Improvement of boar sperm cryosurvival by using single-layer colloid centrifugation prior freezing

The aim of this experimental study was to evaluate the effectiveness of sperm selection using single-layer centrifugation (SLC) prior to freezing on the sperm cryosurvival of boar ejaculates. Twenty-four sperm rich ejaculate fractions (SREF), collected from 24 boars (one per boar), were divided into two groups according to their initial semen traits: standard (n = 15) and substandard (n = 9). Semen samples from each SREF were split in two aliquots, one remained untreated (control samples) and the other was single-layer centrifuged (500g for 20 min) using 15 mL of Androcoll-P Large (SLC samples). The yield of total, motile (assessed by CASA) and viable (cytometrically evaluated after staining with H-42, propidium iodide (PI) and FITC-PNA) sperm after SLC was higher (P < 0.05) in standard than substandard semen samples. The semen samples were cryopreserved using a standard 0.5-mL straw freezing protocol. Post-thaw sperm motility and viability (assessed at 30 and 150 min post-thawing) were higher (P < 0.05) in SLC than in control samples, regardless of the initial semen traits of the ejaculates. Additionally, thawed spermatozoa from SLC samples were more resistant (P < 0.05) to lipid peroxidation (BIOXYTECH MDA-586 Assay Kit) than those from control samples, regardless of the initial semen traits of the ejaculates. The SLC-treatment also influenced the functionality of thawed spermatozoa undergoing an in vitro capacitation process. The percentage of viable sperm showing high membrane fluidity (assessed with merocyanine 540) was lower (P < 0.05) in the SLC than in the control samples, regardless of the initial semen traits of the ejaculates. Thawed viable spermatozoa of SLC samples generated less (P < 0.05) reactive oxygen species (assessed with CM-H₂DCFDA) than those of control samples in the substandard ejaculates. These findings indicate that the sperm selection before freezing using SLC improves the freezability of boar sperm.     

Centrifugation on PureSperm(®) density-gradient improved quality of spermatozoa from frozen-thawed dog semen

The main objective of this study was to investigate if centrifugation through PureSperm^® density-gradient can improve the post-thaw semen quality of dog semen. Semen from 5 dogs was collected and cryopreserved following a standard protocol. After thawing, semen samples were selected by centrifugation on PureSperm^®. Assessments of sperm motility (assessed by computerized-assisted semen analysis), morphology (Diff-Quick staining) and viability (triple fluorescent stain of Propidium iodine/isothiocyanate-labeled peanut (Arachis hypogaea) agglutinin/Rhodamine 123), were performed on aliquots of fresh semen, unselected samples and selected preparations. Cryopreservation had a significant (P < 0.001) effect on all studied semen parameters. PureSperm^® centrifugation yielded sperm suspensions with improved motility and viability (P < 0.001). The washing step significantly reduced (P < 0.001) all of the kinematics parameters evaluated as well as reduced the proportion of viable spermatozoa with intact acrosomes (P < 0.05). We concluded that PureSperm^® centrifugation is a successful method for improving the quality of frozen-thawed dog spermatozoa. However, washing after density-gradient centrifugation dramatically reduces the post-thaw semen quality, indicating that the inclusion of such a washing step is unnecessary.     

Evaluation of ram semen quality using polyacrylamide gel instead of cervical mucus in the sperm penetration test

