Addition of Cholesterol‐Loaded Cyclodextrins to the Thawing Extender: Effects on Boar Sperm Quality

The aim of the present study was to evaluate the effect that the addition of cholesterol‐loaded cyclodextrins (CLC) to the thawing extender has on the quality of frozen‐thawed boar sperm. Pooled semen (n = 5) from three boars was used for the experiments. The semen was cryopreserved with an egg‐yolk‐based extender, it was diluted after thawing in Beltsville thawing solution (BTS) supplemented with different concentrations of CLC (0, 12.5, 25, 50 or 100 mg/500 × 10⁶ sperm), and these samples were incubated at 37°C for 150 min. The following parameters of sperm quality were evaluated 30 and 150 min after incubation: sperm with intact plasma membrane (SIPM; %), sperm with normal acrosomal ridge (NAR; %), total motile sperm (TMS; %), progressively motile sperm (PMS; %) and kinetic parameters. Both SIPM and NAR increased (p < 0.05) when the thawing extender was supplemented with 12.5, 25 and 50 mg CLC/500 × 10⁶ sperm. Nevertheless, motility decreased (p < 0.05) when the concentration of CLC exceeded 12.5 mg CLC/500 × 10⁶ sperm. In conclusion, our results suggest that the supplementation of thawing extenders with CLC improves sperm viability and reduces acrosome damage after freezing/thawing.     

二甲基甲酰胺对猪精液冷冻保存效果的影响

用二甲基甲酰胺(DMF)完全替代甘油,比较不同平衡时间和不同DMF添加量对猪精液冷冻保护效果的影响。结果表明,DMF能完全替代甘油,获得较好的冷冻保护效果。最佳平衡时间为90 min,解冻后精子活力为(44.57±0.72)%,显著高于对照组和其他组(P0.05)。当DMF添加量为5%时,冻后精子活力、活率、线粒体活性、顶体完整率和质膜完整率分别为(49.91±0.39)%(、46.51±0.26)%、(47.51±0.52)%(、49.84±0.56)%、(46.30±1.61)%,均显著高于2%、3%、6%DMF添加组(P0.05),但与4%DMF添加组相比,冻后精子活力、活率和质膜完整率差异不显著(P0.05)。本试验结果表明,DMF最适添加量为5%。     

Egg Yolk and Glycerol Requirements for Freezing Boar Spermatozoa Treated with Methyl β-Cyclodextrin or Cholesterol-loaded Cyclodextrin

Egg yolk (EY) and glycerol are common constituents of extenders used for sperm cryopreservation. It has been demonstrated that using cholesterol-loaded cyclodextrins (CLC) improves sperm cryosurvival in several species. However, standard freezing extenders might not be the most appropriate for CLC-treated sperm. This study evaluated the EY and glycerol requirements for freezing CLC-treated boar spermatozoa. Semen samples from 34 ejaculates coming from 4 boars were used. Each ejaculate was split into three aliquots: one was used untreated (control), and the other two were treated with 1 mg of CLC or methyl-β-cyclodextrin/120 × 10⁶ sperm for 15 min at 22 C prior to cryopreservation. Our results indicated that reducing the concentration of EY was detrimental for sperm viability after thawing (31.57 ± 2 vs. 19.89% ± 2 for 20 and 10% EY, respectively; P <0.05), even in semen treated with CLC. On the other hand, it was observed that the traditional concentration of glycerol (3%) was not the appropriate for freezing CLC-treated sperm (61.10 ± 3 vs. 47.87% ± 3 viable sperm for control and CLC-treated sperm, respectively; P <0.05). Thus, CLC-treated sperm showed a higher tolerance to high glycerol concentrations (5%) in terms of sperm viability (59.19% ± 3) than non-treated sperm (45.58% ± 3; P<0.05). Therefore, it could be necessary to modify the freezing extenders for CLC-treated sperm. Nevertheless, additional studies will be needed to evaluate alternative cryoprotectants and to determine the effect of high glycerol concentrations on sperm functionality.     

