Impact of Ultra‐Rapid Freezing on the Motility,Morphology, Viability and Acrosome Integrity of Epididymal Cat Sperm Diluted in Sucrose‐Based Extenders

The objective of the present study was to investigate the influence of different sucrose‐based extenders on the motility, morphology, viability and acrosomal integrity of epididymal cat spermatozoa cryopreserved by ultra‐rapid freezing method. Nine cats were castrated, and collected semen was diluted 1 : 1 with Dulbecco`s phosphate‐buffered saline‐BSA1%‐based extender supplemented with different sucrose concentrations (0, 0.25, 0.4 and 0.6 m ). After ultra‐rapid freezing, samples were thawed and sperm motility, morphology, viability and acrosome status were assessed. At thawing, the number of progressively motile (p < 0.01) and morphologically normal (p < 0.01) sperm was higher in the sucrose‐supplemented groups than in the sucrose‐free group. Viability of spermatozoa cryopreserved without sucrose was significantly reduced. In extender supplemented with 0.4 m sucrose, spermatozoa viability showed higher values (57.0 ± 4.7; p < 0.01). No significant differences were detected among groups for sperm acrosome integrity. Results support that cat sperm survive after ultra‐rapid freezing using sucrose as a cryoprotectant, and the best results were achieved when 0.4 m of sucrose was used. This is the first report on sperm ultra‐rapid freezing of cat sperm and further studies on extenders, sperm management or cryovials should be carried out to improve sperm cryosurvival.     

Sperm motility, plasma membrane integrity, and binding capacity to homologous zona pellucida of cryopreserved epididymal spermatozoa in the domestic cat

We examined motility, plasma membrane integrity, and binding capacity to homologous zona pellucidae (ZP) of frozen/thawed epididymal cat sperm as a model species for endangered felines. Epididymal spermatozoa from 20 domestic cats were frozen with freezing egg-yolk extender containing 3.0% glycerol in 0.25-ml straws. Post-thaw motility and plasma membrane integrity of the frozen/thawed spermatozoa were 31.8 +/- 2.4% and 32.2 +/- 4.2%, respectively. The frozen/thawed spermatozoa were co-cultured with frozen/thawed immature homologous oocytes with intact ZP for 3 h to examine their ability to bind to the ZP. Sixteen of the 20 frozen/thawed sperm samples demonstrated the ability to bind to ZP. These results indicated that the freezing system for epididymal sperm used in the present study gives appropriate information for banking the genetic resources of wild felid species.     

Effects of two freezing methods and two cryopreservation media on post‐thaw quality of stallion spermatozoa

Glycerol‐based extenders are widely utilized for freezing equine semen, but media combining methylformamide may better preserve sperm motility and mitochondrial function. Semen is cryopreserved utilizing either a Styrofoam box filled with liquid nitrogen or an automatic freezer. The objective of this experiment was to compare the post‐thaw characteristics of the same ejaculates cryopreserved in a Styrofoam box or in an automatic freezer, utilizing a glycerol‐based extender (Gent) and an extender that combines methylformamide and glycerol (BotuCrio^®). For that, one ejaculate from 30 stallions collected in two different centres was used. For data analysis, a mixed linear model with laboratory, medium and freezing method and respective interactions as fixed effects was used. Stallion was taken into account as a random effect. There was no influence (p > .05) of laboratory, while stallion effect was marked. Semen frozen in BotuCrio^® in the automatic freezer had higher (p < .001) VCL than semen cryopreserved in Gent using the Styrofoam box. VCL was also higher (p = .068) for semen frozen in BotuCrio^® in the Styrofoam box than for semen cryopreserved in Gent using the same method. The difference between percentage of sperm with intact plasma membrane frozen in Gent using the Styrofoam box (44.43% ± 2.44%) compared to spermatozoa cryopreserved in BotuCrio^® using the same method (40.78% ± 2.42%) approached significance (p = .0507). The percentage of sperm with intact acrosome membrane was higher (p < .05) in semen frozen in BotuCrio^® (79.08% ± 1.79%) than semen frozen in Gent (75.15% ± 1.80%). A higher (p = .0125) percentage (32.24% ± 2.18%) of semen extended in Gent and cryopreserved in the Styrofoam box had high mitochondrial membrane potential than semen frozen in BotuCrio^® using the same method (26.02% ± 2.15%). Fertility studies are warranted to assess whether differences found have any effect on the fertility of inseminated mares.     

