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。     

Cryopreservation of Ram Semen in Extenders Containing Soybean Lecithin as Cryoprotectant and Hyaluronic Acid as Antioxidant

A soybean lecithin‐based extender supplemented with hyaluronic acid (HA) was assayed for effectiveness to improve the quality of frozen–thawed ram semen. HA has not been tested yet in an extender containing soybean lecithin for freezing ram semen. Thus, the aim of this study was to analyse the effects of soybean lecithin at 1% or 1.5% along with HA at 0, 0.5 and 1 mg ml^‐1 in a Tris‐based extender on the motion characteristics, membrane integrity (HOST), viability, GSH peroxidase (GSH‐PX) activity, lipid peroxidation and acrosomal status after freezing–thawing. Semen was collected from four Mehraban rams during the breeding season and frozen in the six lecithin×HA extenders. The extender containing 1.5% lecithin supplemented with no HA yielded higher total motility (52.5%±1.6), viability (55.8%±1.6) and membrane integrity (44.5%±1.7), but the effects of the lecithin concentration did not reach signification. Linearity‐related parameters, ALH, BCF, lipid peroxidation, GSH‐PX activity, morphology and acrosomal status were not affected by the extender composition. In general, adding HA significantly decreased sperm velocity (1 mg ml^‐1 HA), total motility (only with 1.5% lecithin), viability (1 mg ml^‐1 HA for 1% lecithin; both concentrations for 1.5% lecithin) and membrane integrity. In conclusion, adding HA to the freezing extender supplemented with soybean lecithin failed to improve quality‐related variables in ram semen. Increasing the lecithin content could have a positive effect, but further studies are needed.     

Cryopreservation of Stallion Spermatozoa with INRA96 and Glycerol

The aim of the present study was to improve success of cryopreservation of stallion spermatozoa. Semen from eleven stallions was collected and frozen in INRA 96 with two different concentrations of glycerol (3.5% and 6.0%) and compared with a control freezing process. The mean post-thaw motility for the eleven stallions of 57.93% (3.5% glycerol) and 66.50% (6.0% glycerol), which was statistically higher (P < 0.05) when compared with the mean post-thaw motility (39.7%) for semen in a control egg-yolk extender (Equipro^® CryoGuard™ Complete, Minitube). The Equipro^® CryoGuard™ Complete is a commercial semen freezing protocol that has been one of the standard processes used in our laboratory for freezing equine spermatozoa. INRA 96 with 6% added glycerol was used in the fertility trial as it provided the highest spermatozoa survival. To evaluate fertility of the frozen semen, eight mares were bred over two cycles with both fresh and frozen semen. The pregnancy rate of mares bred with frozen semen (55.6%) was not statistically different (P > 0.05) from the pregnancy rate of mares bred with fresh semen (55.6%). INRA 96 with 6.0% glycerol improved the survivability of stallion spermatozoa through the cryopreservation process, and subsequent fertility was not different (P > 0.05) from fresh, extended semen.     

The Effects of an Oxygen Scavenger and Coconut Water on Equine Sperm Cryopreservation

Alternative sources of lipoproteins in semen extenders could replace animal by-products. We hypothesized that: (1) post-thaw semen parameters and fertility would not be different in coconut water (CW)–treated samples compared with egg yolk (EY)–treated samples and (2) the use of an oxygen scavenger (Oxyrase) would improve post-thaw sperm motility and membrane integrity and decrease lipid peroxidation. Experiment 1: three ejaculates each from five stallions were split into four treatments: EY, CW, egg yolk with Oxyrase, and coconut water with Oxyrase. Computer-assisted sperm analysis measured progressive and total motility, velocity, and linearity. Membrane integrity, apoptosis, and lipid peroxidation were evaluated using propidium iodide, annexin, and BODIPY fluorescent probes, respectively. Samples were cryopreserved, stored in liquid nitrogen, and then thawed to 37°C and analyzed again. Experiment 2: one ejaculate was divided into two aliquots and cryopreserved using either CW or EY. In a crossover design, 12 mares were bred on two consecutive cycles with either EY or CW. Pregnancy evaluations were at 14-day gestation. No differences were detected in sperm parameters between CW and EY (P > .05). Oxyrase did not improve sperm motility parameters in post-thaw samples, nor did it show protective effects for viability or against membrane damage (P > .05). More mares became pregnant using CW than EY (11/12 vs. 6/12, respectively; P = .013). Use of CW is a viable alternative to animal-based products in the cryopreservation of stallion semen.     

