Effect of different glycerol concentrations on phosphatidylserine translocation and mitochondrial membrane potential in chilled boar spermatozoa

Boar spermatozoa are extremely sensitive to low temperatures and the cryopreservation causes dramatic changes in sperm survivability, but it is not clear which part of the cryopreservation process affects the most. The aim of this work was to assess early events of apoptotic changes as damage indicators in boar sperm cooled to 5 °C and exposed to different glycerol (GLY) concentrations. For this purpose, progressive sperm motility (CASA), plasmatic and acrosome membranes integrity (CFDA/PI; phase contrast), plasma membrane functionality (HOS), phosphatidylserine translocation (Annexin-V/FITC) and reduction of mitochondrial membrane potential (Ψm) (JC-10) were carried out at 37 °C, 17 °C and 5 °C in eight boar sperm pools. Afterwards, three aliquots were diluted in different freezing extenders (control: 0% GLY; A: 2% GLY and B: 3% GLY); sperm quality and early apoptotic changes were assessed. Motility was negatively affected during cooling to 5 °C. Furthermore, plasma membrane functionality was the most affected by cooling. The number of necrotic cells was higher at 5 °C. However, no differences were observed in phosphatidylserine translocation. The extender with 3% GLY at 5 °C presented better Ψm than 0 and 2% GLY. Based on this analysis, boar sperm cooling to 5 °C does not modify the rate of early apoptotic changes, although alterations in the Ѱm were evident.     

Vitrification of dog spermatozoa: Effects of two cryoprotectants (sucrose or trehalose) and two warming procedures

Sperm vitrification is a low cost and simple technique that does not require special equipment and may represent an attractive alternative to the costly and time consuming conventional dog spermatozoa cryopreservation techniques. The objective of this study was to evaluate different cryoprotectants and warming temperatures on the vitrification of dog spermatozoa. Pooled semen samples from 10 beagle dogs were vitrified with four extenders, based on Tris, citric acid and glucose, 20% egg yolk (TCG-20% EY) and different combinations of sucrose and/or trehalose: 250 mM sucrose; 250 mM trehalose; 125 mM sucrose + 125 mM trehalose; 250 mM sucrose + 250 mM trehalose. Samples were vitrified by dropping 50 μL of sperm suspension directly into liquid nitrogen. After vitrification, warming was done either fast (at 65 °C for 2–5 s) or slow (at 37 °C for one minute). Motility was assayed using a computer-aided sperm analysis (CASA) system; membrane integrity and acrosomal status were analyzed by fluorescence microscopy. For comparison, samples were also conventionally frozen in liquid nitrogen vapor using a TCG-20% egg yolk extender plus 5% glycerol. Frozen straws were thawed in a water bath at 37 °C for 30 s. Poorer motility results (P < 0.05) but similar viability were obtained when vitrification was performed, compared to conventional freezing (P > 0.05). When vitrification was used, cryoprotectants containing either 250 mM sucrose or 250 mM trehalose and warmed at 37 °C returned the best sperm quality variables.     

Effect of two cooling protocols on the post-thaw characteristics of Iberian ibex sperms

The rate at which lethal intracellular ice forms during sperm cryopreservation is highly dependent on the cooling protocol. The present work compares two cooling protocols for use with Iberian ibex (Capra pyrenaica) sperm by assessing the effects on the motility, viability, and size of frozen-thawed sperm cells. Ejaculates, obtained from six adult ibex males via transrectal, ultrasound-guided massage of the accessory sex glands plus electroejaculation if necessary, were cooled via either 1) Protocol 1 (decelerating cooling), involving cooling in liquid nitrogen vapor from 5 °C to −35 °C (40 °C/min), from −35 °C to −65 °C (17 °C/min), and then from −65 °C to −85 °C (3 °C/min); or 2) Protocol 2 (accelerating cooling) involving cooling in a biological freezer from 5 °C to −5 °C (4 °C/min), from −5 °C to −110 °C (25 °C/min), and then from −110 °C to −140 °C (35 °C/min). Compared to fresh ejaculates, sperm quality at thawing was found to be reduced by both protocols (p < .05), but especially by Protocol 1. Sperm head size was also significantly reduced by both protocols, although the Protocol 1 sperm heads were also significantly smaller than those of Protocol 2 sperms heads (p < .05). In fresh sperm samples, clustering analyses revealed two subpopulations of sperms with different morphometric characteristics, SP1 with larger cells, and SP2 with smaller cells. Both cooling protocols caused reduction in the proportion of SP1 cells, and an increase in the proportion of SP2 cells. In conclusion, the decelerating cooling protocol (Protocol 1) caused greater cryodamage to the sperm cells than the accelerating protocol (Protocol 2).     

