Effect of cryopreservant combinations on the motility and morphology of curimba (Prochilodus lineatus) sperm

This study investigated the application of intra- and extra-cellular cryoprotectant combinations on the quality of curimba Prochilodus lineatus semen subjected to cryopreservation. Semen treatments were tested with 8% DMSO or methanol as intracellular cryoprotectant, 5% egg yolk or lactose as extracellular cryoprotectant and 5% BTS. These cryoprotectant combinations are suitable for curimba but have not been tested at the lesser concentrations proposed or in combination with BTS. Semen samples collected from 19 curimbas were diluted into one of four cryoprotectant combinations: DMSO+yolk; DMSO+lactose; methanol+yolk; and methanol+lactose. After dilution, semen samples were cryopreserved in 0.5 mL straws for 10 days in a liquid nitrogen tank. Semen was thawed in a water bath at 60°C for 8s. We evaluated the quality of fresh, diluted (pre-freezing) and post-freezing semen according to sperm motility rate (%) and duration (s). Sperm morphology was also analyzed in thawed semen. Sperm motility rate decreased progressively after dilution and thawing. The motility rate in post-freezing semen was higher in the treatments using DMSO+lactose and methanol+yolk. Sperm motility duration in post-freezing sperm was greater in the treatments using methanol rather than DMSO as intracellular cryoprotectant, irrespective of the extracellular cryoprotectant used. Abnormality frequency in thawed sperm was less in semen treated with egg yolk than with lactose. Thus the use of methanol intracellular cryoprotectant is recommended along with yolk extracellular cryoprotectant in the cryopreservation process for curimba semen.     

Initial studies on sperm cryopreservation of a live-bearing fish, the green swordtail Xiphophorus helleri

Swordtails and platyfish of the genus Xiphophorus are valuable models for biomedical research and are also commercially raised as ornamental fish valued by aquarists. While research use and commercial interest increases yearly in these fish, cryopreservation of sperm is unexplored in this genus. Xiphophorus are live-bearing fishes characterized by small body sizes, limited sperm volumes, and internal fertilization, an atypical reproductive mode for fish. These attributes make research involving cryopreservation of Xiphophorus germplasm challenging. To explore methods for sperm cryopreservation, this study evaluated the effect of different loading volumes of sperm suspension in 0.25-ml French straws, different dilution ratios of sperm to extender, an osmolality range of extender without cryoprotectant and with dimethyl sulfoxide (DMSO) as cryoprotectant, and short-term storage at room temperature and 4 degrees C after thawing. No significant difference in sperm motility due to straw loading volume was observed after thawing. Sperm motility was observed to decrease with increasing dilution. The osmolality of Hanks' balanced salt solution (HBSS) without cryoprotectant in which the highest sperm motility (67%) was observed was 320 +/- 3 mOsm/kg, which was also the osmolality of X. helleri blood plasma. When cryopreserved with 10% DMSO, however, the highest motilities within 10 min after thawing were observed with HBSS in the range of 240-300 mOsm/kg. Sperm suspended in HBSS at 320 mOsm/kg with a dilution factor of 100 maintained motility for 24h at room temperature, but persisted for 10 days when stored at 4 degrees C. These results provided the first evidence that cryopreservation may be applied to conservation of genetic resources in live-bearing fishes.     

Sperm cryopreservation of a live-bearing fish, the platyfish Xiphophorus couchianus