猪精液的冷冻保存技术

综述了国内外猪冷冻精液的发展简史及研究成果,对猪精液的冷冻保存机理进行了简要阐述,并从稀释液、冷冻保护剂及其浓度、冷冻前处理、冷冻剂型、诱发结晶、冷冻速率、解冻等方面阐述了影响猪精液冷冻的因素,指出了目前在猪精液冷冻理论和实践中存在的问题,并提出了解决办法.     

The Effect of Glycerol Concentrations on the Post‐thaw In Vitro Characteristics of Cryopreserved Sex‐sorted Boar Spermatozoa

The objective of this study was to optimize protocols for the cryopreservation of sex‐sorted boar spermatozoa. In the experiment 1, we evaluated the effects of a standard boar sperm cryopreservation procedure (3% final glycerol concentration) on the in vitro characteristics of sex‐sorted sperm frozen at low sperm concentrations (20 × 10⁶ sperm/ml; S20 group). Non‐sorted spermatozoa frozen at 1000 × 10⁶ (C1000 group) and 20 × 10⁶ (C20 group) sperm/ml were used as the freezing control groups. In experiment 2, the effects of different final glycerol concentrations (0.16%, 0.5%, 1.0%, 2.0% and 3.0%) on post‐thaw quality of the S20 and C20 groups were evaluated. In both experiments, the samples were evaluated prior to freezing (5°C) and at 30, 90 and 150 min after thawing. Experiment 1 indicated that freezing sperm at low concentrations decreased (p < 0.05) the total motility (TM) and progressive motility (PM) at 90 and 150 min after thawing regardless of whether the sperm were sorted or not. However, the sperm membrane integrity was not affected at any evaluation step. Inexperiment 2, significant effects on the TM and PM because of increased glycerol concentrations in the S20 and C20 groups were observed only at 90 and 150 min after thawing. The samples frozen in 3% glycerol showed lower (p < 0.05) TM and PM values when compared to those frozen in the presence of 0.5% and 1% glycerol. In both experiments, non‐sorted control samples displayed higher percentages of spermatozoa with damaged DNA than sorted spermatozoa. In conclusion, the optimization of cryopreservation conditions by decreasing the glycerol concentrations can improve post‐thaw motility of sex‐sorted spermatozoa frozen at low concentrations.     

Effect of Different Levels of Glycerol and Cholesterol‐Loaded Cyclodextrin on Cryosurvival of Ram Spermatozoa

This study was conducted to determine the optimum level of glycerol and cholesterol‐loaded cyclodextrin (CLC) in a Tris‐based diluent for cryopreservation of ram spermatozoa. Ram semen was treated with 0, 1.5, 3 or 4.5 mg CLC/120 × 10⁶ cells in Tris‐based diluents containing 3, 5 or 7% glycerol in a factorial arrangement 3 × 4 and frozen in liquid nitrogen vapour. Sperm motility, viability (eosin–nigrosin staining) and functional membrane integrity (hypo‐osmotic swelling test) were assessed immediately after thawing (0 h) and subsequently after 3 and 6 h at 37°C. There was an interaction between CLC and glycerol on the functional membrane integrity (p < 0.05). In the presence of 3% glycerol, the highest functional membrane integrity (32.2%) was found in the spermatozoa treated with 1.5 mg CLC/120 × 10⁶ sperm. Post‐thaw sperm motility was highest in 1.5 mg CLC immediately after thawing (40.5%) and after 3‐h (30.6%) incubation at 37°C (p < 0.05). Viability of spermatozoa was higher in all CLC treatments than in the untreated samples, and it was highest (33.9%) in the spermatozoa treated with 1.5 mg CLC (p < 0.05). These data indicate that the addition of cholesterol to sperm membranes by 1.5 mg CLC/120 × 10⁶ cells may allow the use of a lower concentration of glycerol (3%), which is sufficient to mitigate the detrimental effects of freezing and thawing.     

