Cryopreservation of seabream (Sparus aurata) spermatozoa

The aim of this research was to optimize protocols for freezing spermatozoa of seabream (Sparus aurata). All the phases of the cryopreservation procedure (sampling, choosing the cryoprotective extender, cooling, freezing, and thawing) were studied in relation to the species of spermatozoa under examination, so as to be able to restore on thawing the morphological and physiological characteristics of fresh semen. Seabream spermatozoa were collected by stripping and transported to the laboratory chilled (0-2 degrees C). Five cryoprotectants, dimethyl sulfoxide (Me(2)SO), ethylene glycol (EG), 1,2-propylene glycol (PG), glycerol, and methanol, were tested at concentrations between 5 and 15% by volume to evaluate their effect on the motility of semen exposed for up to 30 min at 26 degrees C. The less toxic cryoprotectants, 10% EG, 10% PG, and 5% Me(2)SO, respectively, were added to 1% NaCl to formulate the extenders for freezing. The semen was diluted 1:6 with the extender, inserted into 0.25-ml plastic straws by Pasteur pipette, and frozen using a cooling rate of either 10 or 15 degrees C/min to -150 degrees C followed by transfer and storage in liquid nitrogen (-196 degrees C). The straws were thawed at 15 degrees C/s. On thawing, the best motility was obtained with 5% Me(2)SO, although both 10% PG and EG showed good results; no differences were found between the two freezing gradients, although semen frozen with the 10 degrees C/min gradient showed a slightly higher and more prolonged motility.     

Comparison between glycerol and ethylene glycol for dog semen cryopreservation

The aim of this study was to compare the effect of ethylene glycol versus glycerol for dog semen freezing, on post-thaw longevity, motility and motility parameters, and on plasma membrane functional integrity. Semen was diluted in two steps with an egg yolk TRIS extender containing a final concentration of either 5% glycerol or 5% ethylene glycol, and frozen in 0.5 ml straws, with 100 x 10(6) spermatozoa/ml, over nitrogen vapours. Semen motility was evaluated both under a light microscope and with a Computer Assisted Motility Analyser System, immediately after thawing and then hourly till 4h of incubation. Sperm membrane functional integrity was assessed with the hypoosmotic swelling test (60 mOsm fructose solution) applied at thawing and then hourly, for 4 h, on incubated samples. Motility (light microscope) and total and progressive motility (analyser) were significantly higher in ethylene glycol frozen samples at thawing (P < 0.01); from hour 1 onwards the effect of the cryoprotectant became not significant. Semen frozen with ethylene glycol showed higher path velocity and higher straight line velocity till 3 h after thawing; however, ethylene glycol semen samples also showed higher curvilinear velocity and higher lateral head displacement, which may indicate a capacitation-like condition affecting sperm membranes and possibly reducing post-thaw longevity. Functional integrity of plasma membrane was similar in glycerol and ethylene glycol samples till 3 h after thawing, then ethylene glycol samples showed a higher decline. The strong though short-lived positive effect of ethylene glycol is worth being evaluated further.     

Comparing ethylene glycol with glycerol for cryopreservation of buffalo bull semen in egg-yolk containing extenders

The objective of this work was to evaluate the possibility of substituting glycerol for ethylene glycol when cryopreserving buffalo semen. Semen of eight buffalo bulls was mixed, pooled, and frozen in one of these four diluents: centrifuged Tris egg yolk glycerol; centrifuged Tris egg yolk ethylene glycol; centrifuged Milk egg yolk glycerol; or centrifuged Milk egg yolk ethylene glycol. Semen quality parameters assessed after thawing were motility, survivability, livability, sperm abnormality, acrosome integrity, and plasma membrane integrity. Conception rate and pregnancy rate were calculated after insemination of 104 buffaloes by straws of different groups (26 female/extender). Improvement in livability, sperm abnormality, acrosome integrity, plasma membrane integrity, conception rate, and pregnancy rate were seen when using ethylene glycol to replace glycerol when freezing buffalo bull semen in centrifuged TRIS egg yolk 61.15 ± 0.73, 24.85 ± 0.41, 69.10 ± 0.81, 71.75 ± 0.72, 46.2%, and 46.2%, respectively, followed by centrifuged milk egg yolk extenders.     