The objectives of this study were to evaluate the effects of cryoprotectant, osmotic pressure, cooling rate, equilibration time, and sperm-to-extender ratio, as well as somatic relationships of body length, body weight, and testis weight to sperm density in the platyfish Xiphophorus couchianus. Sperm motility and survival duration after thawing were significantly different between cryopreservation with dimethyl sulfoxide (DMSO) and glycerol, with the highest motility at 10 min after thawing obtained with 14% glycerol. With subsequent use of 14% glycerol as cryoprotectant, the highest motility after thawing was observed with Hanks' balanced salt solution (HBSS) across a range of 240-300 mOsm/kg. Samples cooled from 5 to -80 degrees C at 25 degrees C/min yielded the highest post-thaw motility, although no significant difference was found for cooling rates across the range of 20-30 degrees C/min. In addition, the highest motility after thawing was found in samples equilibrated from 10 to 30 min with 14% glycerol and cooled at 25 degrees C/min. The post-thaw motility declined rapidly with use of 10% glycerol and cooling at 5 degrees C/min across the equilibration range of 10 min to 2h. Sperm motility with a dilution ratio of sperm to extender of 1:10 was not different at 10 min after thawing with those samples at greater dilutions, but declined significantly from Day 1 after thawing and showed lower survival duration when stored at 4 degrees C. However, the additional dilution of sperm solutions with HBSS (300 mOsm/kg) immediately after thawing significantly slowed the decline of motility and prolonged the duration of survival. Based on the above findings, the highest average sperm motility (78+/-3 %) at 10 min after thawing was obtained when sperm were suspended in HBSS at 300 mOsm/kg with 14% glycerol as cryoprotectant, diluted at a ratio of sperm to HBSS-glycerol of 1:20, equilibrated for 10 min, cooled at 25 degrees C/min from 5 to -80 degrees C before plunging into liquid nitrogen, and thawed at 40 degrees C in a water bath for 7 s. If diluted within 5 h after thawing, sperm frozen by the above protocol retained continuous motility for 15 days when stored at 4 degrees C.     

The development of haddock and Atlantic cod sperm cryopreservation techniques and the effect of sperm age on cryopreservation success

Three cryoprotectants [dimethyl sulphoxide (DMSO), propylene glycol (PG) and glycerol], two diluents (sucrose‐ and saline‐based), two sperm collection times, two freezing rates and three times between thaw and activation (0, 30 and 60 min) were tested in order to develop a protocol for the cryopreservation of sperm of haddock Melanogrammus aeglefinus and Atlantic cod Gadus morhua . The faster freezing rate resulted in extremely low post‐thaw motility in comparison to the slower freezing rate, which was successful for sperm from both gadids. In both cases, the use of PG resulted in significantly higher post‐thaw sperm motility‐recovery indices than with DMSO or glycerol, which did not differ significantly from one another. Diluent had no effect on post‐thaw sperm motility for Atlantic cod or haddock. Sperm collected at the end of the spawning season tended to have reduced post‐thaw motility compared to that collected 2 weeks after the start of spawning. A 30 min delay between thaw and activation of haddock and Atlantic cod sperm resulted in a significant decrease in sperm motility. When PG was used as cryoprotectant, sperm motility continued to decrease between 30 and 60 min post‐thaw. With DMSO or glycerol as cryoprotectant, motilities were already very low after 30 min post‐thaw and did not decrease any further after 60 min. Cryoprotectant, diluent and time between thaw and activation had no effect on mean or maximum sperm swimming speeds for either Atlantic cod or haddock sperm. Fertilization success for haddock eggs, like sperm motility, was higher with PG‐frozen sperm than DMSO‐ or glycerol‐frozen sperm. These results constitute the first reported successful cryopreservation of haddock sperm and improve on previous methods used to cryopreserve sperm from Atlantic cod.     

Effect of glycerol and dimethyl sulfoxide on cryopreservation of rhesus monkey (Macaca mulatta) sperm

Glycerol and dimethyl sulfoxide (DMSO) are widely used as penetrating cryoprotectants in the freezing of sperm, and various concentrations are applied in different species and laboratories. The present study aimed to examine the effect of these two cryoprotectants at different concentrations (2%, 5%, 10%, and 15% glycerol or DMSO) on rhesus monkey sperm cryopreservation. The results showed that the highest recovery of post-thaw sperm motility, and plasma membrane and acrosome integrity was achieved when the sperm was frozen with 5% glycerol. Spermatozoa cryopreserved with 15% DMSO showed the lowest post-thaw sperm motility, and spermatozoa cryopreserved with 15% glycerol and 15% DMSO showed the lowest plasma membrane integrity among the eight groups. The results achieved with 5% glycerol were significantly better for all parameters than those obtained with 5% DMSO. The functional cryosurvival of sperm frozen with 5% glycerol was further assessed by in vitro fertilization (IVF). Overall, 85.7% of the oocytes were successfully fertilized, and 51.4% and 5.7% of the resulting zygotes developed into morulae and blastocysts, respectively. The results indicate that the type and concentration of the penetrating cryoprotectant used can greatly affect the survival of rhesus monkey sperm after it is frozen and thawed. The suitable glycerol level for rhesus monkey sperm freezing is 5%, and DMSO is not suitable for rhesus monkey sperm cryopreservation.     