Effects of single layer centrifugation (SLC) on bull spermatozoa prior to freezing on post‐thaw semen characteristics

Single layer centrifugation (SLC) has been shown to select the most robust spermatozoa from the ejaculate in several species. Here the effects of SLC prior to freezing on various parameters of frozen‐thawed bovine sperm quality are reported. Semen from 8 bulls was layered on top of a species‐specific colloid, Bovicoll. After centrifugation for 20 min at 300 g, the resulting sperm pellet was resuspended in OPTIXcell^® (IMV Technologies, l′Aigle, France); the SLC‐selected sperm samples and uncentrifuged controls were frozen. On thawing, all sperm samples were analysed for membrane integrity, production of reactive oxygen species, mitochondrial membrane potential (MMP) and chromatin integrity. The SLC‐treated samples had a higher percentage of live, superoxide‐positive spermatozoa than uncentrifuged samples (27.9 ± 5.1% versus 21.7 ± 6.7%; p = .03). They had a higher proportion of spermatozoa with high mitochondrial membrane potential than uncentrifuged samples (55.9 ± 8.2% versus 40.5 ± 15.1%; p = .03) and also a lower proportion of spermatozoa with low mitochondrial membrane potential than non‐treated samples (42.0 ± 8.5% versus 55.9 ± 14.4%; p = .04). No significant effects of treatment were found for membrane integrity or chromatin integrity. The effect of bull was significant on the proportions of dead, superoxide‐positive spermatozoa and live, hydrogen peroxide‐negative spermatozoa, as well as on membrane integrity, but it was not significant for mitochondrial membrane potential or chromatin integrity. These results suggest that SLC selects the most metabolically active bull spermatozoa from the rest of the population in normal ejaculates; the pattern of reactive oxygen species production may be different in SLC‐selected spermatozoa compared to unselected samples.     

Cryopreservation of Cat Semen in Straws: Comparison of Five Different Freezing Rates

The first pregnancies in domestic cats were obtained using semen frozen in pellets ( Platz et al. 1978 ). Other freezing methods, vials ( Lengwinant and Blottner 1994 ) or straws ( Pope et al. 1991 ; Hay and Goodrowe 1993 ), have also been used. Pelleted freezing has often been the standard method ( Howard 1986 ). Opinions about the freezing method are discordant; the best method for Pope et al. (1991) was using straws; in fact, the post‐thaw motility and the percentage of normal acrosomes were of 44 ± 4 and 62 ± 3%, respectively, with straws and 11 ± 3 and 26 ± 4%, respectively, with pellets. According to Wood et al. (1993) , there are no differences between the two methods, with a motility of 66.2% and a percentage of normal acrosomes of 28.6% for the pellet method and a motility of 67.0% and a percentage of normal acrosomes of 27.4% for the straw container. However, these two authors used two different freezing protocols. A high concentration of glycerol (i.e. 8%, vol/vol) damages cat semen ( Zambelli 1994 ; Nelson et al. 1999 ), because of his toxicity to spermatozoa ( Graham 1996 ); while a concentration of 4% is suggested ( Zambelli 1994 ). Fast green FCF Bengal pink staining is often used to evaluate the acrosomal morphology ( Wood et al. 1993 ; Zambelli et al. 1993 ). As there are no studies on the influence of freezing rate on motility and on acrosomal morphology, the aim of this study was to test five freezing rates in order to verify which is the best for the cryopreservation of cat semen in straws.     

