Measurement of the sperm motility index via the sperm quality analyzer and its relationship to other qualitative sperm parameters

Sperm parameters such as the concentration and percentage of motile spermatozoa are commonly used to assess semen quality. The sperm quality analyzer (SQA) is a device that detects variations in the optical density of motile spermatozoa, providing a sperm motility index (SMI) that is based on various sperm parameters including the concentration, morphology and acrosomal status of motile spermatozoa. The relationship between SMI values of frozen-thawed bovine spermatozoa undergoing swelling in a hypoosmotic medium (100 mOsm/L) and other sperm parameters were evaluated. Frozen semen specimens from 3 bulls were thawed and washed with Ham's F-10 supplemented with 3% BSA and split into 3 (0.2 mL) aliquots. The aliquots were diluted with 1.0 mL of Ham's F-10 (Aliquot 1), isotonic sodium citrate (Aliquot 2), and hypotonic sodium citrate (Aliquot 3). The osmotic pressure of the media used for dilution of Aliquots 1 and 2 was 300 mOsm/L, while that for Aliquot 3 was 100 mOsm/L. Following dilution, the aliquots were incubated for 30 min and manually assessed at 5-min intervals for the percentage and grade of motility (Grades 0 to 4) as well as for the percentage of swollen spermatozoa. Sperm samples were simultaneously evaluated by SQA to obtain the SMI values at the same 5-min intervals during the 30-min incubation. Significant correlations were observed between SMI values and other sperm parameters in Aliquot 3 (P < 0.05). The results indicated that the SMI values obtained from frozen-thawed bovine spermatozoa exposed to a 100 mOsm/L diluent, which causes optimal swelling of spermatozoa, are highly correlated to other sperm parameters. The SQA unit, as applied in this study, can be used for rapid and reliable screening of sperm samples.     

Preparation and recovery of frozen-thawed bovine spermatozoa via various sperm selection techniques employed in assisted reproductive technologies

A number of semen manipulative techniques are currently available to remove the undesirable spermatozoa, debris and other factors and to increase sperm quality. The use of motility stimulants such as caffeine or others could optimize the recovery and quality of frozen-thawed spermatozoa processed by a variety of sperm selection techniques. Frozen-thawed specimens from 5 bulls were slowly diluted and washed with Ham's F-10 medium containing 3% BSA (w/v) and 0 or 2 mM caffeine. Aliquots containing approximately 50 x 10(6) total sperm cells were used for conventional sperm wash, swim-up, Percoll density gradient centrifugation (80, 70, 55 and 40% Percoll gradients) and Sephadex (SpermPrep I) filtration. Quantitative and qualitative characteristics of selected spermatozoa included: total sperm (x 10(6)), percentage and grade (0 to 4) of motility, percentage of spermatozoa with coiled tails and response to the hypoosmotic swelling (HOS) test (percentage of swollen spermatozoa). When compared to washed specimens, fewer spermatozoa were recovered via the swim-up, Percoll and SpermPrep I filtration methods. Quantitative and qualitative characteristics of these spermatozoa improved further after processing with Ham's F-10 containing 2 mM caffeine, followed by selection via the various techniques. Enhancement of sperm motility, in conjunction with the most appropriate sperm selection technique, represents an efficient method for the recovery of spermatozoa with improved qualitative characteristics.     

Cryopreservation of spermatozoa from wild-born Namibian cheetahs (Acinonyx jubatus) and influence of glycerol on cryosurvival