Optimal concentrations of cryoprotective agents for semen from stallions that are classified 'good' or 'poor' for freezing

Cryopreserved stallion sperm displays a high degree of male-to-male variability with respect to cell viability after thawing. Animals that have semen with low viability after cryopreservation are classified as 'poor' freezers, and when post-thaw viability is high they are designated as 'good' freezers. Cryoprotective agents that are used for cryopreserving stallion sperm include glycerol, ethylene glycol, methyl formamide, and dimethylformamide, and are typically used in concentrations ranging from 1% to 4%. The aim of this study was to evaluate the osmotic stresses that stallion sperm is exposed to during cryopreservation, and to determine if sperm from 'good' and 'poor' freezers show differences in osmotic tolerance limits and in the suitability of cryoprotective agents. Concentrations of 2-3% of the above mentioned cryoprotectants with freezing extender osmolalities ranging from 580 to 895 mOsm kg(-1) showed the highest motility rates after freeze-thaw, both for 'good' and 'poor' freezers, for all cryoprotectants tested with slightly higher values for glycerol. Freeze-thawed semen from 'poor' freezers was found to have a lower percentage of progressively motile sperm compared to that of 'good' freezers. Assessment of plasma and acrosomal membrane integrity after return to isosmotic conditions revealed that cryopreserved sperm from 'poor' freezers showed lower osmotic tolerance limits as compared to sperm from 'good' freezers. Semen from 'poor' freezers that was frozen using freezing extenders supplemented with more then 2% cryoprotectant showed decreased viability and increased acrosome reaction upon return to isoosmotic conditions, whereas 'good' freezers could withstand cryoprotectant concentrations up to 3% before a decline in viability was observed.     

Comparing ethylene glycol with glycerol for cryopreservation of canine semen in egg-yolk TRIS extenders

The objective of this work was to evaluate the possibility of substituting glycerol (G) for ethylene glycol (EG) when cryopreserving dog semen. A total of 15 ejaculates from 13 dogs was pooled into five samples and frozen in egg-yolk Tris extenders with variable ethylene glycol and glycerol concentrations, with or without Equex STM Paste. Two widely used glycerol extenders (Uppsala Equex II and Norwegian) were utilized as controls. Semen quality parameters assessed after thawing were total subjective motility (TSM), computer assisted sperm analysis (CASA), eosin-nigrosin staining, and flow cytometry (FC) after staining with the PI/Fitc-PSA (fluorescein isotiocianate conjugated with the agglutinin of Pisum sativum, PSA) fluorochromes. No advantages were seen in using EG to replace G when freezing dog semen or combining EG and G in the freezing medium. The Uppsala Equex II provided the best overall post-thaw parameters, followed by the egg-yolk Tris experimental extender with 5% EG and Equex STM Paste. The extender with 4% EG produced similar results to the Norwegian extender. High correlations (r>0.98) were obtained between eosin-nigrosin staining and FC, as well as between subjective and computerized motility assessment (r>0.90).     

In vitro evaluation of ram sperm frozen with glycerol, ethylene glycol or acetamide

The aim was to assess the in vitro effect of glycerol, ethylene glycol or acetamide on frozen-thawed ram spermatozoa. Aliquots of each sixteen ejaculates from four rams of the Morada Nova breed were diluted in Tris-egg yolk with glycerol (5%), ethylene glycol (3% or 5%) or acetamide (3% or 5%) and frozen at -196°C. After thawing, progressive sperm motility was greater (P<0.05) in cryopreservation with glycerol 5% and ethylene glycol (3% or 5%) than with acetamide (3% or 5%). Acrosome integrity was greater (P<0.05) with ethylene glycol 5% than acetamide (3% or 5%). The percentage of sperm without oxidative stress was greater (P<0.05) with ethylene glycol (3% or 5%) than with acetamide (3% or 5%). Plasma membrane integrity was greater with glycerol 5% (P<0.05) than with the other cryoprotectants. Thus, it is concluded that glycerol 5% and ethylene glycol 3% or 5% protect ram sperm against the harmful effects of freezing and that glycerol 5% offers greater protection to sperm plasma membrane.     