不同卵黄成分、大豆卵磷脂及β-环糊精胆固醇对马精子冷冻效果的影响

本研究旨在比较添加不同浓度的卵黄成分（全卵黄（EY）、卵黄浆蛋白（EYP）、低密度脂蛋白（LDL）及水溶性卵黄蛋白（livetin））、大豆卵磷脂（SL）及β-环糊精胆固醇（CLC）对马精子冷冻效果的影响。选择4匹成年英纯血种公马进行采精,试验1：以INRA82+3.5%的混合抗冻剂作为基础冷冻液,添加0、2%、4%和8%浓度的EY、LDL、EYP或水溶性卵黄蛋白;试验2：以4%全卵黄组为对照,添加1%、2%和4% SL;试验3：在INRA82+3.5%的混合抗冻剂+4% EY基础液中添加0、0.75、1.5和3 mg/mL浓度的CLC。结果显示,EYP、LDL及水溶性卵黄蛋白3种卵黄组分均对马精子冷冻具有显著保护作用（P<0.05）,但不同卵黄组分之间及与EY组相比保护效果无显著差异（P>0.05）;添加低浓度（1%）的SL精子冻融后活力与对照组（4% EY组）相比无显著差异（P>0.05）,但添加高浓度SL组（2%和4%）冻融后精子TM、PM及RAP值均显著低于对照组（P<0.05）;添加不同浓度的CLC解冻后精子活力与未添加组无显著差异（P>0.05）。研究结果表明,卵黄中EYP、LDL和水溶性卵黄蛋白均对精子保护有效,保护效果与EY无显著差异;1% SL可获得与卵黄相似的保护效果;在含有卵黄的基础冷冻液中添加CLC未能提高精子冻后活力。     

Quality of Fresh,Cooled, and Frozen Semen From Stallions Supplemented with Antioxidants and Fatty Acids

This study assessed the effect of oral supplementation with the primary antioxidants and fatty acids involved in spermatogenesis (L-carnitine, selenium, vitamin E, omega-3, and omega-6) on the seminal quality in fresh, cooled, and frozen semen of stallions (n = 8), using a randomized design. The animals were divided into Group I (n = 4) and Group II (n = 4) for a 30-week experiment. The two groups alternated between nutraceutical supplementation and a placebo over the course of the experiment. Semen collections were performed in two sets: once in the middle of the experiment, before the two groups switched treatments, and once at the end. The volume, appearance, sperm concentration, spermatozoa kinetics, and membrane integrity of fresh semen were evaluated. The spermatozoa kinetics and membrane integrity of cooled (for 24, 36, and 48 hours) and frozen semen were also evaluated. No differences were observed in volume, appearance, and sperm concentration between treatment and control. However, compared with placebo, nutraceutical supplementation increased (P < .05) total motility, trajectory speed, as well as plasma and acrosomal membrane integrity in spermatozoa from fresh semen. In cooled semen, nutraceutical treatment also increased (P < .05) total motility, speed, and membrane integrity of spermatozoa compared with the control. In frozen semen, supplementation increased (P < .05) spermatozoa progressive motility and plasma membrane integrity. Our results suggest a positive, synergistic effect of the antioxidant L-carnitine and selenium on spermatozoa kinetics. Similarly, the increase in plasma and acrosomal membrane integrity could be attributed to higher concentrations of polyunsaturated fatty acids (a key cell-membrane component), combined with the prevention of excess lipid peroxidation by antioxidants. In conclusion, supplementation with nutraceuticals containing fatty acids and antioxidants improved the quality of fresh, cooled, and frozen stallion semen. Therefore, nutraceutical use should increase the success of artificial insemination with cooled and cryopreserved semen.     