Sperm cryopreservation is a valuable tool for the genetic management of ex situ populations. This study was conducted to assess: (1) semen characteristics of wild-born cheetahs; and (2) the impact of three types of glycerol influence (duration of exposure, temperature, and method of addition) on sperm cryosensitivity. To evaluate the impact of duration of glycerol exposure, spermatozoa were incubated in Test Yolk Buffer (TYB) with 4% glycerol at ambient temperature (approximately 22 degrees C) for 15 vs. 60 min before cryopreservation. To evaluate the influence of temperature and method of glycerol addition, spermatozoa were resuspended at ambient temperature either in TYB with 0% glycerol followed by addition of 8% glycerol (1:1 v/v; at ambient temperature vs. 5 degrees C) or directly in TYB with 4% glycerol. All samples were cryopreserved in straws over liquid nitrogen vapor and evaluated for sperm motility and acrosomal integrity after thawing. Semen samples (n = 23; n = 13 males) contained a high proportion (78%) of pleiomorphic spermatozoa. Ejaculates also contained a high proportion of acrosome-intact (86%) and motile spermatozoa (78%). Immediately after thawing, a significant proportion of spermatozoa retained intact acrosomes (range, 48-67%) and motility (range, 40-49%). After thawing, incubation in glycerol for 60 min at ambient temperature before freezing decreased (p < 0.05) sperm motility and acrosomal integrity at one time-point each (pre-centrifugation and post-centrifugation, respectively). However, method or temperature of glycerol addition had no (p > 0.05) impact on sperm cryosurvival. In summary, (1) wild-born cheetahs produce high proportions of pleiomorphic spermatozoa but with a high proportion of intact acrosomes; and (2) resuspension in 4% glycerol, followed by exposure for up to 60 min at ambient temperature, had minimal effect on sperm motility and acrosomal integrity after cryopreservation. Results indicate the feasibility of cryopreserving cheetah spermatozoa under field conditions, providing a user-friendly method to capture and store gametes to enhance genetic management.     

Effect of filtration on post-thaw quality of bull semen

Semen from 4 Holstein bulls was diluted in 4 different extenders, filtered with Sephadex ion-exchange column, and frozen in liquid nitrogen. Sperm motility, progressive motility, path velocity, progressive velocity and the percentage of normal acrosomes of filtered and nonfiltered semen were recorded before and after freezing. Semen characteristics were significantly influenced by extender, filtration and freezing. Before and after freezing, motility measurements and the percentage of normal acrosomes were higher (P < 0.001) in filtered than in nonfiltered spermatozoa. Post-thaw recovery rate of motile spermatozoa was higher in filtered semen than nonfiltered (68 vs 39%, P < 0.0001). The reduction in motility, progressive motility and the percentage of normal acrosomes during freezing and thawing processes were significantly lower (P < 0.0001) in filtered semen (34, 34 and 4%, respectively) than nonfiltered (59, 54 and 15%, respectively). Post-thaw viability of spermatozoa was significantly affected by extender, filtration and time (P < 0.0001). Immediate (0 h) post-thaw motility of nonfiltered semen (29%) was similar to 4-h post-thaw motility of filtered semen (25%; P > 0.05). In conclusion, bull spermatozoa recovered by Sephadex ion-exchange filtration showed better post-thaw viability.     

Thawing and processing of cryopreserved bovine spermatozoa at various temperatures and their effects on sperm viability, osmotic shock and sperm membrane functional integrity

The objective of this study was to evaluate the effects of thawing and processing temperatures on post-thaw sperm viability, occurrence of osmotic shock and sperm membrane functional status. The occurrence of osmotic shock, characterized by increased spermatozoa with coiled tails, eventually results in reduced sperm viability and sperm membrane integrity. The effects of different thawing temperatures were assessed by thawing frozen specimens at 37, 21 or 5 degrees C for 1 to 2-min, followed by processing at these temperatures. A subset of frozen specimens were thawed at 37 degrees C for 10 to 15-sec and transferred to a water bath at 21 or 5 degrees C for 1 to 2-min to complete thawing, followed by processing at these temperatures. Sperm processing (washing) consisted of dilution, centrifugation and resuspension to remove glycerol from the medium and to gradually return the spermatozoa to isotonic conditions. Post-thawed specimens (0.5 mL) were slowly diluted 1:1 (v/v) at a rate of 0.1 mL/min, centrifuged, and resuspended to 0.5 mL (37 degrees C). Diluted specimens were equilibrated for 1 to 2-min after dilution and for 5-min after resuspension. The specimens were then incubated for 2-h (37 degrees C) and assessed at 60-min intervals for the percentage of motility, for progressive motility (Grades 0 to 4), for the percentage of spermatozoa with coiled tails, and for the percentage of swollen spermatozoa. The percentage of swollen spermatozoa (measurement of sperm membrane integrity) was assessed by exposing spermatozoa to a modified hypoosmotic swelling (HOS) test. The results obtained seem to indicate that physiological thawing and processing temperatures (37 degrees C) are required to maintain sperm motility. However, thawing and processing at lower temperatures (< 37 degrees C) seems to prevent the occurrence of osmotic shock and to maintain sperm membrane functional integrity. In this study, thawing at 37 degrees C (10 to 15-sec) and transfer to a water bath at 21 degrees C (1-min) to complete thawing, followed by processing at 21 degrees C, yielded better results in terms of increased sperm viability, reduced occurrence of osmotic shock and higher reactivity to the HOS test.     