Comparison among different cryoprotectants for cryopreservation of epididymal sperm from agouti (Dasyprocta leporina)

We verify the effects of different cryoprotectants on the cryopreservation of agouti (Dasyprocta leporina) epididymal sperm. We used 16 pairs of testes–epididymis complexes of sexually mature animals. We immediately evaluated epididymal sperm obtained by retrograde flushing for concentration, motility, vigor, viability, osmotic response, and morphology. Samples were extended in a coconut water extender plus 20% egg yolk, containing glycerol, ethylene glycol, dimethylsulfoxide – DMSO, or dimethylformamide. Finally, samples were stored in 0.25 mL straws, frozen in liquid nitrogen, and thawed after one week, being reevaluated and assessed for membrane integrity using fluorescent probes. The higher values for postthawing sperm motility, vigor, and membrane integrity were achieved by the usage of glycerol, when compared to ethylene glycol and dimethylformamide (P < 0.05); however, no differences were found between glycerol and DMSO (P > 0.05). All cryoprotectants provided a similar effect on the preservation of sperm morphology, osmotic response, and viability (P > 0.05). Therefore, here onwards, there was testing of glycerol and DMSO at 3 and 6% concentrations using the same freezing–thawing protocol reported previously. As the main result, DMSO at 6% concentration provided a decrease in sperm parameters, as well as in the chromatin integrity and in the binding capability of sperm. In conclusion, glycerol 3 or 6% and DMSO 3% can be used as alternative cryoprotectants for agouti epididymal sperm cryopreservation.     

Improved cryopreservability of stallion sperm using a sorbitol-based freezing extender

Cryopreservation of stallion semen is often associated with poor post-thaw sperm quality. Sugars are among the important components of a freezing extender and act as non-permeating cryoprotectants. This study aimed to compare the quality of stallion sperm frozen with glucose, fructose or sorbitol-containing freezing extenders. Semen was collected from six stallions of proven fertility and cryopreserved using a freezing extender containing different types of monosaccharide sugars (glucose, fructose or sorbitol). After thawing, the semen was examined for sperm motility, viability, acrosome integrity, plasma membrane functionality and sperm longevity. The fertility of semen frozen in the presence of sorbitol was also tested by artificial insemination. Sperm quality was significantly decreased following freezing and thawing (P < 0.05). Fructose was inferior for protecting sperm during cryopreservation when compared to sorbitol and glucose (P < 0.05). Although the viability, motility and acrosome integrity of sperm cryopreserved with a glucose-containing extender did not significantly differ from sperm frozen in the sorbitol-based extender when examined at 2 and 4 h post-thaw, all of these parameters plus plasma membrane functionality were improved for sperm frozen in the sorbitol extender than in the glucose extender when examined 10 min post-thaw. Two of four mares (50%) inseminated with semen frozen with a sorbitol-containing freezing extender became pregnant. It is concluded that different sugars have different abilities to protect against cryoinjury during freezing and thawing of stallion sperm. This study demonstrated that an extender containing sorbitol as primary sugar can be used to successfully cryopreserve equine sperm; moreover, the quality of frozen-thawed sperm appeared to be better than when glucose or fructose was the principle sugar in the freezing extender.     

A new pellet technique for cryopreserving ram and bull spermatozoa using the cold surface of cattle fat