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 Trehalose Supplementation of INRA-82 Extender on Quality and Fertility of Cooled and Frozen-Thawed Stallion Spermatozoa

Stallion semen cryopreservation is often associated with poor post-thaw sperm quality. Sugars act as nonpermeating cryoprotectants. The aim of the present study was to evaluate the cryoprotective effect of trehalose on stallion sperm quality and field fertility rates subjected to cooling and freeze–thaw process. Semen samples were collected from six Arabian stallions, divided into five different treatments in a final concentration of 100 × 10⁶ sperm/mL by using INRA-82 extender containing 0, 25, 50, 100, and 200 mM of trehalose then subjected to both cold storage and cryopreservation. Sperm motility, acrosome, plasmatic membrane, and DNA integrity were analyzed, and 57 mares were used to evaluate the field fertility of chilled and frozen-thawed semen. Results showed that the extender containing 100 mM trehalose only increased the functional acrosomal, plasma membrane, and DNA integrities. The inclusion of 50 mM trehalose in semen extender resulted in significantly (P < .05) increased post-thaw total motility compared to the control group, and chilled semen achieved higher pregnancy rates compared to the frozen-thawed one. Pregnancy rate of mares inseminated with frozen-thawed semen (P < .05; 46.15% vs. 36.36%, respectively) was lower than those inseminated with chilled semen (76.47% vs. 68.75%, respectively) but higher than control. In conclusion, addition of 50 mM trehalose yielded the highest quality stallion semen after cooling and post-thawing in terms of motility, integrities of acrosome, membrane, and DNA as well as improved field fertility.     

不同浓度大豆卵磷脂替代蛋黄对东佛里生奶绵羊精液冷冻保存效果的影响

本试验皆在研究添加不同浓度大豆卵磷脂（SL）冷冻保存东佛里生奶绵羊精液的效果。我们在Tris基础稀释液中,添加18%蛋黄为对照组,添加0.5%、1%、1.5%、2%、2.5%SL设为试验组,检测冷冻精液解冻后的精子活率和顶体完整率。结果显示,添加0.5%、2.5% SL冷冻稀释液稀释的精液,解冻后精子活率和顶体完整率与其他组之间存在显著差异（P<0.05）;添加18%蛋黄和1%～2% SL冷冻稀释液稀释的精液,冷冻解冻后精子活率和顶体完整率之间无显著差异（P>0.05）;添加18%蛋黄和1.0%～1.5% SL冷冻稀释液稀释后的精液,进行人工授精后母羊的妊娠率与对照组无显著差异（P>0.05）。因此,大豆卵磷脂可以作为冷冻保护剂用于东佛里生奶绵羊精液的冷冻保存,其最佳添加浓度为1～2%（g／L）。     

Stallion Semen Cooling Using Native Phosphocaseinate-based Extender and Sodium Caseinate Cholesterol-loaded Cyclodextrin-based Extender

The objective of this study was to compare semen parameters and embryo recovery rates of cooled stallion semen extended with INRA 96 or BotuSemen Gold. In experiment 1, 45 ejaculates from nine mature stallions were collected, assessed, and equally split between both extenders and then extended to 50 million sperm/mL. Then, the extended semen was stored in three passive cooling containers (Equitainer, Equine Express II, and BotuFlex) for 48 hours. In experiment 2, the same ejaculates extended in experiment 1 were cushion-centrifuged, the supernatant was discarded, and the pellets were resuspended at 100 million sperm/mL with their respective extender. Semen was then cooled and stored as in experiment 1. In both experiments, sperm motility parameters, plasma membrane integrity, and high mitochondrial membrane potential were assessed at 0, 24, and 48 hours post cooling. For experiment 3, 12 mares (n = 24 cycles) were bred with 48 hour–cooled semen from one stallion. Semen was processed as described in experiment 1. Mares had embryo flushing performed by 8-day post-ovulation. In experiment 1, BotuSemen Gold displayed superior total and progressive motility relative to INRA 96 (P < .05). There were no significant differences between the types of containers in any experiment. In experiment 2, INRA 96 and BotuSemen Gold extenders had similar total and progressive motility, but BotuSemen Gold had superior sperm velocity parameters at all timepoints. Embryo recovery was identical for both extenders (50%). Finally, the results obtained herein suggest that BotuSemen Gold is a suitable alternative to be included in semen cooling tests against INRA 96 in clinical practice.     