Influence of porcine spermadhesins on the susceptibility of boar spermatozoa to high dilution

The effect of heparin-binding and non-heparin-binding spermadhesins on the viability, motility, and mitochondrial activity of boar spermatozoa at the high dilution (300,000 sperm/ml) to which sperm are exposed during the process of sex sorting by flow cytometry was investigated. Incubation of spermatozoa with heparin-binding spermadhesins caused a time- and dose-dependent decrease in the percentage of functional spermatozoa. The percentage of viable spermatozoa incubated at 38 degrees C with heparin-binding spermadhesins diluted in PBS (1 mg/ml) dropped from 75% (0.5 h) to 4% (5 h), whereas the percentage of viable spermatozoa incubated in PBS without proteins (control) decreased from 85% (0.5 h) to 19% (5 h). Addition of non-heparin-binding PSP-I/PSP-II spermadhesin to the PBS resulted in a concentration-dependent increment of the percentage of viable cells (65% after 5-h incubation), with maximum effect at 1.5 mg/ml. The heparin-binding spermadhesins totally suppressed sperm motility and mitochondrial activity after 5 h of incubation. The same parameters of sperm incubated in the presence of 1.5 mg/ml of PSP-I/PSP-II were 50% and 58%, respectively, and the percentages of control sperm displaying motility and mitochondrial activity were 21% and 26%, respectively. Moreover, the viability, motility, and mitochondrial activity all decreased on incubation of spermatozoa with mixtures of PSP-I/PSP-II and heparin-binding spermadhesins as the concentration of the latter increased. We conclude that PSP-I/PSP-II and the heparin-binding spermadhesins exert antagonistic effects on the functionality of highly diluted boar spermatozoa. The finding that PSP-I/PSP-II contributes to maintaining sperm with high viability, motility, and mitochondrial activity for at least 5 h at physiological temperature points to its potential use as an additive for sperm preservation, specifically of highly diluted, flow-sorted spermatozoa for sex preselection.     

The effect of heparin, caffeine and calcium ionophore A23187 on in vitro induction of the acrosome reaction in frozen-thawed bovine and caprine spermatozoa

The effect of heparin (5 IU), caffeine (5 mM) and calcium-ionophore A23187 (0.1 mM) on motility and in vitro induction of the acrosome reaction in glass wool filtered frozen-thawed bull and goat semen was studied. The motile spermatozoa fraction was obtained after glass wool filtration of frozen-thawed semen. The seminal plasma was removed from filtered semen by centrifugation, and the sperm pellet was resuspended in Sperm-TALP medium. Samples of treated and untreated control semen of both species were incubated at 37 degrees C. At 1, 15 and 30 min of incubation the proportions of progressively motile and acrosome-reacted spermatozoa were assessed. Trypan blue and Giemsa stain was used to differentiate live and dead spermatozoa having undergone acrosome reaction. Glass wool filtration enhanced the proportion of motile spermatozoa from 43% to 62% in the bovine and from 41% to 60% in the caprine. Whereas the effect of incubation with caffeine, heparin and calcium-ionophore on spermatozoan motility was negligible, the treatment of semen with calcium-ionophore resulted in a significantly improved percentage of live spermatozoa with true acrosome reaction at all stages of incubation, both in the bovine and the caprine.     