A technique for freezing ram and bull spermatozoa in pellet form, using the cold surface of cattle fat was compared to other freezing procedures. Three freezing methods were compared to cryopreserve ram spermatozoa: 0.25 ml straws, pellets frozen on the cold surface of paraffin wax and pellets frozen on the cold surface of cattle fat. In addition, two cryoprotectants, glycerol or sucrose, in an egg yolk-Tris diluent were compared. Ram spermatozoa frozen as pellets on cattle fat exhibited higher percentages of motile cells after thawing (54%) than spermatozoa frozen in straws (49%) or as pellets on paraffin wax (42%, S.E.M. = 1; P < 0.05). However, the percentages of acrosome intact cells were similar for spermatozoa frozen as pellets (49%) and spermatozoa frozen in straws (48%; P > 0.05), but higher than for spermatozoa frozen as pellets on paraffin wax (39%, S.E.M. = 1; P > 0.05). Ram spermatozoa exhibited higher percentages of motile cells after thawing when the cryoprotectant was sucrose (51%) compared to glycerol (46%; P < 0.05). Similarly, acrosomal integrity was greater with sucrose (49%) than with glycerol (42%; P < 0.05). Bull spermatozoa exhibited higher percentages of motile cells after thawing, when cells were frozen in straws (47%) than in the pellet form, regardless of the surface on which the pellets were frozen (31-37%, S.E.M. = 3; P < 0.05). However, bull spermatozoa exhibited higher percentages of motile cells when frozen as pellets on the surface of cattle fat (66%) or dry ice (61%), than when frozen on paraffin wax (53%, S.E.M. = 4; P < 0.05). In conclusion, although bull spermatozoa survive cryopreservation more effectively in straws, ram spermatozoa can be cryopreserved as pellets on the cold surface of cattle fat using sucrose as the cryoprotectant. This technique is simple, requires little equipment, is less expensive than using straws and may prove useful for cryopreserving ram and possibly bull spermatozoa in developing countries.     

Semen cryopreservation of small abalone (Haliotis diversicolor supertexa)

Methods for cryopreserving spermatozoa and maximizing fertilization rate in Taiwan small abalone, Haliotis diversicolor supertexa, were developed. The gametes (spermatozoa and eggs) of small abalone were viable 3 h post-spawning, with fertilization, and development rate decreasing with time. A minimum of 10(2) cell/ml sperm concentration and a contact time of 2 min between gametes is recommended for artificial insemination of small abalone eggs. Eight cryoprotectants, dimethyl sulfoxide (DMSO), dimethyl acetamide (DMA), ethylene glycol (EG), propylene glycol (PG), butylene glycol (BG), polyethylene glycol, glycerol and methanol, were tested at concentrations between 5 and 25% to evaluate their effect on motility of spermatozoa exposed to cryoprotectant for up to 60 min at 25 degrees C before freezing. The least toxic cryoprotectant, 10% DMSO, was added to artificial seawater (ASW) to formulate the extender for freezing. Semen was diluted 1:1 with the extender, inserted into 1.5 ml microtubes and frozen using a cooling rate between -3.5 and -20 degrees C/min to various transition temperatures (0, -30, -60, -90 and -120 degrees C), followed by transfer and storage in liquid nitrogen (-196 degrees C). The microtubes were thawed from +45 to +145 degrees C/min. Spermatozoa, cooled to -90 degrees C at a cooling rate of -12 or -15 degrees C/min and then immersed in liquid nitrogen, had the best post-thaw motility. Post-thaw sperm motility was markedly reduced compared to fresh sperm. More frozen-thawed spermatozoa are required to achieve fertilization rates comparable to those achieved using fresh spermatozoa.     

Successful fertilization of Varicorhinus macrolepis eggs with sperm subjected to two freeze-thaw cycles

Although sperm from several fish species have been successfully cryopreserved, few studies have been done in small and/or endangered species. The aim of the present work was to develop a method of freezing and refreezing Varicorhinus macrolepis semen in 1.8 mL cryovials. The effect of extenders and cryoprotectants on the motility of post-thaw sperm was examined. The motility of frozen-thawed sperm in extender D-15 was higher than that in MPRS and fish Ringer solution (P<0.05). Dimethyl sulfoxide (DMSO) and glycerol provided greater protection to sperm than methanol during freezing and thawing; the most effective concentration of DMSO and glycerol was 10%. The fertilization rate of frozen-thawed sperm was not significantly different from that of fresh sperm. Furthermore, mean (+/-S.D.) hatching rate did not differ significantly between frozen-thawed (82.7+/-12.4%) and fresh sperm (90.7+/-4.5%). Although frozen-thawed sperm that was immediately refrozen had 0% post-thaw motility, frozen semen that was refrozen after dilution with D-15 (containing DMSO at a ratio of 1:2) had post-thaw motility of 38.3+/-2.9%. Motility was lower for refrozen than for frozen sperm (P<0.05). Furthermore, fertilization and hatching rates of refrozen sperm were 42.9+/-6.7 and 34.1+/-10.5%, respectively, which were lower than that of fresh sperm (P<0.05).     

