Dialysis of boar semen prior to freezing-thawing: its effects on post-thaw sperm characteristics

Low-molecular weight components of the seminal plasma have a detrimental effect on sperm function. The present study was undertaken to evaluate the effect of the removal of low-molecular weight components by dialysis on sperm characteristics prior to and after freezing. Semen, collected from 5 boars, was extended in Kortowo-3 extender (K-3, Poland) and cooled for 3h (control non-dialysis) or dialyzed for 5h in semi-permeable dialysis bags of 12-14kDa molecular weight cut-off prior to freezing. The semen samples were diluted in lactose-hen egg yolk-glycerol extender (lactose-HEY-G) or lactose-lyophilized lipoprotein fractions-glycerol extender (lactose-LPFo-G), packaged into aluminum tubes and frozen in a controlled programmable freezer. Pre-frozen and frozen-thawed spermatozoa were evaluated for motility, plasma membrane (SYBR-14 and propidium iodide) and acrosome integrity, mitochondrial function (Rhodamine 123) and ATP content. The results of the study showed that dialysis significantly improved the sperm characteristics prior to freezing. Dialysis enhanced (P<0.05) post-thaw sperm motility, plasma membrane integrity and mitochondrial function, but had no significant effect (P>0.05) on recovery of spermatozoa with intact acrosomes. Furthermore, dialyzed spermatozoa exhibited higher (P<0.05) ATP content compared with the control after freezing-thawing. Consistent inter-boar variability was detected mainly in dialyzed semen following freezing-thawing. These results indicated that the improvement in sperm quality characteristics prior to freezing and the post-thaw sperm recovery were due to the removal of low-molecular weight components from the seminal plasma. It can be suggested that dialysis is effective in improving the post-thaw quality of boar spermatozoa and has also great practical importance in improving the protocols for cryopreservation of semen. Dialysis may also contribute to a better understanding of different mechanisms underlying cryo-induced damage to boar spermatozoa.     

Fertility of ewes following artificial insemination with semen frozen in pellets or straws, a preliminary report

In two trials involving the artificial insemination of 194 ewes, the fertility of ram semen was examined following freezing, either in pellet form or in straws, and after storage in a chilled state (15 degrees C) for up to 16 hours. Estrus was synchronized in ewes by intravaginal sponge (MAP) treatment for 14 days. At sponge removal 600 IU PMSG was injected and the ewes received two inseminations 50 and 60 hours later. Fertility was assessed at lambing. In trial 1, the mean lambing rate of 52% (16 31 ) for semen frozen in pellets was higher than 29% (9 31 ) for semen frozen in straws but this difference was not significant. In trial 2, ewes inseminated with chilled semen and semen frozen in pellets had lambing rates of 83% (44 53 ) and 55% (44 79 ) respectively (P<0.001).     

Survival and fertility of ram spermatozoa frozen in pellets, straws and minitubes

The post-thaw survival and fertility of ram spermatozoa frozen in pellets, 0.25- and 0.5-ml PVC straws, and 0.25-ml minitubes were examined. In 5 experiments, a freezing height of 6 cm above the level of liquid nitrogen was optimal for 0.25- and 0.5-ml straws, whereas 4 cm was best for the 0.25-ml minitubes. Post-thaw motility of spermatozoa was lower for semen frozen in straws and minitubes than in pellets (Experiment 1: 43.7 vs 53.4%, P < 0.001), but after freezing was better in 0.5-ml straws and 0.25-ml minitubes than in 0.25-ml straws (Experiment 1: 44.9 vs 41.3%, P < 0.05; Experiment 2: 49.6 vs 46.8%, P < 0.01). Sperm motility was also better for 1:8 (semen:diluent) pre-freezing dilution rate (50.5%) than for 1:4 (45.6%, P < 0.01) and 1:2 (39.8%, P < 0.001) but not the 1:16 (49.5%) dilution rate. Dry ice was a better freezing medium than liquid nitrogen vapor (49.2 vs 46.9% motile spermatozoa, P < 0.001). The post-thaw motility of spermatozoa was similar for the three freezing packages if the semen was loaded at 5 degrees C, but motility was poorer for semen loaded into 0.25-ml straws than 0.25-ml minitubes at 30 degrees C (P < 0.05). In a fertility test, pregnancy rates were influenced by rams (3 rams, P < 0.05) and freezing package (pellets vs 0.25-ml minitube vs 0.25-ml straw vs 0.5-ml straw, P < 0.05) but not freezing medium (liquid nitrogen vapor vs dry ice). More ewes were pregnant after insemination with pellet-frozen semen (106/150, 71%) than with semen frozen in 0.25-ml straws (85/150, 57%; P < 0.05) and in 0.5-ml straws (83/150, 55%; P < 0.01) but not minitubes (98/150, 65%). It was concluded that minitubes provide a useful alternative to pellets as a storage package for ram spermatozoa, allowing for individual dose identification and easier storage while maintaining a fertility rate indistinguishable from that obtained with pellet-frozen semen.     

