethylformamide (DMF). Viability was assayed using two double stains, Eosin + Nigrosin or SYBR-14 + PI (propidium iodide). Semen samples examined with SYBR-14 + PI indicated significant differences in viability between fresh and ready-to-freeze preparations (fresh, 83%; Glyc, 73%; DMA, 74%; DMF, 72%; P < 0.05). In contrast, Eosin + Nigrosin did not detect any difference at this stage (fresh, 88%; Glyc, 86%; DMA, 87%; DMF, 88%; P > 0.05). The percentages of viable spermatozoa in frozen/thawed ejaculates stored in vitro for 0, 4, and 24 h were generally higher in samples treated with glycerol than in those treated with DMA or DMF, irrespective of the technique used to assess sperm viability (P < 0.05). Fertility in eggs obtained from hens inseminated with semen frozen in DMA reached levels comparable to those obtained from hens inseminated with fresh undiluted semen (88 and 93%, respectively; P > 0.05). In contrast, fertility of eggs from hens inseminated with semen frozen in DMF or glycerol was significantly lower, although still very good, than that observed in eggs from hens inseminated with semen frozen/thawed in DMA (79 and 76%, respectively; P < 0.05). Finally, the double stain SYBR-14 + PI was proven more effective than Eosin + Nigrosin to assess sperm viability in fresh, stored, and frozen fowl semen. However, additional tests (e.g., morphology, acrosomal status, motility) remain necessary to develop a working model of in vitro sperm analysis capable of revealing the fertilizing potential of fresh and frozen fowl spermatozoa.     

Individual variability in post-thaw sperm survival in a captive koala population

This study documented the extent of individual animal variation with respect to two proven methods of sperm cryopreservation in a captive population of 22 koalas. Semen samples were collected by electroejaculation, diluted in Tris–citrate glucose and equilibrated to 4 °C before being further diluted and frozen in media containing a final concentration of either 14% (v/v) glycerol or 12.5% (v/v) dimethylacetamide (DMA). There were significant differences in post-thaw survival of spermatozoa from different animals that were independent of pre-freeze semen quality. Glycerol proved to be a better cryoprotectant than DMA in terms of maintaining motility, plasma membrane integrity and high mitochondrial membrane potential; however, there was no difference between cryoprotectants with regards to their ability to prevent chromatin relaxation. While a positive correlation was observed between motility and mitochondrial membrane potential, both before and after cryopreservation, the slopes of the pre-freeze regression lines of these relationships were significantly altered following cryopreservation, suggesting that the efficiency of energy generation by the mitochondria was lowered by the freeze–thaw process. Based on a cluster analysis of the post-thaw semen viability parameters, the koalas in this study could be divided into two distinct groups; Cluster 1 had significantly higher sperm viability compared to the other cluster, regardless of the cryoprotectant used. The unpredictability of assessing post-thaw survival from pre-freeze koala semen parameters requires further investigation but is likely to be associated with variation in ejaculate composition or inherent genetic differences between animals.     

French field results (1985-2005) on factors affecting fertility of frozen stallion semen

