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.     

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®.     

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.     

Effect of Antibiotics in Extender on Bacterial and Spermatozoal Quality of Cooled Buffalo (Bubalus bubalis) Bull Semen

The present study was designed to study the effect of traditional antibiotic combination (streptomycin and penicillin; SP) and relatively modern combination of antibiotics (gentamycin, tylosin, lincomycin and spectinomycin; GTLS) in extender on bacterial control and spermatozoal quality of liquid buffalo bull semen stored at 5°C. Semen collected from Nili‐Ravi buffalo bulls (n = 10) was diluted with skim milk extender containing either SP (streptomycin 1000 μg/ml and penicillin 1000 IU/ml), GTLS (gentamycin 500 μg/ml, tylosin 100 μg/ml, lincomycin 300 μg/ml and spectinomycin 600 μg/ml) or negative control with no antibiotics (NA). Liquid semen was stored at 5°C for 5 days. Aerobic bacteria isolated from buffalo semen were Pseudomonas aeruginosa and Staphylococcus aureus. The only facultative anaerobic bacterium isolated was Klebsiella pneumoniae. In vitro antibiotic sensitivity test revealed that Ps. aeruginosa and Staph. aureus were susceptible to gentamycin. Staphylococcus aureus and K. pneumoniae were susceptible to tylosin and linco‐spectinomycin. Total aerobic bacterial count was significantly lower in semen samples treated with GTLS than those of SP on third and fifth day of storage at 5°C. There was no difference (p > 0.05) in sperm motility, longevity and plasma membrane integrity (PMI) in extender containing SP or GTLS combination until the third day of storage at 5°C. On fifth day of storage sperm motility, longevity and PMI was significantly better in extender containing SP compared with GTLS and NA. Intact acrosomes, and sperm head, mid piece and tail abnormalities remained similar (p > 0.05) because of antibiotics up to 5 days of storage. In conclusion, GTLS is more capable than SP for bacterial control of buffalo bull semen. Moreover, GTLS and SP are equally efficient in preserving spermatozoal quality of extended buffalo bull semen for 3 days at 5°C.     

Post‐thawing effects of three cryopreservation diluents on Rusa deer (Rusa timorensis) spermatozoa

The aim of this study was to evaluate home‐made and commercial extenders for the cryopreservation of Rusa deer semen. After collection by electroejaculation, six ejaculates were diluted and frozen in TES‐based, Tris‐based and Triladyl^® extenders. Subjective motility, viability, morphology, acrosome integrity and membrane functionality were assessed post‐thawing and after 1‐hr incubation at 37°C (Thermal stress test). Total and progressive motility, and kinematic parameters were also assessed through CASA system. Post‐thawing sperm progressive motility (PM), velocity according to the straight path (VSL) and linearity (LIN) showed significant differences, and higher values were detected for spermatozoa diluted with Triladyl^® and TES (p < 0.05) as compared with Tris (PM of Triladyl^® 14.7% vs. 3.2% TES and 2.5% Tris; VSL 56 for Triladyl^®, 59.2 for TES and 41.7 for Tris; LIN 45.6 for Triladyl^®, 52 for TES and 36.5 for Tris). Triladyl^® and TES extender led to better post‐thawing sperm parameters, but these preliminary results need to be verified through artificial insemination trials.     

Effect of different egg yolk-based extenders on the quality of ovine cauda epididymal spermatozoa during storage at 4°C

Cauda epididymal spermatozoa were obtained from testicles collected from abattoir(s). The pooled sperm samples were divided into four aliquots. Each aliquot was washed separately with the buffer of respective extender and finally extended with the four extenders viz. egg yolk–citrate (EYC), egg yolk–citrate–fructose (EYCF), Tris–citric acid–egg yolk–fructose (TCEYF) and egg yolk–Mcillvaine glucose (EYMG) and preserved at 4°C. The per cent sperm motility for EYC, EYCF, TCEYF and EYMG at 0 h was 50.83%, 56.67%, 75.00% and 31.67%, respectively, and at 72 h was 24.17% (EYC), 30.83% (EYCF), 51.67% (TCEYF) and 7.50% (EYMG). The corresponding figures for live sperm count at 0 h was 83.17%, 86.33%, 90.42% and 81.75% and at 72 h was 64.75%, 73.92%, 76.00% and 57.67%. The corresponding figures for mean per cent intact acrosome at 0 h was 95.33%, 95.50%, 90.92% and 97.25% and at 72 h was 86.17%, 83.92%, 77.58% and 86.33%. The sperm motility was significantly (p < 0.05) higher for TCEYF at different h of preservation from 0 h through 72 h. The sperm motility, live sperm count and per cent intact acrosome declined significantly (p < 0.05) with the advancement of storage time in all the four extenders. Our study concluded that TCEYF was best out of the extenders studied for preservation of cauda epididymal spermatozoa after double centrifugation and extension at 4°C up to 72 h of preservation. However, EYCF also has better potential for the preservation of cauda epididymal spermatozoa as viability was in close proximity and acrosomal integrity was higher compared with TCEYF extender.     

