Cryopreserved neurons of a mollusc are capable of morphological differentiation in culture in vitro

It was shown in culture in vitro that neurons isolated from the cryopreserved brain of adult molluscs Lymnaea stagnalis L. retain viability. Isolated brains were frozen in liquid nitrogen vapors at a rate of 400-500 degrees C/min in the presence of 2 M dimethylsulfoxide. The samples were then plunged into liquid nitrogen and stored from 1 month to 2 years. Upon thawing and removing the cryoprotectant, the neurons were isolated from the brain and then introduced into a cellular culture in vitro. It was shown that the thawed neurons were capable of regenerating new nerve processes similar to those formed by unfrozen neurons in the control.     

The viability of deep-frozen cow embryos

Day 7 cow embryos were frozen in 1.5 M-DMSO in PBS at 0.3 degrees C/min to -36 degrees C and at 0.1 degrees C/min between -36 and -60 degrees C before being plunged directly into liquid nitrogen. They were subsequently thawed (rapidly to -50 degrees C, at 4 degrees C/min from -50 to -10 degrees C, and rapidly again) to room temperature. Embryonic viability was tested by four different transfer techniques. Maximum pregnancy rate (8/12) was obtained with surgical transfer immediately after thawing and dilution of DMSO.     

Two step freezing of cow embryos in 1.4 M glycerol

Day 6 1 2 -7 1 2 cow embryos were frozen in 1.4 M glycerol in PBS, at 0.3 degrees C/min to -30 (group I), -35 (group II), and -40 degrees C (group III) before being plunged into liquid nitrogen. They were subsequently thawed by direct transfer to water at 37 degrees C. In Experiment I, embryos frozen and thawed were cultured in vitro, 12 out of 19 embryos (63%) survived and there were no significant (p > 0.05) differences in survival rates among the three freezing groups. In Experiment II, 29 embryos frozen to -30 or -35 degrees C were transferred non-surgically to heifers on day 7. Seventeen of 29 recipients (59%) were pregnant at day 60. Five embryos frozen to -35 degrees C resulted in 5 pregnancies (100%) after thawing and surgical transfer.     

Gradual Thawing Improves the Preservation of Cryopreserved Arteries

This study was designed to test a slow, controlled, automated process for the thawing of cryopreserved arteries, whereby specimen warming is synchronized with the warming of its environment. Segments of minipig iliac artery, 4-5 cm in length, were subjected to controlled, automated cryopreservation in a biological freezer at a cooling rate of 1 degrees C/min to -120 degrees C, followed by storage in liquid nitrogen at -196 degrees C for 30 days. Following storage, the arterial segments were subjected to rapid (warming rate of approximately 100 degrees C/min) or gradual (1 degrees C/min) thawing. Thawed specimens were processed for light microscopy and for scanning and transmission electron microscopy, Cell death was determined by the TUNEL method. Metalloproteinase (MMP) expression was estimated by immunohistochemical analysis. Most of the cryopreserved vessels subjected to rapid thawing showed spontaneous fractures, mainly microfractures, whereas these were absent in slowly thawed specimens. In rapidly thawed vessels, the proportion of damaged cells was double that observed in those thawed more gradually. Increased intensity and extent of MMP-2 expression was shown by rapidly thawed specimens. The slow-thawing protocol tested avoids the formation of spontaneous fractures and microfractures and the accumulation of fluid within the arterial wall tissue. This results in improved tissue preservation.     

Microbiological analysis of cryopreserved human heart valves after storage: a survey of 3 banks in Spain

Several reports have shown liquid nitrogen containers as not being sterile. Microorganism transmission has been observed in different cells and tissues stored under this condition, but there is no data on contamination of stored human valves. We performed a survey on heart valve banking in Spain. Regarding the questionnaire, we have a complete microbiological analysis of 304 thawed tissues prior to implant. In six cases positive culture results were observed. Patient follow-up did not reveal any adverse effects. Although some other possibilities should be stated, contamination of heart valves during storage in liquid nitrogen should be considered as a risk element in tissue banking. Strategies to asses and prevent microbial transmission from liquid nitrogen to heart valve banking ought to be further developed.     