Results on procedures for freezing stallion semen and the subsequent fertility during 20 years are presented. The present system applied in French National Stud includes: (1) a freezing protocol (dilution in milk, centrifugation and addition of freezing extender (INRA82+egg yolk (2%, v/v)+glycerol (2.5%, v/v) at 22 degrees C, a moderate cooling rate to 4 degrees C and freezing at -60 degrees C/min in 0.5-ml straws); (2) selection of ejaculates showing post-thaw rapid motility >35%; and (3) an insemination protocol (mares examined once daily, two AI of 400 x 10(6) spermatozoa 24 h apart before ovulation, sufficient number of straws to have the possibility to perform six AI of 400 x 10(6) total spermatozoa, i.e. 2.4 x 10(9) total spermatozoa available per mare per season). This system was applied to >110 stallions per year, the average post-thaw motility of ejaculates was 50% (>1800 ejaculates) before selection. The semen freezability was defined as the number of selected ejaculates divided by the total number of ejaculates frozen. Of the stallions, 5, 4, 5, 21 and 64% had semen freezability of 0-10, 10-33, 33-60, 60-90 and over 90%, respectively. Per-cycle pregnancy rate was 45-48% (>1500 mares per year, 1.8 cycles per mare) and foaling rate 64%. In comparison, per-cycle pregnancy rate and foaling rate of mares hand-mated to stallions were 57-59% and 64%, respectively. The average number of straws used was 32-35 (1.75 x 10(9) total spermatozoa) per mare per season. According to our results and the literature, the most important factors for improving fertility of frozen equine semen include: (1) a low concentration of glycerol (2-3.5% final concentration); (2) a suitable base extender for freezing like Lactose-Glucose EDTA or INRA82; (3) a post-thaw motility >30-35%; and (4) a sufficient number of spermatozoa per mare per season (1.5-2 x 10(9) total spermatozoa for two to three cycles) divided into small units. Numbers of spermatozoa, lower than 750.10(6) total spermatozoa per cycle, could result in lower per-cycle pregnancy rate with higher additional costs for management of mares. Because there are no particular regulations on quality and quantity of equine semen in the European Community, there is a need for the uniformity of information about frozen semen. A codification is suggested, based on the number of spermatozoa available per mare per season, the post-thaw motility and the final glycerol concentration.     

Cry (preservation of spermatozoa of the whitefish Coregonus muksun Pallas

The cryopreservation methods for whitefish, Coregonus muksun , spermatozoa were studied using six different extenders with -40°C and -196°C as storing temperatures. In 1980, the spermatozoa of individual fishes were frozen in dry ice, in vials containing three different media based on glycerol as cryoprotectant. The pure glycerol media resulted in a 20% average rate of fertilization when samples were stored at — 40°C. The thawing procedure did not affect fertilization. In 1981, the sperm of individual fishes was frozen in pellets and stored in liquid nitrogen. Cryopreserved semen thawed in 0·119M NaHCO₃ produced 29·6–87·7% eyed eggs. The differences were caused mainly by the type of extender. The highest rate of fertility was obtained using an extender consisting of 0·3 M glucose with 20% glycerol (87·7% eyed eggs; 98·6% eyed eggs when compared to the corresponding control). The same values, using the modified extender of Stoss (Stoss & Refstie, in press), were 38·7–82·4% and, on the average, 90% eyed eggs, respectively.     

Semen cryopreservation of yellow croaker <Emphasis Type="Italic">Larimichthys polyactis</Emphasis>

The effects of various extenders and cryoprotectants on movable spermatozoa ratio (MSR), spermatozoa velocity (SV) and duration of spermatozoa motility (DSM) of post-thawed spermatozoa were examined. The MSR, SV and DSM of post-thawed sperm in artificial seminal plasma (ASP) extender were higher than those in marine fish Ringer’s solution (MFRS) extender (P < 0.01) and was not significantly different from that of fresh sperm. No significant differences were observed in the motility parameters between fresh spermatozoa and frozen-thawed spermatozoa cryopreserved with ASP extender supplement 10% EG (ethylene glycol) cryoprotectant. Using the above method, yellow croaker semen was cryopreserved with extender ASP and 10% EG. As a result, at the spermatozoa/egg ratio of 100,000:1, the fertilization rate and hatching rate of the frozen-thawed spermatozoa cryopreserved for 1 week or 1 year in liquid nitrogen (45.7 ± 3.2% and 27.2 ± 5.0% or 37.5 ± 4.4% and 27.2 ± 5.0%) were similar to that of fresh spermatozoa (51.0 ± 3.1% and 36.7 ± 2.2%). There was a small alternation of shape in cryopreserved spermatozoa compared with fresh spermatozoa. In conclusion, the optimal conditions for yellow croaker semen cryopreservation are ASP extender supplement 10% EG cryoprotectant. This is the first report on semen cryopreservation of yellow croaker Larimichthys polyactis.     