Duck egg yolk in extender improves the freezability of buffalo bull spermatozoa

We investigated the use of duck egg yolk (DEY), Guinea fowl egg yolk (GFEY) and Indian indigenous hen (Desi) egg yolk (IDEY) in extender for improving the post-thaw quality of buffalo (Bubalus bubalis) bull spermatozoa, and compared it with commercial hen egg yolk (CHEY; control). For this purpose, two consecutive ejaculates of semen from each of two Nili-Ravi buffalo bulls were collected on 1 day each week for 5 weeks (replicates; n=5) with artificial vagina (42 degrees C). Split pooled ejaculates, were diluted in tris-citric acid glycerol extender containing either DEY or GFEY or IDEY or CHEY at 37 degrees C. Extended semen was cooled to 4 degrees C in 2 h and equilibrated for 4 h at 4 degrees C. Cooled semen was then filled in 0.5 ml straws at 4 degrees C and frozen in programmable cell freezer. Thawing of semen was performed at 37 degrees C for 30 s. Sperm motility, plasma membrane integrity and sperm morphology (acrosome integrity, head, mid-piece and tail abnormalities) of each semen sample were assessed at 0, 3 and 6 h after thawing and incubation at 37 degrees C. Visual motility (%) and percentage of intact plasma membranes assessed at 6h post-thaw of buffalo bull spermatozoa were highest (P<0.05) due to DEY as compared to GFEY, IDEY and control. The percentage of spermatozoa with normal acrosomes at 0, 3 and 6 h post-thaw was highest (P<0.05) in DEY extender than GFEY, IDEY and CHEY. Sperm tail abnormalities (%) observed at 0, 3 and 6 h post-thaw in samples cryopreserved with freezing extender having DEY were lower (P<0.05) as compared to extender containing GFEY, IDEY and CHEY. In conclusion, DEY compared to other avian yolks in extender improves the frozen-thawed quality of buffalo bull spermatozoa.     

Post-thaw plasma membrane integrity of bull spermatozoa separated with a Sephadex ion-exchange column

Previous experiments have established that filtration of bovine semen through a Sephadex ion-exchange column improves its quality before and after freezing. The present study was conducted to determine the post-thaw membrane integrity of bull spermatozoa separated with a Sephadex ion-exchange column and to determine the kind of protection to spermatozoa is provided by glycerol during freezing and thawing. Semen from Holstein bulls diluted in TEST-yolk extender (with and without glycerol) was filtered through a Sephadex ion-exchange column and frozen in liquid nitrogen (-196 degrees C). After thawing, there were more normal acrosomes in filtered spermatozoa than nonfiltered (P < 0.01). Post-thaw plasma membrane integrity and swelling ability in a hypoosmotic solution revealed that the filtered spermatozoa had a stronger (P < 0.005) plasma membranes than the nonfiltered. Filtered spermatozoa demonstrated higher zona-free hamster oocyte penetration than the nonfiltered (30.5 vs 11.5%; P < 0.0005). Spermatozoa extended in TEST-yolk without glycerol had the lowest (P < 0.001) normal acrosomes, intact plasma membranes and swelling ability. Plasma membrane over the post-acrosomal region of the head and post-midpiece region of the tail was more sensitive to damages caused by freezing and thawing than acrosomal and midpiece regions of spermatozoa. Glycerol in the extender provided significant (P < 0.05) protection to the sensitive regions of filtered and nonfiltered spermatozoa during freezing and thawing. Filtered plus glycerolated spermatozoa had the highest (P < 0.01) normal acrosomes, intact plasma membranes and swelling ability. In conclusion, the pre-freezing filtration of bovine semen harvested the spermatozoa possessing stronger plasma membranes which enabled them to endure freezing and thawing stresses. The addition of glycerol to the extender protected the post-acrosomal region of the head and post-midpiece region of the tail of spermatozoa from freezing and thawing shocks.     