Fast freezing of cow embryos in French straws with an automatic program

Cow embryos between day 6.5 and 9 were frozen in 1.5M DMSO in PBS at 2 degrees C/min from seeding to -25 degrees C before being plunged into liquid nitrogen directly or after 10 min at -25 degrees C. Cooling rate from 20 degrees C to -5 degrees C was 9 degrees C/min. Seeding was induced automatically at -5 degrees C by injection of liquid nitrogen vapour. Embryos were subsequently thawed by direct transfer to water at 20 degrees C (group I) or at 37 degrees C (group II). Survival was assessed by culture in vitro and by transfer. In group I, 35.7% were degenerated after thawing (compared to 35.4% in group II). Survival rate after culture in vitro for 24h was not significantly different (48.3% vs 42.8%) and hatching rate after 96h culture was quite similar (33.3% vs 34.4%). In group II, four pregnancies were obtained from 10 embryos transferred. Time at -25 degrees C did not improve the results. Automatic seeding did not impair survival. These results show that the quality of the embryo is the determinant factor for survival after freezing and that the plastic straw is the most suitable vessel for freezing, storage and transfer of embryos.     

Long-term cryopreservation of sperm from Mandarin fish Siniperca chuatsi

In order to develop cryopreservation techniques for long-term preserving the sperm of Mandarin fish Siniperca chuatsi, we examined the effects of various extender and cryopreservation on post-thaw motility. We found the optimal freezing procedures for the Mandarin fish sperm is diluting the semen in D-15 extender, chilling it to 4 degrees C, adding ME2SO to a final concentration of 10% (v/v), then transferring the semen in cryotubes, holding the cryotubes for 10 min at 6 cm (about -180 degrees C) above the surface of liquid nitrogen, for 5 min on the surface of liquid nitrogen, and finally plunged into liquid nitrogen. After thawed at 37 degrees C for 60s, the sperm had the highest post-thaw motility (96.00+/-1.73%). The optimal fertilization procedures for the frozen sperm is mixing the eggs with sperm, then adding 1 ml of swimming medium (SM=45 mM NaCl+5 mM KCl+20mM Tris-HCl, pH 8.0) immediately. At the sperm/egg ratio of 100,000:1, the fertilization rate and the hatching rate of the frozen sperm cryopreserved for 1 week or 1 year in liquid nitrogen (66.01+/-5.14% and 54.76+/-4.40% & 62.97+/-14.28% and 52.58+/-11.17%) were similar to that of fresh sperm (69.42+/-8.11% and 59.82+/-5.27%) (p>0.05). This is the first report that the Mandarin fish (S. chuatsi) sperm can successfully fertilized eggs after long-term cryopreservation.     

人胚胎干细胞程序降温保存的实验研究

本文采用升降式程序降温仪对人胚胎干细胞进行了程序降温保存,并探讨和比较了降温速率、置核温度、保护剂和投入液氮前温度对冻存复苏后胚胎干细胞的存活率、活力及分化特性的影响。结果表明：采用Me2SO 血清 DMEM(体积比为1：3：6)的保护剂,从0℃开始,以0．5℃／min的速率对细胞悬液降温;至-10℃时对其进行置核,并于-35℃时将其快速投入液氮中保存,复温后效果最佳。冻存复温后细胞存活率可达81．8％,复苏后的胚胎干细胞形态和集落生长方式都与冻前的生长形态相同,且胚胎干细胞标志之一碱性磷酸酶(AKP)反应阳性,同时染色体组型仍正常。     

Direct freezing of cattle embryos after partial dehydration at room temperature

A new and simple method for freezing of bovine morulae and blastocysts was developed. Embryos were predehydrated at room temperature, frozen at -30 degrees C (cooling rate = 12 degrees C/min), and plunged into liquid nitrogen. This method was compared in vitro and in vivo to the slow freezing method (0.3 degrees C/min to -30 degrees C). Predehydration of the embryos in 1.5M glycerol was achieved by sucrose solution that makes the cells osmotically shrink. After the predehydrated morulae and blastocysts were frozen and thawed, 6 .4% (33 52 ) were developed in vitro for 48h and 44.2% (23 52 ) were hatched. Development obtained with slowly frozen embryos were 70.8% (17 24 ) and 58.3% (14 24 ) respectively. After transfer to recipient heifers, 33.3% (7 21 ) of the embryos frozen according this new method developed normally into viable foetuses or calves. This was the case for 48.5% (16 33 ) of the slowly frozen embryos.     