Fertility is a very complex biological function that depends on several properties of the spermatozoa, including sperm motility. Two objectives are analyzed in this study: (1) Replace the cervical mucus by a synthetic medium in a sperm penetration test, and (2) evaluating the results of this test objectively analyzing the sperm number that migrates. In experiment 1, we have tested eight concentrations of acrylamide (1%-2%). Rheological properties of media were analyzed. The plastic straws, loaded with acrylamide, were placed vertically on the semen sample tube for 15 min at 39 °C. After, the acrylamides were placed, by segments of 5 mm, into wells of a 24-well plate, dyed with Hoechst 33342 and the number of spermatozoa were calculated by automated microscopy analysis. The 1.55% and 1.6% acrylamide gel showed a number of spermatozoa emigrating closer to that seen with natural mucus. In experiment 2, we applied the sperm penetration in acrylamide 1.6% and 1.55% using fresh semen and cooled semen at 15 °C and 5 °C. The spermatozoa counts were performed for each segment of 10 mm. Semen chilled at 15 °C presented intermediate values of sperm counts in comparison with fresh semen (higher) and 5 °C chilled semen. The sperm counts do not differ between acrylamides but the rheological properties of acrylamide 1.6% were more similar to those of the natural cervical mucus. In experiment 3, we have observed significant correlations between the number of spermatozoa and several sperm quality parameters (positive: progressive motility and velocity according to the straight path; negative: damaged acrosomes and apoptotic cells) in 1.6% acrylamide media. We conclude that the size of the cell subpopulation, objectively calculated, that migrate beyond 20 mm in 0.5-mL straws filled with acrylamide is a useful parameter in ram sperm quality assessment and further studies are needed to evaluate its relationship with field fertility.     

Effects of cholesterol-loaded cyclodextrins on the quality of frozen-thawed equine epididymal sperm

Equine epididymal sperm are known to be severely sensitive to cryopreservation, in terms of sperm quality and pregnancy rate. The objective of this study was to examine the effects of cholesterol loaded cyclodextrins (CLCs) on the quality of stallion epididymal sperm during cryopreservation.In experiment I, sperm were treated with different concentrations of CLCs: (1) 0 mg (control), (2) 1.5 mg, (3) 3 mg, and (4) 6 mg per 120 × 10⁶ sperm. The sperm viability and amount of cholesterol were determined at 15, 30 and 45 min after CLC treatment using viability markers (Ethidium homodimer-1 and Calcein AM) and gas chromatography, respectively. In experiment II, CLC treated sperm (1.5 mg CLC per 120 × 10⁶ sperm) were fixed and stained with filipin to examine the cholesterol distribution. In experiment III, sperm were treated with CLCs at concentrations of 1.5, 3.0, 6.0 mg per 120 × 10⁶ sperm for 15 min, then equilibrated with freezing extender at 4 °C for 1 h prior to cryopreservation. Epididymal sperm without CLC loading (0 mg) were used as the control group. The sperm quality was examined at post-equilibration and 10 min, 2 h and 4 h after freezing and thawing.The cholesterol was successfully loaded into the plasma membrane of stallion epididymal sperm. The amount of cholesterol was increased in a manner of dose and time dependence, and the filipin–sterol complexes were increasingly labeled over the sperm head. CLCs at 1.5 mg/120 × 10⁶ sperm significantly improved sperm quality during sperm equilibration and cryopreservation compared to other doses of CLCs and non-CLC control. An increasing concentration and incubation time of CLCs was detrimental to sperm quality.It is concluded that cholesterol loading to the sperm plasma membrane via CLCs decreases chilling sensitivity and also improves epididymal sperm cryopreservability.     

Single-layer centrifugation through colloid selects improved quality of epididymal cat sperm

The objectives were to determine the: 1) extent of epithelial and red blood cell contamination in epididymal cat sperm samples recovered by the cutting method; 2) efficacy of simple washing, single-layer centrifugation (SLC), and swim-up for selecting epididymal cat sperm; and 3) effects of freezing and thawing on cat sperm selected by various techniques. Ten unit samples were studied; each contained sperm from the cauda epididymides of four cats (total, ∼200 × 10⁶ sperm) and was equally allocated into four treatments: 1) simple washing, 2) single-layer centrifugation through colloid prior to cryopreservation (SLC-PC), 3) single-layer centrifugation through colloid after cryopreservation (SLC-AC), and 4) swim-up. Centrifugation (300 × g for 20 min) was done for all methods. The SLC-PC had a better recovery rate than the SLC-AC and swim-up methods (mean ± SD of 16.4 ± 8.7, 10.7 ± 8.9, and 2.3 ± 1.7%, respectively; P < 0.05). The SLC-PC, SLC-AC and swim-up samples contained less red blood cell contamination than simple washed samples (0.02 ± 0.01, 0.02 ± 0.04, 0.03 ± 0.04, and 0.44 ± 0.22 × 10⁶ cells/mL, respectively; P < 0.05). Although the proportion of sperm with head abnormalities did not differ among selection methods (P > 0.05), SLC-PC yielded the highest percentage of sperm with normal midpieces and tails (P < 0.05), due to the lowest proportion of coiled tails (P < 0.05). Furthermore, the SLC-PC was as effective as swim-up in removing sperm with proximal droplets, and selecting motile sperm, as well as those with intact membranes and DNA (P > 0.05). In conclusion, both SLC-PC and swim-up improved the quality of epididymal cat sperm, including better morphology, membrane and DNA integrity, and removal of cellular contamination. However, SLC had a better sperm recovery rate than swim-up.     