Comparison of in vitro and in vivo fertilizing potential of buffalo bull semen frozen in egg yolk‐, soya bean lecithin‐ and liposome‐based extenders

The objective of this study was to compare different extenders for post‐thaw in vitro sperm function and in vivo fertility of buffalo semen. Accordingly, sperm of 30 ejaculates extended in egg yolk (TRIS with 20% egg yolk; EY), two soya lecithin‐based (SL‐1; AndroMed^® and SL‐2; Bioxcell^®) and a liposome‐based extender (LS; OptiXcell^®) were tested. The post‐thaw semen was evaluated for computer‐assisted sperm analysis (CASA), sperm viability, membrane and acrosome integrity, DNA integrity and acrosome reaction and first service pregnancy rate (FSPR) in a fixed‐time artificial insemination programme. Total motility and VCL were the only CASA‐based parameters that exhibited significantly higher (p < .05) percentage in LS among these extenders. Post‐thaw percentage of acrosome integrity (55.9 ± 1.4, 58.1 ± 2.0, 55.8 ± 2.0, 56.6 ± 2.3) and DNA integrity (68.8 ± 2.0, 69.2 ± 2.3, 71.3 ± 2.1, 69.1 ± 2.1) did not differ (p > .05) in EY, SL‐1, SL‐2 and LS extender, respectively. However, a variable response in terms of efficacy of different extenders for sperm viability and plasma membrane integrity was observed. Assessment of inducibility of acrosome reaction showed significant differences between extenders (51.9 ± 2.1, 44.3 ± 2.4, 46.1 ± 2.3 and 58.1 ± 3.1%, respectively, for EY, SL‐1, SL‐2 and LS). Furthermore, field trials revealed significantly higher (p < .05) FSPR of LS‐extended semen as compared to that for EY, SL‐1 and SL‐2 extender (46.3%, 41.2%, 31.2% and 29.7%, respectively). It is concluded that the liposome‐based extender is more effective than egg yolk‐ and soya lecithin‐based extenders and may be used for cryopreservation of buffalo semen in the future.     

Freezing equine semen: the effect of combinations of semen extenders and glycerol on post-thaw motility

Objective   We evaluated combinations of two commercial semen extenders and three concentrations of glycerol to determine the combination that yielded the highest post-thaw sperm motility.
Design   A randomised 2 × 3 block design was used.
Procedure   Semen was collected from four stallions (6 collections per stallion). The sample was diluted with either a dried skim-milk glucose extender (EZ Mixin Original Formula) or a chemically defined, milk-free diluent (INRA 96), and each was used in combination with 2%, 3% or 4% glycerol in standard commercial freezing medium. Sperm motility was assessed by microscopy in fresh and post-thaw semen.
Results   There was a significant difference between the two extenders in the motility of spermatozoa after cryopreservation (48.9% for INRA 96; 38.6% for EZ Mixin OF; P < 0.0001). Glycerol at 4% in freezing medium yielded the highest post-thaw motility, significantly better than 2% ( P < 0.05). Three of four stallions had significantly higher post-thaw motility using INRA 96 relative to EZ Mixin OF ( P < 0.01), and two of four stallions had significantly higher post-thaw motility using 4% glycerol ( P < 0.05). The combination of INRA 96 and 4% glycerol in freezing medium gave the highest average post-thaw motility of 51.5%.
Conclusion   In this study, INRA 96 combined with 4% glycerol yielded an average recovery of progressively motile sperm consistently above the 35% target.     

