Studies on the Effect of Supplementing Boar Semen Cryopreservation Media with Different Avian Egg Yolk Types on in Vitro Post-thaw Sperm Quality

Fertility after insemination of cryopreserved boar semen is currently below that of fresh semen. In an attempt to improve the post-thaw motility and acrosome integrity of boar sperm, semen was frozen using an adapted Westendorf method in which the chicken egg yolk was replaced by either duck or quail egg yolk. The different composition of the yolk types, particularly the amount of cholesterol, fatty acids and phospholipids, were thought to potentially afford a greater level of protection to sperm against damage during freezing and thawing. Sperm frozen in medium containing chicken egg yolk displayed higher motility immediately after thawing, but there was no difference in the motility of sperm frozen with different types of egg yolk 3 or 6 h after thawing and maintenance at 37 degrees C. Sperm frozen in media containing chicken or duck egg yolk had a higher proportion of intact acrosomes immediately after thawing than sperm frozen in medium containing quail egg yolk, but 6 h after thawing and maintenance at 37 degrees C the sperm that had been frozen in medium containing chicken egg yolk had a higher proportion of intact acrosomes than the sperm frozen in media containing duck or quail egg yolk. Analysis of the composition of the different yolk types showed that the basic components of the yolks were similar, but the ratios of fatty acids and phospholipid classes differed. Duck egg yolk had more monounsaturated fatty acids (MUFA) than chicken egg yolk, which had more MUFA than quail egg yolk. Duck egg yolk contained more phosphotidylinositol (PI) than chicken or quail egg yolks and quail egg yolk contained more phosphotidylserine than either chicken or duck egg yolks. The differences in post-thaw motility and acrosome integrity of boar sperm when frozen in media containing the different types of egg yolk may be due to the variation in composition.     

Pregnancy rates of mares inseminated with semen cooled for 18 hours and then frozen

The ability to ship cooled stallion sperm for subsequent freezing at a facility specializing in cryopreservation would be beneficial to the equine industry. Stallion sperm has been centrifuged, cooled to 5 degrees C for 12 h, and frozen without a detrimental effect on motility in a previous study; however, no fertility data were available. Experiment 1 compared the post-thaw motility of sperm cooled for 18 h at 15 or 5 degrees C at either 400 or 200 x 10(6) sperm/mL and then frozen. Storage temperature, sperm concentration, or the interaction of temperature and concentration had no effect on total (TM) and progressive motility (PM) after cooling. Post-thaw TM and PM were higher for control than (P < 0.05) for treated samples. There was no difference in post-thaw TM and PM due to temperature or concentration. Experiment 2 further evaluated procedures for cooling before freezing. Ejaculates were either cooled to 5 degrees C for 18 h and centrifuged, centrifuged at room temperature and then cooled to 5 degrees C for 18 h before freezing, or centrifuged and frozen immediately (control). There was no difference among treatments on post-thaw TM or PM. In Exp. 3, mares were inseminated with semen that had been extended in skim milk-egg yolk without glycerol, centrifuged, resuspended at 200 x 10(6) sperm/mL, cooled to 5 degrees C for 18 h, and then frozen or not cooled for 18 h before freezing (control). Pregnancy rates did not differ for mares receiving semen cooled and then frozen (21 of 30, 70%) or semen frozen directly without prior cooling (16 of 30, 53%). In summary, a procedure was developed for cooling stallion sperm for 18 h before freezing without a resultant decrease in fertility.     

红腹锦鸡精液冷冻稀释液配方的筛选

为加强濒危珍稀动物种质资源的保护,开展了濒危珍稀禽类—红腹锦鸡的人工授精研究。2005年5月26日~6月8日,对8只红腹锦鸡用手按摩其背、尾部采精12次。初测其精液品质,结果表明,采精量平均(0.114±0.016)mL(0.01~0.2 mL),每毫升精液中精子平均3.2亿个(3.0~3.3亿),活力9级以上,pH值6.5,偏酸性,淡乳白色(半透明似冲熟的藕粉),微腥。鲜精分别加11%蔗糖—卵黄稀释液(3号液);11%蔗糖—0.1%柠檬酸三钠—卵黄稀释液(5号液);5%葡萄糖—卵黄稀释液(8号液)。精子活力达8~9级。用3%柠檬酸三钠—卵黄稀释液(2号液)稀释,精子活力2级。冷冻时,用11%蔗糖溶液100 mL中加16 mL鲜卵黄,加5 mL甘油,配制的3号冷冻稀释液稀释,解冻后,精子活力达4级。优于试验中选拟的其它配方(加入5 mL甘油的5号冷冻液,解冻后精子活力为3级;加入5 mL甘油的8号冷冻液,解冻后未见活的精子)。如果冷冻稀释液中甘油改为6 mL,则解冻后精子全部死亡。     