Effect of low density lipoprotein on the quality of cryopreserved dog semen

Egg yolk is included in extenders for semen cryopreservation due to its protective effect against cold shock, which is attributed to the presence of low density lipoprotein (LDL). This study evaluates how semen quality is affected by using LDL as a replacement for egg yolk in extenders for cooled and frozen dog semen. In Experiment 1, semen was extended in TRIS–glucose at 5 °C, in four treatments: 20% egg yolk (T1); 6% (T2); 8% (T3); and 10% LDL (T4). Sperm motility and membrane integrity after 24, 48, 72 and 96 h and the 50% conservation rate of motile spermatozoa (50 M) were evaluated. The 50 M was less for T1 than for the other treatments (P < 0.01), but T2–T4 did not differ (P > 0.05). In Experiment 2, glycerol at 10% was included in the freezing extender, in treatments similar to those from Experiment 1. Sperm motility and membrane integrity did not differ for T2, T3 and T4 at any period in Experiment 1 and after thawing in Experiment 2 (P > 0.05), but were greater for all LDL treatments than for T1 (P < 0.01), in both experiments. Thus, LDL can replace egg yolk in the composition of the TRIS–glucose extender for cooled or frozen dog semen.     

Cryopreservation of canine epididymal sperm using ACP-106c and TRIS

The objective was to cryopreserve sperm recovered from the canine epididymal cauda immediately after an orchiectomy. The sperm was stored for 12 h at 4 °C using ACP-106c and TRIS as extenders. Sixty adult male dogs were used. The testis–epididymis complex (TEC) was removed, immersed in 0.9% saline and transported to the laboratory. The 60 TEC were divided into groups according to the 4 °C cooling time (0 h or 12 h) and according to the extender used for sperm recovery (ACP-106c or TRIS), forming 4 experimental groups: G0h-ACP, G12h-ACP, G0h-TRIS and G12h-TRIS. The sperm were recovered from the epididymal cauda using the retrograde flow technique. Next, 1.0 mL of ACP-106c or 1.0 mL of TRIS (preheated to 37 °C for 5 min) was added to the sperm of each epididymis. One week later, the sperm was thawed at 37 °C for 1 min, and its morphology, functionality and total and progressive sperm motilities were analyzed. Other parameters were obtained by Computer Assisted Semen Analysis (CASA). The data were submitted to multivariate analysis of variance (MANOVA) (P < 0.05). The total motility values were 52.17 ± 1.78 and 49.8 ± 1.93 for groups G0h-ACP and G12h-ACP and 50.7 ± 2.06 and 43.90 ± 2.51 for groups G0h-TRIS and G12h-TRIS, respectively. A decrease in total sperm motility was observed after 12 h of cooling for both extenders (P < 0.05). ACP-106c can be used as an extender for freezing canine epididymal sperm, and the freezing procedure must be performed immediately after sperm recovery.     

Freezing dog semen in presence of the antioxidant butylated hydroxytoluene improves postthaw sperm membrane integrity

In an attempt to evaluate the protective effect of a lipid-soluble antioxidant (butylated hydroxytoluene; BHT), semen from four dogs (Canis familiaris) was frozen in two different extenders (Uppsala or INRA-96 plus glycerol) with or without 1 mM BHT. Sperm membrane integrity using flow cytometry and motility using a computerized system were evaluated in each experimental group. The Uppsala extender was superior in all aspects of sperm function. The percentage of sperm membranes was significantly higher in semen samples frozen in presence of BHT. Our results suggest that the Uppsala extender can be improved with the addition of BHT.     