Acrosin activity is a good predictor of boar sperm freezability

The main aim of this study was to determine whether acrosin activity could predict boar sperm freezability. For this purpose, we characterized the changes in sperm quality and acrosin activity throughout the cryopreservation procedure of sperm samples from 30 Pietrain boars by analyzing four critical steps: step 1 (extended sperm at 15 °C), step 2 (cooled sperm at 5 °C), step 3 (30 minutes postthaw), and step 4 (240 minutes postthaw). Freezability ejaculate groups were set on the basis of sperm motility and membrane integrity after freeze–thawing. Results obtained highlighted the low predictive value in terms of freezability of sperm motility and kinematics and sperm membrane integrity, as no differences between good and poor freezability ejaculates were seen before cryopreservation. Significant differences (P < 0.05) between ejaculate groups were observed in the cooling step at 5 °C for sperm kinetic parameters, and after thawing for sperm motility and membrane integrity. In contrast, acrosin activity appeared as an indicator of boar sperm freezability because the differences (P < 0.05) between good and poor freezability ejaculates manifested yet in extended samples at 15 °C. On the other hand, we also found that variations in sperm kinematics, membrane lipid disorder, intracellular calcium content, acrosome integrity, and acrosin activity throughout the cryopreservation procedure were indicative of a significant damage in spermatozoa during the cooling step in both ejaculate groups. In conclusion, the main finding of our study is that acrosin activity can be used as a reliable predictor of boar sperm freezability because it differs significantly between good and poor freezability ejaculates yet before freeze–thawing procedures took place, i.e., in the refrigeration step at 15 °C.     

Optimization of the cryopreservation of African clawed frog (Xenopus laevis) sperm

Cryopreservation of testicular sperm in the African clawed frog, Xenopus laevis, was tested using three penetrating cryoprotectants (DMSO, methanol, and glycerol) and three semen diluents (300 mmol/L glucose, 300 mmol/L sucrose, and a motility inhibiting saline [MIS] solution [150 mmol/L NaCl, 3 mmol/L KCL, 1 mmol/L Mg₂SO₄, 1 mmol/L CaCl₂, and 20 mmol/L Tris, pH 8.0]). Three freezing rates and four thawing rates were also tested, and the best freezing/thawing conditions have been determined. The responses of sperm motility, viability, and fertility were assessed. Incubation of the sperm macerates with penetrating cryoprotectants showed that DMSO was the least toxic and methanol the most toxic. Semen in cryodiluents frozen 10 cm above the surface of liquid nitrogen (freezing rate of 20 to 25 °C/min) and thawed at room temperature for 40 sec had significantly higher percentages of motile and viable sperm than that of semen frozen 5 cm or 8 cm above the surface of liquid nitrogen and thawed at 5, 25, or 30 °C for 10, 15, or 60 sec, respectively. Sperm frozen in MIS containing 5% DMSO had a higher hatching rate than that of sperm frozen in sucrose and glucose diluents containing 5% or 10% DMSO and in MIS containing 10% DMSO. Addition of 73 mmol/L sucrose to the sperm extender MIS + 5% DMSO could improve the postthaw sperm motility and fertility. In conclusion, dilution of collected sperm in MIS solution (to have a final concentration of 6.5 × 10⁶ to 8 × 10⁶/mL) containing 5% DMSO and 73 mmol/L sucrose, freezing in a vapor of liquid nitrogen at 10 cm above the surface, and thawing at room temperature for 40 sec was the best cryopreservation protocol. This protocol gave 70% hatching rate, 80% motility rate, and 75% viability rate of fresh hormonally induced sperm.     