Development of Procedures for Sex-sorting Frozen–Thawed Bovine Spermatozoa

Dairy bull sperm may be sex‐sorted, frozen and used to artificially inseminate heifers with acceptable fertility if the herd is well‐managed. One drawback to the technology is that donor bulls must be located within a short distance of the sorting facility in order to collect semen, which limits the number of bulls from which sorted sperm are available. A successful method used to overcome this limitation in sheep is sex‐sorting from frozen–thawed semen and refreezing for artificial insemination. This technique is attractive to the dairy industry, and therefore a series of three experiments was designed to investigate the optimal methods to prepare, sex‐sort and re‐freeze frozen–thawed bovine sperm. Sperm were prepared for sorting by density gradient separation in either PureSperm^® or BoviPure?, followed by staining in one of three diluents (Androhep^®, Bovine Sheath Fluid + 0.3% BSA or TALP buffer). Sperm were sorted and collected into Test yolk buffer, and frozen in an extender containing 0, 0.25, 0.375 or 0.5% Equex STM Paste. Frozen–thawed sperm were better orientated (p = 0.006) and had fewer damaged membranes (8.7 ± 0.6% vs 19.5 ± 2.4%; p = 0.003) after centrifugation in PureSperm^® rather than BoviPure? gradients. Sperm orientation (p < 0.05) and motility (69.9 ± 3.0 vs 55.6 ± 4.0; p < 0.001) were highest after staining in Androhep^® rather than in TALP buffer. Sperm were more motile (58.2 ± 4.7 vs 38.7 ± 3.5; p < 0.001) and had better acrosome integrity (74.3 ± 2.9 vs 66.8 ± 2.0; p < 0.001) after freezing in an extender containing 0.375% Equex STM Paste than in extender without Equex. Hence, a protocol has been developed to allow frozen–thawed bull sperm to be sex‐sorted with high resolution between the sexes, then re‐frozen and thawed with retention of motility and acrosome integrity.     

Effect of staining and freezing media on sortability of stallion spermatozoa and their post-thaw viability after sex-sorting and cryopreservation

Sex‐sorted, frozen–thawed stallion spermatozoa remain out of reach of commercial horse breeders because of the low efficiency of the sex‐sorting process and unacceptable fertility rates after insemination. Two experiments were designed to test the effects of alternative staining and freezing media to improve the viability of sex‐sorted frozen–thawed stallion spermatozoa. Experiment 1 compared two freezing media, INRA 82^® and a modified lactose‐ethylenediaminetetraacetic acid (EDTA), for the cryopreservation of sex‐sorted stallion spermatozoa. No significant differences between the two freezing media could be identified, suggesting that both cryodiluents would be suitable for incorporation into a sex‐preselection protocol for stallion spermatozoa. Experiment 2 compared Kenney’s modified Tyrode’s (KMT) and Sperm TALP (Sp‐TALP) as the staining and incubation medium for stallion spermatozoa prior to sex‐sorting. A significant increase in the percentage of acrosome‐reacted spermatozoa occurred after staining and incubation in the clarified Sp‐TALP compared with KMT. As no improvements in sorting rates were achieved using Sp‐TALP, it was concluded that stallion sorting protocols could include KMT as the staining and incubation medium while either INRA 82^® or lactose‐EDTA could be employed as a cryodiluents.     

冷冻家猫附睾精液效果初探

为了筛选出适宜冷冻家猫精液的稀释液、冷冻保护剂和解冻温度,本试验采用家猫附睾精液,分别用2种不同的稀释液,3种不同的冷冻保护剂进行稀释、冷冻和解冻。结果显示,Ⅱ号稀释液冷冻效果优于Ⅰ号稀释液。用乙二醇作为冷冻保护剂,解冻后家猫精子活率达到52.7%±4.9%,畸形率为37.3%±4.2%,顶体完整率为52.4%±4.1%,各项指标均显著高于甘油组和二甲基亚砜组（P<0.05）;其中甘油组解冻后活率为35.5%±7.6%,顶体完整率为39.8%±4.4%,高于二甲基亚砜组的33.6%±7.3%和39.1%±4.1%,但两者之间差异不显著（P>0.05）。37 ℃水浴解冻后顶体完整率为36.4%±8.7%,显著高于30 ℃水浴解冻后的25.3%±6.7%（P<0.05）,但它们之间的活力,畸形率差异不显著,总体上37 ℃的解冻效果优于30 ℃。因此,乙二醇和稀释液Ⅱ配合使用冷冻家猫附睾精液效果较好,37 ℃为较优解冻温度。     