Cryopreservation of sperm from the endangered formosan landlocked salmon (Oncorhynchus masou formosanus)

The Formosan landlocked salmon (Oncorhynchus masou formosanus) are at a high risk of extinction, and the sustained maintenance of the population will soon depend on aquaculture systems, which use cryopreservation of spermatozoa to increase genetic diversity. We investigated the effectiveness of dimethyl sulfoxide (DMSO), dimethyl-acetamide (DMA), and methanol as cryoprotectants in combination with 300 mM glucose as extender on the freezing of Formosan landlocked salmon spermatozoa. We also evaluated the morphological changes of Formosan landlocked salmon spermatozoa after their immediate dilution in the 300 mM glucose-DMSO extender and after freeze-thawing. The spermatozoa frozen with DMSO as a cryoprotectant showed significantly higher post-thaw motility and fertility than spermatozoa frozen with DMA or methanol. The fertilization capacity of frozen-thawed Formosan landlocked salmon was comparable to that of fresh spermatozoa. Intersubspecies fertilization trials between cryopreserved Formosan landlocked salmon spermatozoa and Amago salmon eggs showed high fertilization rates. Based on the findings, the potential value of using sperm bank to safeguard this endangered species is discussed.     

Cryopreservation of sperm of two European percid species, the pikeperch (Sander lucioperca) and the Volga pikeperch (S. volgensis)

Experiments were carried out on sperm cryopreservation of two European percid fish species, the pikeperch (Sander lucioperca) and the Volga pikeperch (S. volgensis). Two experiments were conducted on pikeperch sperm. In the first, the effects of three extenders (Glucose, KCl, Sucrose) and two cryoprotectants (dimethyl-sulfoxide: DMSO, methanol: MeOH) were tested on motility and fertilization. In the second, the effects of two dilution ratios (1 : 1, 1: 9) and two cryoprotectants (DMSO, MeOH) on hatching were investigated. In the experiment on Volga pikeperch the suitability of using cryopreservation for fertilization was investigated. In the first experiment on pikeperch the highest post-thaw motility (28 +/- 21%) and fertilization rate (43 +/- 12%) was found with DMSO as cryoprotectant in combination with Glucose extender. In the second, the highest hatch rate (41 +/- 22%) was observed with MeOH as cryoprotectant and 1 : 1 sperm dilution ratio, however no significant difference was found among the results. In the experiment on Volga pikeperch hatch rates with cryopreserved sperm (60 +/- 2%) did not significantly differ from the control (60 +/- 6%). Contamination of sperm with urine seems to be a key problem in the success of sperm cryopreservation of these species.     

Motility and cryopreservation of spermatozoa of European common frog, Rana temporaria