Effect of Docosahexaenoic Acid on Quality of Cryopreserved Boar Semen in Different Breeds

During the cryopreservation process, the level of polyunsaturated fatty acids, especially docosahexaenoic acid (DHA), in the sperm plasma membrane decreases significantly because of lipid peroxidation, which may contribute to sperm loss quality (i.e. fertility) of frozen–thawed semen. The aim of this study was to investigate the effect of supplementation of DHA (fish oil) in freezing extender II on frozen–thawed semen quality. Semen from 20 boars of proven motility and morphology, were used in this study. Boar semen was split into four groups, in which the lactose–egg yolk (LEY) extender used to resuspend the centrifuged sperm pellet was supplemented with various levels of fish oil to reach DHA level of 1X (group I, control, no added fish oil), 6X (group II), 12X (group III) and 18X (group IV). Semen solutions were frozen by using a controlled rate freezer. After cryopreservation, frozen semen was thawed and evaluated for progressive motility, viability by using SYBR‐14/Ethidiumhomodimer‐1 (EthD‐1) staining and acrosome integrity by using FITC‐PNA/EthD‐1 staining. There was a significantly higher (p < 0.001) percentage of progressive motility, viability and acrosome integrity in DHA (fish oil) supplemented groups than control group. Generally, there seemed to be a dose‐dependent effect of DHA, with the highest percentage of progressive motility, viability and acrosome integrity in group‐III. In conclusion, supplementation of the LEY extender with DHA by adding fish oil was effective for freezing boar semen as it resulted in higher post‐thaw plasma membrane integrity and progressive motility.     

Cryopreservation of Cooled Semen and Evaluation of Sperm Holding Media for Potential Use in Equine-Assisted Reproduction Procedures

Processing stallion semen for assisted reproductive procedures, such as intracytoplasmic sperm injection (ICSI), requires special considerations regarding cooling, concentrating, and handling of sperm. The aim of experiment 1 was to determine whether cooled semen could be frozen without removal of seminal plasma and at a low sperm concentration while maintaining motile sperm for ICSI selection procedures. In experiment 2, five media for holding stallion sperm were compared to evaluate sperm motility for an interval of time sufficient for ICSI sperm selection procedures. In experiment 1, semen samples from eight stallions were cooled for 24 hours in two extenders, CST (E-Z Mixin-CST “Cool-Store/Transport” Animal Reproduction Systems) and INRA96 (Institut National de la Recherche Agronomique, IMV International Corporation), before being frozen in four freezing diluents, and were evaluated at 0, 45, and 75 minutes after thawing. The cooling extender did not significantly affect sperm motility, but modified French and glycerol egg yolk diluents provided the best sperm motility for frozen–thawed groups. In experiment 2, semen samples from seven stallions were used to test five media for holding sperm. Samples were analyzed for total and progressive motility at hourly intervals. Mean total and progressive motility were not different (P > .05) among groups from 1 through 4 hours. At 5 hours, groups differed (P = .004), with sperm held in Tyrode’s with albumin, lactate, and pyruvate having higher (P < .05) total and progressive motility than all other samples. In conclusion, motile stallion sperm can be obtained after the sperm are cooled for 24 hours, frozen, and thawed; various media are available to maintain sperm motility during equine ICSI selection procedures.     

Post-thaw viability of european bison (Bison bonasus) semen frozen with extenders containing egg yolk or lipids of plant origin and examined with a heterologous in vitro fertilization assay.