添加低剂量大豆卵磷脂稀释液低温保存绵羊精液的优化研究

本实验旨在探讨添加低剂量大豆卵磷脂稀释液对绵羊精液低温保存效果。实验一采用6个浓度(0%、0.25%、0.5%、0.75%、1.0%、1.25%)大豆卵磷脂替代TRIS专利稀释液中卵黄低温保存绵羊精液,在第0、1、4、7、10、12、18天检测精子活率、顶体完整率;实验二选用实验一中最优添加组(0.5%组)和TRIS专利稀释液制成粉剂低温保存绵羊精液,在保存第0、1、4、7、10、12天对精子活率和顶体完整率进行测定,并在保存第10天对绵羊进行人工授精。结果表明:实验一中,0%组从第1天精子活率低于其他组(P<0.05),0.25%组精子活率观测值从第10天开始低于0.25%以上浓度组(P<0.05),0.5%、0.75%、1.0%、1.25%组保存第10天精子活率均大于50%,0.5%组保存第18天精子活率高于1.0%、1.25%组(P<0.05);各组顶体完整率缓慢下降,各时间点均无显著性差异;实验二中,0.5%组与TRIS组在各时间点的精子活率、顶体完整率与受胎率均无显著性差异,保存第10天精子活率均高于50%;0.5%组受胎率为65.49%,略低于TRIS组67.65%(P>0.05)。本实验条件下,绵羊精液低温保存稀释液中添加0.5%大豆卵磷脂替代卵黄效果最佳。     

Quality of Raw and of Cold-Stored Semen in Icelandic Stallions

The aim of the present study was to evaluate the quality of raw and cooled semen in Icelandic stallions. Experiments were performed using seven stallions aged between 3 and 19 years. From each stallion, six ejaculates were collected, and semen quality was determined. Thereafter, the semen was split into eight equal parts and processed with and without centrifugation using the extenders INRA 82-egg yolk, INRA 96, GENT, and Equi-Pro to a final concentration of 30 × 10⁶ sperm/mL. The extended semen was then cooled in an Equitainer, where it was stored for 24 hours, and subsequently refrigerated for another 24 hours at 5°C. Immediately after dilution as well as after 24 and 48 hours storage, sperm motility was analyzed using computer-assisted sperm analyzer, and viability was assessed after dual DNA staining with SYBR-14 in combination with propidium iodide. The results show that the stallion had a significant (P < .05) influence on all variables evaluated in raw semen, and mean (±SEM) values of 43.4 ± 4.3 mL for the volume, 193.0 ± 17.0 × 10⁶ sperm/mL for the concentration, 6.7 ± 0.5 × 10⁹ for total sperm and 73.5 ± 2.1% for total sperm motility, 48.7 ± 2.0% for progressive motility, and 65.3 ± 2.0% for rapid cells were measured. In the cold-stored semen, all variables were significantly (P < .05) influenced by the stallion, extender, and storage time (48 hours). Except for Equi-Pro, all extenders examined were suitable for cooled semen preservation. For storage of more than 24 hours, centrifugation and removal of the seminal plasma were advantageous for all extenders with the exception of Equi-Pro.     

Addition of Glutathione to an Extender for Frozen Equine Semen

The manipulation of equine semen during cryopreservation reduces sperm viability and fertility because of, among other factors, membrane lipid peroxidation that makes cells highly susceptible to free radicals and reactive oxygen species (ROS). The oxidative effect caused by the generation of ROS can be reduced by the addition of antioxidants to the seminal plasma or to the extenders used for freezing. The current study was performed to test the in vitro effect of exogenous glutathione added in five different concentrations (control, 2.5 mM, 5.0 mM, 7.5 mM, and 10 mM [treatments 1-5, respectively]) to the extender for 12 stallions. Analyzed parameters were sperm motility, viability, and acrosome and plasmatic membrane integrity. Total motility was higher in treatments 1 and 2 (P < .05); viability, progressive motility, and plasmatic membrane integrity were higher in treatment 2 (P < .001). As for acrosome membrane integrity, treatment 3 showed the best results (P < .05). The addition of 2.5 mM glutathione to the freezing extender preserves total motility and increases sperm viability, progressive motility, and plasmatic membrane integrity. Concentrations above 2.5 mM were deleterious to spermatozoa.     