Motility and cryopreservation of testicular sperm of European common frog, Rana temporaria were investigated. Collected testicular spermatozoa were immotile in solutions of high osmolalities: 300 mmol/l sucrose and motility inhibiting saline solution-MIS. Full sperm motility could be activated in distilled water or in a solution of 50 mmol/l NaCl, = 90 mosmol/kg, with 75-90% motility and 14-16 μm s⁻¹ swimming velocity. Spermatozoa activated in distilled water and kept at room temperature ceased the motility within a period of 1 h. But when they were kept at 4 °C, no significant decrease in sperm motility and velocity occurred over a period of 1 h. Incubation of testicular sperm diluted 1:2 with MIS containing 10% DMSO, 5% glycerol, 10% methanol, or 10% propandiol for a period of 40 min at 4 °C showed that propandiol was the most toxic cryoprotectant for spermatozoa of European common frog R. temporaria. However, methanol was not toxic to spermatozoa during the 40 min incubation period, it failed to protect spermatozoa during the freezing and thawing process. DMSO and glycerol were useful penetrating cryoprotectants that interacted with sperm diluents in cryodiluent efficacy. In combination with the sucrose diluent, DMSO was a better cryoprotectant than glycerol, while in combination with MIS, DMSO and glycerol were similarly useful. Sperm was frozen at two freezing levels above the surface of liquid nitrogen. Sperm frozen 5 cm above the surface of liquid nitrogen resulted in immotile and non-viable spermatozoa. However, sperm frozen at 10 cm above the surface of liquid nitrogen showed 40-45% viability and 30-35% motility, compared to the untreated freshly collected testicular sperm. Addition of hen egg yolk had no positive effect on the post-thaw sperm motility, viability and hatching rate when added to sucrose cryodiluents. However, addition of 5% egg yolk to the MIS containing 5% glycerol and 2.5% sucrose significantly improved the hatching rate than all other treatments. Therefore, we conclude that, MIS and 300 mmol/l sucrose are suitable diluents for immotile storage of testicular semen. For cryopreservation, dilution to a final concentration of 5-6 × 10⁶/ml in MIS with 5% glycerol, 2.5% sucrose and 5% egg yolk, frozen in liquid nitrogen vapour at 10 cm above its surface, and thawed at 22 °C for 40 s is a useful cryopreservation protocol for R. temporaria sperm. Further research is needed to determine the motility parameters and cryopreservation of spermatic urine of R. temporaria.     

Cryopreservation of common carp (Cyprinus carpio L.) sperm I. The importance of oxygen supply

Experiments were carried out on the cryopreservation of common carp ( Cyprinus carpio L.) sperm. The effects of pre-freezing oxygen supply on post-thaw motility and the efficacy of different extenders were studied. Sperm diluents contained DMSO as a cryoprotectant in 10% final concentration. The dilution rate was 1:9 (sperm:diluent). Sperm was diluted and equilibrated (10 min) at 0°C. Sperm was then frozen in plastic straws (0.5 ml) at the following rate: 0°C–4°C: 4°C min⁻¹−4°C–80°C: 11°C min⁻¹ from −80°C, straws were plunged directly into liquid nitrogen (−196°C) for further storage. Frozen samples were thawed in a water bath at 40°C.
The freezability of common carp sperm showing reduced motility (due to suboptimal oxygen supply) after transportation could be restored when 30 min of oxygenation was applied prior to freezing. Highest post-thaw motility (57%, percent of control) was achieved when sperm was diluted with modified Kurokura's 'Extender 2'.     

Comparison of extenders,dilution ratios and theophylline addition on the function of cryopreserved walleye semen

Walleye (Stizostedion vitreum) is a species of interest for the diversification of North American aquaculture production, and semen cryopreservation is of particular value to this effort. To test the hypothesis that adjusting semen extender composition and dilution ratio increases sperm quality after thawing, three extenders (Ext1, Ext2, Ext3; all with DMSO as a cryoprotectant) and three dilution ratios (semen/extender: 1:5, 1:9, 1:15) were screened. The best results were obtained when semen was diluted at a 1:15 ratio with Ext 1, Rathbun extender supplemented with 7% DMSO, 4 mg/ml BSA and 7.5 mg/ml ProFam, a soy-based protein (P = 0.05, n = 6). This method resulted in 46 +/- 3% motility of the thawed spermatozoa and a mortality rate of 39 +/- 4% whereas Ext2 and Ext3 resulted in motility rates of only 10 and 5%. respectively. To test an additional hypothesis that phosphodiesterase inhibition improves sperm function, we assessed the fertility of sperm frozen in optimal conditions and thawed in the presence or absence of 5 mM theophylline (n = 5). The best result was achieved in water without theophylline, with fertilization rates ranging from 28.51 +/- 6.84 to 59.02 +/- 1.06% eyed-up stage, and theophylline reduced fertility (P < 0.05). Our data show that Ext1 at a dilution ratio of one part semen to 15 parts extender should be used for walleye semen cryopreservation and that the fertilizing media does not benefit from theophylline supplementation.     