Protocol Optimization for Long‐Term Liquid Storage of Goat Semen in a Chemically Defined Extender

A specific problem in the preservation of goat semen has been the detrimental effect of seminal plasma on the viability of spermatozoa in extenders containing egg yolk or milk. The use of chemically defined extenders will have obvious advantages in liquid storage of buck semen. Our previous study showed that the self‐made mZAP extender performed better than commercial extenders, and maintained a sperm motility of 34% for 9 days and a fertilizing potential for successful pregnancies for 7 days. The aim of this study was to extend the viability and fertilizing potential of liquid‐stored goat spermatozoa by optimizing procedures for semen processing and storage in the mZAP extender. Semen samples collected from five goat bucks of the Lubei White and Boer breeds were diluted with the extender, cooled and stored at 5°C. Stored semen was evaluated for sperm viability parameters, every 48 h of storage. Data from three ejaculates of different bucks were analysed for each treatment. The percentage data were arcsine‐transformed before being analysed with anova and Duncan’s multiple comparison test. While cooling at the rate of 0.1–0.25°C/min did not affect sperm viability parameters, doing so at the rate of 0.6°C/min from 30 to 15°C reduced goat sperm motility and membrane integrity. Sperm motility and membrane integrity were significantly higher in semen coated with the extender containing 20% egg yolk than in non‐coated semen. Sperm motility, membrane integrity and acrosomal intactness were significantly higher when coated semen was 21‐fold diluted than when it was 11‐ or 51‐fold diluted and when extender was renewed at 48‐h intervals than when it was not renewed during storage. When goat semen coated with the egg yolk‐containing extender was 21‐fold diluted, cooled at the rate of 0.07–0.25°C/min, stored at 5°C and the extender renewed every 48 h, a sperm motility of 48% was maintained for 13 days, and an in vitro‐fertilizing potential similar to that of fresh semen was maintained for 11 days.     

Liquid Storage of Goat Semen in Chemically Defined Extenders

The suitability of certain commercial and self‐made chemically defined extenders for liquid storage of goat semen was tested and the effects of storage temperatures, dilution rates and sperm washing and pH of extenders on the goat sperm during liquid storage were observed. Semen was collected from nine goat bucks of the Lubei White and Boer breeds using an artificial vagina. Each ejaculate after initial evaluation was diluted with a specific extender, cooled and stored at a desired temperature. Stored semen was evaluated for sperm motility and other parameters every 24 or 48 h of storage. The ranking order of the existing milk‐ and yolk‐free extenders in sustaining goat sperm motility was Androhep > Zorlesco > Beltsville thawing solution > the Tris–glucose medium. The new extender (mZA) which was formulated based on Zorlesco and Androhep was more suitable for goat sperm than Androhep. The mZAP extender with Bovine Serum Albumin (BSA) replaced with polyvinyl alcohol (PVA) worked as efficiently as the mZA in maintaining sperm motility, membrane integrity, acrosome intactness and capacitation status. Goat sperm motility was best maintained at 5°C during liquid preservation, but decreased significantly as the temperature increased. When semen was sixfold diluted, sperm motility was maintained longer (p < 0.05) after centrifugation, but sperm motility did not differ between the centrifuged and non‐centrifuged groups when semen was 11‐fold diluted. When the extender pH was adjusted from 6.6 to 6.04, the efficiency increased significantly in both Androhep and mZAP. A forward sperm motility of 34% was maintained for 9 days when buck semen was 11‐fold diluted and stored at 5°C in mZAP, with pH adjusted to 6.04. It is concluded that for liquid storage of buck semen, the mZA extender was more suitable than other extenders; BSA can be replaced with PVA in mZA; centrifugation to remove seminal plasma can be omitted by adequate dilution; and the storage temperature and pH of extenders affected sperm motility significantly.     