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.     

The synergistic effect of trehalose and low concentrations of cryoprotectants can improve post-thaw ram sperm parameters

The objective of this study was to compare the effects of different concentrations of two different cryoprotectants (glycerol, G and ethylene glycol, EG) and trehalose (T), added to the semen extender, on post-thaw ram sperm parameters. Ejaculates, collected from 6 Merino rams, were pooled and evaluated at 37 °C. The pooled samples were divided into six equal aliquots, and diluted in Tris-based extenders containing 5% G, 3% G + 60 Mm T, 1.5% G + 100 Mm T, 5% EG, 3% EG + 60 mM T, and 1.5% EG + 100 Mm T. Subsequently, the samples were cooled to 5 °C, frozen in 0.25-ml French straws, and stored in liquid nitrogen (LN₂). Frozen samples were thawed individually, at 37 °C for 25 s in a water bath, for evaluation. Sperm motility was assessed using a phase-contrast microscope with a warm stage maintained at 37 °C. Acrosome integrity (FITC/PNA-PI), sperm viability (SYBR-14/PI), mitochondrial activity (JC-1/PI), DNA damage (COMET assay) and DNA fragmentation (TUNEL test) were determined. The group of samples diluted in an extender containing 5% of glycerol (Group 5% G) displayed higher percentages of subjective motility, viability and mitochondrial activity of sperm, compared to the other groups (P < 0.05). On the other hand, Group 3% G + 60 mM T yielded the second-best results for subjective motility, viability and mitochondrial activity of sperm, when compared to the other groups. The post-thaw sperm parameters of Group 3% G + 60 Mm T did not show any statistically significant difference from those of Group 5% G. There were no statistically significant differences between the groups for acrosome integrity (P > 0.05).The results of the COMET assay showed that the use of low concentrations of cryoprotectants in combination with trehalose decreased sperm DNA damage. Accordingly, Group 1.5% G + 100 mM T and Group 3% EG + 60 mM T benefited from a significantly stronger cryoprotective effect on DNA integrity, in comparison to Group 5% G (P < 0.05). According to the results of the TUNEL test, the combined use of low concentrations of cryoprotectants with trehalose decreased sperm DNA damage, when compared to the use of 5% glycerol, but this difference was statistically insignificant (P > 0.05).In conclusion, G and EG concentrations can be reduced by adding various amounts of T (60 mM, 100 mM) to the semen extender. The addition of 5% of glycerol and 3% G + 60 mM T to the semen extender did not yield statistically different post-thaw sperm parameters, when compared for protection against cryoinjury. Post-thaw sperm parameters can be improved by the supplementation of the semen extender with 3% G + 60 mM T. Thus, we recommend the use of freezing extenders containing low cryoprotectant concentrations (3% G) combined with trehalose to avoid the high level of toxic and osmotic damage caused by 5% G.     

Effect of cooling rate and equilibration time on pre-freeze and post-thaw survival of buck sperm

Survival of buck sperm is affected due to duration and temperature of stages of refrigerated or frozen storage. This study investigated interactive effect of cooling rates (moderate; MC and rapid cooling; RC); and equilibration times (0, 2, 4 and 8 h) on survival before freezing at 4 °C and post-thaw quality of buck sperm. Semen was collected (three Beetal bucks; replicates = 6), pooled and diluted with Tris-citrate extender. Pooled semen samples were subjected to either RC (−2.2 °C/min) or MC (−0.3 °C/min) from 37 °C to 4 °C in separate aliquots and further equilibrated at 4 °C for 8 h. Semen was frozen using standard procedure after completion of each equilibration period i.e. 0, 2, 4 and 8 h. Semen was evaluated for motility, viability, plasma membrane integrity (PMI) and normal apical ridge (NAR) before freezing and after thawing. The survival time (time for survival above threshold limit i.e. 60%) at 4 °C, of motility and PMI was observed 5 and 6 h respectively in RC group while >8 h in MC group. Rate of decline (slope) in motility and viability was higher (P < 0.05) in RC overtime during equilibration at 4 °C while PMI and NAR declined at equal rate in both cooling groups. Post-thaw motility and NAR were higher (P < 0.05) in MC when equilibrated for 2–8 h while viability and PMI of RC was observed equal to MC group. In conclusion, survival of buck sperm is higher when cooled with moderate rate. However, RC can maintain post-thaw sperm viability and PMI equal to MC when equilibrated for 2–8 h. The methods should be explored to maintain motility and NAR during rapid cooling of buck sperm.     

