Effect of Different Packages and Freezing/Thawing Protocols on Fertility of Ram Semen

A field trial was performed in order to evaluate the effect on fertility of different straw types, freezing protocols (one- or two-step) and thawing procedures (35°C and 70°C) using frozen–thawed ram semen. A total of 791 Norwegian Crossbred ewes were artificially inseminated during natural oestrus with semen collected from nine mature and proven Norwegian Crossbred rams. A milk-based extender was used for dilution. The ewes were allocated into one of the following three groups based on the different straw types and thawing temperatures: medium straw (0.5 ml) thawed at 35°C for 20 s (Med35), medium straw thawed at 70°C for 8 s (Med70) and mini straw (0.25 ml) thawed at 35°C for 15 s (Mini35). The semen to be frozen in mini straws was re-concentrated by centrifugation. Sperm number in each insemination dose was approximately 200 × 10⁶ spermatozoa. The fertility results [as 25-day non-return rate (NRR)] for Med35, Med70 and Mini35 were 53.1%, 50.8% and 58.3%, respectively, and the lambing rates 49.8%, 46.8% and 53.8%, respectively. No significant main effects were seen for straw type/thawing temperature (p = 0.17), ram (p = 0.06) or age of the ewe (p = 0.18) on NRR or lambing rates (p = 0.19, p = 0.16 and p = 0.27, respectively). Both NRR and lambing rate differed significantly among farms (p < 0.0001).     

In vitro Fertilizing Capacity of Deep Frozen Boar Semen Packaged in 0.5 and 5 ml Straws

The aim of this study was to evaluate the straw size effect used for freezing on the in vitro fertilizing capacity. Twenty-one ejaculates from seven fertile boars were frozen under controlled conditions in 0.5 and 5 ml straws. Thawed semen was compared to fresh semen. For fresh and thawed semen in 0.5 and 5 ml straws, the results were: 92.18, 77.38 and 79.04% sperm penetration; 80.68, 66.89 and 69.33% monospermy; 11.51, 10.49 and 9.74% polyspermy; 86.19, 47.14 and 47.02% motility and 75.52, 48.19 and 46.81% normal apical ridge (NAR), respectively. Analysis of variance and test of multiple comparisons showed that under the conditions employed, penetration, monospermy, motility and NAR were significantly reduced by freezing–thawing, but polyspermy was much less affected. The results obtained suggest that frozen boar semen is adequate for in vitro fertilization. In addition freezing in 5 ml straws did not have any detrimental effect on either penetration, monospermy, polyspermy, motility and NAR, in comparison with freezing in 0.5 ml straws.     

Within-herd Use of Boar Semen at 5°C, with a Note on Electronic Monitoring of Oestrus

A system was designed to allow a small swine farm in a northern latitude to use its own boars for artificial insemination (AI) conveniently. Semen was collected twice weekly for 3 day use (days 0, 1 and 2), extended in an egg yolk extender and stored at 5°C. Farm personnel were trained to manage the entire AI programme. For simplicity all semen collected was used for insemination. In the first test 47 gilts and 15 sows were inseminated with semen from four boars. One boar was subfertile with a farrowing rate of 36%. The averages for the other boars ranged from 71 to 100%. Then semen was collected from seven boars and all was used to inseminate 70 gilts and 55 sows with 3 × 10⁹ or more sperm. Overall 63% farrowed an average of 10.1 piglets per litter. Litter size for sows was 1.5 piglets larger than for gilts. There was no difference in farrowing rate when more than 3 × 10⁹ sperm were inseminated. The feasibility of initiating a complete AI programme within a small herd using herd boars was established. However, selection of the boars, use of only high quality semen, and experience with detecting oestrus was required to increase the farrowing rate. The use of various agents to protect sperm against cold shock below 15°C is worthy of further investigation. A new type of electronic probe, which measures the conductivity of cervical mucus, could be helpful if a boar is not available for conventional detection of oestrus.     