新疆驴冷冻精液的研究

试验旨在探究新疆驴冷冻精液的最佳稀释保护液与处理方法。以假阴道采集新疆驴精液,并用5种不同稀释保护液稀释冷冻后,选取其中较为理想的稀释液作为对照组,再通过分别添加4%、5%、6%、8%甘油处理试验,最后再选用添加甘油后冷冻效果最优的稀释液为对照来进行离心浓缩试验。结果表明：①5号稀释液冷冻—解冻精液后,其活力、顶体完整率要显著高于其他4种稀释液（P<0.05）;②以5号稀释液为对照组,添加6%甘油(7号稀释液)冷冻后,精子的活力、顶体完整率要显著高于添加4%、5%、8%甘油组（P<0.05）;③以7号稀释液为对照组,通过离心浓缩,精液在冷冻后其活力和精子顶体完整率都显著提高（P<0.05）。结果提示,将驴精液用6%葡萄糖、2%乳糖、6%甘油为主的稀释液稀释,并经500 r/min离心浓缩10 min处理后,其冷冻效果最好。     

The Use of Cefquinome in Equine Semen Extender

Antibiotics are commonly used in equine semen extender for conservation, if semen has to be stored cooled for a maximum of 48 hours or frozen, to eliminate pathogenic or potentially pathogenic bacteria from semen and reduce the risk of postmating endometritis. Little is known about the effect of antibiotics on spermatozoa when semen is stored over a longer period. Cefquinome, a broad spectrum antibiotic and fourth-generation cephalosporin, has been proven to be a powerful drug for the treatment of endometritis and mastitis in different species. Recently in equine studies, it was found to localize in high concentrations in the endometrium. Therefore, cefquinome was used as the antibiotic in semen extender and compared with a commercial semen extender containing gentamicin for effects on motility and membrane integrity of spermatozoa. During the breeding season, ejaculates from nine light horse stallions were collected and half of each ejaculate was stored for 48 hours in modified Kenney type semen extender containing either cefquinome or gentamicin. At 0, 24, and 48 hours, aliquots (20 μL) of the stored semen were evaluated for (progressive) motility and membrane integrity, as well as for various motility parameters by computer assisted sperm analysis. No differences (P > .05) were found in total motility or progressive motility between extenders at any time point. However, there were differences (P < .05) in velocity parameters, although the effect of velocity parameters on fertility is not clear. In general, semen parameters after storage in non-fat dried skim milk semen extender containing cefquinome are comparable with those after storage in semen extender containing gentamicin. The wider spectrum of bactericidal activity possessed by cefquinome may prove to be beneficial in some cases.     

Optimization of Ram Semen Cryopreservation Using a Chemically Defined Soybean Lecithin‐Based Extender

The purpose of the present study was to investigate the effects of a chemically defined soybean lecithin‐based semen extender as a substitute for egg yolk‐based extenders in ram semen cryopreservation. In this study, 28 ejaculates were collected from four Zandi rams in the breeding season and then pooled together. The pooled semen was divided into six equal aliquots and diluted with six different extenders: (i) Tris‐based extender (TE) containing 0.5% (w/v) soybean lecithin (SL0.5), (ii) TE containing 1% (w/v) soybean lecithin (SL1), (iii) TE containing 1.5% (w/v) soybean lecithin (SL1.5), (iv) TE containing 2% (w/v) soybean lecithin (SL2), (v) TE containing 2.5% (w/v) soybean lecithin (SL2.5) and (vi) TE containing 20% (v/v) egg yolk (EYT). After thawing, sperm motility and motion parameters, plasma membrane and acrosome integrity, apoptosis status and mitochondrial activity were evaluated. The results shown that total and progressive motility (54.43 ± 1.33% and 25.43 ± 0.96%, respectively) were significantly higher in SL1.5 when compared to other semen extenders. Sperm motion parameters (VAP, VSL, VCL, ALH and STR) were significantly higher in SL1.5 compared to other extender, with the exception of SL1 extender. Plasma membrane integrity (48.86 ± 1.38%) was significantly higher in SL1.5 when compared to other semen extenders. Also, percentage of spermatozoa with intact acrosome in SL1.5 (85.35 ± 2.19%) extender was significantly higher than that in SL0.5, SL2.5 and EYT extenders. The results showed that the proportion of live post‐thawed sperm was significantly increased in SL1.5 extender compared to SL0.5, SL2 and EYT extenders. In addition, SL1, SL1.5 and SL2.5 extenders resulted in significantly lower percentage of early‐apoptotic sperm than that in EYT extender. There were no significant differences in different semen extenders for percentage of post‐thawed necrotic and late‐apoptotic spermatozoa. Also, the results indicated that there are slight differences for percentage of live spermatozoa with active mitochondria between extenders. In conclusion, SL1.5 extender was better than other extenders in most in vitro evaluated sperm parameters.     