Use of commercial extenders and alternatives to prevent sperm agglutination for cryopreservation of brown bear semen

The objective of this study was to evaluate different bovine and canine commercial semen extenders for cryopreservation of brown bear ejaculates and the effect of semen collection directly into extender on sperm agglutination. Semen samples were obtained by electroejaculation from 13 adult males. In experiment 1, eleven ejaculates from eight bears were used to evaluate Bioxcell and Andromed as extenders, whereas in experiment 2, nine ejaculates from six bears were used to evaluate Triladyl canine, CaniPro, and Extender 2 as extenders. An extender specifically developed for brown bears (Test-Tris-fructose-egg yolk-glycerol, TTF-ULE/bear) served as a control extender in both experiments. After thawing, total and progressive sperm motility and sperm viability were greater (P < 0.05) for TTF-ULE/bear and Andromed extenders than for Bioxcell in experiment 1 and greater (P < 0.05) for TTF-ULE/bear extender than for Triladyl Canine, CaniPro, and Extender 2 in experiment 2. In experiment 3, addition of handling extender (TTF-H) to the semen collection tube for eight ejaculates from seven bears resulted in less (P < 0.05) sperm agglutination in fresh samples (score 0.5 ± 0.2 vs. 1.8 ± 0.4 in diluted and control samples, respectively) with no effect on pre-freeze and post-thawing semen quality. In conclusion, TTF-ULE/bear is the most suitable extender for brown bear semen cryopreservation, but comparable results can be obtained with the commercial extender Andromed. In addition, collection of ejaculates directly in TTF-H extender decreases sperm agglutination in fresh samples.     

Microencapsulation of canine sperm and its preservation at 4 °C

The objective of this study was to develop a preservation method for canine sperm using microencapsulation. Pooled ejaculates from three beagles (Canis familiaris) were extended in egg yolk Tris extender and were encapsulated in gel (alginate only) or polycation (poly-l-lysine membrane bound) microcapsules at 0.75% and 1.0% alginate concentration. In Experiment 1, characteristics of microcapsule and microencapsulated sperm were evaluated during chilling storage for 48 h. Gel microcapsules at 0.75% alginate concentration had a teardrop-like structure with fragility, whereas those at 1.0% alginate had a solid spherical structure. In all groups, diameter of the microcapsules increased with duration of storage (P < 0.05). Alginate concentration did not affect the sperm recovery rate from microcapsules. Total average recovery rate of sperm from polycation microcapsules was lower than that of gel microcapsules (P < 0.05). Progressive motility of polycation microencapsulated sperm and unencapsulated sperm (control) was higher than that of the gel microencapsulated sperm, both at 0.75% and 1.0% alginate concentration (P < 0.05), although viability of sperm was similar among the three groups. In Experiment 2, to evaluate the sperm longevity after chilling storage, sperm were microencapsulated in polycation microcapsules at 1.0% alginate concentration, stored at 4 °C for 0, 1, 4, and 7 d, and then cultured at 38.5 °C for 0, 6, and 24 h. Progressive motility and viability of microencapsulated sperm were higher than those of unencapsulated spermatozoa at 0 to 24 h of culture after 4 and 7 d of chilling storage (P < 0.05). In conclusion, polycation microencapsulation at 1.0% alginate concentration can be successfully applied for chilling storage of canine sperm by maintaining motility and viability for up to 7 d.     