Cryo-scanning Electron Microscopy Discloses Differences in Dehydration of Frozen Boar Semen Stored in Large Containers

In general, freezing in flat plastic polyethylene terephthalate (PET) bags (FlatPacks) at 50°C/min gives better post-thaw viability, in terms of sperm motility and membrane integrity, than does freezing in plastic maxi-straws, probably owing to differences in cryobiology. To test the hypothesis that this better survival post-thaw relates to the degree of sperm dehydration during freezing, the present study investigated the structure of boar semen in a frozen state using cryo-scanning electron microscopy (cryo-SEM) to compare two different packages (FlatPacks and maxi-straws) for single artificial insemination (AI) doses, and three different freezing rates. The semen was split-sample frozen in maxi-straws or FlatPacks (both holding 5 ml) using 3% glycerol as cryoprotectant. Three freezing rates were applied from −5°C to −100°C, namely 2°C/min, 50°C/min and 1200°C/min, the lattermost by plunging the samples into liquid nitrogen (LN₂). The samples were thereafter fractured into LN₂ and larger areas of extra-cellular, unbound frozen water ('ice lakes') were measured to determine the degree of dehydration of the spermatozoa. These areas decreased in size with an increase in cooling rate, the differences in size being more dramatic for maxi-straws than for FlatPacks. Size of ice lakes was also influenced by location within package in relation to cooling rate, the central values being always smaller in maxi-straws than in Flatpacks (p < 0.05 at 2°C/min and 50°C/min) but not at 1200°C/min, which suggested the FlatPack allows for more homogenous freezing of boar semen.     

Deep Freezing of Boar Semen Packaged in Plastic Bags and Straws

For practical reasons, a large volume (i.e. 5 ml) of frozen boar semen per insemination dose is desirable, but successful freezing has not been achieved, since optimal cooling rates have not yet been established. Post-thaw motility and the acrosome intep'ty of semen from four boars frozen with a programmable freezin machine, in mini-(0.25 ml), maxi-(5 ml) plastic straws and in 10 × 5 cm PVC- or Teflon FEP-plastic bags (0.35 – 0.12 mm thick, 5 ml) was studied. The freezing of the semen was monitored using thermocouples placed in the straws and the bags. The freezing curve started from +5°C, at a rate of −3°C/min, to – 6°C, it was held for 1 min at −6°C, and was followed by further drop to −100°C at a rate of −20°C/min, with subsequent storage in LN₂. The bags had a much shorter freezing point plnteau, compared to the maxi-straws. Post-thaw sperm motility was significantly higher when semen was frozen in mini-straws or in bags than in maxi-straws. The freezing procedure did not cause major acrosomal damages, significantly more normal apical ridges being present in the bags and mini-straws than in the maxi-straws. This in vitro evaluation indicates that the freezing method employed is satisfactory for freezing large volumes of boar semen into plastic bags .     

丁羟基甲苯抗猪精子氧化损伤作用

分别在稀释、离心猪精液中添加0.2、0.4、0.8、1.6 mmol/L丁羟基甲苯(Butylated hydroxytoluene,BHT),15℃保存,检验保存35、d后精子TMS、PMI和NAR(%)、测定MDA浓度;确定并选择最佳BHT浓度用于猪精液冷冻保存,检验解冻后TMS、PMI、NAR和Mt-MP(%)、测定MDA浓度。结果显示:BHT显著提高稀释精液、离心精液各项指标百分率(P0.05),且MDA浓度显著降低(P0.05),BHT最佳浓度分别为0.8、1.6 mmol/L;0.8 mmol/L BHT显著提高冷冻-解冻精液各项指标百分率(P0.05),且MDA浓度显著降低(P0.05)。结果表明,BHT能通过抑制精子质膜氧化损伤,提高猪精液保存效果。     

Identification of Sperm-Head Morphometric Subpopulations in Iberian Red Deer Epididymal Sperm Samples

Computer-assisted sperm morphometry analysis (CASMA) was used in this study to identify sperm morphometric subpopulations in Iberian red deer epididymal sperm samples. Epididymal sperm samples were collected from 37 mature stags and were divided. One portion was diluted in a Tris–citrate–egg yolk medium. A microscope slide was prepared from single extended sperm samples prior to freezing. The remainder of each sample was frozen in nitrogen vapours using a conventional protocol. After thawing, sperm smears were prepared as described for extended samples. All slides were air-dried and stained with Hemacolor^®. The sperm-head dimensions for a minimum of 145 sperm-heads were analyzed from each sample by means of the Sperm-Class Analyser^®, and the mean measurements recorded. Each sperm-head was measured for four primary sperm-head parameters, and five parameters of head shape. All sperm morphometric parameters evaluated were placed in a statistical database and a multivariate cluster analysis was performed. The clustering analyses, based on 10 867 individual spermatozoa, revealed the existence of three subpopulations (SP₁, SP₂, SP₃) of spermatozoa with different morphometric characteristics (p  <  0.001). The proportion of spermatozoa present in any of the three subpopulations remained constant (p  >  0.05) through the cryopreservation process. Pre-freeze and post-thaw sperm quality was in vitro evaluated by microscopic assessments of individual sperm motility and of plasma membrane and acrosome integrities. In conclusion, our results show that applying the CASMA techniques and multivariate cluster analyses, it was possible to determine that three subtle subpopulations of spermatozoa with different morphometric characteristics coexist in red deer semen.     