Cryopreservation of epididymal sperm from ibexes (Capra pyrenaica) using short equilibration time with glycerol

Two experiments were conducted to study the effect of shortening the equilibration time with the cryoprotectant glycerol before freezing epididymal sperm recovered postmortem from Iberian ibex. In the first experiment, the standard equilibration time of 3 hours was compared with 2 hours, and subjective sperm motility and quality of movement were greater (P < 0.05) in the latter group. In the second experiment, reducing the equilibration time from 2 hours to 15 minutes did not affect sperm motility (evaluated subjectively and objectively), viability, acrosomal integrity, or membrane functional integrity. In conclusion, shortening the equilibration time can be used as a technique to simplify the cryopreservation process and this provides practical advantages under field conditions.     

Tolerance of brown bear spermatozoa to conditions of pre-freezing cooling rate and equilibration time

Specific protocols for the cryopreservation of endangered Cantabrian brown bear spermatozoa are critical to create a genetic resource bank. The aim of this study was to assess the effect of cooling rates and equilibration time before freezing on post-thawed brown bear spermatozoa quality. Electroejaculates from 11 mature bears were extended to 100 × 10⁶ spermatozoa/mL in a TES–Tris–Fructose–based extender, cryopreserved following performance of the respective cooling/equilibration protocol each sample was assigned to, and stored at −196 °C for further assessment. Before freezing, after thawing, and after 1 hour's incubation post-thawing at 37 °C (thermal stress test), the quality of the samples was assessed for motility by computer-assisted semen analysis, and for viability (SYBR-14/propidium iodide), acrosomal status (peanut agglutinin–fluorescein isothiocyanate /propidium iodide), and sperm chromatin stability (SCSA) by flow cytometry. In experiment 1, three cooling rates (0.25 °C/min, 1 °C/min, and 4 °C/min) to 5 °C were assessed. After thawing, total motility (%TM) was higher and percentage of damaged acrosomes (%dACR) was lower (P < 0.05) for 0.25 °C/min than for 4 °C/min. The thermal stress test data indicated equally poor quality (P < 0.05) for the 4 °C/min cooled samples in viability (%VIAB), %dACR, %TM, and progressive motility (%PM). In experiment 2, the effect of a pre-freezing equilibration period at 5 °C for 1 hour (cooling at 0.25 °C/min) was evaluated. Samples kept at 5 °C for 1 hour showed higher (P < 0.05) values than the nonequilibrated ones for both thawing (%dACR) and thermal stress test (%VIAB, %TM, and %PM). In experiment 3, samples stored without cooling and equilibration (direct freezing) were compared with the samples cooled at 0.25 °C/min and equilibrated for 1 hour (control freezing). Using thermal stress test, we observed that direct freezing causes damage in viability, acrosomal status, and motility of spermatozoa compared with the control group (P < 0.05). In conclusion, our results suggest that slow cooling rates to 5 °C and at least 1 hour equilibration time are necessary for the effective cryopreservation of brown bear sperm.     