Effect of initial freezing temperature, addition of glycerol and dilution on the survival and fertilizing ability of deep-frozen ram semen.

The influence oftemperature, addition of glycerol, initial freezing temperature, method of dilution, level of glycerol in the diluted semen, equilibration time and type of diluent on the survival and fertilizing capacity of deep-frozen according to the best conditions was compared with that of "fresh" semen. The addition of glycerol at plus30 degrees C resulted in a highly significant decrease in the mean proportion of motile spermatozoa immediately after thawing compared with the effect of addition at plus 4 degrees C. The immersion of the straws at minus55 degrees C significantly reduced the revival of the spermatozoa compared with initial freezing at lower temperatures. The exposure time to glycerol had no significant effect on the survival of spermatozoa after thawing and incubation, but fertility was significantly higher with 4% than with 2% glycerol. The I. N. R. A. diluent provided better sperm survival and a significantly higher conception rate than did lactose-egg yolk extender. The semen frozen according to the best conditions (about 50% of the samples) had a fertilizing ability similar to that of "fresh" semen when the proportion of motile spermatozoa before, and after 1 or 3 hr of incubation was equal to or above 45, 40 and 30% respectively.     

Effect of basic factors of extender composition on post-thawing quality of brown bear electroejaculated spermatozoa

The improvement of freezing extenders is critical when defining sperm cryopreservation protocols for wild species, in order to create germplasm banks. The aim of this study was to evaluate the effect of additives (Equex Paste and EDTA) supplementation, egg-yolk (10 and 20%) and glycerol (4 and 8%) concentrations and extender osmolality (300 and 320 mOsm/kg) on the post-thawing quality of brown bear semen. Semen was obtained from 20 adult males by electroejaculation, and centrifugated individually (600 × g for 6 min). The pellets were diluted 1:1 in the corresponding extender TTF (TES-Tris-Fructose with the aforementioned variants) and cooled to 5 °C. Then, it was diluted down to 100 × 10⁶ spz/mL, loaded in 0.25 mL straws and frozen at −20°C/min. After thawing (in water at 65 °C for 6s), the semen samples were assessed for motility (CASA), viability (SYBR-14 with propidium iodide), acrosomal status (PNA-FITC with propidium iodide) and mitochondrial activity (JC-1). Extender supplementation with additives rendered significantly higher results for these sperm parameters. Comparing the two percentages of egg yolk, 20% egg yolk showed the highest motility results, percentages of viable spermatozoa and viable spermatozoa with intact acrosome. No differences were detected among samples frozen using 4 or 8% glycerol. For extender osmolality, 300 mOsm/kg showed higher values of VAP, VCL, VSL, and ALH than 320 mOsm/kg. Based on the best performance of sperm motility, viability and acrosome status, we conclude that the most suitable extender to cryopreserve brown bear spermatozoa was TTF adjusted to 300 mOsm/kg, supplemented with 20% egg yolk, 4-8% glycerol, and the additives 1% Equex paste and 2% EDTA.     

Effect of butylated hydroxytoluene on bull spermatozoa frozen in egg yolk-citrate extender

Effect of butylated hydroxytoluene (BHT) on the quality of frozen-thawed Holstein bull sperm in egg yolk-citrate extender was evaluated. High quality semen samples were diluted in egg yolk-citrate extenders containing 0, 0.5, 1, 2 and 4 mM BHT and subsequently frozen in liquid nitrogen. Pre-freeze and post-thaw progressive motility, and live/dead ratio and acrosomal integrity of 200 sperm per slide, stained with Eosin-Nigrosin and Giemsa, were evaluated at 0, 2 and 4 h after thawing. There was a significant decrease in forward motility, livability and acrosomal integrity up to 4 h after thawing the frozen sperm. Upon thawing, sperm progressive motility at 1 mM BHT was significantly (P<0.001) higher (11%) than other groups, but percentages of live sperm and live sperm with intact acrosomes were higher at 0.5 mM BHT. BHT at 4 mM BHT caused a significant decrease in motility, livability and acrosomal integrity during preparatory stages of freezing sperm. It is concluded that 0.5-1.0 mM BHT can be beneficial for freezing Holstein bull spermatozoa in egg yolk-citrate diluent, when inseminated immediately after thawing.     