Identification of sperm subpopulations with defined motility characteristics in ejaculates from Florida goats

The aims of this study were to test the presence of discrete sperm subpopulations in Florida goat ejaculates using a computer-assisted sperm analysis (CASA) system and to establish the relationship between the distribution of the subpopulations found and individual buck, total motility, and sperm concentration. Clustering methods and discriminant analysis were applied to identify motile sperm subpopulations within the semen samples. Principal component analysis revealed that three principal components represented more than the 88% of the variance. After the cluster analysis was performed four motile sperm subpopulations were identified. Subpopulation 1 consisted of rapid and linear sperm (39.84%), Subpopulation 2 consisted of slow but linear spermatozoa (33.23%), Subpopulation 3 consisted of rapid, high ALH but non-linear spermatozoa (14.63%), and Subpopulation 4 consisted of slow and non-linear spermatozoa (12.31%). There were significant differences in the distribution of the four subpopulations (P < 0.001) as well as in the percentage of total motility and the overall sperm concentration (P < 0.05) in fresh ejaculates among the four bucks tested. In conclusion, four well-defined motile sperm subpopulations were identified in Florida goat ejaculates. The relationship between the distribution of the sperm subpopulations and individual buck, total motility, and sperm concentration shows that the spermatozoa of each have different motility patterns. Therefore, the study of discrete subpopulations of motile spermatozoa could lead to a substantial increase in information acquired during caprine semen analysis.     

Embryo production after in vitro fertilization with frozen-thawed, sex-sorted, re-frozen-thawed bull sperm

The objective of this study was to determine the in vitro fertilizing capacity of bull sperm derived from fresh or frozen samples and subjected to sex sorting and re-cryopreservation. Four sperm types were assessed for their ability to fertilize and sustain early embryo development in vitro. Semen from three Bos taurus bulls of different breeds (Jersey, Holstein and Simmental) was collected and either sorted immediately and then frozen (SF) or frozen for later sorting. Frozen sperm destined for sorting were thawed, sex-sorted, and re-frozen (FSF) or thawed, sex-sorted (FS), and used immediately for in vitro fertilization (IVF). Frozen-thawed nonsorted semen from the same ejaculate was used as a control. Oocytes from donor cows were aspirated via ovum pick-up and matured in vitro prior to IVF and culture. On average, 19.0 ± 1.7 (mean ± SEM) oocytes were aspirated per donor cow, of which 74.4 ± 2.2% were selected for maturation. The proportion of cleaved embryos (Day 3) did not differ between sperm groups (P = 0.91). Likewise, IVF with FSF sperm resulted in similar Day 7 blastocyst rates (as a percentage of total oocytes) as those of control, SF, and FS sperm (FSF, 34.5 ± 4.7; control, 32.2 ± 4.6; SF, 35.9 ± 4.8; and FS, 26.9 ± 4.1%; P = 0.23). These encouraging results show that frozen-thawed sex-sorted sperm may be re-frozen and used for in vitro embryo production with similar blastocyst production as that of nonsorted frozen-thawed and sex-sorted frozen-thawed sperm.     

Relationship between semen characteristics and body size in Barbus barbus L. (Teleostei: Cyprinidae) and effects of ions and osmolality on sperm motility

The objectives of the present study were to determine the relationships among length and weight of males, sperm volume, spermatozoa concentration, total number of spermatozoa, ionic contents and osmolality of seminal plasma in Barbus barbus. The effect of osmolality on sperm motility parameters after activation in NaCl, KCl, or sucrose solutions was also examined. There were significant correlations between spermatozoa concentration – length (R = + 0.7) and – weight (R = + 0.8) of males. No significant correlations were observed between the total number of spermatozoa, sperm volume, and length and weight of males. Seminal plasma osmolality was higher when the total number of spermatozoa (R = + 0.6) and sperm volume (R = + 0.6) were higher. Sperm motility and velocity was positively correlated with osmolality (R = + 0.5). The correlation between sperm motility and K⁺ was negative (R = 0.5), but positively correlated with Ca²⁺ (R = 0.8), Na⁺ (R = 0.8), and Cl⁻ (R = 0.8). There was a rapid decrease (P < 0.05) in sperm motility parameters after sperm activation. Just after sperm activation, beating waves propagated along the full length of flagella. At latter stages post sperm activation, the waves appeared only in proximal part of the flagellum. The highest spermatozoa velocity and percentage of motility were observed at 215–235 mOsmol kg^− 1 in NaCl, KCl or sucrose. The tip of the flagellum became curled into a loop shape which shortened the flagellum after activation of sperm in distilled water. B. barbus sperm is very similar to that of other cyprinids in terms of ionic contents and osmolality of the seminal plasma, mechanism of sperm activation and behavior and motility of sperm during swimming period.     