Effect of dialysis or centrifugation on post-thaw motility and fertility of Santa Gertrudis bull semen collected by electroejaculation

Electroejaculated semen from Santa Gertrudis bulls was used to study the effect of centrifugation (600 x g for 5 min) or dialysis [molecular weight cutoff <14,000 Daltons (Da)] on post-thaw motility and on fertility in beef cattle. Analysis of post-thaw motility showed that the main effects (bulls and semen treatment) were significant (P<0.05). Dialysis significantly improved post-thaw motility in four of seven bulls. Initial volume of seminal plasma in the ejaculate was negatively correlated to post-thaw motility (r = -0.73). No significant improvement in post-thaw motility was observed for bulls with high volumes of ejaculate. In a fertility trial, calving rates of heifers synchronized with PGF(2)alpha and inseminated at 72 and 96 h after the second PGF(2)alpha injection with dialyzed or commercial semen were not statistically different (P>0.05; 54.4% vs 55.4%). These results show that dialysis could be used to improve post-thaw motility of electroejaculated bull semen without altering its fertilizing capacity. However, a high initial volume of seminal plasma seems to have a deleterious effect on sperm freezability that cannot be reversed by dialysis.     

Improved cryopreservability of stallion sperm using a sorbitol-based freezing extender

Cryopreservation of stallion semen is often associated with poor post-thaw sperm quality. Sugars are among the important components of a freezing extender and act as non-permeating cryoprotectants. This study aimed to compare the quality of stallion sperm frozen with glucose, fructose or sorbitol-containing freezing extenders. Semen was collected from six stallions of proven fertility and cryopreserved using a freezing extender containing different types of monosaccharide sugars (glucose, fructose or sorbitol). After thawing, the semen was examined for sperm motility, viability, acrosome integrity, plasma membrane functionality and sperm longevity. The fertility of semen frozen in the presence of sorbitol was also tested by artificial insemination. Sperm quality was significantly decreased following freezing and thawing (P < 0.05). Fructose was inferior for protecting sperm during cryopreservation when compared to sorbitol and glucose (P < 0.05). Although the viability, motility and acrosome integrity of sperm cryopreserved with a glucose-containing extender did not significantly differ from sperm frozen in the sorbitol-based extender when examined at 2 and 4 h post-thaw, all of these parameters plus plasma membrane functionality were improved for sperm frozen in the sorbitol extender than in the glucose extender when examined 10 min post-thaw. Two of four mares (50%) inseminated with semen frozen with a sorbitol-containing freezing extender became pregnant. It is concluded that different sugars have different abilities to protect against cryoinjury during freezing and thawing of stallion sperm. This study demonstrated that an extender containing sorbitol as primary sugar can be used to successfully cryopreserve equine sperm; moreover, the quality of frozen-thawed sperm appeared to be better than when glucose or fructose was the principle sugar in the freezing extender.     