Basic characteristics of European bison (Bison bonasus) semen were described and the efficacies of two extenders-Triladyl, containing egg yolk, and a synthetic extender, containing soybean lipids-were tested for semen cryopreservation. Seven ejaculates were collected by electroejaculation from a 10-yr-old, European bison bull. Each ejaculate was diluted at 37 degrees C to a final concentration of 200 x 10(6) sperm/ml with Triladyl or the synthetic extender. Extended semen samples were frozen according to a standard bull semen freezing protocol. After 2 wk of storage, one straw from each extender and ejaculate was thawed, and postthaw quality was evaluated by individual sperm motility and movement rate, numbers of sperm morphologic abnormalities and intact acrosomes, functional integrity of the sperm membranes determined by hypoosmotic swelling test (HOST), viability (live-dead, eosin-nigrosin stain), and a heterologous in vitro sperm penetration assay (SPA). A total of 600 in vitro-matured bovine oocytes were inseminated with 1 X 10(6) spermatozoa of Holstein semen frozen-thawed in Triladyl (control) or of European bison semen frozen in Triladyl or the synthetic extender. Nuclear status of the oocytes was determined after 18 h of sperm-oocyte coincubation. Extender had no effect on any evaluated parameters of semen after dilution and cooling (4 hr at 5 degrees C) or in postthaw individual motility, quality of movement, and sperm morphology. However, significantly (P < 0.05) higher numbers of spermatozoa with intact acrosomes, intact membranes (HOST), and viable sperm (P < 0.01) were in semen frozen in Triladyl than in the synthetic extender. Mean values for heterologous SPA for bull (control) and for bison semen frozen in the synthetic extender were very much alike-63.3+/-10.6% and 63.1 +/- 15.9%, respectively; bison semen frozen in Triladyl was lower, 43.0+/-24.2% but not significantly different. Cumulative results from a variety of viability assays of diluted/cooled and frozen-thawed semen, including the heterologous SPA, suggest that European bison semen can be successfully frozen in both extenders tested in this study.     

Effects of Egg Yolk Source on the Cryopreservation of Stallion Spermatozoa

Three experiments were conducted to determine whether replacement of chicken egg yolk, as a component of freezing extenders, with egg yolk from other avian species would improve the post-thaw motility and percentage of intact acrosomes of stallion spermatozoa. In the first experiment, substitution of chicken egg yolk with chukar egg yolk, as a component of the lactose-ethylenediaminetetraacetic acid extender, improved (P ≤ .05) the post-thaw motility of stallion spermatozoa. These results were not replicated in (IMV Technologies, Maple Grove, MN, USA) a more expansive study comparing 2%, 4%, 6%, or 8% egg yolk combined with INRA 96 when a “slow freeze” method was used, or the same substitution at levels ranging from 13% to 22% when egg yolk was combined with lactose-ethylenediaminetetraacetic acid for diluents used for a “fast freeze” method of cryopreservation. In the third study, egg yolks from regular and high omega-3 chicken eggs as well as from turkey, chukar, and mallard duck eggs were analyzed for lipid content and fatty acid profile. The yolk from the turkey eggs was higher (1,300 mg/100 g) and that from mallard ducks was lower (560 mg/100 g) in cholesterol as compared with the two types of chicken eggs and chukar egg yolk (range, 1,046-1,094 mg/100 g). In addition, the high omega-3 eggs did test higher for fatty acids (4.51 g/100 g) than other types of eggs (range, 0.28-0.73 g/100 g). Substitution of chicken egg yolk with turkey, but not duck, egg yolk resulted in higher post-thaw total motility (P ≤ .05) for spermatozoa obtained from two of the three stallions used in the third experiment.     

Use of Glutamine and Low Density Lipoproteins Isolated from Egg Yolk to Improve Buck Semen Freezing

To improve the results obtained with a reference cryopreservation extender (control extender: Triladyl® + 20% (v/v) egg yolk + 6.4% (v/v) glycerol) for freezing caprine semen, glutamine was added to 18 split ejaculates at concentrations of 0, 20, 40, 80 and 120 m m (experiment 1). In experiment 2, glutamine was added to 18 split ejaculates at concentrations of 20, 25, 30, 35 and 40 m m . In the third experiment, the egg yolk was replaced with the low-density lipoprotein (LDL) fraction of egg yolk. The quality of frozen then thawed spermatozoa in each extender was compared using computer-assisted semen analysis. In experiment 1, glutamine at concentrations of 20 m m and 40 m m significantly improved sperm motility compared with the control extender. However, at 120 m m , a significant decrease in motility and velocity was observed. In experiment 2, motility, curvilinear velocity and amplitude of lateral head displacement (ALH) were improved in glutamine at 25 m m compared with the control. In experiment 3, 8% LDL and 25 m m glutamine significantly improved sperm motility, straight line velocity and ALH. In the fourth experiment, the quality of the previously defined freezing extender (Triladyl® + 8% (v/v) LDL + 25 m m glutamine + 6.4% (v/v) glycerol) was tested by comparing acrosome, tail membrane, plasma membrane and DNA integrity in 18 split ejaculates of frozen then thawed spermatozoa with spermatozoa that had been frozen then thawed in the control extender, and with spermatozoa from fresh, unfrozen sperm. The percentage of spermatozoa with intact acrosomes and tail membranes was significantly higher with the newly defined extender than that observed with the control extender. There was no significant difference in the percentage of spermatozoa with intact DNA between the frozen and fresh semen.     