Improvement of the quality of boar cryopreservation semen by supplementing with low density lipoprotein in diluents

Low density lipoprotein was added at concentrations of 6%, 7%, 8%, 9% and 10% to the diluents used to freeze boar semen and its effect on the quality of cryopreservation was assessed The results indicated that 9% low density lipoprotein supplementation significantly improved the total motile sperm (p<0.05). The sperm straight-line velocity increased with the concentration of low density lipoprotein except at the concentration of 10%, at which concentration the sperm velocity declined (p<0.05). Supplementation at 8% and 9% low density lipoprotein significantly increased plasma membrane integrity (p<0.05). Compared with control, the low density lipoprotein supplementation significantly improved the percentage of acrosome integrity (p<0.05). With all parameters measured, the concentration of 9% low density lipoprotein showed a better effect on the quality of boar cryopreservation semen. The sperm DNA was more seriously damaged in the species of Yorkshire than in Duroc.     

Novel and traditional traits of frozen-thawed porcine sperm related to in vitro fertilization success

Cryopreserved semen allows the use of single ejaculates for repeated analyses, potentially improving IVF consistency by eliminating interejaculate variability observed with fresh semen. However, the freezing and thawing processes result in compromised sperm function and IVF success. Semen samples are often screened for motility before use for IVF. Samples that are below a designated motility threshold may be discarded. Our objectives were to determine if post-thaw sperm motility, other traits that may be indicative of sperm function, or a novel assay of oviduct binding were related to IVF success. Semen from 16 boars was cooled to 15 °C for overnight shipment before cryopreservation. Semen was thawed and motility was recorded microscopically and confirmed using computer-automated sperm assessment. Each sample was tested by IVF in two to three independent replicates. Regression and correlation analyses were employed to determine the interrelationships between sperm traits and the relationships between post-thaw motility, sperm-oviduct binding and IVF outcomes. Among the sperm traits examined, sperm acrosome integrity was negatively correlated with post-thaw motility (r² = 0.64) but not with IVF results. The number of sperm bound to oviduct aggregates was correlated with IVF polyspermy rates (r² = 0.62, P < 0.05) but less with overall IVF rates (r² = 0.31, P > 0.10). There was some relationship of post-thaw motility with IVF monospermic fertilization (P = 0.06, r² = 0.08) but not to other IVF outcomes. Our results indicate that post-thaw motility of frozen-thawed boar sperm is strongly related to acrosome integrity but has limited use for predicting IVF success. The number of sperm bound to oviduct cells was related to IVF polyspermy rates and may be more indicative of in vitro sperm function than traditional sperm motility and acrosome status evaluation.     