Methanol as a cryoprotectant for equine embryos

Equine embryos (n=43) were recovered nonsurgically 7-8 days after ovulation and randomly assigned to be cryopreserved in one of two cryoprotectants: 48% (15M) methanol (n=22) or 10% (136 M) glycerol (n=21). Embryos (300-1000 microm) were measured at five intervals after exposure to glycerol (0, 2, 5, 10 and 15 min) or methanol (0, 15, 35, 75 and 10 min) to determine changes (%) in diameter over time (+/-S.D.). Embryos were loaded into 0.25-ml plastic straws, sealed, placed in a programmable cell freezer and cooled from room temperature (22 degrees C) to -6 degrees C. Straws were then seeded, held at -6 degrees C for 10 min and then cooled to -33 degrees C before being plunged into liquid nitrogen. Two or three embryos within a treatment group were thawed and assigned to be either cultured for 12 h prior to transfer or immediately nonsurgically transferred to a single mare. Embryo diameter decreased in all embryos upon initial exposure to cryoprotectant. Embryos in methanol shrank and recovered slightly to 76+/-8 % of their original diameter; however, embryos in glycerol continued to shrink, reaching 57+/-6 % of their original diameter prior to cryopreservation. Survival rates of embryos through Day 16 of pregnancy were 38 and 23%, respectively (P>0.05) for embryos cryopreserved in the presence of glycerol or methanol. There was no difference in pregnancy rates of mares receiving embryos that were cultured prior to transfer or not cultured (P>0.05). Preliminary experiments indicated that 48% methanol was not toxic to fresh equine embryos but methanol provided no advantage over glycerol as a cryoprotectant for equine blastocysts.     

A new procedure for the cryopreservation of equine embryos

Early equine blastocysts and blastocysts were collected nonsurgically at six days post-ovulation. Thirty-two embryos were randomly assigned to a 2x2 factorial design. Factors were: 1) 0.5-ml straws or 1-ml glass ampules; and 2) plunging into liquid nitrogen (IN(2)) at -33 C or -38 C. Cryoprotectant, 10% glycerol in PBS plus 5% fetal calf serum (FCS) was added in two steps, 5% then 10%. Embryos were cooled at 4 C/min to -6 C and then seeded, 0.3 C/min to -30 or -35 C and 0.1 C/min to -33 or -38 C. Samples were thawed in 37 C water and glycerol removed in six steps, 10 min per step. Embryo quality and stage of development were evaluated prior to freezing, immediately post-thaw and after 24 h culture in Ham's F10 with 5% FCS. The mean post-thaw quality of embryos plunged at -33 C was superior (P<0.05) to that of embryos plunged at -38 C (2.0 vs 2.9). Embryos frozen in ampules and plunged at -38 C were of poorer quality (P<0.05) than those frozen in ampules and plunged at -33 C or frozen in straws and plunged at -33 C. After 24 h of culture, more embryos developed if frozen in straws compared to ampules, and plunging at -33 C resulted in higher quality embryos than plunging at -38 C. In Experiment 2, 23 embryos were packaged in straws and plunged at -33 C as described in Experiment 1. Six of the 23 surgically transferred frozen embryos were degenerate at thawing and the remaining 17 surgically transferred were via flank incision. Pregnancy rate at 50 days post-ovulation was 53% (nine of 17). Early blastocysts resulted in a higher (P<0.05) pregnancy rate (8 10 , 80%) than expanded blastocysts (1 7 , 14%).     

Effect of reduced concentrations of glycerol and various macromolecules on the cryopreservation of mouse and cattle embryos

The effect of different macromolecules [bovine serum albumin (BSA), Pluronic F-68, (ET surfactant), or sodium hyaluronate (SH)] on postthaw survival of mouse morulae and in vivo- and in vitro-derived bovine blastocysts frozen in 10, 5, or 1% glycerol solutions was investigated. Embryos were equilibrated with cryoprotectant solution at 25 degrees C for 10 min, seeded at -5 degrees C, cooled at 0.5 degrees C/min to -35 degrees C, and plunged into liquid nitrogen. Embryos were thawed in a 35 degrees C water bath, glycerol was removed with 0.6 M sucrose at 25 degrees C for 5 min, and postthaw viability was evaluated after 1, 24, and 48 h in culture. The addition of BSA supplementation improved postthaw survival of mouse morulae frozen in 5% glycerol, but not in 10% glycerol. All three macromolecular supplements were effective in increasing survival of mouse morulae in 5% glycerol but only BSA and SH were effective in increasing postthaw survival of in vivo- and in vitro-derived bovine blastocysts. None of the macromolecular supplements improved postthaw survival of embryos frozen in 1% glycerol.     