The cryoprotectant used, its concentration, and the equilibration time are critical for the successful cryopreservation of rabbit sperm: Dimethylacetamide versus dimethylsulfoxide

This study was designed to identify a suitable freezing protocol for rabbit semen by comparing the effects of different concentrations and equilibration times of dimethylacetamide (DMA) and dimethylsulfoxide (DMSO) on the postthaw quality of the semen. After establishing the best protocols for each cryoprotectant, their efficacy was compared by examining the in vivo fertilizing capacity of the semen samples. Pooled semen samples diluted in freezing medium containing 4%, 6%, or 8% DMA or DMSO (all combined with 1% sucrose as a nonpermeating cryoprotectant) were loaded in straws and equilibrated for 5, 15, or 45 min before freezing in liquid nitrogen vapor. The variables assessed after thawing were sperm motility, viability, osmotic resistance, and acrosome and DNA integrity. Marked effects on these variables were shown by the cryoprotectant concentration and equilibration time, with best results obtained using DMA 6% or DMSO 8% and equilibration times of 45 min. These freezing protocols were selected to compare the two cryoprotectants in an insemination trial. Three groups of 114 rabbit does (28 nulliparous and 86 multiparous in each group) were inseminated with fresh semen or with semen frozen using the optimized DMA or DMSO protocols. Fertility rates and numbers of kids born were similar, respectively for the DMSO-frozen (79.8% and 7.7 ± 0.3 young per kindling) and fresh semen (81.6% and 8.6 ± 0.3) yet higher (P ≤ 0.05) than the rates returned using the DMA-frozen semen (47.4% and 6.7 ± 0.4). Moreover, the numbers of rabbits born alive when DMSO was used in the freezing protocol, despite being lower than those recorded using fresh semen, were higher than when DMA was used as the cryoprotectant (P < 0.05). The physiological status of the does (nulliparous or multiparous) had no influence on the fertility and prolificacy results. Our findings indicate that the cryosurvival of rabbit sperm frozen using DMSO or DMA as the cryoprotectant is highly influenced by the concentration of cryoprotectant used and the time the semen is exposed to the agent before freezing. According to our in vivo fertility and prolificacy data, DMSO emerged as more effective than DMA for the cryopreservation of rabbit sperm.     

Protocols for thawing and cryoprotectant dilution of heart valves

PURPOSE: To reduce the time taken for thawing and removal of cryoprotectant from heart valves. METHODS: Three sets of experiments were carried out using porcine heart valves. The valves in all three experiments were first exposed to 10% (v/v) dimethyl sulphoxide (DMSO) by a 2-step protocol. Outcome was determined after the various experimental treatments by monitoring the outgrowth of cells from valve leaflet explants. Experiment 1-Dilution protocol. Valves exposed to 10% DMSO were subjected to 4-, 2- or 1-step dilution to remove the DMSO. Experiment 2-Warming rate. The rate of warming was increased by reducing the volume of cryoprotectant medium in which the valves were frozen. Valves were exposed to 10% DMSO, frozen in different volumes (100, 50, 25 or 0 ml) of cryoprotectant medium, and warmed in a 37 degrees C water bath. The DMSO was removed by 4-step dilution. Experiment 3-Standard vs. Modified protocol. Valves were either frozen in 100 ml 10% DMSO, thawed, and subjected to 4-step dilution (Standard) or frozen in 50 ml 10% DMSO, thawed, and the DMSO removed by single-step dilution (Modified). RESULTS: Neither the rate of warming nor the rate of dilution of DMSO had any influence on the subsequent outgrowth of valve leaflet fibroblasts. There were no differences in the outgrowth of cells from valve leaflets cryopreserved by the Standard or Modified protocols. CONCLUSION: The time taken for thawing and dilution of heart valves could be reduced from >20 min to <10 min without detriment to the viability of the leaflet fibroblasts. This should have a positive impact on valve replacement surgery as the thawing and dilution of valves are typically carried out while the patients are on cardiopulmonary bypass.     