Incorporation of penetrating cryoprotectants in diluents for pellet-freezing ram spermatozoa

Glycerol may be toxic to frozen-thawed ram spermatozoa and reduce their fertilizing capacity. This study examined the cryoprotective effects of dimethyl sulphoxide (DMSO), ethylene glycol, glycerol and propanediol alone and in combinations with each other in Triscitrate-glucose diluents on the post-thaw motility and acrosome integrity of pellet-frozen ram spermatozoa. The 4 cryoprotectants were examined in diluents at 5 concentrations (0, 1.5, 3.0, 6.0, 12.0% v/v). Post-thaw motility of spermatozoa was higher in diluents containing ethylene glycol (1.5 to 6.0% v/v), glycerol (at all levels tested) and propanediol (1.5 and 3.0% v/v) than in diluents without cryoprotectant (P<0.001), but there was no effect of DMSO on post-thaw motility. Motility of spermatozoa was higher in diluents containing ethylene glycol or glycerol than DMSO or propanediol (P<0.001). In diluents containing the 4 cryoprotectants at 3 concentrations (1.5, 3.0, 6.0% v/v), better recovery of spermatozoa was found with the addition of 18.0 than 4.5% v/v egg yolk. Combinations of ethylene glycol and/or propanediol (0 to 6.0% v/v) with glycerol (0 to 6.0% v/v) in diluents were also examined. In the presence of glycerol at all levels tested, increasing levels of ethylene glycol and/or propanediol decreased motility and acrosome integrity of spermatozoa (P<0.001). We conclude that the compounds examined exert a cryoprotective effect on pellet-frozen ram spermatozoa, except for DMSO which had no effect. In this study, glycerol remained the single most effective cryoprotectant, and there was no enhancement of this cryoprotection by addition of the other compounds.     

Antioxidant effect of quercetin in an extender containing DMA or glycerol on freezing capacity of goat semen

This study was performed to evaluate the effectiveness of quercetin as a non-enzymatic antioxidant in combination with glycerol or Dimethylacetamide (DMA), on freezability of goat semen. Ejaculates from four healthy mature Mahabadi goats were collected using an artificial vagina. After primary processing, semen was pooled and extended by egg yolk based extender supplemented with different concentrations of quercetin (10 or 20 μM) along with 5% glycerol or DMA. The extended semen was frozen and sperm motility parameters, viability, abnormality, membrane integrity and lipid peroxidation were assessed after thawing. Results showed that sperm viability, total motility, progressive motility, straightness (STR) and linearity (LIN) were higher (P < 0.05), and abnormality percentage and MDA concentration were lower (P < 0.05) in extender containing DMA. Similarly, higher (P < 0.05) total motility, progressive motility, viability and membrane integrity along with lower (P < 0.05) MDA level were noted in Q10 group. The lowest (P < 0.05) MDA level was observed in DMA extender containing moderate level of quercetin (Q10D). Also the STR was higher (P < 0.05) in Q10D compared to Q10G and Q20G groups. In conclusion, supplementation of extender with 10 μM quercetin in combination with DMA improves the goat sperm motion kinetics and suppresses lipid peroxidation after freezing and thawing. Furthermore, DMA is more effective cryoprotectant for the freezing of goat sperm.     

Consequences of adding gum Arabic as a cryoprotectant on motility and viability of frozen stallion semen

A trial was conducted to check effect of adding gum Arabic (GA) instead of egg yolk (EY) as a cryoprotectant for stallion sperm. Two experiments were designed; experiment I tested adding 3 levels of nonheated GA (i.e., 3, 6 and 9 g/100 mL diluents) in HF-20 extender. However, in experiment II the same levels were tested except that GA was heated at 80 °C for 60 min. HF-20 containing 10% of EY was used as control. In experiment I, sperm frozen in HF-20 containing nonheated GA exhibited lower percentages of motile sperm, progressively motile sperm and sperm with intact plasma membranes, vitality rate, and acrosome integrity after cooling or after deep freezing. Frozen semen in HF-20 containing 3–6% of preheated GA in experiment II maintained sperm motility at 46–50% and elevated progressive motility at 27%. The semen diluted in preheated GA (6%) and frozen exhibited a fertility rate of 40% (2/5). A similar fertility rate (40%) was found in the control semen (i.e. 10%) compared to those that were inseminated with frozen semen in preheated 3% GA (20%, 1/5). These results suggest that preheated GA could be used as an alternative cryoprotectant for cryopreserving stallion sperm.     