Dialysis of bovine semen and its effect on fresh and freeze-thawed spermatozoa

The effect of the removal of the low-molecular-weight fraction (LMWF, less than 12,000-14,000 Da) from the seminal plasma present in extended semen by dialysis and by centrifugation (1,376g for 20 min at 5 degrees C) were compared with the current methods of freezing bovine semen. Significantly higher sperm post-thaw motility (P less than 0.05) was obtained in the dialyzed samples than with the other two methods. The appropriate time and temperature for dialysis of semen was also studied. Semen aliquots were dialyzed (1:50, retentate:dialysate) for 30 min, 1 or 2 hr at 5 degrees C, and during the cooling process from 37 to 5 degrees C over a 2-hr period. Superior sperm motility (P less than 0.05) in prefreeze and post-thawed samples was observed when semen was dialyzed for 1 or 2 hr during the cooling process as compared with that of semen dialyzed at 5 degrees C. A third experiment was conducted to establish the effect of the use of dialysis bags of different molecular weight cutoffs (MWCO) on sperm motility. Semen samples were dialyzed (1:50) during the cooling process in dialysis bags of 1,000, 3,500, 6,000-8,000, 12,000-14,000, 25,000, and 50,000 MWCO. No statistical differences (P greater than 0.05) in sperm post-thaw motility were found after evaluation of the number of cells that passed through the Sephadex filter and all the dialyzed values obtained were significantly (P less than 0.05) superior to the results obtained with no dialysis.(ABSTRACT TRUNCATED AT 250 WORDS)     

Continuous live-dead discrimination of ram sperm during freezing

Use of the dye amaranth (Color Index 16185) as a supravital stain for ram sperm is described. At a concentration of 0.4% in diluted semen, the dye was completely excluded by motile sperm and had no effect on sperm motility. The nuclei of immotile sperm were stained pink by amaranth. The decrease in sperm motility during 24-h storage at 5°C was accompanied by a corresponding increase in stained sperm nuclei. The presence of the dye during freezing had no effect on sperm cryosurvival but tended to reduce sperm motility during post-thaw incubation. Insemination of ewes with fresh semen containing amaranth or with semen frozen in the presence of amaranth resulted in pregnancies in 7/10 ewes in each group, compared to 6/9 in the case of ewes inseminated with fresh semen without dye.     

Cervical versus intrauterine insemination of ewes using fresh or frozen semen diluted with aloe vera gel

This study was conducted at Belen de Escobar, Argentina, in March and April 1987. Experimental work on synchronization of estrus, deep-freeze conservation of ram semen and small fertility trials involving cervical and intrauterine (i.u.) insemination methods was undertaken. A total of 80 Corriedale ewes were used in seven insemination trials. Insemination trials were grouped into two experimental groups for comparison of 1) frozen semen diluted with an experimental extender and a control diluent inseminated cervically or i.u. in synchronized/superovulated ewes and 2) cervical insemination of fresh diluted or frozen semen in ewes inseminated at natural estrus or in ewes that were synchronized/superovulated. An overall ovulation rate of 8.7 +/- 0.5 was obtained by using a superovulatory regimen consisting of 3 mg Norgestomet implants and a total dose of 18 mg follicle stimulating hormone-pituitary (FSH-P). Numbers of ova recovered per ewe following superovulation ranged from 4.3 to 5.4. In experimental Group I, fertilization rates improved when laparoscopic intrauterine AI was used compared with cervical insemination (P<0.05). Fertility rates of i.u. and cervical insemination of frozen semen diluted with the experimental extender showed satisfactory fertilizing capacity. In experimental Group II, a lower number of fertilized ova were recovered from ewes inseminated with frozen semen (P<0.02), irrespective of their estrus manipulation.     