Comparative evaluation of DNA integrity using sperm chromatin structure assay and Sperm‐Ovis‐Halomax during in vitro capacitation of cryopreserved ram spermatozoa

This study aimed to compare the ability of sperm chromatin structure assay (SCSA^®) and Sperm‐Ovis‐Halomax^® to detect DNA fragmentation in frozen‐thawed ram spermatozoa incubated under capacitating conditions in synthetic oviductal fluid (SOF) supplemented with oestrous sheep serum (SOF‐ESS) at multiple time points (0–240 min). Incubation in SOF‐ESS had no significant effects on SCSA^® parameters while the percentage of spermatozoa with fragmented DNA measured by Sperm‐Ovis‐Halomax^® increased after 180 min of incubation. In addition, no correlation or agreement was found between the techniques, suggesting that SCSA^® and Sperm‐Ovis‐Halomax^® may quantify different types of DNA damage in ram spermatozoa under these experimental conditions.     

Effect of different mini‐volume colloid centrifugation configurations on flow cytometrically sorted sperm recovery efficiency and quality using a computer‐assisted semen analyzer

Straws of sex‐sorted sperm are usually packaged at a low concentration (e.g., ~2.1 × 10⁶ sperm/ml) and cost significantly more than unsorted conventional semen from the same sire. In order to maximize the efficiency of using sex‐sorted sperm under in vitro fertilization conditions, the selection of an appropriate sperm separation technique is essential. In this study, the effect of using different silane‐coated silica colloid dilutions and layering configurations during centrifugation of sex‐sorted sperm was examined over an extended period of incubation time. Sperm recovery and viability after centrifugation using the colloid separation technique were measured along with several sperm motility parameters using CASA. For this purpose, frozen and thawed sex‐sorted sperm samples were centrifuged using mini‐volume single‐layer (40%, 60% and 80%) and mini‐volume two‐layer (45%/90%, 40%/80% and 30%/60%) separation configurations using PureSperm^®. A single layer of 40% PureSperm^® recovered significantly more sex‐sorted sperm (78.07% ± 2.28%) followed by a single layer of 80% PureSperm^® (68.43% ± 2.33%). The lowest sperm recovery was obtained using a two‐layer PureSperm^® dilution of 45%/90% (47.57% ± 2.33%). Single‐layer centrifugation recovered more sorted sperm (68.67% ± 1.74%) than two layer (53.74% ± 1.74%) (p < .0001). A single layer of 80% PureSperm^® exhibited the highest sorted sperm viability (72.01% ± 2.90%) after centrifugation (p < .05). The mini‐volume single layer of 80% PureSperm^® was determined to be an effective alternative to a two‐layer centrifugation configuration for sex‐sorted sperm selection. In addition, single‐layer colloid dilution of 80% performed either as well as or significantly outperformed the other treatments, as well as the control, with regard to motility (MOT) for all time periods of analysis.     