冷冻速率和解冻温度对猪精液冷冻效果的影响

为优化冷冻和解冻方法,提高冷冻效果,本试验比较了不同冷冻速率(-100 ℃ 10 min、-120 ℃ 10 min、-140 ℃ 10 min)和不同解冻温度(37 ℃ 30 s、45 ℃ 30 s、52 ℃ 30 s、60 ℃ 30 s)对猪精液冷冻效果的影响。结果表明,采用-120 ℃熏蒸10 min,解冻后精子活力为0.36,质膜完整率和顶体完整率也优于其他2组,且差异显著(P<0.05)。采用37 ℃ 30 s方法解冻,精子活力、质膜完整率显著高于其他3组,顶体完整率也高于其他3组,但差异不显著(P>0.05),其畸形率最低和60 ℃ 30 s组差异明显(P<0.05),但与45 ℃ 30 s组和52 ℃ 30 s组差异不显著(P>0.05)。因此,采用-120 ℃平衡10 min冷冻,37 ℃ 30 s水浴解冻方法更为适合0.25 mL细管猪冻精解冻。     

解冻稀释液中添加精浆对冻融猪精子品质的影响

【目的】 探究冷冻前添加热休克蛋白A8(heat shock protein A8, HSPA8)和解冻后添加不同浓度精浆(seminal plasma, SP)对冻融猪精子的影响。【方法】 采用手握法采集长白猪精液, 添加0.5 μg/mL HSPA8到猪精液冷冻保护剂中进行细管分装, 投入液氮中保存3周后进行解冻, 解冻后添加不同浓度精浆(0、10%、30%和50%), 对冻融后长白猪精子的运动能力、质膜完整性、顶体完整性、细胞凋亡、线粒体膜电位、鱼精蛋白缺乏及体外获能水平等进行评估。【结果】 与对照组相比(无HSPA8和精浆), 添加0.5 μg/mL HSPA8处理组(无精浆)的精子直线速度(VSL)、曲线速度(VCL)、平均路径速度(VAP)和前向性运动(STR)均显著提升(P<0.05), 精子直线性运动(LIN)和运动的摆动性(WOB)均无显著差异(P>0.05);精子质量参数中活力、质膜完整性和顶体完整性均显著升高(P<0.05), 细胞凋亡水平与线粒体膜电位均显著降低(P<0.05);精子鱼精蛋白缺失率显著降低(P<0.05);精子蛋白酪氨酸磷酸化水平显著提高(P<0.05)。之后在解冻液中添加不同浓度的精浆, 与添加0.5 μg/mL HSPA8处理组(无精浆)相比, 精浆添加量达到50%时, 精子VSL、VCL、VAP、LIN、STR和WOB均显著提升(P<0.05);精子活力、质膜完整性、顶体完整性和线粒体膜电位均显著提高(P<0.05), 细胞凋亡水平显著降低(P<0.05);精子鱼精蛋白缺失率显著降低(P<0.05);精子蛋白酪氨酸磷酸化水平显著提高(P<0.05)。【结论】 在冷冻基础液中添加0.5 μg/mL HSPA8和解冻稀释液中添加50%精浆联合使用可以有效改善冻融精子质量, 将会对猪精液的冷冻保存及商业化生产提供一定的参考。     

The positive effects of seminal plasma during the freezing process on cryosurvival of sperm with poor freezability in the rhesus macaque (Macaca mulatta)

The objective was to examine the effect of seminal plasma on cryopreservation of sperm from rhesus macaques. Sperm cryosurvival was evaluated by sperm motility and acrosomal integrity. Compared with slow cooling (-0.4 C/min) from 37 C (body temperature) to 4 C, rapid cooling (-16 C/min) caused cold shock in rhesus macaque sperm. The cryosurvival of sperm was decreased regardless of the presence or absence of seminal plasma (P<0.05). However, the presence of seminal plasma during cold shock at a rapid cooling rate improved sperm motility and acrosomal integrity in individual monkeys. Male-to-male variation in sperm cryosurvival was observed after cryopreservation (P<0.05), and the presence of seminal plasma during sperm cryopreservation improved sperm motility and acrosomal integrity in individual monkeys (P<0.05). Furthermore, by adding seminal plasma from monkeys with good sperm cryosurvival to sperm freezing extender, the frozen-thawed motility and acrosomal integrity of sperm from monkey with poor cryosurvival were improved (P<0.05). The present study indicated that seminal fluid is beneficial to sperm undergoing cold shock or cryopreservation in individual monkeys. The cryosurvival of sperm from rhesus macaques with poor sperm freezability could be improved by the presence of seminal plasma from males with good sperm cryosurvival. This finding provides a useful method for genetic preservation in this important species.     