The effects of different types of syringes on equine spermatozoa

Control extender was incubated at 4 degrees C for 24 hours. Rubber or plastic syringe plungers were separately incubated in semen extender for 24 hours at 4 degrees C. Following incubation, the extender was stored at -20 degrees C until the time of semen collection. The treatments consisted of the following: Group A = equine semen plus control extender; Group B=equine semen plus extender incubated with rubber plungers and Group C=equine semen plus extender incubated in plastic plungers; Group D=equine semen plus control extended in rubber plunger syringes and Group E=equine semen plus control extender in plastic plunger syringer. Each group contained a 5-ml volume of semen and extender at a concentration of 1.0 x 10(8) sperm/ml. The number of live spermatozoa, percentage of progressively motile spermatozoa and rate of progressive motility were taken following collection and every 15 minutes for 1 hour following application of treatments. In experiment 2, treatments were allowed to incubate with semen for 45 minutes, then the extender was removed and was replaced with fresh extender. The rate of progressive motility and the percentage of progressively motile spermatozoa were taken immediately, at 45 minutes, and then every 15 minutes for 1 hour. In experiment 1, the number of live spermatozoa was not affected among the 5 groups. However, there was a decrease (P<0.01) in the rate of progressive motility and in the percentage of progressively motile spermatozoa in Group B compared with the remaining 4 treatment groups at 30, 45 and 60 minutes, with no differences noted when semen was held in syringes with a rubber or a plastic plunger. In experiment 2, the percentage of progressively motile spermatozoa increased after the addition of the control extender.     

Sperm membrane functional integrity and response of frozen-thawed bovine spermatozoa during the hypoosmotic swelling test incubation at varying temperatures

The objective of this study was to assess the sperm membrane integrity and permeability of frozen-thawed bovine spermatozoa, processed at varying temperatures during and after thawing, by exposing the spermatozoa to standardized hypoosmotic conditions. The hypoosmotic swelling (HOS) test was employed to measure changes in sperm membrane functional status and permeability. Frozen specimens (from 5 bulls) were thawed at 37h degrees C for 10 sec and transferred to a water bath at 37 (Aliquot 1), 21 (Aliquot 2) or 5 degrees C (Aliquot 3) to complete thawing (1 to 2 min). The specimens were maintained and processed at these temperatures for additional 5 to 10 min. Specimens were slowly diluted 1:1 (v/v) and washed with Ham's F-10 media containing 3% (w/v) BSA. The HOS test was performed by adding 0.1 ml of the sperm specimen to 1.0 ml of a 100 mOsm/L HOS diluent. The following treatments were performed: 1) Aliquot 1 (control), specimens were incubated in HOS solutions at 37 degrees C for 5 min; 2) Aliquot 2, specimens were incubated in HOS solutions at 21 or 37 degrees C for 5 min; and 3) Aliquot 3, specimens were incubated in HOS solutions at 5 or 37 degrees C for 5 min. Samples were obtained from the sperm specimen-HOS diluent mixtures at 1 min intervals (during the 5 min incubation period), fixed and assessed for sperm swelling patterns. The sperm response to the HOS test for specimens processed at temperatures below 37 degrees C was higher when samples were incubated in HOS diluents at 37 degrees C. This finding indicates that the potential for sperm swelling (measurement of sperm membrane functional status) can be maintained when spermatozoa are processed at temperatures below 37 degrees C. The highest response to the HOS test was observed in spermatozoa processed at 21 degrees C and incubated in a HOS solution at 37 degrees C. The response to the HOS test was superior to the one observed in specimens maintained and processed at 37 degrees C throughout. Thawing of spermatozoa at 37 degrees C, followed by processing at 21 degrees C seems to reduce the negative effects associated with osmotic shock and results in the preservation of the sperm membrane functional status during the in vitro handling of frozen-thawed bovine spermatozoa.     

Frozen-thawed bovine spermatozoa diluted by slow or rapid dilution method: measurements on occurrence of osmotic shock and sperm viability