Functional Sperm Parameters and Fertility of Bull Semen Extended in Biociphos-Plus® and Triladyl®

Twenty ejaculates from five dairy AI‐bulls were used to compare, in a split‐sample experiment, the fertility [56 day‐non‐return‐rate (NRR) from more than 14000 AI) and sperm viability post‐thaw of semen diluted with an egg yolk‐ (Triladyl®) or soybean‐based (Biociphos‐Plus®) commercial extender. The in vitro evaluations were divided in two experiments. Experiment 1 (n = 20) included post‐thaw evaluations of motility (subjective and computerized), membrane integrity (CalceinAM/EthD‐1, SYBR‐14/PI, and osmotic resistance test; ORT), and capacitation status (CTC/EthD‐1). Experiment 2 (n = 10) included evaluations of the capacitation‐(CTC/EthD‐1) and acrosome status (FITC‐PSA/EthD‐1) during incubation with/without a challenge with solubilized zona pellucida proteins (SZP). No significant difference in the fertility (69.1 ± 0.8 versus 69.2 ± 0.8) results was found between the two extenders. In experiment 1, the computerized motility evaluations post‐thaw (CASA) showed higher values for Biociphos‐Plus® processed semen for the velocity patterns and lateral sperm head displacement. After 6 h at room temperature (20–22°C) all the CASA motility patterns were significantly higher for Biociphos‐Plus®. The proportion of spermatozoa with intact membranes assessed by CalceinAM was significantly higher in Biociphos‐Plus® (p < 0.001) compared to Triladyl®, but such difference was not seen when using SYBR‐14 or the ORT‐assay. When using the CTC/EthD‐1 assay, a lower proportion of acrosome reacted (AR) spermatozoa post‐thaw (p < 0.01) was found in Biociphos‐Plus® processed semen, as well as a tendency (p < 0.07) for a higher number of uncapacitated spermatozoa. In experiment 2, the proportion of uncapacitated spermatozoa was significantly higher for Biociphos‐Plus® when semen was incubated (38°C and 5% CO₂) without SZP at both 0 (p < 0.001) and 30 min (p < 0.05). Concomitantly, Triladyl® showed a higher percentage of capacitated spermatozoa at 0 (p < 0.01), 30 (p < 0.05) and 120 min (p < 0.05). A higher (p < 0.05) incidence of AR‐spermatozoa was seen in Triladyl® at the beginning of the incubation with SZP. No significant difference between extenders was detected for the acrosome status by the FITC‐PSA‐assay. Incubation with SZP induced acrosome reaction of capacitated spermatozoa in both extenders, which was detected by CTC and FITC‐PSA assays. In conclusion, fertility was not affected by Biociphos‐Plus® when 15 × 10⁶ of spermatozoa per AI dose were inseminated. The finding that higher frequencies of spermatozoa seemed more membrane stable post‐thaw, when frozen in Biociphos‐Plus®, might indicate that this extender better protects the sperm viability compared with Triladyl®.     

Cryopreservation of Nili‐Ravi buffalo (Bubalus bubalis) semen in AndroMed® extender; in vitro and in vivo evaluation

The study was designed to evaluate AndroMed^® for the freezability and fertility of Nili‐Ravi buffalo semen. Semen was collected from four adult Nili‐Ravi buffalo (Bubalus bubalis) bulls for 3 weeks (replicate). Semen ejaculates from each buffalo bull were divided into three aliquots. One aliquot was used for evaluation of motility, plasma membrane integrity, livability, viability, DNA integrity and normal apical ridge. Remaining two aliquots were diluted (37°C; 50 × 10⁶ spermatozoa/ml) in tris‐citric egg yolk or AndroMed^® extender and cryopreserved in 0.5 ml French straws. After thawing, per cent post‐thaw motility (47.9 ± 0.8, 49.2 ± 1.7), plasma membrane integrity (44.4 ± 1.2, 46.8 ± 1.8) and normal apical ridge (81.4 ± 0.3, 83.2 ± 0.3) were recorded similar (p > .05) in tris‐citric egg yolk and AndroMed^® extender. Higher (p < .05) percentage of sperm livability (70.5 ± 1.4 and 64.4 ± 1.0), viability (67.5 ± 1.5 and 61.5 ± 0.6) and DNA integrity (97.0 ± 0.3 and 93.4 ± 0.21) were recorded in AndroMed^® compared to tris‐citric egg yolk post‐thaw. Values for all the aforementioned spermatozoal quality parameters were observed lower (p < .05) in frozen‐thawed compared to fresh semen irrespective of the experimental extenders. Fertility rates of buffalo semen did not differ (p > .05) either cryopreserved in tris‐citric egg yolk or AndroMed^® extender (45.5% vs. 49%). It is concluded that AndroMed^® is capable in protecting the buffalo bull sperm during freeze‐thawing process and can be adopted safely for routine use replacing the tris‐citric egg yolk extender in artificial insemination programme.     