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.     

Extenders containing dimethylformamide associated or not with glycerol are ineffective for ovine sperm cryopreservation

The study aimed at testing the effectiveness of dimethylformamide, alone or combined with glycerol, as cryoprotectant for freezing ram semen. Ejaculates from nine rams were cryopreserved in Tris-based extenders, containing 5% of glycerol, association of dimethylformamide with glycerol, in four proportions achieving 5% of cryoprotectors in the media and pure dimethylformamide (2, 3, 4 and 5%) in replacement to glycerol. The samples were diluted to 100 × 10(6) sptz/ml and stored in 0.25-ml straws in liquid nitrogen. After thawing (37 °C for 30 s), motility was preserved better by the extender containing 5% of glycerol (p < 0.05). The extenders containing pure dimethylformamide, or more than 2% in combination with glycerol, provided sperm motilities close to zero. Plasma and acrosomal membrane integrity were preserved better (p < 0.05) in the extender containing 5% glycerol. It can be concluded that dimethylformamide, alone or combined with glycerol, has no beneficial effects on ovine semen cryopreservation.     

Interactions between straw size and thawing rates on the cryopreservation of agouti (Dasyprocta aguti) epididymal sperm

This study verifies the interactions between straw size and thawing rates and their impact on the epididymal sperm from this species. Caudae epididymidum from 10 agoutis were subjected to retrograde washing using a coconut water extender (ACP‐109c^®). Epididymal sperm were evaluated and extended in ACP‐109c^® plus egg yolk (20%) and glycerol (6%). The samples were packaged in 0.25‐ or 0.50‐ml straws, frozen in liquid nitrogen and thawed at 37°C/1 min or 70°C/8 s, followed by a re‐evaluation. The use of 0.25‐ml straws thawed at 37°C/1 min provided a value of 26.6% for sperm motility. No interactions between straw size and thawing rates were verified on agouti sperm (p > 0.05), but when 0.5‐ml straws were thawed at 70°C/8 s, sperm vigour decreased significantly (p < 0.05). It is recommended that the agouti epididymal sperm cryopreserved in ACP‐109c^® extender should be packaged in 0.25‐ or 0.50‐ml straws and thawed at 37°C/60 s.     

Post-thaw Survival and Longevity of Bull Spermatozoa Frozen with an Egg Yolk-based or Two Egg Yolk-free Extenders after an Equilibration Period of 18 h

The aim of the present study was to determine the suitability of using two egg yolk-free commercial extenders, Andromed and Biociphos Plus as compared with the Tris-egg yolk based diluent Biladyl, for the cryopreservation of bull spermatozoa when the freezing protocol involved holding the extended semen at 4 degrees C for 18 h before the freezing. Six ejaculates from each of 10 Holstein bulls were collected by using artificial vagina. The ejaculates were evaluated for volume, sperm concentration and motility, divided in to three equal volumes, and diluted, respectively, with the three extenders as specified above. Extended semen was equilibrated for 18 h at 4 degrees C and frozen in 0.25-ml straws. After thawing, 100-mul aliquots of semen were labelled with SYBR-14, PI and PE-PNA (Phycoerythrin-conjugated Peanut agglutinin) and analysed by flow cytometry at 0, 3, 6 and 9 h after incubation at 37 degrees C. A General Lineal Model procedure for repeated measures was used to determine the effects of extender, bull, replicate and the interaction between them, on sperm viability and acrosomal integrity. Semen samples frozen with Biladyl showed higher (p < 0.001) sperm survival after 0 h (47.9%) and 9 h (30.3%) of incubation than those frozen with Andromed (38.5% and 17.3%, after 0 and 9 h respectively) or Biociphos Plus (34.9% and 21.6%, after 0 and 9 h respectively). The bull and replicate had significant effects (p < 0.001) on both sperm viability and acrosomal integrity, but the interactions between bull and extender and between replicate and extender were not significant. It was concluded that, when holding the semen overnight before freezing, the use of Biladyl results in higher sperm survival and longevity than the use of Andromed or Biociphos Plus.     