Comparison of Different Glycerol and Egg Yolk Concentrations Added to Tris‐based Extender for the Collared Peccaries (Tayassu tajacu) Semen Freezing

This study aimed to evaluate various concentrations of egg yolk (5, 10, or 20%) in combination with different concentrations of glycerol (3% or 6%) added to a Tris‐based extender on the post‐thaw characteristics of sperm obtained from Tayassu tajacu. For this purpose, semen from 10 sexually male mature collared peccaries was collected by electroejaculation and evaluated for sperm motility, vigour, viability, morphology and functional membrane integrity. The ejaculates were initially extended in Tris‐fructose plus egg yolk (5%, 10% or 20%). After cooling, the semen was added to Tris‐egg yolk plus glycerol (6% or 12%), resulting in a final concentration of 3% or 6% glycerol of the extender. Straws were frozen using liquid nitrogen and thawed in a water bath at 37°C for 30 s. The frozen–thawed semen was evaluated as reported for fresh semen. After thawing, a significant decrease was verified for sperm motility and vigour, for all the samples in comparison with fresh semen. However, no differences were evidenced among treatments for any sperm characteristics evaluated (p > 0.05), except for the combination between 10% egg yolk and 6% glycerol, which provided the worst preservation of functional membrane integrity (p < 0.05). The interactions between higher concentrations of egg yolk (20%) and glycerol (6%) and also between lower concentrations of the same substances (5% egg yolk and 3% glycerol) added to the Tris‐based extender negatively affected the preservation of the normal sperm morphology after thawing (p < 0.05). In conclusion, the use of Tris‐based extender added to 10% or 20% egg yolk plus 3% glycerol is recommended for effective sperm cryopreservation in collared peccaries.     

Breed of Boar Influences the Optimal Concentration of Gamma‐oryzanol Needed for Semen Cryopreservation

The aim of this study was to investigate the influence of boar breed on the optimal concentration of gamma‐oryzanol on the qualities of cryopreserved boar semen. Semen was collected from 20 boars (10 Duroc, 5 Large white and 5 Landrace boars). The semen sample was divided into five groups (A–E) according to the concentration of gamma‐oryzanol in extender II, that is 0, 0.08, 0.16, 0.24 and 0.32 mm , respectively. The semen was cryopreserved by nitrogen vapour and storage in nitrogen tank (?196°C). After storage for a week, samples were thawed at 50°C for 12 s and evaluated for progressive motility, sperm viability and acrosome integrity. The results demonstrated that gamma‐oryzanol significantly improved progressive motility, viability and acrosome integrity of frozen–thawed boar semen. Considering the influence of breeds on the optimal concentration of gamma‐oryzanol, for Duroc boar, gamma‐oryzanol at 0.16 mm (group C) yielded the highest percentage of progressive motility, sperm viability and acrosome integrity. For Large white and Landrace boars, gamma‐oryzanol at 0.24 mm (group D) showed a significantly higher percentage of progressive motility, viability (not significant in Landrace) and acrosome integrity than other concentrations. In conclusion, the optimal concentration of gamma‐oryzanol needed for boar semen cryopreservation in lactose–egg yolk (LEY) freezing extender is not only depended on individual boar but also breed of boar, that is 0.16 mm for Duroc and 0.24 mm  for Large white and Landrace.     