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.     

Effects of the Addition of Autologous Seminal Plasma to Highly Concentrated Stallion Semen After 48 Hours of Cooled Storage

Insemination with chilled transported semen has become distinctly important in the horse-breeding industry. To ensure cell survival during cooled storage, semen is diluted with an appropriate extender and the concentration of seminal plasma (SP) is reduced. Nevertheless, SP plays an important immunomodulatory role in the female genital tract and supports sperm fertility. The aim of the present study was to evaluate the effect of the addition of autologous SP after cooled storage to highly concentrated stallion semen. Therefore, SP was removed by simple centrifugation of extended semen, aspiration of the supernatant, and resuspension of the sperm pellet with semen extender. Motion characteristics were evaluated after cooled storage for 48 hours at concentrations of 333 × 10⁶ sperm/mL in comparison with stored samples at concentration of 25 × 10⁶ sperm/mL (control). The highly concentrated semen samples were diluted with an extender containing 0%, 5%, 20%, and 80% SP directly before motility analysis. Dilution of the cooled semen with a fresh semen extender without SP (0%) increased kinematic parameters (curvilinear velocity [VCL] 137.3 vs. 151.8; straight-line velocity [VSL] 49.0 vs. 57.5; average path velocity [VAP] 69.5 vs. 79.4 μm/second; amplitude of lateral head [ALH] 3.1 vs. 3.3 μm; beat cross frequency [BCF] 31.6 vs. 33.5 Hz; P < .05) but not total motility (51% vs. 43%) and progressive motility (46% vs. 36%) compared with controls. The addition of SP after storage for 48 hours decreased sperm total motility and progressive motility regardless of SP concentration: 5 (38% and 34%), 20 (37% and 33%), and 80% SP (27% and 22%; P < .05). In contrast, kinematic parameters were enhanced by extenders containing 5% and 20% SP (VCL: 148.0 and 155.6; VSL: 59.2 and 60.9; VAP: 78.7 and 81.9; BCF: 33.4 and 35.7; ALH: 3.4 and 3.4; P < .05). However, using an extender containing 80% SP was detrimental to kinematic parameters (VCL: 151.2; VSL: 52.2; VAP: 76.9; BCF: 34.8; P < .05) except for ALH, which increased (3.5; P < .05). In conclusion, cooled storage at concentrations of 333 × 10⁶ sperm/mL did not affect sperm motility. The addition of a fresh extender or an extender containing small concentrations of SP to highly concentrated ejaculated sperm increased kinematic values after storage; however, increasing concentrations of SP decreased sperm motility.     

Effect of freezing bull semen in two non‐egg yolk extenders on post‐thaw sperm quality

Traditionally, extenders for bull semen included egg yolk or milk, but recently there has been a move to avoid material of animal origin. The aim of this study was to evaluate the effects of two commercial extenders (based on soya lecithin and liposomes) on bull sperm quality after cryopreservation. Post‐thaw sperm quality was evaluated by computer‐assisted sperm analysis and flow cytometric assessment of membrane integrity, chromatin integrity, mitochondrial membrane potential, production of reactive oxygen species and tyrosine phosphorylation. Furthermore, an artificial insemination (AI) trial was conducted, and 56‐day non‐return rates were evaluated. Semen frozen in the liposome‐based extender showed similar membrane integrity and higher mitochondrial membrane potential compared to those in the soya lecithin‐based extender. Chromatin integrity and production of live H₂O₂+ reactive oxygen species were similar in both extenders. Less superoxide was produced in the samples extended with liposome‐based extender, with or without menadione stimulation. Chromatin integrity and tyrosine phosphorylation were not affected by either type of extender. No differences in 56‐day non‐return rate between extenders containing soya lecithin and liposomes were observed in the AI trial (66% ± 0.8 and 65% ± 0.8, respectively). In conclusion, the sperm quality of bull semen frozen in the two extenders that do not contain material of animal origin was similar, although the semen frozen in the liposome‐based extender had higher mitochondrial membrane potential. Either extender could be used in situations where extenders containing material of animal origin are to be avoided.     