Effect of seminal extenders containing egg yolk and glycerol on motion characteristics and fertility of stallion spermatozoa

Three experiments were conducted to evaluate the effects of egg yolk and(or) glycerol added to a nonfat dried skim milk-glucose (NDSMG) extender on motion characteristics and fertility of stallion spermatozoa. In Experiment 1, ejaculates from each of 8 stallions were exposed to each of 4 extender treatments: 1) NDSMG, 2) NDSMG + 4% egg yolk (EY), 3) NDSMG + 4% glycerol (GL), and 4) NDSMG + 4% egg yolk + 4% glycerol (EY + GL). Samples were cooled at -0.7 degrees C/min from 37 to 20 degrees C; subsamples were then cooled at -0.05 or -0.5 degrees C/min from 20 to 5 degrees C. Percentages of motile spermatozoa (MOT) and progressively motile spermatozoa (PMOT) were determined at 6, 24 and 48 h after initiation of cooling. There was no overall effect (P > 0.05) of cooling rate. PMOT was highest (P < 0.05) for spermatozoa extended in NDSMG + GL at 48 h. At 24 and 48 h, MOT and PMOT were lowest (P < 0.05) for spermatozoa extended in NDSMG + EY. In Experiment 2, ejaculates from 8 stallions were exposed to each of 4 treatments: 1) NDSMG, 2) NDSMG + EY, 3) semen centrifuged in NDSMG and resuspended in NDSMG, and 4) semen centrifuged in NDSMG and resuspended in NDSMG + EY. Samples were cooled from 20 to 5 degrees C at each of 2 rates (-0.05, -0.5 degrees C/min). A detrimental interaction between seminal plasma and egg yolk was noted for PMOT at 6 h and for both MOT and PMOT at > or = 24 h postcooling. Experiment 3 determined if egg yolk or glycerol affected fertility. The seminal treatments were 1) NDSMG, 2) NDSMG + EY with previous removal of seminal plasma, and 3) NDSMG + GL. All samples were cooled to 5 degrees C and stored 24 h before insemination. Embryo recovery rates 7 d after ovulation were lower for mares inseminated with spermatozoa cooled in NDSMG + EY (17%, 4/24) or NDSMG + GL (13%, 3/24) extenders, than semen cooled in NDSMG (50%, 12/24). We concluded that egg yolk (with seminal plasma removal) or glycerol added to NDSMG extender did not depress MOT or PMOT of cooled stallion spermatozoa but adversely affected fertility.     

The advantages of LDL (low density lipoproteins) in the cryopreservation of canine semen

A medium containing LDL (Low Density Lipoproteins, the cryoprotective component of chicken egg yolk) was compared with egg yolk for the preservation canine spermatozoa during the freeze–thaw process. Twenty sperm samples taken from 10 dogs were frozen in liquid nitrogen at −196 °C in seven different media: one control medium containing 20% egg yolk, and six test media containing 4%, 5%, 6%, 7%, 8%, and 10% LDL, respectively.Following thawing, sperm motility was assessed using a Hamilton-Thorne Sperm Analyser equipped with the CEROS 12 software. The percentage of motile spermatozoa was 55.3% in the 6% LDL medium (optimal concentration) compared with 27.7% in the egg yolk based medium (p < 0.05).In comparison with the egg-yolk medium, the LDL medium also resulted in an improved preservation of spermatozoa during the freezing process (p < 0.05) in terms of acrosomal integrity (FITC-PSA test), flagellar plasma membrane integrity (HOS test), and DNA integrity (Acridine Orange test).In addition, six Beagle bitches were inseminated twice, via the intra-uterine route, at an interval of 24 h; 200 × 10⁶ spermatozoa that had been previously frozen in the 6% LDL medium were used per insemination. All of the bitches became pregnant (gestation rate of 100%).In conclusion, the 6% LDL medium provides improved protection of the spermatozoa during the freeze–thaw process and a marked improvement in the motility parameters of canine spermatozoa in comparison with the control medium containing egg yolk alone.Finally, the use of LDL as a cryoprotectant for canine semen does not interfere with fertility.