Cryopreservation of kangaroo spermatozoa using alternative approaches that reduce cytotoxic exposure to glycerol

Alternative techniques for the cryopreservation of kangaroo spermatozoa that reduced or eliminated the need for glycerol were investigated including; (1) freezing spermatozoa with 20% glycerol in pre-packaged 0.25 mL Cassou straws to enable rapid dilution of the glycerol post-thaw, (2) investigating the efficacy of 20% (v/v) dimethyl sulphoxide (DMSO) and dimethylacetamide (DMA—10%, 15% and 20% v/v) as cryoprotectants and (3) vitrification of spermatozoa with or without cryoprotectant (20% v/v glycerol, 20% v/v DMSO and 20% v/v DMA). Immediate in-straw post-thaw dilution of 20% glycerol and cryopreservation of spermatozoa in 20% DMSO produced no significant improvement in post-thaw viability of kangaroo spermatozoa. Spermatozoa frozen in 20% DMA showed post-thaw motility and plasma membrane integrity of 12.7 ± 1.9% and 22.7 ± 5.4%, respectively, while kangaroo spermatozoa frozen by ultra-rapid freezing techniques showed no evidence of post-thaw viability. The use of 10–20% DMA represents a modest but significant improvement in the development of a sperm cryopreservation procedure for kangaroos.     

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).     

黑鲷精子的超低温冻存及DNA损伤的SCGE检测

以0.5 mL的麦细管为冻存管和DMSO为抗冻剂进行超低温冷冻黑鲷精子,对冻精核DNA的损伤情况进行单细胞凝胶电泳（SCGE）检测,其结果表明,以Cortland溶液为稀释液,5%、10%、15%及20%DMSO为抗冻剂的超低温冻存的黑鲷精子活力、受精率与鲜精无显著差异。其中以10%DMSO为抗冻剂的冻存效果最佳,冻精的激活率、运动时间、寿命及受精率分别达（92.91±1.25）%、（39.90±2.70）min、（53.82±2.84）min及（89.35±1.99）%;而以25%及30%DMSO为抗冻剂时,冻精活力及受精率显著下降。SCGE检测结果显示,DMSO浓度为5%、10%、15%及20%时,黑鲷冻精与鲜精的彗星率及损伤系数差异不显著;DMSO浓度为25%及30%时,冻精与鲜精的彗星率及损伤系数差异显著;冻精的彗星率与抗冻剂DMSO浓度成正相关。黑鲷鲜精及冻精核的DNA损伤主要为轻度和中度损伤,重度损伤比例较低,完全损伤仅存在于25%及30%DMSO为抗冻剂的冻精中,且比例低。分析认为,较高浓度的DMSO是引起冻精核DNA损伤的主要原因。     

Comparison of permeating and nonpermeating cryoprotectants for mouse sperm cryopreservation

Mouse sperm has proven to be more difficult to cryopreserve than sperm of other mammalian species. Published reports show that only three cryoprotectant agents (CPAs), alone or combined, have been studied: glycerol and dimethyl sulfoxide (DMSO), as permeating agents, and raffinose, as a nonpermeating agent. To date, the most consistent results for mouse sperm cryopreservation have been achieved by use of raffinose/skim milk as cryoprotectant with rapid cooling at 20 degrees C per minute. In this study, we compared the cryoprotection provided by permeating (glycerol, formamide, propanediol, DMSO, adonitol) or nonpermeating (lactose, raffinose, sucrose, trehalose, d-mannitol) compounds for freezing mouse sperm. Different solutions were made using 3% skim milk solution as the buffer or extender in which all different cryoprotectant agents were dissolved at a concentration of 0.3 M, with a final osmolality of approx. 400 mOsm. Sperm samples from CB6F1 (hybrid) and C57BL/6J (inbred) mice collected directly into each CPA were frozen/thawed under identical conditions. After thawing and CPA elimination (centrifugation) raffinose (59%), trehalose (61%), and sucrose (61%) sustained the best motility (P = < 0.1) of the nonpermeating agents, whereas the best of the permeating agents was DMSO (42%). Membrane integrity was analyzed and showed that the simple exposure (prefreeze) to sugars was less harmful than the exposure to glycols. Coincidentally, sperm frozen in trehalose (41%), raffinose (40.5%), and sucrose (37.5%) were the samples less injured among all different postthawed CPA tested. The in vitro fertilization results demonstrated that hybrid mouse spermatozoa frozen with sugars (lactose 80%, raffinose 80%, trehalose 79% of two-cell embryos production) were more fertile than those frozen with glycols (glycerol 11%).     