Effect of Cooling Rate to 5°C,Straw Size and Farm on Fertilizing Ability of Cryopreserved Rabbit Sperm

High fertility and prolificacy in rabbits are currently only achieved using fresh sperm. This study was conducted to determine if the cooling rate to 5°C, the straw size and the farm where artificial inseminations are performed have an impact on the fertilizing ability of rabbit sperm cryopreserved with an extender containing dimethyl sulphoxide (DMSO; 1.75 m ) and sucrose (0.05 m ). Slow cooling to 5°C improved neither fertility rate (58 vs 56% kindling rate for fast and slow cooling, respectively) nor prolificacy (6.5 vs 8.7 total born for slow and fast cooling, respectively; p < 0.05) compared to fast cooling rate to 5°C. The straw size did not have an effect on either fertility or prolificacy (47 vs 57% kindling rate and 6.3 vs 6.8 total born for sperm loaded into 0.25 and 0.5 ml straws, respectively). In addition, similar results were obtained between farms (46–57% kindling rate and 4.9–6.7 total born), although this effect should be studied further. In conclusion, with this extender, slow cooling does not present a beneficial effect on sperm fertilizing ability and either 0.25 or 0.5 ml straws can be used to freeze the sperm, obtaining similar results after artificial insemination. In addition, similar results were obtained between farms when using cryopreserved sperm, and these results were lower than those obtained after artificial insemination with fresh semen. Therefore, new approaches are needed to improve the results obtained when cryopreserved sperms are used before this type of sperm can be used for commercial purposes.     

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.     

Comparison of two different centrifugation extenders for preservation of frozen equine semen

This study compares a commercial semen extender (control group) to ultra high temperature (UHT) skimmed milk (treatment group) used during centrifugation for subsequent cryopreservation of equine semen. Following post‐thawing of semen samples parameters measured included motility, sperm motion kinetics (using computerised assisted semen analysis) as well as acrosome and plasmatic membrane integrity (using fluorescent dyes). After collection and analysis, the sperm‐rich fraction was divided and diluted with either: control (1:1 dilution in a skimmed milk‐glucose extender) or treatment (1:1 dilution in UHT skimmed milk). The milk used in this experiment was of the same source, commercial brand, of only one lot. After dilution, samples were subjected to centrifugation at 600 g for 10 min and sperm pellets were resuspended in a freezing extender to a concentration of 200 × 10⁶ cells/ml. Aliquots were packed into 0.5 ml straws placed in a stainless steel support and kept inside the refrigerator (5°C) for 20 min. Subsequently, these straws were placed at a height of 6 cm over liquid nitrogen for 20 min in an isotherm box. No significant differences were observed in total sperm motility (42.71 vs. 38.29%), progressive sperm motility (12.29 vs. 7.86%), plasma membrane integrity (53.43 vs. 60.14%) or acrosomal membrane integrity (93.29 vs. 93.71%) with a P>0.05 calculated between the control and the treatment groups, respectively. Considering that UHT skimmed milk has a lower cost than the commercial semen extender, this could be an option used during the centrifugation protocol to decrease the expense of the equine semen cryopreservation process and increase shelf life.     

重庆板角山羊细管冷冻精液的研究

为了建立重庆板角山羊精液的细管冷冻保存方法,实验进行了不同冷冻稀释液(配方Ⅰ、Ⅱ、Ⅲ)、不同冷冻保存剂(甘油、EG)及不同离心速度(1000、1200、1400r/min)对重庆板角山羊细管精液冷冻保存效果的研究,结果表明:配方Ⅱ对重庆板角山羊精液的冻后活率显著优于配方Ⅰ和Ⅲ(P<0.05)。在配方Ⅱ中添加相同剂量(5%)的EG和甘油,精液冻后活率差异不显著(P>0.05)。以1200r/min的速度对山羊鲜精作离心处理后,冻后活率相对于对照组有所提高,但差异不显著(P>0.05)。     

OC3Morphometry Characterisation of Catalan Donkey Spermatozoa and Identification of Sperm Morphometric Subpopulations

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.     

