101 EFFECT OF NITROCOOLER NEGATIVE PRESSURE AND RECOVERY INTERVAL ON CRYOTOLERANCE OF BOVINE IN VITRO-PRODUCED EMBRYOS

2010 ◽  
Vol 22 (1) ◽  
pp. 210 ◽  
Author(s):  
J. C. Mezzalira ◽  
L. U. Ohlweiler ◽  
M. Urio ◽  
S. G. Neto ◽  
L. R. Marinho ◽  
...  
Keyword(s):  
Liquid Nitrogen ◽  
Negative Pressure ◽  
Short Exposure ◽  
Time Interval ◽  
Hatching Rate ◽  
Chi Square ◽  
Embryo Survival ◽  
Pressure Stress ◽  
Hatching Rates

Exposing bovine embryos and porcine oocytes to hydrostatic pressure has been shown to increase cryosurvival, possibly by a resulting expression of stress tolerance proteins. This study aimed to evaluate the effect of the negative pressure stress condition (a 5-min-long embryo exposure to a negative pressure) and the interval between vacuum exposure and vitrification (40 min or 2 h) on survival of bovine in vitro-produced (IVP) embryos. The negative pressure was achieved with the same apparatus used previously for the cryopreservation of embryos (Nitrocooler; Mezzalira et al. 2009 Reprod. Fert. Dev. (1) 134), in which a negative pressure (vacuum) is applied to liquid nitrogen to increase the cooling rate through the slush phenomenon, except that in this study, the vacuum was applied to the chamber without liquid nitrogen, at room temperature. Grades 1 and 2 bovine IVP expanded blastocysts were allocated to 1 of 5 experimental groups: embryos in vitro-cultured as fresh (control) or after vitrification (Vitri); and embryos subjected to the negative pressure for 5 min and then in vitro-cultured as fresh (NP-fresh) or after vitrification performed 40 min (NP-Vitri-40 min) or 2 h (NP-Vitri-2h) following the vacuum exposure. Embryos were vitrified in pulled glass micropipettes in a solution with 20% ethylene glycol + 20% dimethylsulfoxide + 20% fetal bovine serum and rewarmed in decreasing sucrose concentrations (Mezzalira et al. 1999 Acta Scientiae Veterinariae 27 262-262). In vitro culture was carried out in all treatments for 72 h for the assessment of re-expansion and hatching rates (Table 1), which were analyzed by the chi-square test, for P < 0.05. No differences in re-expansion rates were observed between groups. However, the vitrification of embryos after 2 h of exposure to a 5-min-long negative pressure (NP-Vitri-2h) improved embryo survival expressed by a higher hatching rate than for embryos vitrified without vacuum exposure (Vitri) or after 40 min following the 5-min-long exposure to vacuum. In addition, hatching rates in group NP-Vitri-2h were similar to those for fresh embryos (control and NP-fresh). Our results indicated that a short exposure of embryos to a negative pressure can improve cryotolerance following vitrification, which is dependent on the time interval between NP exposure and cryopreservation. Bovine IVP embryos should be allowed to recover for at least 2 h after NP exposure before the increase in cryotolerance is achieved. Table 1.Effect of negative pressure on re-expansion and hatching rates of fresh and vitrified

106 EFFECT OF GLYCEROL AND ETHYLENE GLYCOL ON THE DEVELOPMENT OF IN VITRO BOVINE EMBRYOS

2006 ◽  
Vol 18 (2) ◽  
pp. 161
Author(s):  
A. C. Nicacio ◽  
R. Simões ◽  
M. A. Peres ◽  
J. S. A. Gonçalves ◽  
M. E. O. D'Ávila Assumpção ◽  
...  
Keyword(s):  
Ethylene Glycol ◽  
Cell Monolayer ◽  
Control Group ◽  
Hatching Rate ◽  
Bovine Embryos ◽  
Embryo Viability ◽  
Chi Square ◽  
Chi Square Test ◽  
Hatching Rates