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.     

Chilled storage of ram semen improves with the addition of egg yolk and glycerol to milk-based extenders

This study aimed at comparing in vitro, ultra‐heat‐treated (UHT) skim milk and INRA‐96^®‐based extenders supplemented or not with 5% egg yolk and/or 2% glycerol on sperm quality parameters along 72 h of preservation at 5°C, using a factorial design. Semen from six healthy mature Merino rams was pooled and extended in each medium using a split sample procedure (six replicates) and chilled. Subjective motility (SM) (%), membrane integrity (MI) (%) and uncapacitated spermatozoa (US) (×10⁶ spermatozoa/AI dose) were used to assess the semen quality at 0, 12, 24, 48 and 72 h of preservation. UHT‐based extenders yielded better (p < 0.05) SM and MI than INRA‐96^®‐based extenders (59.7% vs 57.9%; 60.2% vs 55.8%, respectively) but similar numbers of US (64.2% vs 62.3 × 10⁶ sperm/AI dose, respectively) along the preservation time. Egg yolk–glycerol or just egg yolk as additives improved (p < 0.05) the results compared with the base extenders without additives or just with glycerol. The sperm parameters assessed decline slowly from 0 to 48 h, with a sharp decline (p < 0.05) at 72 h of preservation. In conclusion, UHT and INRA‐96^® were similar as base extenders, and the addition of 5% egg yolk plus 2% glycerol or just 5% egg yolk improved the quality of ram semen preserved at 5°C, at least for 48 h. The combination of egg yolk–glycerol might provide extra protection in case of fluctuation of temperatures below 5°C, commonly seen under field conditions.     

Comparative quality assessment of buffalo (Bubalus bubalis) semen chilled (5°C) in egg yolk- and soya milk-based extenders

Egg yolk-Tris is most commonly used semen extender; however, its use involves hygienic risk, interference with fertility and poor microscopic examination. Therefore, replacement of egg yolk with a plant-based component with protective effects on spermatozoa would be advantageous. In present study, we observed effect of soya milk-based extenders on dilution and liquid preservation of Murrah buffalo bull semen at 5°C up to 72 h in comparison with conventional egg yolk-Tris extender (Ext.1). In experiment one, a total of 32 buffalo semen ejaculates from four animals were extended and preserved at 5°C for 72 h in soya milk-based extender (Ext.2) with different percentages (10%, 15%, 20%, 25% and 30%) of soya milk for optimization of soya milk concentration. Semen quality was assessed for individual motility, viability, membrane integrity and acrosome integrity at 0, 24, 48 and 72 h of liquid preservation. The results of experiment one indicated that 25% soya milk is an optimum concentration for buffalo bull semen extender preparation. A modified method was used to prepare another soya milk-based extender (Ext.3). In the second experiment, two soya extenders (Ext.2 and 3) with optimized concentration (25%) of soya milk were comparatively assessed with egg yolk-Tris extender (Ext.1) for semen quality parameters at 0, 24, 48 and 72 h of liquid preservation. The individual sperm motility at 0 and 24 h following dilution were found non-significant among extenders. However, after 48 h of dilution, individual motility in Ext.3 was observed significantly (p < 0.05) higher than Ext.1. After 24, 48 and 72 h of dilution sperm membrane integrity in Ext.3 was found significantly (p < 0.05) higher than Ext.1. Overall, comparative evaluation of sperm parameters obtained revealed that Ext.3 containing 25% soya milk can be used as a substitute of egg yolk-based extender for buffalo semen liquid preservation.     

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.     