Sperm cryopreservation in the spermcasting Australian flat oyster Ostrea angasi by a programmable freezing method

Cryopreservation offers long-term storage of gametes without constraint from seasonal gamete maturation, provides opportunities to improve the efficiency of breeding and genetic programs, and protects endangered species from extinction due to epidemic diseases and natural disasters. In this study, a protocol for cryopreserving sperm of the spermcasting Australian flat oyster Ostrea angasi was developed by optimizing key factors influencing the quality of cryopreserved sperm. Dimethyl sulfoxide (DMSO) was non-toxic to sperm within the concentration and duration assessed in the toxicity experiment whereas 10% methanol or a higher concentration was toxic to sperm from the exposure duration of 30 min onwards. DMSO produced higher post-thaw sperm motility among the treatments with a single cryoprotectant. The inclusion of trehalose or glucose with DMSO further increased the post-thaw sperm motility (%) and plasma membrane integrity (PMI). Sperm equilibrated for 30 min showed higher post-thaw motility and PMI than those for 10 or 50 min. Higher post-thaw sperm motility and PMI were achieved at the freezing rate of −3 °C/min than at −7 °C/min. Sperm packaged in 0.5 ml straws had a higher post-thaw motility and PMI than those packaged in 0.25 ml straws. In this study, 44.4% post-thaw sperm motility and 49.2% PMI were achieved when sperm were equilibrated in 10% DMSO +0.45 M trehalose for 30 min, packaged in 0.5 ml straws, frozen at −3 °C/min from 4 °C to −80 °C, and thawed at 40 °C for 8 s. The availability of viable cryopreserved sperm would open an option for future breeding and genetic improvement programs for the spermcasting Australian flat oyster.     

Pentoxifylline increase sperm motility in devitrified spermatozoa from asthenozoospermic patient without damage chromatin and DNA integrity

The freeze–thaw process results in reduced motility, viability and fertilization potential of human spermatozoa. So, a variety of substances were evaluated in order to enhance human sperm resistance to the stress of cryopreservation, such as Pentoxifylline (PTX) for improving the Intracytoplasmic sperm injection (ICSI) outcomes. The aim was to investigate the effect of PTX on sperm parameters and chromatin/DNA integrity of asthenozoospermic semen post vitrification. A total of 30 semen specimens were obtained from infertile men with asthenozoospermia. The cryoprotectant-free vitrification was performed for the samples after assessment of sperm parameters. After warming, each sample was exposed for 30 min to 3.6 mmol/l PTX in experimental group and the control group without any treatment apposing at 37 °C for 30 min in regard, to repeat all in vitro analysis (sperm parameters and DNA integrity assay). Regardless of the vitrification devastating impacts on sperm parameters, incubation of post vitrified samples with PTX increased the rate of progressive motility (P < 0.01). Moreover, PTX addition did not significantly damage DNA integrity of asthenozoospermic sperm samples. The data showed that PTX was able to improve sperm movement without any adverse effects on sperm chromatin/DNA integrity in vitrification program.     

Effects of different cryoprotective agents on ram sperm morphology and DNAintegrity

This study investigates the effects of glycerol, 1,2 propanediol, sucrose, and trehalose on post-thaw motility, morphology, and genome integrity of Awassi ram semen. Ejaculates of thick consistency with rapid wave motion (>+++) and >70% initial motility were pooled. Sperm were diluted to a final concentration of 1/5 (semen/extender) in 0% cryoprotectant, 6% glycerol, 6% 1,2 propanediol, 62.5 mM sucrose or 62.5 mM trehalose using a two-step dilution method. The equilibrated semen was frozen in 0.25-ml straws. Semen samples were examined for sperm motility, defective acrosomes (FITC-Pisum sativum agglutinin (FITC PSA)), DNA integrity (acridine orange staining (AO)) and apoptotic activity (terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) and Caspase-3 activity) at four time points: after dilution with extender A, after cooling to 5 °C, after equilibration and post-thaw. Freezing and thawing procedures (cooling at 5 °C, dilution, equilibration, and thawing) had negative effects on motility (P < 0.001), acrosome integrity (P < 0.001), and DNA integrity as determined by AO (P < 0.001) and TUNEL (P < 0.001) assays. There were positive correlations between sperm with defective acrosomes and apoptotic (AO- and TUNEL-positive) spermatozoa. In contrast, a significant negative correlation was found between sperm motility and defective acrosomes and AO- and TUNEL positivity (P < 0.01). The cryopreservation process acts as an apoptotic inducer in ram semen; all cryoprotectants used in the present study allowed apoptosis to some extent, with negative effects on sperm morphology and DNA integrity. The glycerol group performed better than the propanediol, sucrose, trehalose, and control groups in terms of post-thaw sperm motility but not DNA integrity.     