Effects of Freezing–Thawing on DNA Integrity of Boar Spermatozoa Assessed by the Neutral Comet Assay

A modified version of the neutral comet assay was employed to evaluate the effect of the freezing-thawing process on boar-sperm DNA integrity. The sperm-rich fractions were collected from four mature boars and frozen into aluminium tubes and straws after extension in lactose-hen egg yolk-glycerol extender (lactose-HEY-G) or an extender containing lactose, lyophilized lipoprotein fractions extracted from ostrich egg yolk and glycerol (lactose-LPFo-G). The semen samples were also frozen in a standard boar semen extender (Kortowo-3), without the addition of cryoprotective substances. Post-thaw sperm motility and plasma membrane integrity, assessed by SYBR-14/PI and Hoechst 33258 stains, declined (p < or = 0.05) with a corresponding increase (p < or = 0.05) in sperm DNA damage, regardless of the extender type and packaging material. Spermatozoa frozen in lactose-HEY-G or lactose-LPFo-G extender showed lower (p < or = 0.05) DNA damage than those frozen in the absence of cryoprotective substances. The addition of HEY or LPFo to the freezing extender helped reduce the rate of cryo-damage to sperm DNA, which varied among the boars. Inter-boar variations in post-thaw DNA damage were more pronounced in sperm samples frozen in lactose-HEY-G or lactose-LPFo-G extender. The results of this study show that the freezing-thawing process affects the DNA integrity of boar spermatozoa, irrespective of the extender type and packaging material. Furthermore, the use of whole hen egg yolk and ostrich lyophilized lipoprotein fractions in the freezing extender gave similar results regarding sperm DNA integrity. It can be concluded that the neutral comet assay can be used in conjunction with routine sperm parameters for assessment of post-thaw quality of boar semen.     

Influence of Cool Storage before Freezing on the Quality of Frozen–Thawed Semen Samples in Dogs

The aim of this study was to determinate the semen quality of frozen–thawed samples that were chilled for up to 2 days before freezing. The ejaculates (n = 18) from six dogs were collected, pooled and divided into six aliquots. The first aliquot (C, control) was frozen in liquid nitrogen using a conventional protocol to reach a final concentration of 100 × 10⁶ spermatozoa/ml, 20% egg yolk and 5% glycerol. The remaining five aliquots were diluted with a chilled extender (Tris‐glucose and 20% egg yolk) and cooled at 4°C as follows: R1, the semen was cooled for 1 h; R6, the semen was cooled for 6 h; R12, the semen was cooled for 12 h; R24, the semen was cooled for 24 h and R48, the semen was cooled for 48 h. After the chilling period, a second extender was added (Tris‐glucose, 20% egg yolk, 10% glycerol and Equex at 1%) to reach a final composition similar to aliquot C, and then, the semen samples (R1, R6, R12, R24 and R48) were frozen in liquid nitrogen. The post‐thaw sperm quality was assessed in 30 straws from each experimental group. After freezing–thawing, the total sperm motility (approximately 60–70%) in the semen chilled for up to 48 h did not show any differences from the samples frozen by the conventional cryopreservation method (63.2%). No significant differences were detected in the percentages of abnormal sperm cells among the fresh semen, the control group and the frozen samples after the different cooling times. Finally, the post‐thaw percentages of damaged acrosomes showed a very uniform distribution, with mean values ranging between 7% and 10.5%. The results clearly demonstrated that cooling the semen up to 48 h before freezing did not produce a decrease in the semen quality when was compared with semen frozen by a traditional procedure.     

鸵鸟卵黄对猪精子冷冻后质量的影响

为了提高猪冷冻精液品质和精子抵抗低温打击的能力,本研究以5%、10%、15%、20%和25%等不同浓度的鸵鸟卵黄作为冷冻保护剂,以20%的鸡蛋卵黄和20%的鸽蛋卵黄为对照,将冷冻-解冻后的精子活率、质膜完整率和顶体完整率作为评价指标,分析鸵鸟卵黄对猪精子的抗冷冻保护作用。结果表明：稀释液中添加20%鸽蛋卵黄时,精子活率、顶体完整率和质膜完整性分别为52.11%、55.62%和54.94%,显著高于其他组（P〈0.05）。虽然稀释液中添加15%鸵鸟卵黄时,冷冻-解冻后精子活率、顶体完整率和质膜完整率显著高于5%、10%、20%和25%鸵鸟卵黄组,但仍然显著低于稀释液中添加20%鸽蛋卵黄处理组。本研究表明,鸵鸟卵黄在冷冻过程中对猪精子具有一定的保护作用,但相对于鸽子蛋和鸡蛋卵黄效果并不理想。     

Optimization of glycerol concentration and freezing rate in the cryopreservation of ejaculate from brown bear (Ursus arctos)