Effect of cryoprotectants and thawing temperatures on chicken sperm quality

There is need for standardization of freezing–thawing protocol for rooster semen to minimize variability among results. Therefore, we aimed to compare effect of four different permeating cryoprotectants and two thawing temperatures (37 vs. 5°C) on sperm post‐thaw motility and to analyse combined effect of the best permeating cryoprotectant (P‐CPA) with one of four non‐permeating cryoprotectants (N‐CPA) on post‐thaw quality of rooster semen evaluated in vitro. Pooled semen from Ross PM3 rooster heavy line was diluted in Kobidil extender and frozen in cryoprotectant solution containing 6% dimethylacetamide, 7.5% dimethylformamide, 9% N‐methylacetamide or 8% ethylene glycol (EG) in liquid nitrogen vapours. To determine the best thawing rate, straws were thawed either at 37 or 5°C. Furthermore, samples were frozen in the presence of the best N‐CPA either with 0.75 mol/L ficoll, 0.2 mol/L sucrose, 0.2 mol/L trehalose or 0.05 mol/L glycine. Sperm motility, membrane destabilization and viability were analysed to compare different freezing–thawing conditions. In addition, morphology and ultrastructure analysis were performed to compare fresh and frozen‐thawed sperm quality. Our results indicate that the combination of EG and the thawing at 5°C improves (p ≤ .05) sperm post‐thaw motility. Moreover, ficoll addition to EG‐based freezing extender provided additional beneficial effect (p ≤ .05) on progressive movement and apoptosis incidence. Further work should evaluate different N‐CPA concentrations to improve freezing protocol. In addition, fertility evaluation and testing on different chicken lines are needed in order to contribute to animal genetic resources bank.     

Effects of Thawing Temperature and Post‐thaw Dilution on the Quality of Cat Spermatozoa

The present study aimed to compare cat sperm quality after thawing using two different temperatures (37 and 70°C) and to investigate the effects of post‐thaw dilution on the sperm quality and longevity of ejaculated cat spermatozoa. Six ejaculates of each of six male cats were collected using an electroejaculator (total 36 ejaculates). The semen was frozen in 0.25‐ml straws using a Tris egg yolk extender containing Equex STM paste. Four straws prepared from each ejaculate were thawed at four different occasions; (i) at 37°C for 15 s, (ii) at 37°C for 15 s and diluted 1 : 2 with Tris buffer (v/v), (iii) at 70°C for 6 s, (iv) at 70°C for 6 s and diluted 1 : 2 with Tris buffer (v/v). The percentages of motile spermatozoa, the scores of progressive motility, the percentages of spermatozoa with intact plasma membrane (using SYBR‐14/EthD‐1 stains) and intact acrosome (using fluorescein isothiocyanate conjugated peanut agglutinin/propidium iodide stains) were evaluated in fresh semen at 0, 2, 4 and 6 h after thawing. The thawing temperature had no effect on any sperm parameters throughout the incubation period (p > 0.05). The dilution after thawing improved sperm motility, progressive motility and acrosome integrity (p < 0.05). The thawing of cat spermatozoa and subsequently diluting with Tris buffer resulted in an immediate (at 0 h) overall (combined over temperature) percentage of motile sperm of 64.8 ± 10.7 (mean ± SD), a score of progressive motility of 4.0 ± 0.5, a percentage of spermatozoa with intact plasma membrane of 64.4 ± 12.1 and intact acrosome of 44.8 ± 20.2. In conclusion, frozen cat semen can be thawed either at 37 or 70°C and post‐thaw dilution is recommended to reduce the toxic effect of some ingredients in the extender during post‐thaw incubation.     

Effect of Different Extenders on In Vitro Characteristics of Feline Epididymal Sperm During Cryopreservation