The impact of cushioned centrifugation protocols on semen quality of stallions

The objective was to determine if decreased cushion-fluid volume and increased sperm number during centrifugation, or if sperm concentration of extended semen following centrifugation, affected stallion sperm quality. Three ejaculates from each of three stallions were subjected to cushioned centrifugation (1,000g for 20 min). Cushion-fluid volume was set at 1 or 3.5 ml, and sperm number per centrifuge tube was set 1 billion or 3 billion. Following centrifugation, sperm pellets were resuspended in semen extender containing 20% seminal plasma (v/v) with sperm concentrations of 25 or 250 million/mL. Sperm recovery rate among centrifugation treatment groups was compared. Motion characteristics, plasma membrane intactness (SMI), and DNA quality (COMPαt) of sperm were compared among treatment groups and uncentrifuged controls immediately following centrifugation (Time 0 h) and following 24 h of cooled storage (Time 24 h). Centrifugation treatment did not affect sperm recovery rate (P > 0.05). At Time 0 h, no differences in experimental end points were detected between cushion-fluid volumes tested (P > 0.05). Values for percent total sperm motility, percent progressive sperm motility, and track straightness were similar between sperm-number treatments subjected to centrifugation (P > 0.05). At Time 24 h, values for all experimental endpoints were similar between centrifugation treatments for cushion volume per tube, and between centrifugation treatments for sperm number per tube (P > 0.05). Centrifugation treatments and control treatments were similar for five of six variables tested (P > 0.05). Sperm storage concentrations of 25 × 10⁶ and 250 × 10⁶/mL yielded similar values for percent total sperm motility, percent progressive sperm motility, percent SMI, and percent COMPαt (P > 0.05). A storage concentration of 250 × 10⁶ sperm/ml yielded higher values for curvilinear velocity, and lower values for straightness, than all other groups (P < 0.05). In conclusion, centrifugation with as little as 1 ml of cushion fluid and a sperm number of up to 3 × 10⁹ sperm in 50-ml conical-bottom centrifuge tubes had no detrimental effect on initial or cool-stored sperm quality. Additionally, storage of centrifuged sperm at a concentration of 250 × 10⁶/mL with 20% seminal plasma (v/v) did not have a detrimental effect on percentages of motile or progressively motile sperm, or sperm DNA quality.     

Influence of different centrifugation protocols on equine semen preservation

Three experiments were conducted to evaluate the impact of centrifugation on cooled and frozen preservation of equine semen. A standard centrifugation protocol (600 × g for 10 min = CP1) was compared to four protocols with increasing g-force and decreased time period (600 × g, 1200 × g, 1800 × g and 2400 × g for 5 min for CP2, 3, 4, and 5, respectively) and to an uncentrifuged negative control. In experiment 1, the influence of the different CPs on sperm loss was evaluated by calculating the total number of sperm cells in 90% of the supernatant. Moreover, the effect on semen quality following centrifugation was assessed by monitoring several sperm parameters (membrane integrity using SYBR14-PI, acrosomal status using PSA-FITC, percentage total motility (TM), percentage progressive motility (PM) and beat cross frequency (BCF) obtained with computer assisted sperm analysis (CASA)) immediately after centrifugation and daily during chilled storage for 3 d. The use of CP1 resulted in a sperm loss of 22%. Increasing the centrifugation force to 1800 × g and 2400 × g for 5 min led to significantly lower sperm losses (7.4% and 2.1%, respectively; P < 0.05). Compared to the uncentrifuged samples, centrifugation of semen resulted in a better sperm quality after chilled storage. There were minimal differences between the CPs although total motility was lower for CP2 than for the other treatments (P < 0.005). In experiment 2, the centrifuged samples were cryopreserved using a standard freezing protocol and analyzed immediately upon thawing. Samples centrifuged according to CP2 resulted in a higher BCF (P < 0.005), whereas CP3 and CP5 yielded a lower BCF (P < 0.05) when compared to CP1. There were no post thaw differences between CP1 and CP4. In experiment 3, DNA integrity of the different samples was analyzed using TUNEL. Although DNA integrity decreased over time, CP had no impact. In conclusion, the loss of sperm cells in the supernatant after centrifugation can be substantially reduced by increasing the g-force up to 1800 × g or 2400 × g for a shorter period of time (5 min) compared to the standard protocol without apparent changes in semen quality, resulting in a considerable increase in the number of insemination doses per ejaculate.     

Effect of daily semen centrifugation and resuspension on the longevity of equine sperm quality following cooled storage