Is Sperm Freezability Related to the Post‐Thaw Lipid Peroxidation and the Formation of Reactive Oxygen Species in Boars?

The aim of the present study was to determine whether the levels of reactive oxygen species (ROS) substances production and the levels of lipid peroxidation of the sperm membrane were related to the quality that the ejaculates exhibited after cryopreservation in boars. Ejaculates from 42 healthy boars were used in this study and they were cryopreserved with the lactose‐egg yolk extender (LEY). Several sperm quality parameters were assessed by flow cytometry in samples incubated for 30 and 150 min at 37°C after thawing: the percentage of sperm with intact plasma membrane (SIPM), intracellular reactive oxygen substances production through mean of DCF fluorescence intensity of total sperm (mean‐DCF) and the percentage of viable and non‐viable sperm containing oxidized BODIPY (VSOB and NVSOB). In addition, the percentages of total motile (TMS) and progressively motile sperm (PMS) were assessed at the same incubation times with a computer‐assisted sperm analysis system. The classification of the ejaculates into good or bad freezers was performed through hierarchical cluster analysis from SIPM and TMS at 150 min post‐thawing. The ejaculates of those males classified as good freezers exhibited higher (p < 0.05) SPIM, TMS and PMS than the bad freezers, although both groups presented similar (p > 0.05) VSOB, NVSOB and mean‐DCF. Therefore, these results show that lipid peroxidation and the amount of reactive oxygen substances in the sperm after cryopreservation are similar between boars classified as good or bad freezers.     

The benefits of cooling boar semen in long‐term extenders prior to cryopreservation on sperm quality characteristics

This study investigated the effects of long‐term extenders on post‐thaw sperm quality characteristics following different holding times (HT) of boar semen at 17 and 10°C. Sperm‐rich fractions, collected from five boars, were diluted in Androhep^® Plus (AHP), Androstar^® Plus (ASP), Safecell^® Plus and TRIXcell^® Plus (TCP) extenders. The extended semen samples were held for 2 hr at 17°C (HT 1) and additionally for 24 hr at 10°C (HT 2), after they were evaluated and frozen. CASA sperm motility and motion patterns, mitochondrial membrane potential (MMP), plasma membrane integrity (PMI) and normal apical ridge (NAR) acrosome integrity were assessed in the pre‐freeze and frozen‐thawed semen. The Vybrant Apoptosis Assay Kit was used to analyse the proportions of viable and plasma membrane apoptotic‐like changes in spermatozoa. Results indicated that boar variability, extender and HT significantly affected the sperm quality characteristics, particularly after freezing‐thawing. Differences in the pre‐freeze semen were more marked in the sperm motion patterns between the HTs. Pre‐freeze semen in HT 2 showed significantly higher VCL and VAP, whereas no marked effects were observed in the sperm membrane integrity and viability (YO‐PRO‐1^?/PI^?) among the extenders. Post‐thaw sperm TMOT and PMOT were significantly higher in the AHP and ASP extenders of HT 2 group, whereas VSL, VCL and VAP were markedly lower in the TCP extender. Furthermore, spermatozoa from the AHP‐ and ASP‐extended semen of HT 2 group were characterized by higher MMP, PMI and NAR acrosome integrity following freezing‐thawing. In most of the extenders, the incidence of frozen‐thawed spermatozoa with apoptotic‐like changes was greater in HT 1. The findings of this study indicate that holding of boar semen at 10°C for 24 hr in long‐term preservation extenders modulates post‐thaw sperm quality characteristics in an extender‐dependent manner. These results will further contribute to the improvement in the cryopreservation technology of boar semen.     