Impact of in vitro fertilization by refrigerated versus frozen buffalo semen on developmental competence of buffalo embryos

The objective of this study was to evaluate the fertility of buffalo semen for in vitro embryo production (IVEP) by comparing the effectiveness of refrigerated versus frozen semen. Three OPU sessions were held at 30-day intervals. For oocyte fertilization three buffalo bulls were used, one per session. At each OPU-IVEP session, one ejaculate was collected and divided into two equal aliquots. Each aliquot was either refrigerated at 5ºC/24 hours or frozen. A TRIS extender containing 10% low density lipoproteins, 0.5% lecithin and 10 mM acetylcysteine was used adding 7% glycerol for freezing. Sperm motility/kinetic was evaluated by CASA and sperm membrane integrity by the hypoosmotic swelling test. The evaluations were performed at 0 h (post final dilution at 37ºC), at 4 and 24 hs post-incubation at 5ºC and post-thaw. At 24 hs incubation and immediately post thaw sperm cells were used for in vitro fertilization of buffalo oocytes equally distributed between both groups. Cleavage rates and embryo development were followed. The embryo/matured and embryo/cultured rates were 25.4 x 14.0% and 29.4 x 18.5% (P<0.05), for chilled and frozen semen, respectively. It is concluded that cooled semen can be used for in vitro embryo production in buffalo and that a better efficiency may be expected for cooled compared to frozen semen.     

Effect of freezing rate of ram spermatozoa on subsequent fertility in vivo and in vitro

Ram spermatozoa are most susceptible to damage during freezing between the temperatures of -10 degrees C and -25 degrees C. The objectives of the present study were to examine how freezing rate through this critical temperature zone affected the fertility of spermatozoa as assessed in vivo and in vitro. Semen from six adult rams was frozen at two different rates ("fast": 5 degrees C/min from +5 to -25 degrees C; "slow": 0.5 degrees C/min from +5 to -25 degrees C). In Experiment 1, semen from the fast and slow treatments was used to fertilize ovine oocytes that had been matured in vitro. Semen from the fast treatment yielded a higher cleavage rate (57% vs. 26%; P<0.001) and more blastocysts per oocyte (28% vs. 13%, P<0. 001) than slow-frozen. No correlation was found between fertilizing ability and viability as assessed by fluorescent probes. Experiment 2 was designed to establish the conception rates following both cervical and intrauterine insemination of frozen-thawed semen from the same bank of semen as used in Experiment 1. Ewes were superovulated with FSH and inseminated by laparoscopy with frozen semen. A significant difference was found in the number of fertilized ova following embryo recovery (81.4% vs. 39.3%; P<0.001). In a further study, 119 mature cull ewes were inseminated following a 12-day synchronization treatment with frozen semen by either intrauterine (laparoscopic) or cervical insemination. Insemination with fast-frozen semen resulted in a significantly higher pregnancy rate (P<0.05) irrespective of method of insemination. The data show that freezing rate affects the proportion of spermatozoa that retain their fertilizing ability post-thawing. However, once fertilization has occurred, development to the blastocyst stage is independent of freezing rate.     

Evaluation of a new diluent and different processing procedures for cryopreservation of ram semen

Ram semen was processed for freezing after initial dilution with a modified Tris-fructose diluent. Two aliquots were processed by cooling gradually to 5 degrees C, further dilution, equilibration and freezing in 0.5 ml straws either in pressurized liquid nitrogen (LN(2)) vapor (Method A) or on a block of dry ice (Method B). A third aliquot was cooled rapidly to 16 degrees C and then slowly to 5 degrees C, diluted further, equilibrated and frozen in straws in pressurized LN(2) vapor (Method C). The second dilution was carried out using a new diluent based on dextran-lactose. The diluted semen was equilibrated for 2 h before freezing. Semen was evaluated by artificial insemination (AI). The fertility of ewes bred by a double insemination with frozen-thawed semen processed by Methods A, B and C was 73% (n = 33), 67% (n = 30) and 80% (n = 30), respectively. In comparison, the fertility of ewes inseminated with fresh semen was 93% (n = 31). These preliminary data indicate an acceptable fertility can be achieved by AI with frozen-thawed semen processed using improved procedures.     