This study was undertaken to investigate the occurrence of osmotic shock, sperm viability and membrane functional status of frozen-thawed bovine spermatozoa during a short-term incubation period (2 h) in vitro after dilution by 2 methods. Frozen semen from 10 bulls (0.5-ml plastic straws, 7% glycerol) was thawed and diluted by slow or rapid dilution method with Ham's F-10 medium containing 0 or 7% glycerol and assessed for sperm motion parameters, percentage of spermatozoa with coiled tails and reactivity to the hypoosmotic swelling (HOS; percentage of spermatozoa swelling) test at 60 min intervals during a 2 h incubation period (37 degrees C). Post-thaw sperm viability, as reflected by percentage and grade of motility (0 to 4) did not differ between the 2 dilution methods (P > 0.05) at the beginning of incubation (Time 0). However, differences were apparent (P < 0.05) as the incubation time increased. Slow dilution with medium containing 0% glycerol caused less increase (P < 0.05) in percentage of spermatozoa with coiled tails; Moreover, these spermatozoa showed greater reactivity to the HOS test. When contrasting slow vs rapid dilution methods, the occurrence of osmotic shock was less frequent, and response to the HOS test was greater for spermatozoa diluted slowly, regardless of the glycerol content of the incubation medium. Rapid deglycerolization of frozen-thawed bovine spermatozoa in a single step, induces damage which is not detected on the basis of spennatozoal motility but is clearly evident after several hours of incubation by using the HOS test to detect damage.     

Role of sperm motility and acrosome integrity in the filtration of bovine semen

In this study, the role of sperm motility and acrosome integrity in filtration of bovine semen was investigated. In Experiment 1, the treatment of semen with formaldehyde, hyperosmotic buffer, heating and direct freezing immobilized the spermatozoa completely but their acrosomal status varied significantly (P < 0.01). The immotile spermatozoa, of any kind, did not pass through the Sephadex ion-exchange column at room temperature. In Experiment 2, semen samples possessing different percentages of immobilized spermatozoa (0, 50, 75 and 100%) were filtered through the Sephadex ion-exchange column. The immotile/dead spermatozoa were removed proportionately to their number in the semen by Sephadex ion-exchange column. The type and number of immotile spermatozoa in semen had no effect (P > 0.05) on the post-filtration recovery rate of motile spermatozoa. Filtered spermatozoa exhibited higher (P < 0.01) motility (> 90%), progressive motility (> 70%) and normal acrosomes (> 95%) than non-filtered spermatozoa. In conclusion, sperm motility seems to be more important than acrosome integrity for semen filtration, and the Sephadex ion-exchange column can remove the known quantities of different kinds dead/immotile spermatozoa.     

A comparison of three packaging techniques using two extenders for the cryopreservation of canine semen

The progressive motility of frozen-thawed canine semen was used as a criterion to compare methods of semen cryopreservation. Twenty-one ejaculates from 7 dogs were frozen in 2 extenders, Tris-citrate (TC) and BES-lactose (BL), in each of 3 packaging techniques (pellets, 0.5-ml, and 2.5-ml straws). Duplicate samples were frozen on dry ice (pellets) or in liquid nitrogen vapor (straws). Least squares means for the percentage of post-thaw progressive motility (PTPM) were greater for TC (33.2 ± 1.7) than for BL (20.9 ± 1.7; P<0.0001). Freezing in pellets (PTPM = 34 ± 2.3) resulted in greater PTPM than freezing in either 0.5-ml (24.7 ± 1.6) or 2.5-ml (22.1 ± 2.3) straws (P<0.001). The percentage of PTPM of spermatozoa frozen in TC pellets was greater than that in TC 2.5-ml straws or in BL in any packaging method (P<0.05). The percentage of PTPM of spermatozoa from semen extended in BL was greater in pellets than in 0.5 or 2.5-ml straws (P<0.05).     

Sperm viability in the black-footed ferret (Mustela nigripes) is influenced by seminal and medium osmolality

Fundamental knowledge of spermatozoa cryobiology can assist with optimizing cryopreservation protocols needed for genetic management of the endangered black-footed ferret. Objectives were to characterize semen osmolality and assess the influence of two media at various osmolalities on sperm viability. We examined the influence of Ham's F10 +Hepes medium (H) at 270, 400, 500 or 700 mOsm (adjusted with sucrose, a nonpermeating cryoprotectant) and TEST Yolk Buffer (TYB) with 0% (300 mOsm) versus 4% (900 mOsm) glycerol (a permeating cryoprotectant). Electroejaculates (n=16) were assessed for osmolality using a vapor pressure osmometer. For media comparison, semen (n=5) was collected in TYB 0%, split into six aliquots, and diluted in H270, H400, H500, H700, and TYB 0% or TYB 4%. Each sample was centrifuged (300 g, 8 min), resuspended in respective medium, and maintained at 37 degrees C for 3h. Sperm motility and forward progression were monitored every 30 min for 3h post-washing. Acrosomal integrity was monitored at 0 and 60 min post-washing. Results demonstrated that black-footed ferret semen has a comparatively high osmolality (mean+/-SEM, 513.1+/-32.6 mOsm; range, 366-791 mOsm). Ferret spermatozoa were sensitive to hyperosmotic stress. Specifically, sperm motility was more susceptible (P<0.01) to hyperosmotic conditions than acrosomal integrity, and neither were influenced (P>0.05) by hypotonic solutions. Exposure to TYB 4% glycerol retained more (P<0.01) sperm motility than a hyperosmotic Ham's (700 mOsm). These findings will guide the eventual development of assisted breeding with cryopreserved sperm contributing to genetic management of this rare species.     