Can amides be alternative cryoprotectors for the preservation of feline semen?

Sperm cryopreservation is a tool for the conservation of the genetic material of animals of genetic importance or for species preservation. In the case of domestic cats, this can be used to generate information about seminal harvest, evaluation and preservation, which is especially important due to its applicability to wild felids. This study evaluated seminal samples harvested by urethral catheterisation from 13 adult domestic cats. Samples were cryopreserved with experimental groups of extenders were defined by the penetrating cryoprotectant: 6% glycerol (GLY6%), 3% dimethylacetamide (DMA3%) and 3% dimethylformamide (DMF3%). The samples were thawed and evaluated by conventional microscopy and by computer-assisted sperm analysis (CASA). The structural and functional membrane integrity was assessed by supravital tests (EOS), hypoosmotic swelling tests (HOST) and flow cytometry (FC). There was a correlation (P < 0.05) between total motility and EOS (r = 0.54), HOST and FC (r = −0.62) and total motility and flow cytometry (r = 0.63), indicating that these are complementary parameters that increase the accuracy of the feline sperm quality evaluation post-thaw. The results regarding the structural and functional integrity of the sperm plasma membrane did not differ (P > 0.05) among groups. However, the DMA3% group had a lower (P < 0.05) percentage of morphological changes in the sperm tail compared to samples cryopreserved with GLY6% and DMF3%. Additionally, DMA3% provided lower values of immobile sperm post-thaw when compared to DMF3%. DMA is an interesting alternative to GLY and superior to DMF for the cryopreservation of feline semen at the studied concentrations.     

Evaluation of extenders and cryopreservatives for cooling and cryopreservation of spermatozoa from the western spotted skunk (Spilogale gracilis)

Experiments were conducted to develop a suitable protocol for cryopreservation of spotted skunk semen. Semen was collected by electroejaculation of captive male skunks (n = 16) from late January through late November. In the first experiment, fresh semen was diluted in either TEST (n = 10), TRIS (n = 9), or BF5F (n = 7) extenders and maintained at 4°C for 16 hr. Sperm motility in these extenders was not significantly different before cooling (P = 0.71), but samples diluted with BF5F exhibited significantly lower sperm motility than the other extenders at all time points after cooling (P < 0.05). In the second experiment, fresh semen was diluted in TEST containing either 3, 5, or 10% DMSO or 3, 5, or 10% glycerol as a cryopreservative. These samples were cooled to 4°C and frozen in 0.25 ml French straws on dry ice. Some samples containing 5% DMSO or 5% glycerol (n = 4), were also frozen on dry ice as pellets. Frozen samples were maintained in liquid nitrogen. Fresh samples had significantly greater sperm motility in dimethyl sulfoxide (DMSO) than in glycerol (P < 0.05), while frozen and thawed samples had the highest motility in 5 or 10% DMSO or 10% glycerol. Samples frozen in French straws had significantly greater sperm motility after freezing and thawing than those frozen by the pellet method (P < 0.05). Optimum cryoprotection was achieved with the TEST extender containing 5 or 10% DMSO, when used in conjunction with French straws. © 1992 Wiley-Liss, Inc.     