Effects of cooling and warming conditions on post-thawed motility and fertility of cryopreserved buffalo spermatozoa.

The principal objective of this study was to derive an improved procedure for cryopreservation of swamp buffalo (Bubalus bubalis) spermatozoa. Experiments were conducted to determine effects of cooling rate, intermediate plunge temperature and warming rate on motility and acrosome integrity of spermatozoa. Spermatozoa were obtained from three bulls (three ejaculates/bull) and were subjected to nine cooling conditions before being frozen in liquid nitrogen: cooling at 10, 20, or 30 degrees C/min each to -40, -80, or -120 degrees C before being plunged into liquid nitrogen. The spermatozoa frozen under a given condition were then thawed either at 1000 or 200 degrees C/min. Cooling rate, intermediate temperature and warming rate significantly affected survival of spermatozoa obtained from the three bulls. Cooling spermatozoa from 4 to -120 degrees C either at 20 or 30 degrees C/min yielded better progressive motility compared to other cooling conditions (50 versus 30%). Rapid warming was superior to slow warming. In an additional study, motility and fertility of spermatozoa frozen after being cooled to -120 degrees C at 20 degrees C and 30 degrees C/min and those frozen by a standard protocol used routinely for semen processing were assessed. Progressive motility of cryopreserved spermatozoa cooled at 20 degrees C and 30 degrees C/min was 40%, while that of spermatozoa cryopreserved using a standard protocol was 25%. A total of 178 buffalo cows were inseminated with cryopreserved spermatozoa obtained from one bull, and their pregnancy status was assessed 60 days later by rectal palpation. Out of the 60, 26 (43%) and 23 of 58 (40%) cows inseminated with sperm cooled at 20 and 30 degrees C/min, respectively, became pregnant, whereas 17 of 60 (28%) cows inseminated with sperm frozen by a standard protocol became pregnant. This study demonstrates that an effective cryopreservation procedure for buffalo spermatozoa can be derived by systematic examination of various cryobiological factors.     

Penetration by bull spermatozoa into the zona pellucida of dead bovine oocytes recovered from frozen-thawed ovaries

The present study was carried out to determine if the zona pellucida of dead bovine oocytes obtained from ovaries stored at -196 degrees C could be used to assess penetrability of capacitated bull spermatozoa. Follicular oocytes were recovered from bovine ovaries which were frozen slowly in a box containing dry ice, plunged into liquid nitrogen, and thawed at 37 degrees C. The dead oocytes were inseminated with various concentrations of spermatozoa preincubated for 0 to 4 h. Sperm penetration rates of the dead oocytes were significantly altered by sperm concentration and preincubation time. Dead and living oocytes matured in vitro (control) gave similar patterns of penetrability based on sperm preincubation time. When sperm concentration was increased, the rate of multiple sperm penetration into the dead oocytes also increased significantly, but the rate of penetration into living oocytes did not alter significantly. All dead oocytes from ovaries stored at -196 degrees C for 1 d to 3 mo were penetrated at similar rates by spermatozoa preincubated for 1-h. Thus, we conclude that dead follicular oocytes recovered from frozen ovaries are useful for the assessment of sperm capacitation and/or the acrosome reaction in cattle.     

Cryopreservation of mouse oocytes using a medium with low sodium content: effect of plunge temperature

The effect of various combinations of plunge temperature and thawing protocol on the survival and viability of mouse oocytes was examined. The oocytes were frozen either in a standard freezing medium (ETFM, embryo transfer freezing medium) or in a low-sodium, choline-based freezing medium (CJ2), with 1.5 M 1,2-propanediol and 0.1 M sucrose, and using a conventional slow cooling method. The criteria used to assess survival were morphological state after thawing (intact or lysed), ability to become fertilized, and ability to develop to the two-cell, morula, and blastocyst stage in vitro. Oocytes frozen in CJ2 and plunged into liquid nitrogen (LN(2)) from -10, -20, or -33 degrees C remained intact and developed to the blastocyst stage at significantly higher rates than oocytes frozen in ETFM. For oocytes plunged into LN(2) from -33 degrees C, very rapid thawing (10 s in 30 degrees C water) was more detrimental than rapid or slow thawing (holding in air at room temperature for 10 or 30 s, respectively, prior to submersion in water at 30 degrees C for 10 s). By contrast, oocytes plunged into LN(2) from -10 or -20 degrees C survived better when thawing was very rapid or rapid than when thawing was slow. With the current protocol CJ2 was very effective over a wide range of plunge temperatures (-20 to -33 degrees C), although the optimal thawing protocol depended on the particular plunge temperature. Over 90% of oocytes surviving after slow cooling in CJ2 to -33 degrees C could be plunged to -196 degrees C with little or no further damage.     