Comparative Study on Five Different Commercial Extenders for Boar Semen

Increasing interest in a longer preservation of diluted boar sperm raises questions in the field concerning the choice of the extender. The aim of this study was to evaluate the longevity of boar sperm extended in currently used commercial semen extenders. Three long-term extenders and two short-term extenders were compared for different semen quality parameters that can be assessed under routine laboratory conditions. Sperm morphology, motility, pH and bacteriological contamination were investigated during a 7-day period. The number of dead spermatozoa did not differ significantly among the extenders (p > 0.05). Sperm motility was not only related with storage period but most of all with pH, especially in long-term extenders. Differences between the different extenders were prominent (p < 0.05); the sperm preserved in only one long-term extender showed good motility during the whole test period. In all cases, the pH of the extended semen increased by 0.3-0.5 in the first days of storage and was significantly correlated with a decrease in motility. Bacteriological quality had no significant influence on motility or pH of the semen. In conclusion, we can state that in both short-term extenders and in only one long-term extender, sperm longevity, as evaluated by the parameters used in this study, was sufficient during the preservation period. To preserve the quality of diluted boar semen during long-term storage, the choice of the long-term extender is important. In addition, the monitoring of the pH of extended boar semen in our study emphasizes the importance of the buffering capacity of semen extenders.     

Arachidic Acid in Extender Improves Post‐thaw Parameters of Cryopreserved Nili‐Ravi Buffalo Bull Semen

Cryopreservation process reduces lipids and phospholipids from buffalo bull spermatozoa. It was therefore hypothesized that supplementation of fatty acid to extender may improve the post‐thaw quality of buffalo semen. The objective was to evaluate the effect of arachidic acid supplementation in extender on post‐thaw quality of buffalo bull (Bubalus bubalis) spermatozoa. Semen was collected from three adult Nili‐Ravi buffalo bulls of similar age group with artificial vagina (42°C) for 3 weeks (replicate). Qualified semen ejaculates (n = 18) were split into four aliquots and diluted in tris–citric acid extender containing 0.0 (control), 5.0, 10.0 and 20.0 ng/ml at 37°C having approximately 50 × 10⁶ spermatozoa/ml. Diluted semen was cooled to 4°C in 2 h and equilibrated for 4 h at 4°C. Cooled semen was filled in 0.5‐ml straws at 4°C, kept on liquid nitrogen vapours for 10 min and plunged in liquid nitrogen for storage. Thawing of frozen semen was performed after 24 h at 37°C for 30 s. Sperm progressive motility (%) was improved in a dose‐dependent manner by supplementing arachidic acid at 5.0, 10.0 and 20.0 ng/ml compared with control. Structural and functional integrity of sperm plasma membrane (%), number of acrosome‐intact live sperm (%) and sperm chromatin integrity (%) were better (p < 0.05) in extender having 5.0 ng/ml of arachidic acid compared with control. At 10.0 ng/ml, these values did not vary (p > 0.05) from those at 5.0 ng/ml. Further improvement in structural and functional integrity of sperm plasma membrane, number of acrosome‐intact live sperm and chromatin integrity was observed at 20.0 ng/ml of arachidic acid in extender. In conclusion, arachidic acid supplementation in extender improved the post‐thaw quality parameters of cryopreserved Nili‐Ravi buffalo bull spermatozoa. Among the arachidic acid concentrations studied, maximum improvement in post‐thaw semen quality parameters was observed at 20.0 ng/ml.     

Notoginsenoside R1 protects boar sperm during liquid storage at 17°C

Reactive oxygen species (ROS) damage mammalian sperm during liquid storage. Notoginsenoside R1 (NR1) is a compound isolated from the roots of Panax notoginseng; it has powerful ROS-scavenging activities. This work hypothesized that the antioxidant capacity of NR1 could improve boar sperm quality and fertility during liquid storage. During liquid storage at 17°C, the supplementation of semen extender with NR1 (50 μM) significantly improved sperm motility, membrane integrity and acrosome integrity after 5 days of preservation. NR1 treatment also reduced ROS and lipid peroxidation (LPO) levels at day 5 (p <0.05). Higher glutathione (GSH), superoxide dismutase (SOD), catalase (CAT) levels and sperm–zona pellucida binding capacity were observed in the 50 μM NR1 group than those in the control group at day 7 (p <0.05). Importantly, statistical analysis of the fertility of 200 sows indicated that addition of NR1 to the extender improved the fertility parameters of boar spermatozoa during liquid storage at 17°C (p <0.05). These results demonstrate the practical feasibility of using 50 μM NR1 as an antioxidant in boar extender during liquid storage at 17°C, which is beneficial to both spermatozoa quality and fertility.