An effective method for freezing White Italian gander semen

Efficiency of freezing method, worked out for the White Italian gander semen was evaluated by comparing motility, morphology and fertilizing ability of spermatozoa in fresh and frozen-thawed semen. A part of pooled semen, collected from 25 White Italian ganders by dorso-abdominal massage was used immediately for artificial insemination of 10 geese (the control group) with a dose of 80 microl. This insemination was performed six times at weekly intervals. The remainder of the semen was diluted 1:0.5 (v/v) with EK diluent, equilibrated for 15 min at +4 degrees C, mixed with 6% (v/v) of dimethylformamide (DMF) and frozen to -140 degrees C at a rate of 60 degrees C/min. Frozen semen was thawed in a 60 degrees C water-bath and inseminated twice weekly in a dose of 100 microl (10 females of the experimental group, 12 inseminations were made). The freezing process affected spermatozoa motility and morphology, but had no effect on their fertilizing ability. Positive movement was observed in 50-60% of the spermatozoa in fresh semen and about 40% of the frozen-thawed cells. The average percentage of total live and live normal spermatozoa decreased due to freezing from 92.2 to 68.4% and from 34.7 to 14.1%, respectively. After the fresh semen insemination with average 12 million of the live normal spermatozoa per week average fertility was 88.24%; hatchability of set eggs was 80.88% and hatchability of fertile eggs was 91.67%. For frozen-thawed semen inseminated with average 9.5 million of the undamaged spermatozoa per week, the average fertility and hatchability rate was 83.78, 73.87, and 88.17%, respectively. Fecundity rates obtained after insemination with the frozen-thawed gander semen allow for the application of the freezing technique into breeding practice, in place of natural mating or to assist natural mating in periods of lowered fertility level.     

Effect of filtration on post-thaw quality of bull semen

Semen from 4 Holstein bulls was diluted in 4 different extenders, filtered with Sephadex ion-exchange column, and frozen in liquid nitrogen. Sperm motility, progressive motility, path velocity, progressive velocity and the percentage of normal acrosomes of filtered and nonfiltered semen were recorded before and after freezing. Semen characteristics were significantly influenced by extender, filtration and freezing. Before and after freezing, motility measurements and the percentage of normal acrosomes were higher (P < 0.001) in filtered than in nonfiltered spermatozoa. Post-thaw recovery rate of motile spermatozoa was higher in filtered semen than nonfiltered (68 vs 39%, P < 0.0001). The reduction in motility, progressive motility and the percentage of normal acrosomes during freezing and thawing processes were significantly lower (P < 0.0001) in filtered semen (34, 34 and 4%, respectively) than nonfiltered (59, 54 and 15%, respectively). Post-thaw viability of spermatozoa was significantly affected by extender, filtration and time (P < 0.0001). Immediate (0 h) post-thaw motility of nonfiltered semen (29%) was similar to 4-h post-thaw motility of filtered semen (25%; P > 0.05). In conclusion, bull spermatozoa recovered by Sephadex ion-exchange filtration showed better post-thaw viability.     

Successful pregnancies with directional freezing of large volume buck semen

Artificial insemination with frozen-thawed buck semen shows variable results which depend on many factors related to semen quality and the cryopreservation processing. We conducted experiments based on a new freezing method, directional freezing, of large volumes (8 ml). In the first experiment semen from three Saanen bucks, ages 1-2-years-old and genetically selected for milk improvement, was frozen individually. Two to three-years-old Saanen females (n = 164) were synchronized with controlled internal drug release (CIDR), pregnant mare serum gonadotrophin (PMSG) and prostaglandin. Double cervical inseminations were performed with frozen-thawed semen and fresh semen as control. In the second experiment we used pooled, washed frozen semen to examine the effect of washed seminal plasma. The motility after washing was 80-90% and after thawing was 55-65% for all bucks. The sperm concentration increased with the collections and the advance into the breeding season from 1.9 x 10(9) to 4.4 x 10(9) cell/ml average. Two inseminations were carried out at 8h intervals. The first insemination was performed at 32 h after CIDR withdrawal with fresh and frozen-thawed semen. Pregnancy rates were assessed by ultrasonography conducted 40 and 90 days post-insemination (from three bucks). Results were 58, 67, 50% with fresh semen, and for frozen semen were 33, 37 and 53%; these results were significantly different in one of the three bucks (P < 0.005). In the second experiment with pooled, washed semen the pregnancy rate was 41.6%, which compared with the average results of the frozen semen in the first experiment 38.9% no significant difference was found. We conclude that freezing buck semen in large volumes (8 ml) is possible. Cryobanking of buck semen will facilitate a genetic breeding program in goats and preservation of biodiversity. Washed semen did not improve the fertility of the semen when Andromed bull extender is used.     