A comparative study of mouse embryo freeze-preservation including the examination of a thermoelectric freezing device

In Study 1 over 2000 4- to 8-cell mouse embryos were randomly pooled and assigned to 1 of 12 treatment groups. A 2 X 2 X 3 factorial design was used to analyze two types of cryoprotectant/post-thaw (PT) dilutions (dimethyl sulfoxide [Me2SO]/stepwise dilution versus glycerol/sucrose dilution), two storage containers (glass ampoules versus plastic straws), and three cooling treatments. Two commercial, controlled-rate freezing machines were examined, employing either nitrogen gas (Planer) or thermoelectric (Glacier) cooling. Embryos were cooled slowly (0.5 degrees C/min) to -35 or -80 degrees C and then cooled rapidly by transfer into liquid nitrogen (LN2). Thawed embryos were cultured for 24 hr after which developmental stage, post-thaw survival (PTS), embryo degeneration rate (EDR), quality grade (QG), and fluorescein diacetate viability grade (VG) were assessed. Overall, PTS and EDR were similar (P greater than 0.05) among the three freezing unit/plunge temperature treatments. Cumulative results of container and cryoprotectant/PT dilution treatments consistently demonstrated greater PTS, QG, and VG ratings and lower EDR values when embryos were frozen in ampoules using glycerol/sucrose dilution. Embryos treated with Me2SO/stepwise dilution were particularly sensitive to freezing damage when stored in plastic straws and plunged into LN2 at -35 degrees C. Study 2 was directed at determining whether Study 1 methods for diluting Me2SO-protected embryos markedly affected PTS rates. Post-thaw culture percentages were no different (P greater than 0.05) for four- to eight-cell Me2SO-treated embryos frozen in ampoules (using the forced-LN2 device), thawed, and diluted either conventionally in reduced concentrations of Me2SO or in the sucrose treatment normally accorded glycerolated embryos.(ABSTRACT TRUNCATED AT 250 WORDS)     

Pregnancy rate and survival in culture of in vitro fertilized bovine embryos frozen in various cryoprotectants and thawed using a one-step system

Bovine oocytes surrounded with compact cumulus cells were cultured for 20 to 22 hours (38.5 degrees C, 5% CO(2)) in modified TCM-199 medium supplemented with 5% superovulated cow serum (SCS) and inseminated by in vitro capacitated spermatozoa. Day 7 to 8 embryos were equilibrated for 10 minutes in 1.3 M methyl cellosolve (MC), 1.1 M diethylene glycol (DEG), 1.8 M ethylene glycol (EG), 1.6 M propylene glycol (PG) and 1.1 M 1, 3-butylene glycol (BG) solutions. They were then loaded into 0.25-ml straws, placed into an alcohol bath freezer at 0 degrees C, cooled from 0 degrees C to -6 degrees C at -1 degrees C/minute, seeded, held for 10 minutes, and cooled again at -0.3 degrees C or -0.5 degrees C/minute to -30 degrees C. Straws were then plunged and stored in liquid nitrogen. After thawing in 30 degrees C water, the embryos were rehydrated in TCM-199 medium and then cultured for 48 hours in TCM-199 plus 5% SCS. Embryos were considered viable if they progressed to later developmental stages with good morphology. Some of the embryos frozen in each cryoprotectant were thawed and transferred nonsurgically without removing the cryoprotectant. Hatched embryos survived freezing and one-step dilution as follows: EG (50.0%), MC (53.6%), DEG (56.9%), PG (58.0%) and BG (11.5%). The survival rate of embryos cooled at -0.3 degrees C vs -0.5 degrees C/minute was not significantly different (P>0.05), however, blastocysts hatched most often (P<0.01) in vitro when cooled at a rate of -0.3 degrees C/minute (64.6%, 31 48 ) than at -0.5 degrees C/minute (22.6%, 12 53 ). Pregnancy rates resulting from embryos frozen in the different cryoprotectants were as follows: MC (48%, 10 21 ); DEG (30%, 3 10 ); EG (74%, 20 27 ); and PG (40%, 4 10 ). These results indicate that MC, DEG, EG and PG have utility as cryoprotectants for the freezing and thawing of IVF bovine embryos.     