Sperm cryopreservation of green swordtail Xiphophorus helleri, a fish with internal fertilization

Sperm cryopreservation for fishes with internal fertilization is essentially unexplored although many species of these fishes are valuable biomedical research models. To explore methods for sperm cryopreservation within the live-bearing genus Xiphophorus, this study used X. helleri to evaluate the effects of cryoprotectant, osmotic pressure, cooling rate, equilibration time, and sperm-to-extender ratio. Sperm motility and survival duration after thawing showed significant differences among different cryoprotectants with the highest motility at 10 min after thawing obtained with 14% glycerol. With subsequent use of 14% glycerol as the cryoprotectant, the highest motility after thawing was observed with Hanks' balanced salt solution (HBSS) at 300 mOsmol/kg. Samples cooled from 5 to -80 degrees C at 20 degrees C/min yielded the highest post-thaw motility although no significant difference was found in the first 4h after thawing for cooling rates across the range of 20-35 degrees C/min. Evaluation of equilibration time revealed no significant difference between 20 min and 2h, but the highest motility at 10 min after thawing was found with a 20-min equilibration. Dilution ratios of sperm-to-extender at 1:20, 1:60, and 1:120 showed no significant differences in motility and survival duration after thawing, but the dilution of sperm solutions with HBSS (320 mOsmol/kg) immediately after thawing reduced the decline of sperm motility, and significantly prolonged the survival duration. Based on these findings, the highest average sperm motility (77%) at 10 min after thawing was obtained when sperm were suspended in HBSS at 300 mOsmol/kg with 14% glycerol as cryoprotectant, diluted at a ratio of sperm to HBSS-glycerol of 1:20, equilibrated for 10 min, cooled at 20 degrees C/min from 5 to -80 degrees C before being plunged in liquid nitrogen, and thawed in a 40 degrees C water bath for 7s. If diluted immediately after thawing, sperm frozen by the protocol above retained continuous motility after thawing for more than 8 days when stored at 4 degrees C.     

Sperm survival during short-term storage and after cryopreservation of semen from striped trumpeter (Latris lineata)

Methods of short-term storage and cryopreservation were examined for semen from striped trumpeter (Latris lineata). For fresh semen at 18 degrees C, the percentage of motile sperm declined rapidly from over 80% immediately after activation with sea water to less than 2% within 9 min after activation. The motility after activation of undiluted fresh sperm stored at 5 degrees C was maintained for two days and then declined markedly so that by the eighth day, sperm were mostly immotile after activation. The post-thawing motility was higher for sperm frozen with a non-activating diluent containing 2.84 M DMSO in saline (117 mM NaCl) than in an activating glycerol (2 M) medium in dilute sea water (300 mOsm). Post-thawing motility was higher for a dilution rate of 1:5 (semen:diluent) than 1:2 or 1:11 but was similar when frozen semen was thawed at 10 degrees, 20 degrees or 30 degrees C. For semen stored at a range of volumes as pellets frozen on dry ice (0.2 to 2.0 mL) or straws frozen in liquid nitrogen vapor (0.25 to 0.5 mL) and thawed in a waterbath at 20 degrees C, the post-thawing motilities were similar even though the patterns of cooling and thawing differed markedly between methods of freezing and sizes of pellets and straws.     