An experiment was conducted to determine whether cooled semen quality could be maintained for a longer interval by conducting daily centrifugation of extended semen, with resuspension of the sperm pellet in fresh extender. Semen treatments included SP10NC and SP50NC which contained 10 and 50% seminal plasma, respectively, were not centrifuged (NC), and were stored at 4 to 7 °C for 96 h. Treatments SP10C and SP50C contained 10 and 50% seminal plasma, respectively, but were centrifuged (C) after 24, 48, and 72 h of cooled storage, with daily resuspension in fresh extender containing 10% seminal plasma. Percent total sperm motility (TMOT) and progressively motile (PMOT) was reduced (P < 0.05) in the SP50NC treatment after 24, 48, 72, and 96 h of storage, and TMOT did not differ (P > 0.05) in the SP10C, SP50C, SP10NC groups after the same storage periods. The % COMP-_αt did not differ (P > 0.05) among treatments at any time period. Percent membrane intact sperm (SMI) was reduced in SP50NC, as compared to SP10C at 48, 72, and 96 h (P < 0.05). Daily centrifugation and resuspension of sperm exposed to 50% seminal plasma for the first 24 h (SP50C) yielded similar TMOT, PMOT, VCL, SMI, % COMP-_αt (P > 0.05) to Groups SP10NC and SP10C after 96 h of storage. Daily centrifugation and resuspension of cool-stored equine semen in fresh extender may be a method to increase sperm longevity.     

Pregnancy loss in heifers after artificial insemination with frozen-thawed,sex-sorted,re-frozen-thawed dairy bull sperm

The use of sex-sorted sperm by the dairy industry is often limited by the geographical distance between potential sires and the sex-sorting facility. One method that may be used to overcome this limitation is sex-sorting sperm that have been previously frozen, or transported to the sorting facility as cooled liquid semen. In this study the in vivo fertility of frozen-thawed, sex-sorted, re-frozen-thawed (FSF) and cooled, sex-sorted, frozen-thawed (CSF) bull sperm was determined after artificial insemination (AI) of Holstein heifers. Semen from two bulls was frozen in straws, or transported to the sorting facility in an egg yolk diluent at 5 °C over 24 h. Thawed or re-warmed semen was processed through a PureSperm^® density gradient, and sperm were sorted for sex and frozen (2 or 4 × 10⁶ sperm/straw). Synchronised heifers (n = 183) were inseminated with either non-sorted control sperm (Control; 20 × 10⁶ dose) or with FSF or CSF ‘X’ sperm (2 or 4 × 10⁶/dose). Pregnancy rates (detected at 7–9 weeks) after AI with control sperm were higher than with FSF or CSF sperm (57.4 vs. 4.1 and 7.3% respectively; p < 0.001). There was a significant difference between bulls (Bull 1: Control 63.0%, FSF 8.6%, CSF 10.0%; Bull 2: Control 45.5%, FSF 0%, CSF 4.8%; p = 0.001). Five out of six (83.3%) pregnancies produced with sexed sperm were lost after pregnancy diagnosis. The exception was one heifer inseminated with CSF sperm (2 million sperm dose), which produced a heifer calf. In the non-sorted control group, three pregnancies were lost (8.3%) and three stillbirths occurred (8.3%). The low fertility and high rate of pregnancy loss in the sexed groups, in addition to environmental influences, may be attributed to impaired sperm function caused by sex-sorting and re-freezing, leading to poor embryo quality or altered gene expression. More precise timing of insemination and higher sperm doses might improve the fertility of FSF sperm. Moreover, the in vitro function of double-frozen sexed compared with non-sorted sperm requires further investigation.     

Cryobiological determinants of frozen semen quality, with special reference to stallion

Success in cryopreserving stallion semen has been very variable. Several different freezing regimes have been published. However, because extenders and procedures used in each regime have differed, direct comparison of these techniques has been very difficult, and controlled studies comparing different techniques have not been reported. A number of different factors affect sperm cryosurvival. In this article we review briefly current cryopreservation procedures for stallion semen, and then in more detail cryobiological determinants of sperm function, and mechanisms of cryoinjury and cryoprotectant action. Specific attention is given to data relating to stallion sperm. The complexity of sperm cell biology is believed to be an important factor when developing improvements in stallion semen cryopreservation. It may be assumed that impairment of cell function resulting from cold and osmotic shock is a main source of stallion sperm sensitivity to conventional freezing procedures. Further physiological studies on stallion sperm are required to understand the mechanisms by which cryopreservation alters sperm function and influences selection of sperm with higher fertilizing potential. Such studies should focus especially on the processes involved in sperm volume regulation, sperm-oviduct interaction, capacitation and cellular signalling, and on the alterations in these processes caused by cryopreservation.