To evaluate and compare the efficacy of various extenders for the cryopreservation of epididymal cat spermatozoa, two experiments were planned. Bovine and equine commercial extenders in the experiment 1 and TRIS–egg yolk–based extenders in experiment 2 were separately studied since the number of sperm collected per cat is reduced. Epididymal sperm samples were packaged into 0.25‐ml straws and frozen. Vigour, motility, morphology, acrosome status, sperm viability and functional membrane integrity were assessed at collection, after cooling and after thawing, while DNA integrity was evaluated at 0‐ and 6‐h post‐thaw. Experiment 1 compared the effect of three non‐feline commercial extenders – based on TRIS–egg yolk (Triladyl), egg‐yolk‐free medium (AndroMed) and skimmed milk‐egg yolk (Gent) – on the quality of frozen‐thawed epididymal cat sperm. Values for sperm motility and functional membrane integrity in cooled sperm diluted in Triladyl were higher (p < 0.001) than those recorded for Andromed and Gent. Except sperm morphology, the other assessed characteristics showed significant higher values in frozen‐thawed sperm diluted in Triladyl than in Andromed and Gent extenders. Experiment 2 analysed the effects of three TRIS–egg yolk–based extenders, one non‐feline commercial (Triladyl) and the other two prepared using different monosaccharides (glucose and fructose), on freezing‐thawed sperm. Results showed that specifically prepared extenders for cryopreservation of feline spermatozoa performed better than the commercial extender Triladyl, although sperm quality during the freezing‐thawing process did not significantly differ associated with the type of monosaccharide (glucose vs fructose) added to the mentioned extenders. Although TRIS–egg yolk–based extenders prepared in experiment 2 improved sperm cryoprotection, Triladyl remains a good option for practitioners who, for ease of use and availability, prefer to work with commercial extenders.     

Melatonin can improve viability and functional integrity of cooled and frozen/thawed rabbit spermatozoa

Melatonin is known to protect sperm against freezing-inflicted damage in different domestic species. The aim of the study was to evaluate the effect of supplementation of semen extender with melatonin on the quality and DNA integrity of cooled and frozen/thawed rabbit spermatozoa. We also investigated whether the addition of melatonin to the semen extender could improve the fertility of rabbit does artificially inseminated with frozen/thawed semen. Semen samples collected from eight rabbit bucks were pooled and then diluted in INRA-82 supplemented either with (0.5, 1.0 or 1.5 mM) or without (0.0 mM) melatonin. Diluted semen was cooled at 5°C for 24 hr. For cryopreservation and based on the first experiment's best result, semen samples were diluted in INRA-82 in the presence or absence of 1.0 mM melatonin and then frozen in 0.25 ml straws. Following cooling or thawing, sperm quality and DNA integrity were evaluated. Furthermore, the fertility of frozen/thawed semen was investigated after artificial insemination. Supplementation of semen extender with 1.0 mM melatonin improved (p < .05) motility, viability, membrane and acrosome integrities in cooled semen compared with other groups. Sperm quality and DNA integrity were higher (p < .05) in frozen/thawed semen diluted in 1.0 mM melatonin-supplemented extender than in the control group. Conception and birth rates were higher in does inseminated with 1.0 mM melatonin treated semen compared with the controls. In conclusion, supplementation of semen extender with 1.0 mM melatonin improved the quality of cooled and frozen/thawed rabbit spermatozoa. Melatonin can preserve DNA integrity and enhance the fertility of frozen/thawed rabbit spermatozoa.     

Retracted: Study of enzyme activities and protein content of beluga (Huso huso) semen before and after cryopreservation

Knowledge gained regarding the biochemical processes that occur during sperm collection, processing and freezing‐thawing might improve current sperm cryopreservation techniques. In our present study, we determined the effect of cryopreservation on the total protein concentration (TP) and the activities of certain enzymes in semen samples from the beluga (Huso huso). The TP content of the seminal plasma of fresh semen was 0.47 ± 0.026 g/l, and the TP after cryopreservation was 1.86 ± 0.6 g/l. The activities of acid phosphatase (0.82 ± 0.042 U/l), lactate dehydrogenase (234.4 ± 19.4 U/l), arylsulfatase (143.1 ± 32.5 U/l) and β‐N‐acetylglucosaminidase (58.39 ± 4.14 U/l) in the seminal plasma of fresh semen were significantly lower than those in the supernatant of frozen‐thawed semen samples (7.43 ± 0.64, 3224.6 ± 167.2, 422.6 ± 21.3 and 90.2 ± 5.37 U/l respectively). These parameters may be useful as biomarkers for estimating damage to the cell membrane of spermatozoa caused by freezing‐thawing.     