Preliminary comparisons of a unique freezing technology to traditional cryopreservation methodology of equine spermatozoa

With recent large-breed organization acceptance, the use of frozen semen is gaining more attention in the equine industry. However, cryopreserved stallion semen is commonly associated with poor quality and decreased pregnancy rates as compared with those produced during normal mating or with cooled semen techniques. Therefore our objective was to investigate a new unique freezing technique (UFT) with the intent of improving fertility outcomes. A series of experiments tested the UFT compared with traditional liquid nitrogen methodology in combination with influence of the extenders and stallions used. In Experiment 1, post-thaw motility results of UFT variations were compared with those from liquid nitrogen methods. The averaged post-thaw motility percentages of the 4 UFT treatments were similar when compared with the traditional liquid nitrogen control group (P = .845). In Experiment 2, 2 egg-yolk–based freezing extenders, Biladyl AB intended for bovine samples and Freezing Medium Test Yolk Buffer used for human samples, were compared. A significant difference in the average post-thaw motilities was found between Biladyl AB (17%) and Freezing Medium Test Yolk Buffer (25%) (P < .002). In the third experiment, we compared variability among stallions using the UFT with the intention of creating a more consistent outcome. Post-thaw motilities and percent of original motility returns among the 4 stallions were significantly different (P < .001). In a field trial using shipped semen from a regional stallion station, the UFT demonstrated very promising results.In conclusion, the UFT may potentially be used as an alterative freezing method to replace current liquid nitrogen methodology. However, further investigation is needed to refine techniques.     

Tris-Lecithin Extender Supplemented With Antioxidant Catalase for Chilling of Canine Semen

The aims were to evaluate the suitability of a non-commercial TRIS-lecithin (LC) extender and the effect of different concentrations of catalase (CAT) on motility, capacitation status (Chlortetracycline-assay) and zona pellucida (ZP) binding capacity of canine spermatozoa stored at +5°C for 4 days. The sperm-rich fractions of the ejaculates of four stud dogs were divided into four aliquots. After centrifugation, sperm pellets were diluted (200 × 10⁶ sperm/ml) in TRIS buffer, citric acid, fructose, antibiotics, supplemented with 20% egg yolk (TRIS-EY) or 0.04% soybean lecithin (TRIS-LC) with CAT (150 or 450 UI/ml) or without CAT, and then preserved at 5°C for 4 days. The results showed that LC is a valid alternative to EY for chilling canine semen, as similar rates of motility, number of uncapacitated spermatozoa and of spermatozoa binding the oocyte ZP were obtained in semen chilled in TRIS-LC or TRIS-EY. Different concentrations of CAT in a TRIS-LC based extender did not improve the quality of semen after chilling. However, a concentration of 150 UI/ml CAT resulted in an increased number of spermatozoa bound to the oocyte ZP, after 4 days of chilling when compared to semen chilled with TRIS-EY and TRIS-LC. In conclusion, an animal protein-free extender with soybean LC, as a replacement of EY, is suitable for 4 days chilling of canine spermatozoa, but the addition of CAT does not improve general semen quality except for a slight effect on sperm-ZP binding.