In order to establish a semen bank for the endangered Cantabrian brown bear, we tested five glycerol concentrations and three freezing rates for electroejaculated semen. Electroejaculation was performed on nine males. Semen was diluted in TES-Tris-Fructose (20% egg yolk, 2% EDTA, 1% Equex) with 2%, 4%, 6%, 8% or 10% glycerol and frozen at -10, -20 or -40°C/min. Before and after cryopreservation, samples were analysed for motility (CASA), viability and acrosomal status (flow cytometry). Pre-freezing results showed that glycerol concentration had no significant effect on total motility or progressive motility, but it significantly decreased VCL, ALH, viability and acrosomal status (p < 0.05). After thawing, sperm motility was higher at extender with 4%, 6% and 8% glycerol, but only at 4% and 6% glycerol for viability and acrosomal status. For 4% and 6% glycerol, freezing rates did not have significant effects. The curve fitting gave an estimate of the optimal glycerol concentration, with all the optimal values for every parameter between 6% and 7% glycerol falling. We propose using 6% glycerol and a freezing velocity of -20°C/min for freezing brown bear ejaculated spermatozoa.     

Cryopreservation of Dog Semen in a Tris Extender with 1% or 2% Soya Bean Lecithin as a Replacement of Egg Yolk

Egg yolk is usually included in extenders used for preservation of dog semen. Lecithin is an interesting animal‐protein free alternative to egg yolk for semen preservation. The aim of our study was to evaluate soya bean lecithin for cryopreservation of dog semen. Five ejaculate replicates were divided in three equal parts, centrifuged and each pellet diluted with one of the three Tris‐based extenders containing 20% egg yolk, 1% soya bean lecithin or 2% soya bean lecithin. Extended semen was loaded in 0.5‐ml straws, cooled and diluted a second time and frozen in liquid nitrogen vapours. Sperm motility parameters (CASA), acrosome integrity (FITC‐PNA/PI) and sperm membrane integrity (C‐FDA) were evaluated 5 min post‐thaw and after 2 and 4 h of incubation. Total motility was significantly better in the egg yolk extender than in any of the lecithin‐based extender and was better in the 1% lecithin extender than in the 2% lecithin extender. Sperm membrane integrity was significantly better in the egg yolk extender than in any of the lecithin‐based extenders but did not differ significantly between the 1% and 2% lecithin extenders. Acrosome integrity was significantly better in the egg yolk extender than in the 2% lecithin extender but did not differ between the egg yolk extender and the 1% lecithin extender or between the two lecithin extenders. In conclusion, egg yolk was superior to lecithin in our study. The extender with 1% lecithin preserved sperm motility better than the extender with 2% lecithin.     

The Effect of Removal of Seminal Plasma, Egg Yolk Level and Season on Sperm Freezability of Canary Buck (Capra hircus)

Goat semen is different from that of other domestic species in its limited tolerance to the inclusion of egg yolk in the freezing medium, and this tolerance depends on the presence of enzymes in the seminal plasma that react with egg yolk, producing toxic compounds to the spermatozoa. Moreover, the goat is a seasonal breeder that shows variations in semen quality throughout the year, and those variations may affect semen freezability; hence in freezing protocols, for instance, removal of seminal plasma (washing) yields varying results. This work was designed to study this problem in Canary goats: semen from six males was collected in spring, autumn or winter, washed or non-washed, diluted in a freezing extender with 1.5, 6 or 12% egg yolk, frozen, and thawed after 2 days, 2 or 6 months of cryopreservation. The effect of egg yolk concentration in the freezing extender was far more important than the effect of washing or season on sperm cryosurvival. The quality of frozen-thawed semen tended to improve as egg yolk concentration increased regardless of the effects of season, washing or period of cryopreservation. Washing produced a positive effect on frozen-thawed semen collected during spring or autumn, but the difference decreased as the concentration of yolk increased. However, washing produced a negative effect on frozen-thawed semen collected during winter, diluted with either 6 or 12% egg yolk. There was no apparent seasonal effect on gross measures of sperm production but the seasonal effect was ever present and was reinforced by freezing.     