Impact of supplementation of semen extender with antioxidants on the quality of chilled or cryopreserved Arabian stallion spermatozoa

The aim of the present study was to evaluate the effects of supplementation of semen extender with various non-enzymatic antioxidants on the quality of cooled or cryopreserved Arabian stallion spermatozoa. Semen collected from four pure Arabian stallions was centrifuged at 600g for 15 min. Spermatozoa were then diluted in INRA-82 extender supplemented with bovine serum albumin (BSA; 0, 10, 15 and 20 mg/mL) or trehalose (0, 75, 100 and 150 mM) or zinc sulphate (0, 100, 150 and 200 μM). The diluted semen was then either cooled at 5 °C or cryopreserved in 0.5–ml plastic straws. After cooling or thawing, sperm motility, viability, sperm abnormalities, viability index, and plasma membrane integrity were evaluated. The results showed that supplementation of semen extender with 150 mM trehalose or with 200 μM zinc sulphate significantly (P < 0.05) improved motility, viability, sperm membrane integrity and acrosome status in Arabian stallion spermatozoa after cooling or after freezing and thawing compared with controls (non-supplemented media) or with those supplemented with other concentrations of trehalose or zinc sulphate. Supplementation of semen extender with BSA did not improve sperm motility or cryosurvival of Arabian stallion spermatozoa after cooling or after freezing and thawing. In conclusion, supplementation of semen extender with non-enzymatic antioxidants (trehalose or zinc sulphate) improved the quality of chilled and frozen/thawed Arabian stallion spermatozoa. The most beneficial effects occur when semen diluent was supplemented with 150 mM trehalose or 200 μM zinc sulphate.     

Quality of chilled and cold-stored (5 °C) canine spermatozoa submitted to different rapid cooling rates

The aim of this study was to evaluate the sperm quality in chilled canine semen using di?erent cooling rates from room temperature (23 °C) to 5 °C and subsequently cold-stored at 5 °C for up to 96 hours. In experiment 1, semen samples from five dogs were pooled, diluted in Tris-fructose-citrate extender with 20% egg yolk and split into four aliquots that were chilled to 5 °C using di?erent cooling rates of 2.25, 0.9, 0.45, and 0.2 (control) °C/min. In experiment 2, semen from five dogs was processed individually as described above and split into two aliquots that were chilled to 5 °C using rates of either 2.25 °C/min or 0.2 °C/min. In both experiments, the sperm quality (i.e., sperm motility and viability) was evaluated before cooling and after 0, 24, 48, 72, and 96 hours of storage at 5 °C. The total motility, progressive motility, and quality of movement parameters were assessed using computer-assisted analysis system, and the percentage of viable spermatozoa was determined using ?ow cytometry (H-42/PI//FITC-PNA). The cooling rate did not in?uence the sperm quality parameters at any of the evaluation times. All evaluated males showed the same response to chilling semen at a rapid cooling rate. Storage time negatively in?uenced (P < 0.05) sperm motility, regardless of the cooling rate used. In conclusion, canine sperm could be chilled and stored for 96 hours at 5 °C in a Tris-fructose extender with 20% egg yolk using rapid cooling rates, with values for sperm quality similar to those from a conventional protocol.     

Two-step accelerating freezing protocol yields a better motility,membranes and DNA integrities of thawed ram sperm than three-steps freezing protocols

The present study compares a protocol that mimics freezing of ram semen in static nitrogen vapor with two protocols with an initial low cooling rate in the first step, followed by higher cooling rates where ice nucleation occurs. Semen ejaculates, obtained from twelve adults rams, were diluted with TEST-based extender and frozen with either Protocol 1 (three-step decelerating cooling): from +5 °C to −35 °C (40 °C/min), from −35 °C to −65 °C (17 °C/min), and then from −65 °C to −85 °C (3 °C/min); or Protocol 2 (three-step accelerating cooling): from +5 °C to −5 °C (4 °C/min), from −5 °C to −110 °C (25 °C/min), and then from −110 °C to −140 °C (35 °C/min); or Protocol 3 (two-step accelerating cooling), from +5 °C to −10 °C (5 °C/min), and then from −10 °C to −130 °C (60 °C/min). Post-thaw sperm quality was reduced for all protocols (p < .05) compared with fresh semen. Post-thaw percentages of sperm motility characteristics and sperm with intact plasma membrane, intact acrosome, and intact mitochondrial membrane were greater using Protocol 3 than Protocol 2 (p < .05) and Protocol 1 (p < .01). In addition, the post-thaw percentage of sperm with fragmented DNA was lower (p < .05) using Protocol 3 compared with Protocol 1. The present results indicate that a cooling rate of 60 °C/min around and after the time point of ice nucleation provided better post thaw survival and function of ram sperm than lower (and/or decelerating) cooling rates.     