Survival and fertility of ram spermatozoa frozen in pellets, straws and minitubes

The post-thaw survival and fertility of ram spermatozoa frozen in pellets, 0.25- and 0.5-ml PVC straws, and 0.25-ml minitubes were examined. In 5 experiments, a freezing height of 6 cm above the level of liquid nitrogen was optimal for 0.25- and 0.5-ml straws, whereas 4 cm was best for the 0.25-ml minitubes. Post-thaw motility of spermatozoa was lower for semen frozen in straws and minitubes than in pellets (Experiment 1: 43.7 vs 53.4%, P < 0.001), but after freezing was better in 0.5-ml straws and 0.25-ml minitubes than in 0.25-ml straws (Experiment 1: 44.9 vs 41.3%, P < 0.05; Experiment 2: 49.6 vs 46.8%, P < 0.01). Sperm motility was also better for 1:8 (semen:diluent) pre-freezing dilution rate (50.5%) than for 1:4 (45.6%, P < 0.01) and 1:2 (39.8%, P < 0.001) but not the 1:16 (49.5%) dilution rate. Dry ice was a better freezing medium than liquid nitrogen vapor (49.2 vs 46.9% motile spermatozoa, P < 0.001). The post-thaw motility of spermatozoa was similar for the three freezing packages if the semen was loaded at 5 degrees C, but motility was poorer for semen loaded into 0.25-ml straws than 0.25-ml minitubes at 30 degrees C (P < 0.05). In a fertility test, pregnancy rates were influenced by rams (3 rams, P < 0.05) and freezing package (pellets vs 0.25-ml minitube vs 0.25-ml straw vs 0.5-ml straw, P < 0.05) but not freezing medium (liquid nitrogen vapor vs dry ice). More ewes were pregnant after insemination with pellet-frozen semen (106/150, 71%) than with semen frozen in 0.25-ml straws (85/150, 57%; P < 0.05) and in 0.5-ml straws (83/150, 55%; P < 0.01) but not minitubes (98/150, 65%). It was concluded that minitubes provide a useful alternative to pellets as a storage package for ram spermatozoa, allowing for individual dose identification and easier storage while maintaining a fertility rate indistinguishable from that obtained with pellet-frozen semen.     

Comparison of the longevity of motility of stallion spermatozoa incubated at 38 degrees C in different capacitating media and containers

This study was designed to compare the effects of different media and containers on longevity of motility of spermatozoa during in vitro incubation at 38 degrees C in either air or 5% CO2 atmosphere. Three ejaculates were collected from each of 4 stallions. The media tested were skim milk-glucose, modified Krebs/Ringer and Hank's salts solution for incubation in an air atmosphere, and modified Krebs/Ringer and Brackett and Oliphant (BO) defined medium for incubation in a 5% CO2 atmosphere. All samples were incubated in 5-mL borosilicate glass tubes filled with 3 mL of extended spermatozoa, 5-mL borosilicate tubes filled with 6 mL (topped) of extended spermatozoa, 35-mm Petri dishes filled with 3 mL of extended spermatozoa, and 35-mm Petri dishes with 200-microL microdroplets of extended spermatozoa under sterile mineral oil. For all treatments, individual samples were removed at 2, 4, 6 and 12 h of incubation to determine the percentage of motile cells. Overall, spermatozoa incubated in Petri dishes in both 3-mL and microdroplet treatments had significantly higher motility than those incubated in glass tubes (P<0.01). At 6 and 12 h of incubation in Petri dishes, progressive motility was significantly higher for spermatozoa extended in the Hank's salts solution than in the other media. Both the medium and container used significantly affected the longevity of motility of spermatozoa incubated at 38 degrees C.     