Lactoferrin increases sperm membrane functionality of frozen equine semen

During cryopreservation, sperm was submitted to an increase in reactive oxygen species generation. This work aimed to improve the quality of frozen equine sperm after the addition of antioxidants lactoferrin (Lf) and catalase (Cat) to a freezing extender. Semen from six stallions was frozen with the extenders: F1) control, INRA 82 freezing extender, F2) F1 + 500 μg/ml Lf and F3) F1 + 200 IU/ml Cat. After thawing, sperm motility parameters, membrane functionality and integrity, and acrosome integrity and spontaneous acrosome‐reacted sperm were evaluated with a computer‐assisted sperm analysis, a hypoosmotic swelling test and epifluorescent microscopy, respectively. Nitrite, hydroperoxide and iron concentrations of frozen semen were measured with spectrophotometry. The percentage of functional membrane sperm treated with Lf was higher (50.7% ± 11.6%) compared to that of the control (37.6% ± 15.6%), while the iron (61.4 ± 11.6 vs 73.3 ± 13.8 mg/dl) and nitrite concentrations (16.3 ± 7.1 vs 25.9 ± 4.2 μM/μg protein) were lower, respectively (p < .05). Thus, it can be suggested that Lf protect stallion spermatozoon during freezing as it has increased the percentage of sperm with functional membrane and decreased the lipid oxidant agents.     

In vitro Evaluation of in vivo Fertilizing Ability of Frozen Rabbit Semen

The present work studied different spermatozoa parameters and the ability of frozen rabbit spermatozoa to fertilize, in vitro, in vivo‐matured oocytes, as a test to predict their in vivo fertility and prolificacy. Semen from rabbit bucks was frozen using two freezing protocols [in a freezer at ?30°C or in liquid nitrogen vapour (LNV)]. For the in vivo trial, females were inseminated with frozen‐thawed spermatozoa. Oocytes used for in vitro testing were recovered 14 h after ovulation induction from donors and co‐incubated with 2 × 10⁶ frozen‐thawed spermatozoa during 4 h at 37°C in Tyrode's medium under an atmosphere of 5% CO₂ in air with maximal humidity. After co‐incubation period, presumptive zygotes were cultured in TCM199 supplemented with 20% foetal bovine serum (FBS), under the same conditions described above. Although no statistical differences were observed between freezing protocols in seminal parameters [motility rate: 40 and 35%, VCL: 35 and 46 μm/s, amplitude of lateral head displacement (ALH): 1.7 and 2.4 μm, for semen frozen at ?30°C and in LNV, respectively], significant differences were noted in the fertilizing ability in vivo and in vitro. Semen frozen at ?30°C showed the highest fertilizing ability in vitro (26.7% vs 6.2 and 8.7% for semen frozen at ?30°C, in LNV and fresh semen, respectively) and the lowest fertility rate in vivo (21.7% vs 64.2% and 70.6% for semen frozen at ?30°C, in LNV and fresh semen, respectively). Sperm frozen at ?30°C seemed to be more capacitated.     

Influence of partial or total replacement of glycerol by alternative cryoprotectants in Ghent freezing extender on post‐thaw sperm quality in stallions

Although glycerol is the cryoprotectant most commonly used in stallions, it has also a considerable toxicity for equine sperm. It was the aim of this study to analyse the quality of frozen‐thawed stallion semen after complete or partial replacement of glycerol in the freezing extender by alternative cryoprotectants. We hypothesized that partial or total replacement of glycerol by cryoprotectants occurring in cold‐resistant frog, insect or plant species results in similar or better semen quality after freezing–thawing. As basic medium, the commercial Ghent basic extender was used and either supplemented with glucose and urea, trehalose and proline, or trehalose and betaine. Based on a series of preliminary experiments, semen was frozen in either commercial Ghent cryopreservation extender (Ghent control), Ghent glucose–urea extender or a Ghent combined extender (glucose–urea, trehalose‐betaine and trehalose‐proline; volume ratio of 2:1:2) in a computer‐controlled rate freezer. After freezing–thawing, semen was analysed for motility, membrane integrity, phosphatidylserine translocation, mitochondrial membrane potential and chromatin condensation. No differences between Ghent control and Ghent glucose–urea extender were seen, while all endpoints except DNA integrity were negatively affected in Ghent combined extender (e.g., progressive motility: Ghent 49.2 ± 3.7, Ghent glucose–urea 46.5 ± 4.6, Ghent combined 24.4 ± 2.8%; p < .001). In conclusion, glycerol concentration in a commercial freezing extender for equine spermatozoa can be successfully reduced when urea as an additive cryoprotectant is added and the glucose concentration is elevated. However, total glycerol replacement with urea, betaine, proline and trehalose was less successful.     