Antioxidant effect of quercetin in an extender containing DMA or glycerol on freezing capacity of goat semen

This study was performed to evaluate the effectiveness of quercetin as a non-enzymatic antioxidant in combination with glycerol or Dimethylacetamide (DMA), on freezability of goat semen. Ejaculates from four healthy mature Mahabadi goats were collected using an artificial vagina. After primary processing, semen was pooled and extended by egg yolk based extender supplemented with different concentrations of quercetin (10 or 20 μM) along with 5% glycerol or DMA. The extended semen was frozen and sperm motility parameters, viability, abnormality, membrane integrity and lipid peroxidation were assessed after thawing. Results showed that sperm viability, total motility, progressive motility, straightness (STR) and linearity (LIN) were higher (P < 0.05), and abnormality percentage and MDA concentration were lower (P < 0.05) in extender containing DMA. Similarly, higher (P < 0.05) total motility, progressive motility, viability and membrane integrity along with lower (P < 0.05) MDA level were noted in Q10 group. The lowest (P < 0.05) MDA level was observed in DMA extender containing moderate level of quercetin (Q10D). Also the STR was higher (P < 0.05) in Q10D compared to Q10G and Q20G groups. In conclusion, supplementation of extender with 10 μM quercetin in combination with DMA improves the goat sperm motion kinetics and suppresses lipid peroxidation after freezing and thawing. Furthermore, DMA is more effective cryoprotectant for the freezing of goat sperm.     

Semen collection,characterization, and cryopreservation in a Magellanic penguin (Spheniscus magellanicus)

A cooperative method was developed for collecting semen from a Magellanic penguin. Ejaculate parameters and semen production during a breeding season were characterized. Experiments were performed to study the effect on penguin spermatozoa of two temperatures (4°C and 21°C) for short‐term storage, and two cryoprotectants (dimethylsulfoxide [DMSO] and ethylene glycol [EG]) for long‐term storage (cryopreservation). All dilutions were made using modified Beltsville Poultry Semen Extender. Sperm quality was assessed by evaluating motility and forward progression (sperm motility index [SMI]), viability, and morphology. A total of 39 ejaculates was collected over the 40‐day study period. Thirty‐eight ejaculates contained spermatozoa, but semen quality decreased toward the end of the study period. Varying levels of urate contamination were present in all ejaculates. Sperm quality parameters were similar for diluted samples held at 4°C and 21°C, and samples maintained high numbers of viable (77.8 ± 5.4%) and morphologically normal (67.9 ± 2.5%) spermatozoa at 3 hr. SMI and percentage of viable sperm decreased (P < 0.05) and the number of spermatozoa with a bent head or midpiece increased (P < 0.05) for both temperature groups over the 3‐hr storage interval. DMSO and EG were equally effective in maintaining penguin sperm quality parameters during the cryopreservation and thawing process. Frozen‐thawed semen maintained 69 ± 5 and 78 ± 3% of its pre‐freeze SMI and viability, respectively. SMI and viability decreased slightly during the cooling and equilibration phases but remained relatively stable during the 3‐hr storage interval post‐thaw. Frozen‐thawed semen also exhibited an increase (P < 0.05) in spermatozoa with a bent head or midpiece over time. The pre‐freeze SMI was higher (P < 0.05) for ejaculates with low levels of urates (clean ejaculates) compared with ejaculates with high levels of urate contamination, but sperm viability and morphology were similar (P > 0.05). Both SMI and viability of frozen‐thawed spermatozoa were higher (P < 0.05) for clean than for contaminated ejaculates. This is the first report on penguin ejaculate parameters, semen production, and preliminary methods for short‐ and long‐term semen storage. Zoo Biol 18:199–214, 1999. © 1999 Wiley‐Liss, Inc.