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.     

Effect of caffeine on the post-thaw motility of buffalo spermatozoa

Buffalo semen was diluted (1:2) with lactose diluent containing caffeine (2, 4 and 6 mM). Diluted semen samples were frozen in a pellet form (0.15 ml), thawed 24 h after freezing in 2.9% sodium citrate for 30 sec and incubated at 37 degrees C for 3 h. Addition of caffeine to diluted buffalo semen before freezing resulted in a significant increase in the post-thaw motility of spermatozoa over the 3-h incubation period. When caffeine was added to the thawing medium, the post-thaw motility was further improved. Thus, the increase in motility due to caffiene treatment was even more pronounced than in samples treated with caffiene before freezing.     

The successful double cryopreservation of rabbit (Oryctolagus cuniculus) semen in large volume using the directional freezing technique with reduced concentration of cryoprotectant

Using directional freezing, our objective was to cryopreserve rabbit semen and achieve fertility that was equal or higher than that achieved with conventional freezing. The working hypothesis was that controlling the ice-front propagation would allow reduction of DMSO concentration to <1M, in addition to the capability to freeze large volumes (2-10 mL). Moreover, single and double freezing of semen were used to demonstrate the abbreviated mechanical stress imparted by directional freezing. Single-cryopreserved semen from 15 males extended with 0% egg yolk/1.75 M DMSO, 15.3% egg yolk/0.88 M DMSO and 20% egg yolk/0M DMSO resulted in lower (P<0.05) mean+/-S.E.M. post-thaw motility (3.6+/-1.1, 28.5+/-2.8 and 36.3+/-1.8%, respectively) compared to fresh semen (73.3+/-1.2%). Semen from seven of these males, subject to double freezing using only egg yolk based extenders, resulted in post-thaw motilities of 18.1+/-2.2 and 16.4+/-3.3%. Despite the reduced functional parameters of cryopreserved semen, fertility and kindling rates of 73.9 and 56.5% for single frozen-thawed, and 28.6 and 35.7% for double frozen-thawed semen were achieved (with insemination of 98 females). There was no significant difference in fertility rate between fresh semen (87.5%) and semen that was single frozen-thawed with the 15.3% egg yolk/0.88 M DMSO extender (73.9%). In conclusion, cryopreservation of rabbit semen in large volumes using directional freezing achieved fertility rates similar to those achieved with fresh semen. Furthermore, acceptable fertility rates with double frozen-thawed semen could facilitate the future use of sex-sorted semen in rabbits.     

Fertility of ram semen frozen in Bioexcell and used for cervical artificial insemination