Cryopreservation of channel catfish spermatozoa: effect of cryoprotectant, straw size, and formulation of extender

Various aspects of the cryopreservation of spermatozoa of channel catfish (Ictalurus punctatus ) were studied in relation to spermatozoa motility. The objectives were to evaluate 1) the efficacy of 5, 10 and 15% of methanol or n,n-dimethyl acetamide (DMA) as cryoprotectants; 2) the acute toxicity of 5, 10 and 15% methanol or DMA; 3) the use of 0.5-ml vs. 0.25-ml straws; 4) the efficacy of 5, 10 and 15% of methanol in Hanks' balanced salt solution (HBSS) or HBSS without glucose, and 5) the use of HBSS with or without 5% methanol. We found that use of 5% methanol as a cryoprotectant resulted in significantly higher post-thaw motility (P = 0.0001) than did 5, 10 or 15% DMA. The use of 5% of either cryoprotectant resulted in significantly higher post-thaw motility (P = 0.0001) than did 10 or 15% of the cryoprotectants. Samples containing 10 or 15% DMA had significantly lower motility (P = 0.0001) after 30 min exposure than did samples containing 5, 10 or 15% methanol. The use of 0.25-ml straws resulted in significantly higher post-thaw motility (P = 0.0001) than that of 0.5-ml straws. No difference was found in post-thaw motility between HBSS with and without glucose as the extenders. Cryopreservation in HBSS without addition of cryoprotectant resulted in post-thaw motility values of about 1%.     

Effects of changes in photoperiod on freezability of ram spermatozoa

The effect of photoperiod on freezability of ram spermatozoa was evaluated in ejaculates collected over 52 weekly periods from two groups of rams housed in windowless rooms maintained under either a natural light regimen corresponding to latitude 45 degrees N or its reverse. The survival of spermatozoa after freezing of 0.5-ml straws at 15 degrees C/min, storage in liquid nitrogen, and thawing in a water bath at 39 degrees C was evaluated as freeze-thaw motility percentage and rating and as a cryosurvival percentage. Freeze-thaw motility percentage was highest during the decreasing photoperiod, regardless of season. Motility percentage after freezing was positively correlated with motility percentage before freezing (r = 0.40) and ejaculate osmolality (r = 0.41), and negatively correlated with percentage of abnormal spermatozoa (r = 0.46). Cryosurvival was significantly lower during the winter and spring seasons for semen collected from rams maintained under the natural light regimen. No significant differences in cryosurvival over the year were observed in semen collected from rams maintained under the reverse light regimen. Cryosurvival was positively correlated with ejaculate osmolality. The vigor of frozen-thawed spermatozoa, assessed as motility rating, was significantly lower during the increasing photoperiod for rams exposed to the natural light regimen. However, the motility rating of spermatozoa collected from rams under the reverse light did not differ significantly.     

Effects of holding time during cooling and of type of package on plasma membrane integrity, motility and in vitro oocyte penetration ability of frozen-thawed boar spermatozoa

The effect of a prolonged holding time (HT) during cooling on plasma membrane integrity (PMI), motility and in vitro oocyte penetration ability of boar spermatozoa frozen-thawed in different types of package was investigated. Boar semen was frozen in a split-sample design using 3 different HTs (3, 10 and 20 h) during cooling and three different types of freezing package: Maxi-straws, Medium-straws and FlatPacks. Assessment of PMI (SYBR-14 and propidium iodide, fluorescence microscopy) and sperm motility (visually and with CASA) was done during cooling (at 32 degrees C, 15 degrees C, 5 degrees C) and post-thaw (PT). The in vitro oocyte penetration ability of the spermatozoa was tested only PT, using a homologous in vitro penetration assay (hIVP). During cooling the HTs used had no significant (p<0.05) effect on either PMI or percentage of motile spermatozoa Post-thaw PMI was significantly higher (p<0.05) for 10 h and 20 h HT compared with 3 h, and the percentage of motile spermatozoa decreased significantly with 20 h HT as opposed to 3 h and 10 h. Regarding the freezing packages, the FlatPacks and Maxi-straws yielded significantly more PMI than did the Medium-straws (p<0.05). Post-thaw motility was significantly higher for FlatPacks than for straws, in terms of both percentage motile spermatozoa, and sperm velocity and lateral head displacement (LHD). The hIVP did not show any significant differences among the HTs, although FlatPacks yielded a significantly higher penetration rate and more spermatozoa per penetrated oocyte (p<0.05) than did the straws. Changes in motility patterns, toward a more circular motility during cooling and PT, could be noticed where individual spermatozoa showed a capacitation-like motility pattern. The changes were more obvious with 10-h and 20-h HTs than with 3-h HT.     