New strategies of boar sperm cryopreservation: Development of novel freezing and thawing methods with a focus on the roles of seminal plasma

Cryopreservation of boar spermatozoa offers an effective means of long‐term storage of important genetic material. Many researchers have investigated how to improve reproductive performance by artificial insemination (AI) using cryopreserved boar spermatozoa. Recently, we and other groups reported that high conception rates (70–80%) can be achieved by AI with frozen‐thawed boar spermatozoa using a modified temperature program during freezing, or a novel cryopreservation extender to improve sperm quality (including sperm survivability, motility, membrane status and fertilization ability) after thawing, or a novel sperm infusion method, deep intra uterine insemination. However, these techniques have not yet been used for commercial pig production. The variation in sperm freezability among boars or among ejaculations in an identical boar is one of the main reasons for this problem. In our previous study, it was revealed that some components of seminal plasma have a negative effect on the freezability of boar sperm. One of these factors is bacteria‐released endotoxin (lipopolysaccharide: LPS). LPS binds to Toll‐like receptor‐4 (TLR‐4) expressed on the sperm surface, resulting in induction of apoptosis. On the other hand, seminal plasma suppresses cryo‐capacitation induced by thawing stress. On the basis of these findings, we designed a novel protocol of AI using frozen‐thawed boar sperm.     

Cholesterol Loaded Cyclodextrin Supplementation Enhances the Cholesterol-to-Phospholipid Ratio and Diminishes Oxidative Stress in Jack Spermatozoa During Cryopreservation

The present study was conducted with the hypothesis that addition of cholesterol to the extender would stabilize the sperm membranes by increasing the cholesterol-to-phospholipid (C:P) ratio and would result in an improved post-thaw semen quality and reduce oxidative stress in the jack (Martina franca) semen. Forty-eight ejaculates from six jacks were collected and analyzed for the present study. The freshly collected semen sample of each jack stallion was divided into five equal fractions after addition of the primary extender without cholesterol-loaded cyclodextrin (CLC) (C) and with 1, 1.5, 2, and 3 mg/mL CLC to obtain 120 × 10⁶ sperm/mL spermatozoa concentration. The semen was cryopreserved using customized freezing protocols. Evaluation of seminal parameters, the C:P ratio, and the oxidative status of jack spermatozoa was analyzed at all stages of cryopreservation. The oxidative status in the jack semen was evaluated by measuring malondialdehyde, glutathione and total antioxidant capacity levels. The results indicated that the mean percent values for various seminal quality parameters and the oxidative parameters were found to be significantly higher (P < .05) in CLC-treated groups with the highest values for 2 mg of CLC/120 × 10⁶ spermatozoa. In conclusion, the present study revealed that the supplementation of CLC before cryopreservation has significantly reduced the oxidative stress and also increased the C:P ratio during semen cryopreservation process. Furthermore, a reduction in lipid peroxidation levels, reduced damage to the sperm plasma and acrosome membranes and improvement in the post-thaw sperm integrity as well as stability were recorded.     

Analysis of In vitro Fertilizing Capacity to Evaluate the Freezing Procedures of Boar Semen and to Predict the Subsequent Fertility

A porcine in vitro fertilization (IVF) system and seminal quality parameters of frozen–thawed boar semen were used to assess the effectiveness of two different thawing rates of frozen boar semen, and to address the question of whether differences between fertility of ejaculates could be predicted in a limited field trial. In the first experiment, two thawing procedures were analysed (37°C, 30 s; 50°C, 12 s) and no differences in sperm quality were found. However, when the procedure was 50°C, 12 s the IVF results showed a higher number of sperm per penetrated oocyte and a near 10 points higher rate of pronuclear formation. In the second experiment, the fertility results obtained in the limited field trial show to be efficient enough for application in a commercial use, especially for three of the employed boars (fertility ≥80%). In this limited study, the conventional seminal parameters are not accurate enough to discriminate good and bad boars in relation to fertility. On the contrary, parameters of in vitro penetrability are more precise to predict subsequent fertilities. As conclusion, the IVF fertilization system seems to be a good tool to evaluate the quality of frozen–thawed boar semen previous to its commercial way, to verify the bank semen storage quality and a good way to assay new sperm freezing procedures, as it is the more precise evaluating method in estimating the potential fertilizing ability.     