Effects of the supplementation of trehalose extender containing egg yolk with sodium dodecyl sulfate on the freezability of goat spermatozoa

Two experiments were conducted to determine the effect of sodium dodecyl sulfate (SDS) added to a trehalose-egg yolk extender on the cryopreservation of goat spermatozoa. In Experiment 1, semen from four goats was frozen in trehalose extender (osmolality = 370, pH = 7) containing 4 and 20% (v/v) glycerol and egg yolk, respectively, and 0.035-0.2% SDS. After thawing, sperm motility and acrosome integrity were assessed using a computer-assisted sperm analysis (CASA) system and fluorescein isothiocyanate-conjugated peanut agglutinin (FITC-PNA). Both motility and progressive motility were improved (P < 0.05) by increasing the concentration of SDS in the trehalose-egg yolk extender, with the best results obtained with SDS at 0.1% (80.0 +/- 1.5% and 65.0 +/- 1.7%, respectively). There were no significant differences in path velocity when spermatozoa were frozen in a diluent containing 0.035, 0.05, 0.075, or 0.1% SDS, but path velocity decreased significantly with 0.2% SDS. The percentage of acrosome-intact sperm were highest (P < 0.05) when 0.05% (74.0 +/- 1.1) and 0.075% (70.0 +/- 1.2) SDS were used. In Experiment 2, the effect of diluent storage time (6, 24, or 48 h) before freezing on the cryoprotective effect of SDS was investigated. Prolonged storage of the diluent had slight cryoprotective effects when 0.2% SDS is used, while motility and the acrosome integrity of the cryopreserved spermatozoa improved slightly when the extender was stored for 48 h at 5 degrees C before use. In conclusion, goat sperm freezability was significantly improved when sperm were frozen in a trehalose-egg yolk extender containing an adequate concentration of SDS.     

Quality control of refrigerated and cryopreserved semen using computer-assisted sperm analysis (CASA), viable staining and standardized fertilization in African catfish (Clarias gariepinus)

A new integrated approach including computer-assisted sperm analysis (CASA), viability staining and fertilization was used to study the quality of cryodiluents used in fish sperm cryopreservation. As an example the sperm quality of an African catfish, Clarias gariepinus (Burchell, 1822), was assessed by its fertilizing ability, motility and viability at day 0 (fresh), after 2 days' storage at 4 degreesC and after 2 days, 5 months and 10 months frozen at -196 degreesC using solutions containing dimethyl sulphoxide (DMSO) or glycerol as permeating cryoprotectants. Four of the best freezing solutions were used, namely, Steyn's extender (S1, S4) and Mounib's extender (M3, M4) associating 10% hen's egg yolk. Progressive sperm movement measured by CASA and expressed by the straight line velocity (VSL), the average path velocity (VAP) and the curvilinear velocity (VCL) was highly correlated with hatching rates obtained from fertilization using minimal sperm:egg ratios. After 2 days, the motility of spermatozoa frozen with DMSO and 10% egg yolk had deteriorated less than that of spermatozoa stored at 4 degreesC. Post-thaw hatching rates reflected the post-thaw sperm viability, which was cryodiluent dependent: 14.9+/-2.0% (S4), 17.0+/-4.2% (S1), 25.9+/-3.7% (M4) and 52.1+/-3.4% (M3) after 5 months of cryopreservation. The percent motility of 10-months-frozen spermatozoa was high in M3 (70.7+/-11.4%) and M4 (64.0+/-2.0%) cryoprotected sperm when measured between 5 and 20 sec after activation, but decreased rapidly to 24.3+/-8.3% (M3) and 23.0+/-9.0% (M4) between 21 and 35 sec after activation. Mounib's extender (M3, M4) provided the best cryoprotection to the spermatozoa for all post-thaw sperm quality measurements and at all freezing durations. Sperm motility was positively related to fertility. Our method will make it possible to develop even better extenders and cryoprotectants.     