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 glycerol concentration, equilibration time and temperature of glycerol addition on post-thaw viability of boar spermatozoa frozen in straws

Experiments were conducted to study the effect of glycerol concentration, equilibration time and temperature of glycerol addition on post-thaw viability of boar spermatozoa after cryopreservation in straws. Semen (split ejaculate) in maxi-straws (6 mm o.d.) was frozen using a programmable freezing chamber. Three methods for in vitro sperm evaluation were used: motility (MOT), acrosome integrity (NAR) and flow cytometric analysis of sperm treated with carboxyfluorescein diacetate and propidium iodide to assess sperm plasma membrane integrity (PMI). No interactions were found among the three variables evaluated. Length of prefreeze exposure to glycerol, ranging from .5 min to 75 min, had no effect on post-thaw sperm viability. Exposure of sperm to a glycerol-containing extender medium at 5 degrees C gave improved post-thaw viability over that exposed at 0 degree C (P less than .05). Glycerol at a concentration of 3 or 4% resulted in maximum post-thaw MOT. Acrosome integrity values were greatest for 2 and 3% glycerol, whereas PMI was greatest when glycerol concentration was 4 to 6%. The primary cryoprotective effect of glycerol on boar semen may be extracellular. It is concluded that 3 or 4% glycerol gives maximum viability of frozen-thawed spermatozoa when the present methods are employed.     

Recovery and Cryopreservation of Epididymal Sperm of Plains Bison (Bison bison bison) as a Model for Salvaging the Genetics of Wood Bison (Bison bison athabascae)

The objective of this study was to optimize recovery and cryopreservation of epididymal sperm from plains bison, as a model for wood bison. In Phase 1, cauda epididymides were recovered from bison (n = 14) immediately after slaughter, minced and incubated in Sp-TALPH buffer for 3 h at 36°C. The resulting sperm suspensions were cryopreserved in Triladyl^®, using a protocol for bovine semen. In Phase 2, epididymal sperm were cryopreserved in either Triladyl^® or Andromed^®. The mean (±SD) estimated number of sperm recovered was 468 ± 207 × 10⁶. There was an increase (p < 0.05) in the proportion of sperm with normal morphology between initial recovery and after extension (52.4 ± 4.6 vs 69.7 ± 2.4%), with a concurrent decrease (p < 0.05) in the proportion of sperm with distal droplets. Median values for progressively motile sperm in post-thaw samples (60%) were lower (p < 0.05) than that after extension or after chilling (70% for both). The mean percentages of viable sperm and of sperm with an intact acrosome were lower (p < 0.05) for frozen-thawed samples (38.7 ± 2.8 and 85.2 ± 1.1) compared with extended (66.2 ± 2.2 and 92.4 ± 0.9) or chilled (63.7 ± 2.5 and 90.0 ± 1.0) samples. Rates of cleavage, morulae and blastocyst production were not significantly different for chilled (70.9, 38.7 and 8.0%) vs post-thaw sperm (73.0, 46.0 and 6.3%). There was no significant difference between extenders for most sperm characteristics. In conclusion, we developed a functional protocol for the recovery and cryopreservation of epididymal sperm from plains bison, which may have implications for the genetic preservation of wood bison.     

Effect of Catalase and Superoxide Dismutase on Motility, Viability and Acrosomal Integrity of Frozen-Thawed Cat Spermatozoa

The aim of this study was to evaluate the effect of antioxidant catalase (CAT) and superoxide dismutase (SOD) in semen extender on motility, viability and acrosomal integrity of frozen-thawed cat spermatozoa. Semen was collected by using an artificial vagina from five domestic cats (two ejaculates/cat). Spermatozoa were diluted in egg yolk Ttris-fructose citrate solution (EYT-FC) without glycerol and cooled at 4°C for 1 h, then diluted further with EYT-FC with glycerol (7% final concentration) and 400 IU/ml of CAT (treatment 1) or SOD (treatment 2) or without antioxidants (control). Before freezing using a styrofoam box, diluted spermatozoa filled in 0.25-ml straws were equilibrated for 1 h at 4°C. After thawing, spermatozoa were assessed for motility, viability and acrosomal integrity. Cryopreservation significantly impaired sperm motility, viability and acrosomal integrity (p   <   0.05). However, motility, viability and acrosomal integrity of frozen-thawed cat spermatozoa in the EYT-FC with CAT, SOD and without the antioxidants were not significantly different. The average percentages of spermatozoa motility after thawing compared between control, treatment 1 and treatment 2 group were 43.5 ± 3.2, 42 ± 4.1 and 38 ± 4.5; for viability: 44.8 ± 3.5, 50.6 ± 5.7 and 47.1 ± 4.1 and for acrosomal integrity: 45 ± 3.5, 44.9 ± 3.4 and 44.4 ± 3.3, respectively. In conclusion, adding CAT and SOD to EYT-FC did not improve motility, viability and acrosomal integrity in cryopreserved cat spermatozoa.