Freezing of stallion semen with addition of glycine betaine

The effect of addition of glycine betaine to a lactose-EDTA freezing medium on the post-thaw motility of stallion semen was determined. The first three semen-rich fractions of nine stallions were collected with an open-end Krakow artificial vagina on consecutive weekdays. Semen was frozen using the Hannover method with freezing media containing glycine betaine in various concentrations from 0 to 5%. After thawing, sperm motility was analysed both by a light microscope and by a Hamilton-Thorn Motility Analyser. Total and progressive post-thaw motilities of semen containing 0.25-3% glycine betaine did not differ significantly from the total and progressive post-thaw motilities of semen frozen without glycine betaine. The total and progressive post-thaw motilities of semen containing 4 or 5% glycine betaine were significantly lower (P < 0.001) than those of semen without glycine betaine. In conclusion, glycine betaine did not show any beneficial effect on the post-thaw motility of stallion semen when semen was frozen using the Hannover method.     

First successful frozen semen of the maned wolf (Chrysocyon brachyurus)

This study aimed to describe successful cryopreservation of sperm from maned wolves (Chrysocyon brachyurus). Three ejaculates from 2 maned wolves were collected by digital manipulation of the penis and evaluated subjectively, centrifuged and frozen in BotuCrio^® (Botupharma, Botucatu, Brazil) or Tris–yolk egg extender. Spermatozoa were thawed at 37ºC/30s or 70ºC/4s and evaluated for kinetics, morphology, plasma and acrosome membrane integrity, mitochondrial potential, hydrogen peroxide, superoxide anion and lipid peroxidation. From 5 thawed samples, two had sperm total motility >55% (56.0% and 64.0%) and progressive motility ~35% (35% and 40%), both frozen with Tris–yolk egg. Plasma and acrosome membrane integrity decreased and percentage of sperm defects increased post-thawing. We concluded that is possible to freeze spermatozoa from maned wolves using semen collection and processing methods applied for domestic dogs.     

Effect of washing on motility and acrosome morphology of frozen-thawed goat spermatozoa

Semen from 4 bucks was collected using an artificial vagina and was pooled and divided into 6 aliquots. Three aliquots were washed twice, 15 minutes each time, with Ringer's solution, and the fluid was removed by centrifugation at 950 X g between washes. All 6 aliquots (3 washed and 3 unwashed) were extended with skim milk-glycerol, lactose-egg yolk-glycerol, or tris (hydroxymethyl) aminomethane-citric acid-egg yolk-glycerol and were frozen in straws to -196 C. The semen was then thawed and kept at 37 C for 8 hours. Percentage of sperm motility was estimated, and the percentage of normal acrosomes (NA) was determined at 0, 2, 4, 6, and 8 hours after thawing. The experiment was repeated 7 times. The data indicated a significant positive effect (P = 0.0009) of washing on motility, but no effect (P = 0.5347) of extender. There was also a significantly higher percentage of NA in washed semen (P less than 0.0001). Sperm extended in tris aminomethane-citric acid-egg yolk-glycerol had more NA than those extended in lactose-egg yolk-glycerol. Sperm motility and acrosome morphology were depressed also in the presence of seminal plasma for the milk extender, which did not contain egg yolk. Removal of seminal plasma from goat semen was beneficial in preserving the integrity of the spermatozoa after freezing, regardless of the extender used.     

大豆卵磷脂对马精液冷冻保存的效果研究

为探索适宜浓度的大豆卵磷脂(soybean lecithin,SL)代替卵黄(egg yolk,EY)对马精液冷冻保存的效果,本试验分别以5%卵黄(V/V)和10%、20%、30%大豆卵磷脂(m/V)作为精液的冷冻保护剂冷冻解冻马精液,解冻后分别对精子细胞的运动参数、精子细胞膜的完整性、精子细胞脂质氧化物丙二醛的值和线粒体膜完整性进行检测。结果发现,精液冷冻解冻后,5%卵黄和10%、20%、30%大豆卵磷脂对精子的总运动精子数无显著影响(P>0.05),但30%大豆卵磷脂具有最大的原地摆动精子数和最小的直线前进精子数(P<0.05),其他运动参数差异不显著(P>0.05);20%大豆卵磷脂代替卵黄后具有最高的质膜完整性,同时产生最少的脂质氧化物丙二醛;线粒体膜电位经流式细胞仪检测时,30%大豆卵磷脂活精子高膜电位数最高,但与20%大豆卵磷脂之间差异不显著(P>0.05)。试验结果表明,20%大豆卵磷脂能够代替卵黄作为冷冻保护剂用于马精液的冷冻保存。