Effects of centrifugation, glycerol level, cooling to 5 degrees C, freezing rate and thawing rate on the post-thaw motility of equine sperm

Five experiments evaluated the effects of processing, freezing and thawing techniques on post-thaw motility of equine sperm. Post-thaw motility was similar for sperm frozen using two cooling rates. Inclusion of 4% glycerol extender was superior to 2 or 6%. Thawing in 75 degrees C water for 7 sec was superior to thawing in 37 degrees C water for 30 sec. The best procedure for concentrating sperm, based on sperm motility, was diluting semen to 50 x 10(6) sperm/ml with a citrate-based centrifugation medium at 20 degrees C and centrifuging at 400 x g for 15 min. There was no difference in sperm motility between semen cooled slowly in extender with or without glycerol to 5 degrees C prior to freezing to -120 degrees C and semen cooled continuously from 20 degrees C to -120 degrees C. From these experiments, a new procedure for processing, freezing and thawing semen evolved. The new procedure involved dilution of semen to 50 x 10(6) sperm/ml in centrifugation medium and centrifugation at 400 x g for 15 min, resuspension of sperm in lactose-EDTA-egg yolk extender containing 4% glycerol, packaging in 0.5-ml polyvinyl chloride straws, freezing at 10 degrees C/min from 20 degrees C to -15 degrees C and 25 degrees C/min from -15 degrees C to -120 degrees C, storage at -196 degrees C, and thawing at 75 degrees C for 7 sec. Post-thaw motility of sperm averaged 34% for the new method as compared to 22% for the old method (P<0.01).     

Comparisons between three different extenders for canine intrauterine insemination with frozen-thawed spermatozoa

Ejaculates from 7 dogs were obtained on the same day and were pooled. This pooled semen was separated into 3 equal fractions and processed simultaneously, the only difference being in the extender used for freezing. The extenders were laiciphos (containing laiciphos, egg yolk, distilled water and glycerol- Group 1); Tes/Tris (containing Tes/Tris, egg yolk, distilled water and glycerol- Group 2); and biociphos (containing biociphos with glycerol in it, egg yolk and distilled water- Group 3). Spermatozoa were conditioned in 0.5ml French straws and presented normal characteristics before freezing and after thawing. The sperm concentration of the pooled was 683 x 10(6) sperm/ml; sperm motility was above 95%, the percentage of live spermatozoa was above 95% and was of good quality and mobility. Characteristics of the spermatozoa after thawing were the same for spermatozoa frozen with laiciphos and Tes/Tris. Mean sperm concentration was 201.5 +/- 4.95 x 10(6) sperm/ml, sperm motility was 65%, the percentage of live spermatozoa was 80% and the quality of motility.was good. Spermtozoa frozen with biociphos had the following post-thaw characteristics: sperm concentration was 201 x 10(6) sperm/ml, sperm motility was 50%, the percentage of live spermatozoa was 78% and the quality of mobility was medium. Abnormalities were less than 15% for all spermatozoa after thawing. Intrauterine artificial inseminations were performed by laparoscopic intrauterine insemination twice at Days 3 and 5 after the estimated LH peak in 15 normally cyclic Beagle bitches (5 per group) presenting normal hormonal profiles. There were no differences between groups. The females were inseminated with 1.0 ml of spermoatozoa (concentration of 200 x 10(6) sperm/ml) diluted with 1.0 ml of extender. A 60% pregnancy rate was obtained in bitches inseminated with frozen-thawed spermatozoa extended with laiciphos or Tes/Tris and 100% in bitches inseminated with spermatozoa extended with biociphos. Females inseminated with laiciphos, Tes/Tris and biociphos had a mean litter size of 5 +/- 2.6, 3 +/- 1 and 3.4 +/- 1.3 pups, respectively. This study demonstrated that post-thaw assessment of sperm characteristics is not the best technique for evaluating sperm fertility after freezing or for assessing different semen extenders.