Laboratory studies of cryopreservation of sperm and trochophore larvae of the eastern oyster

The eastern oyster, Crassostrea virginica, is the most important cultured oyster species of the Atlantic and Gulf coasts of the United States. Cryopreservation of gametes and larvae of aquatic organisms has increased in importance in recent years. However, studies on the cryopreservation of sperm and larvae of mollusks have focused on the Pacific oyster, Crassostrea gigas. The present study was conducted to improve cryopreservation of sperm and trochophore larvae and to assess fertilizing ability and male-to-male variation of thawed sperm of the eastern oyster. Sperm were diluted in 12 cryoprotectant solutions composed of Hanks' balanced salt solution without calcium and 0, 5, 10, 15, 20, and 25% (v/v) propylene glycol with or without 0.25 M sucrose. Trochophore larvae were suspended in artificial seawater and 10 or 15% propylene glycol (v/v). Sperm or trochophore larvae were placed in 5-mL macrotubes and allowed to equilibrate for 15 min. The macrotubes were cooled in a controlled-rate freezer at a rate of 2.5 degrees C per min until reaching a final temperature of -30 degrees C and were plunged into liquid nitrogen. After storage for 2 weeks, the samples were thawed in a water bath at 70 degrees C for 15 s. Overall, for cryopreservation of sperm and larvae, best results were obtained using 10 or 15% propylene glycol. Thawed sperm presented significant male-to-male variation in fertilizing ability. Survival of thawed larvae decreased as the concentration of larvae per macrotube increased. The procedures developed in this study for sperm and larvae are suitable for production of seedstock in commercial oyster hatcheries.     

Effect of rapid addition and dilution of dimethyl sulfoxide and 37 degrees C equilibration on viability of rabbit morulae thawed rapidly

The aim of the present study was to examine the effects of various conditions of addition and dilution of dimethyl sulfoxide (Me2SO) and 37 degrees C equilibration, and also the effects of freezing in the solution which was prepared in advance and stored in plastic straws at -20 degrees C on the viability of rabbit morulae thawed rapidly. The embryos were cooled from room temperature to -30 degrees C at 1 degree C/min in the presence of 1.5 M Me2SO using a programmable liquid nitrogen vapor freezing machine with an automatic seeding device, then cooled rapidly, and stored in liquid nitrogen. The frozen straws were thawed rapidly (greater than 1000 degrees C/min). When Me2SO was added in a single step, equilibrated with embryos at 37 degrees C for 15 min and diluted out in a single step, a very high survival was obtained: transferable/recovered, 90%: developed/recovered, 96%. When embryos were pipetted into 1.5 M Me2SO that was prepared in advance, stocked in straws at -20 degrees C, and cooled, the proportions of transferable and developed embryos were equivalent to those of embryos frozen in the solution that was prepared immediately before use.     

Evaluation of cryopreservation techniques for bovine embryos

A total of 228 embryos was nonsurgically collected from superovulated cows and dehydrated in dimethyl sulfoxide (DMSO) or glycerol by a three-step procedure or a (T.I.T.) timed interval titration procedure. Embryos were loaded in straws, frozen by cooling to -6.0 degrees C at 1.0 degrees C/min, and seeded, followed by cooling to -30 degrees C at 0.3 degrees C/min and to -38 degrees C at 0.1 degrees C/min. At this time the straws were plunged into liquid nitrogen at -195 degrees C. Embryos were thawed in a 27 degrees C or 37 degrees C water bath and rehydrated by a six-step, three-step (sucrose) or one-step (sucrose) procedure. This yielded a 2 x 2 x 2 x 3 factorial treatment structure. Survival was based on development after 12 h in in vitro culture. The only significant single factor affecting survival was the initial quality grade of the embryo. Grades 1 and 2 embryos survived more often than Grade 3 embryos (P < 0.05). Using DMSO as the cryoprotectant resulted in better scores for the post dehydration to post thawing interval (P = 0.02). For both intervals, post dehydration to post thawing and post thawing to post rehydration, the previous quality grade was significant in determining the subsequent quality grade (P < 0.01). At each step of the freeze-thaw process, the embryos became progressively less morphologically intact.