The Effect of Oxidative Stress on Thawed Bulk‐Sorted Red Deer Sperm

The aims of this study were to assess the effects of the sex‐sorting process on post‐thaw sperm quality as well as on induced oxidative stress damage (H₂O₂ 0 mm  = H000; H₂O₂ 50 mm  = H050; H₂O₂ 100 mm  = H100) and the protective action of reduced glutathione (GSH) and Trolox, when comparing sorted (BSS) and non‐sorted (NS) red deer spermatozoa incubated at 37°C. Sperm samples from three stags were collected by electroejaculation and frozen. Immediately after thawing, sperm motility was higher (p < 0.05) for NS (59% ± 3.3) than BSS (36.9% ± 5.8) sperm. Furthermore, the percentage of apoptotic sperm was higher (p < 0.05) for BSS (21.6% ± 5.0) than NS sperm (14.6% ± 1.2). The presence of H₂O₂ increased DNA damage in NS (H000 = 4.1% ± 0.9; H050 = 9.3% ± 0.7; and H100 = 10.9% ± 2.3), but not in BSS sperm. However, in the presence of oxidant, GSH addition improved (p < 0.05) sperm motility in both groups of sperm samples as compared to their controls (NS: 44.5 ± 4.8 vs 21.1 ± 3.9 and BSS: 33.3 ± 8.1 vs 8.9 ± 1.8). These results demonstrate that the sperm‐sorting process induces sublethal effects, albeit selecting a sperm population with a chromatin more resistant to oxidative stress than that in non‐sorted sperm. Moreover, addition of GSH at 1 mm may be a good choice for maintaining the quality of stressed sperm samples, unlike Trolox, which inhibited sperm motility.     

Effect of relaxin on the motility, acrosome reaction and utilization of glucose of fresh and frozen-thawed bovine spermatozoa

The study was conducted to investigate the effect of relaxin on motility, acrosome reaction (AR), viability and utilization of glucose in fresh and frozen‐thawed bovine spermatozoa. Both semen samples were washed twice through centrifugation (5 min at 600 g), and preincubated for 1 h at 39°C for swim up. The swim‐up separated spermatozoa were resuspended in a sperm Tyrode's albumin lactate pyruvate (Sp‐TALP) medium containing 0 (control) and 40 ng/mL porcine relaxin and incubated for 0–6 h. Sperm motility was determined on the basis of movement quality examined by a phase contrast microscope. Sperm viability and AR were evaluated by using the triple staining technique. The incorporation and oxidation of ¹⁴C‐glucose was assessed by a liquid scintillation counter. Motility was improved (P < 0.05) in both fresh and frozen‐thawed spermatozoa by the addition of relaxin to the Sp‐TALP medium, whereas relaxin showed no significant effect on viability in either fresh or frozen‐thawed spermatozoa. The percentage of AR increased (P < 0.05) when fresh or frozen‐thawed spermatozoa were incubated with relaxin. In contrast, the incorporation and oxidation of ¹⁴C‐glucose increased (P < 0.05) in both kinds of spermatozoa incubated with relaxin. Thus the results demonstrated that the addition of relaxin to the Sp‐TALP medium increased the motility, AR and utilization of glucose in fresh and frozen‐thawed bovine spermatozoa.