OC1Effects of Cryopreservation on the Expression of Glut‐3, Glut‐5 and As‐A Proteins in Iberian Boar Sperm Membranes

In order to determine the injure produced in boar spermatozoa through cryopreservation process, we analyzed the expression of the hexose transporters Glut‐3 and Glut‐5 and the zona pellucida binding protein As‐A (P68) in three different steps of the freezing‐thawed protocol: at 17°C (fresh BTS‐diluted semen, 1 : 2 v/v, step 1), at 5°C (after glycerol addition; step 2), and post‐thawing (step 3). All sperm analyses were carried out with immunogold techniques under electronic microscopy. For this study eight healthy post‐pubertal Iberian boars were submitted to a collection of twice per week through 3 months, evaluating two ejaculates from each boar. Glut‐3 maintains the expression in the acrosome region post‐thawing but not along the tail where is reduced. The expression of Glut‐5 and As‐A is majority located at the post‐acrosome region of the spermatozoa at step 1, but in step 2 and step 3 this expression is relocated to sperm tail area. In conclusion, while cryopreservation affects the localization and the expression of Glut‐3 and Glut‐5, its fertilizing capacity is not significantly reduced. The stabilization of boar semen at 5°C was found to be the most crucial step for sperm survival.     

Cholesterol-loaded cyclodextrins added to fresh bull ejaculates improve sperm cryosurvival

Damage occurring to spermatozoa during cryopreservation results in a loss of motile cells and cells that are functionally normal, compared with fresh sperm samples. Treating bull sperm with cholesterol-loaded cyclodextrins (CLC) before cryopreservation results in increased sperm cryosurvival. However, in previous studies, CLC were always added to sperm samples that had been highly diluted. The aim of this study was to develop a procedure for adding CLC to whole bull ejaculates that would optimize sperm cryosurvival. Adding 2 or 4 mg of CLC/120 x 10(6) sperm to sperm samples ranging in concentration from 120 to 2,000 x 10(6) sperm/mL resulted in greater (17 to 28 percentage points; P < 05) numbers of live cells compared with control samples (no CLC treatment), regardless of the sperm concentration, except for samples at 120 x 10(6) sperm/mL treated with 4 mg of CLC. Incubating sperm with CLC at 23 or 37 degrees C before cryopreservation resulted in similar sperm cryosurvival. The cooling rate used to cryopreserve CLC-treated cells did not affect sperm cryosurvival. Finally, adding CLC to undiluted ejaculates (2 mg of CLC/120 x 10(6) sperm) resulted in greater percentages of live sperm compared with the control samples (62 vs. 45%; P < 0.05), although the percentages of motile sperm were similar for both CLC-treated and control samples (58%). In conclusion, bull sperm cryo-survival can be improved if spermatozoa are treated with CLC before freezing. In addition, CLC can be added to fresh ejaculates at either 23 or 37 degrees C. This technique is simple, practical, and can be easily integrated into current cryopreservation protocols.     

CLC对冻融牛精子体外获能及抗氧化、抗凋亡能力的影响

本研究目的是评价CLC对牛冻融精子获能、抗氧化及抗凋亡能力的影响。试验分对照组和CLC处理组(0.5、1.0、1.5及2.0 mg/mL),检测冻融牛精子体外获能后的酪氨酸磷酸化水平以及冻融牛精子抗氧化基因和细胞凋亡基因的表达。结果:1)在0.5 mg/mL CLC处理组冷冻效果最好,与对照组和1.0 mg/mL CLC处理组相比无显著差异;2)冻融牛精子获能处理后,在1.0 mg/mL CLC处理组精子蛋白酪氨酸磷酸化水平最高,与对照组相比无显著差异;3)在0.5 mg/mL CLC处理组冻融牛精子抗氧化基因CAT、GPX和SOD的表达量与对照组相比显著升高(P<0.05);4)在0.5和1.0 mg/mL CLC处理组凋亡基因Caspase-3、Caspase-8和BAX的表达量与对照组相比显著降低(P<0.05)。结论:添加CLC可以改进冻融牛精子获能和抗氧化、抗凋亡能力。     

Tris–Egg Yolk–Glycerol (TEY) Extender Developed for Freezing Dog Semen is a Good Option to Cryopreserve Bovine Epididymal Sperm Cells