Cryopreservation of turkey semen: Effect of breeding line and freezing method on post-thaw sperm quality,fertilization, and hatching

Cryopreservation methods for poultry semen are not reliable for germplasm preservation, especially for turkeys, where fertility rates from frozen/thawed semen are particularly low. The objective was to evaluate cryopreservation methods for effectiveness in promoting cryosurvival and post-thaw function of sperm from five turkey lines: one commercial line and four research (RBC1; E; RBC2; F) lines from Ohio State University (OSU). The model for cryopreservation was set up as a 2 × 2 × 2 × 5 design for cryoprotectant (glycerol or dimethylacetamide (DMA)), cryopreservation medium (Lake or ASG), method of dilution (fixed dilution volume versus fixed sperm concentration) and turkey line, respectively. The final cryoprotectant concentrations were 11% glycerol or 6% DMA. Thawed sperm were evaluated for plasma membrane integrity and quality, motility, acrosome integrity and, after artificial insemination, for egg fertility and hatchability. Commercial turkey hens were used for all fertility trials, regardless of semen source. Turkey sperm frozen with glycerol exhibited higher membrane integrity and membrane quality upon thawing than turkey sperm frozen with DMA although no differences in total motility, and only minimal differences in progressive motility, were detected among the eight cryopreservation treatments. Within line, fertility was affected by cryoprotectant, medium and dilution method, where the overall highest percentages of fertile, viable embryos (Day 7) occurred for the DMA/ASG/fixed sperm concentration method, while high percentages (15.8–31.5%) of fertile, non-viable embryos (Day 1–6) were observed for multiple cryopreservation methods, including two glycerol treatments. From a single insemination, the duration of true and viable fertility in all lines was 10–13 weeks and 9–10 weeks, respectively. The duration of hatchability was 4–6 weeks after insemination for four of the turkey lines. The highest percentage of viable embryos was observed for the commercial line (9.5 ± 2.4%), followed by the E line (5.3 ± 1.3%), F line (3.7 ± 2.0%) and RBC2 line (2.6 ± 0.8%). For the RBC1 line, there was 100% embryonic death by Day 6 of incubation. Overall, better fertility results were obtained with the cryoprotectant DMA, the ASG diluent and fixed sperm concentration. However, the applicability of this method for preserving semen from research populations may be line dependent.     

The effects of cryoprotectants on sperm motility of the Chinese pearl oyster,Pinctada fucata martensii

Cryopreservation has been widely employed to preserve genetic material of aquatic animals. Although of common use in bivalves, resulting effects due to the toxicity of the cryoprotectants dimethyl sulfoxide (DMSO), propanediol (PG), methanol (MET) and ethylene glycol (EG), upon sperm motility in the Chinese pearl oyster, Pinctada fucata martensii, has remained undocumented. This study endeavors to identify the least toxic among the effective cryoprotectant agents by observing and comparing their toxic effects on sperm motility under varying concentrations and duration of exposure. Sperm samples were exposed during controlled experiments, for 1, 3, 6, 9, 12 and 15 min durations, to each of the listed cryoprotectants at 5, 10, 15, and 20% (volume:volume) concentrations. Sperm motility was observed to diminish when exposed to all cryoprotectant solutions, and observations demonstrated that toxicity increased relative to both concentration and equilibration time. After 6 min of exposure to the cryoprotectants, sperm motility was seen to have diminished significantly in DMSO at just 5% concentration, and in MET, PG and EG at 10% concentrations, respectively (the values of the lowest observed effect concentrations). The relationship between the quantity of immotile sperm and the cryoprotectant concentration was described using the logarithmic regression equation. MET exhibited the lowest effective concentration required to inhibit sperm motility by 50% (EC₅₀), followed by EG, PG and DMSO, in order. Therefore, MET proved most toxic under the test conditions for sperm of P. fucata martensii, whereas DMSO, PG and EG were observed as comparatively safer, suggesting that DMSO, PG and EG warrant further study in the application of cryopreservation of Chinese P. fucata martensii sperm.