The current use of ingredients of animal origin, such as egg yolk, in semen extenders presents a risk of microbial contamination, and has led to the search for alternatives. Such an extender is commercially available for bull semen (Bioexcell), IMV, L'Aigle, France), and it has previously been tested in vitro for freezing ram semen, with satisfactory results. The aim of the present study was to compare the fertility results of ewes in Uruguay, after cervical insemination with ram semen that was frozen in Bioexcell versus semen frozen in a conventional milk-egg yolk extender (control). Semen from five Corriedale rams was frozen, using a split sample design, in either milk-egg yolk or Bioexcell extender, using a two-step extension method. The sperm parameters assessed after thawing were subjective motility, membrane integrity (SYBR-14/PI), and capacitation status (CTC). Thawed semen was inseminated intracervically once during spontaneous estrus in 970 Corriedale ewes that grazed in natural pastures, under extensive management conditions. Fertility was recorded as nonreturn rates at 21 days (NRR-21) and 36 days (NRR-36) after artificial insemination (AI), as well as pregnancy rate (PR-US, diagnosed ultrasonographically 50 days after AI of the last ewe). Subjective motility was slightly higher in Bioexcell than in the milk extender (47 vs. 46.5%; NS), as was membrane integrity (38 vs. 37.7%; NS) and the percentage of uncapacitated spermatozoa (28.5 vs. 26.3%; NS). There were no statistically significant differences in fertility rates found between Bioexcell and the control extender: NRR-21 (35.9 vs. 33.2%), NRR-36 (34.8 vs. 32.6%), and PR-US (28.4 vs. 27.2%). In conclusion, Bioexcell appears to be an alternative to the conventional milk-egg yolk extender for freezing ram semen, and provides similar fertility results after cervical AI under extensive management conditions. Thus, Bioexcell, containing no additives of animal origin, can offer a safer alternative when frozen semen is used for introducing new genetic material into a flock or a country.     

Freezing of stored, chilled dog spermatozoa

The aims of this study were to find out if dog spermatozoa can be stored chilled for 1 or 2 days prior to freezing without a deterioration in post-thaw vitality and longevity, and to compare two extenders; the Uppsala Equex-2 (UE-2) and a TRIS egg yolk extender (EYT). Pooled dog semen was frozen immediately after collection, or was extended and stored at 4 degrees C for 1 or 2 days before freezing. Sperm motility and acrosome integrity were evaluated before freezing and for 6h post thaw at 38 degrees C, while sperm plasma membrane integrity was evaluated post thaw. There were no effects of pre-freeze storage time or extender on post-thaw motility or plasma membrane integrity, but a significant effect of extender (P < 0.0153) on post-thaw acrosomal integrity was found, UE-2 being better than EYT. There was a significant (P < 0.0001) negative effect of post-thaw storage time on acrosome integrity, but this was not influenced by pre-freeze storage time or extender. In conclusion, we found that dog spermatozoa can be frozen after 1 or 2 days of cold storage without significant deterioration in post-thaw motility, acrosome integrity or sperm plasma membrane integrity compared to when frozen immediately after collection. The UE-2 extender was superior to the EYT extender for freezing of cold stored dog spermatozoa.     

Centrifugation and addition of glycerol at 22 degres C instead of 4 degrees C improve post-thaw motility and fertility of stallion spermatozoa

The aims of this study were to evaluate the effects of cooling rate to 4 degrees C and temperature at the time of centrifugation/glycerol-addition (freezing extender: INRA82 + 2% egg yolk + 2.5% glycerol) on postcentrifugation recovery rate, post-thaw motility and per-cycle fertility. When centrifugation/glycerol-addition was performed at 4 degrees C (14 ejaculates), a moderate cooling rate (37 degrees C to 4 degrees C in I h) resulted in higher post-thaw motility (45%) than when using a slow cooling rate (37 degrees C to 4 degrees C in 4 h) (39%; P<0.05). When centrifugation/glycerol-addition was performed at 22 degrees C (37 degrees C to 22 degrees C in 10 min) (10 ejaculates), post-thaw motility was lower when spermatozoa were frozen directly from 22 degrees C (23%) than when spermatozoa were cooled to 4 degrees C (22 degrees C to 4 degrees C in 1 h) before freezing (47%; P<0.0001). When centrifugation/glycerol-addition was performed at 22 degrees C (before cooling at a moderate rate), as opposed to 4 degrees C (after cooling at a moderate rate), a significant improvement of 1) recovery of spermatozoa after centrifugation (P<0,0001), 2) post-thaw motility of spermatozoa at thawing (40% vs 36% (n < or = 291 ejaculates/group), P<0.0001) and 3) per-cycle fertility (56% vs 42% (n > or = 190 cycles/group), P<0.01) was observed. In conclusion, centrifugation/glycerol-addition at 22 degrees C followed by cooling to 4 degrees C at a moderate rate results in an improvement of post-thaw motility, spermatozoa recovery rate and per cycle fertility.