Cryopreservation of epididymal spermatozoa is often performed after shipping the excised testis–epididymis complexes, under refrigeration, to a specialized laboratory. However, epididymal spermatozoa can be collected immediately after excision of the epididymis and sent extended and refrigerated to a laboratory for cryopreservation. In this experiment, we evaluated the effect of both methods of cold storage bovine epididymal spermatozoa as well as of two different extenders on spermatozoa characteristics after freeze–thawing. For that, spermatozoa collected from the caudae epididymis of 19 bulls were extended and cryopreserved in either AndroMed^® or a Tris–egg yolk (TEY)‐based extender. Cryopreservation of sperm cells was performed immediately after castration (Group A, n = 9) or after cold storage for 24 h diluted in the two extenders and (Group B, n = 9) and also after cold storage for 24 h within the whole epididymis (Group C, n = 10). Sperm subjective progressive motility (light microscopy), plasma membrane integrity (hypoosmotic swelling test) and sperm viability (eosin–nigrosin) were evaluated. In vitro fertilization and culture (IVF) was performed to assess the blastocyst rate. No differences (p > 0.05) were observed on post‐thaw sperm parameters between samples from Group A, B and C. TEY extended samples presented a higher (p < 0.01) percentage of progressive motile and live sperm, than those extended in AndroMed^®. Blastocyst rate after IVF differed only (p < 0.05) between the reference group (IVF performed with frozen semen with known in vitro fertility) and Group A extended in AndroMed^®. We conclude that when cryopreservation facilities are distant from the collection site, bovine epididymal sperm can be shipped chilled overnight either within the epididymal tail or after dilution without deleterious effect on post‐thaw sperm quality. TEY extender was more suitable for cold storage and freezing bovine epididymal sperm, than the commercial extender AndroMed®.     

Successful Cryopreservation of Domestic Cat (Felis catus) Epididymal Sperm after Slow Equilibration to 15 or 10°C

To support conservation strategies in wild species, simple but highly reproducible procedures of sperm cryopreservation are required for an application under field conditions. We used epididymal sperm of the domestic cat to optimize a sperm freezing procedure for felid species, particularly questioning the demand for sperm cooling to 4°C. We equilibrated sperm during slow cooling to only 15 or 10°C in a Tes–Tris–fructose extender with final concentrations of 4.7% (v/v) glycerol and 10% (v/v) of the water‐soluble fraction of hen's egg yolk (low‐density lipoproteins). Subsequently, sperm were frozen over liquid nitrogen. Total and progressive motility (mean ± SD) after thawing was 60.7 ± 8.6% and 53.9 ± 9.6% in samples cooled to 15°C or 61.6 ± 9.5% and 55.3 ± 9.9% in samples cooled to 10°C. Therefore, a one‐step addition of glycerol to sperm at room temperature together with the freezing extender, the use of cryovials (loaded with diluted sperm aliquots of 300 μl), an equilibration period of 40 min comprising slow cooling to 15°C at a rate of approximately ?0.14 K/min before rapid freezing over liquid nitrogen, yielded satisfying results. Cooling, freezing and thawing rates were exactly characterized as a prerequisite for further optimization and to provide a repeatable protocol to other practitioners.     

Cryopreservation of Boar Semen: I: A literature review

The present review summarizes information concerning the methods available to cryopreserve boar semen, covering the historical background, cryobiology and cryoprotecting considerations, technological developments and recent advances in cryopreservation methodologies. Successful methods for cryopreservation of boar semen have not been achieved despite numerous efforts world wide. Improvements in semen preservation technologies have been deterred by lack of in vitro methods that can accurately predict in vivo fertilizing capacity of frozen boar semen. The cell membrane is of crucial importance with regard to freeze-thaw survival of spermatozoa. It is important to optimize the survival of the plasma membrane as this is a non homogenous entity both in structure and function. The boar sperm membrane exhibits extreme sensitivity to freezing treatment. Freezing and thawing results in considerable changes in electrolyte dynamics and damages have mainly been associated with alterations in the head membranes especially at thawing. To date fruitless efforts have been carried out to find a cryoprotectant for the spermatozoa membranes and glycerol still continues to be used despite its harmful effects to the membranes.