Effect of cryopreservation methods and precryopreservation storage on bottlenose dolphin (Tursiops truncatus) spermatozoa

Research was conducted to develop an effective method for cryopreserving bottlenose dolphin (Tursiops truncatus) semen processed immediately after collection or after 24-h liquid storage. In each of two experiments, four ejaculates were collected from three males. In experiment 1, three cryopreservation methods (CM1, CM2, and CM3), two straw sizes (0.25 and 0.5 ml), and three thawing rates (slow, medium, and fast) were evaluated. Evaluations were conducted at collection, prefreeze, and 0-, 3-, and 6-h postthaw. A sperm motility index (SMI; total motility [TM] x % progressive motility [PPM] x kinetic rating [KR, scale of 0-5]) was calculated and expressed as a percentage MI of the initial ejaculate. For all ejaculates, initial TM and PPM were greater than 85%, and KR was five. At 0-h postthaw, differences in SMI among cryopreservation methods and thaw rates were observed (P < 0.05), but no effect of straw size was observed. In experiment 2, ejaculates were divided into four aliquots for dilution (1:1) and storage at 4 degrees C with a skim milk- glucose or a N-tris(hydroxymethyl)methyl-2-aminoethane sulfonic acid (TES)-TRIS egg yolk solution and at 21 degrees C with a Hepes-Tyrode balanced salt solution (containing bovine albumin and HEPES) (TALP) medium or no dilution. After 24 h, samples were frozen and thawed (CM3, 0.5-ml straws, fast thawing rate) at 20 x 10(6) spermatozoa ml(-1) (low concentration) or at 100 x 10(6) spermatozoa ml(-1) (standard concentration). The SMI at 0-h postthaw was higher for samples stored at 4 degrees C than for samples stored at 21 degrees C (P < 0.001), and at 6-h postthaw, the SMI was higher for samples frozen at the standard concentration than for samples frozen at the low concentration (P < 0.05). For both experiments, acrosome integrity was similar across treatments. In summary, a semen cryopreservation protocol applied to fresh or liquid-stored semen maintained high levels of initial ejaculate sperm characteristics.     

Effects of seminal vesicle fluid components on sperm motility in the house mouse

Fluid obtained by stripping dissected seminal vesicles was mixed with phosphate-buffered saline and the soluble proteins were separated by gel filtration on BioRad P150 into 4 fractions. Fractions were collected and concentrated using an Amicon ultrafiltration system using YM2 membranes with a molecular weight cut-off of 1000. Epididymal sperm suspensions were incubated in medium containing one of the 4 fractions or 1 mg BSA/ml, or no added protein. After incubation for 2 h the motility of the spermatozoa in each suspension was assessed by a videomicrographic procedure. Two aspects of motility, velocity and the shape of the swimming path, were monitored. The results indicate that the seminal vesicles produce at least three factors that influence sperm motility. Fraction 3 (Mr 12,000-24,000) was detrimental to motility; after incubation for 2 h almost all the spermatozoa were immotile. Fractions 2 (Mr 25,000-40,000) and 4 (Mr 7000-12,000) both influenced the shape of the swimming path: spermatozoa incubated in Fraction 2 had straighter trajectories while those incubated in Fraction 4 showed more progressive paths with less side-to-side movement of the head about the path. These effects of factors from the seminal vesicle fluid on sperm motility may influence the way in which the spermatozoa move in the female reproductive tract and could help to explain why removal of the seminal vesicles reduces fertility in the mouse.