The aim of this study was to evaluate the viability of in vitro-produced bovine embryos after exposure to different cryoprotectant solutions and cryopreservation. Bovine ovaries were collected at slaughterhouse and oocytes were matured, fertilized, and cultured in vitro. The embryos were co-cultured on a granulosa cell monolayer in SOF + 5% FCS and nonessential amino acids. In Experiment 1, expanded blastocysts were exposed to 10% ethylene glycol (EG) solution for 10 min (Group EG) or to 10% EG solution for 10 min and to 20% EG + 20% glycerol (Gly) solution for 30 s (Group EG/Gly). Cryoprotectants were diluted with PBS + 0.2% BSA + 0.3 M sucrose and PBS + 0.2% BSA solutions, both for 3 min, and the hatching rate was evaluated after culture. In Experiment 2, after exposure, EG Group was cryopreserved by slow freezing procedure (1.2�C/min) and EG/Gly Group was vitrified on nitrogen vapor for 2 min. After thawing, cryoprotectants were diluted using PBS + 0.2% BSA + 0.3 M sucrose and PBS + 0.2% BSA solutions, both for 3 min; hatching rate was evaluated after culture. As a control group for both experiments, non exposed embryos were cultured and evaluated for hatching rate. In Experiment 1, the hatching rates were 59.72% (43/72) for control, 62.38% (63/101) for EG, and 69.00% (69/100) for EG/Gly groups. In Experiment 2, hatching rates were 59.72% (43/72) for control, 15.22% (7/46) for EG, and 0.00% (0/46) for EG/Gly groups. Results were analyzed by chi-square test. In Experiment 1, no differences were observed among groups (P > 0.05) and in Experiment 2, differences were observed among control, EG, and EG/Gly groups (P < 0.05). In conclusion, the cryoprotectants were not deleterious to the development of in vitro bovine embryos until hatching, but the cryopreservation procedures decreased embryo viability. This work was supported by FAPESP 04/05335-1.

135 IN VITRO DEVELOPMENT OF IN VIVO PRODUCED EMBRYOS FROZEN AT MORULA OR BLASTOCYST STAGES

2008 ◽  
Vol 20 (1) ◽  
pp. 148
Author(s):  
R. Sartori ◽  
G. M. Machado ◽  
M. M. Guardieiro ◽  
M. R. Bastos ◽  
L. Leme ◽  
...  
Keyword(s):  
Ethylene Glycol ◽  
Liquid Nitrogen ◽  
Zebu Cattle ◽  
Hatching Rate ◽  
Chi Square ◽  
Fluid Medium ◽  
Chi Square Test ◽  
Fresh Embryos

This study was designed to compare cryotolerance between morulae and blastocysts collected from superovulated heifers. Twenty pubertal beef heifers (10 Nelore and 10 crossbred Nelore � Simmental) were superovulated with 100 mg of FSHp (Folltropin-V, Bioniche, Ontario, Canada), and embryos were collected and evaluated 7 days after estrus. Grades 1 and 2 embryos (IETS) were divided into four groups: morulae cryopreserved (MC) in liquid nitrogen (n = 24); blastocysts cryopreserved (BC; n = 19); morulae fresh (MF; n = 23); and blastocysts fresh (BF; n = 18). For freezing, embryos were immersed in ethylene glycol (Ethylene Glycol Freeze Plus with 0.1 m sucrose, Bioniche, Pullman, WA, USA), and a standard protocol (cooling rate of –0.5�C/min) was used. Prior to in vitro culture, embryos were removed from nitrogen, kept at room temperature for 5 s, and put in a water bath at 30�C for 20 s. Within 5 h after recovery, thawed and fresh embryos were washed five times in holding solution (Holding Plus, Bioniche), transferred to synthetic oviduct fluid medium (SOF, Nutricell, Campinas, SP, Brazil), and cultured for 72 h. Embryos were evaluated at 48 and 72 h of culture. After the last evaluation, degenerate and non-hatched embryos were removed from culture, and the remaining embryos were measured by a graduated ocular coupled to the Motic Images Plus 2.0 program. Hatched blastocysts were kept in culture for an additional 48 h for post-hatching development assessment. For post-hatching culture PHD medium (Brand�o DO et al. 2005 Biol. Reprod. 71, 2048–2055) was added into each well, to have a final composition of 50% SOF and 50% SOF PHD. At 120 h of culture (48 h of PHD culture) only morphologically normal blastocysts were measured. Comparison among groups was performed by ANOVA or chi-square test. Data are presented as mean � SEM. After 48 h of culture, hatching rate (%) was significantly lower in cryopreserved (MC = 8.3 and BC = 21.5) than in fresh (MF = 56.5 and BF = 77.8) embryos (P < 0.05). However at 72 h, hatching rate was similar among BC (75.9), MF (78.3), and BF (88.9), being MC (41.7) still lower (P < 0.05). The diameter (µm) of hatched embryos after 72 h of culture was 272.8 � 27.1a (n = 8), 320.6 � 18.6ab (n = 14), 385.3 � 14.2c (n = 17), and 378.0 � 22.0bc (n = 16) for MC, BC, MF, and BF, respectively (a–cP < 0.05). After 120 h of culture, the diameter of MC (379.0 � 39.9; n = 8), although similar to BC (495.4 � 59.6; n = 10), was smaller than MF (509.1 � 36.5; n = 11) and BF (511.8 � 41.2; n = 14). The results of this study with zebu cattle suggest that morulae are less resistant to cryopreservation in liquid nitrogen than blastocysts. Moreover, frozen/thawed embryos, when put in culture, present a slower development compared with fresh embryos. Financial support from CNPq and FAPESP from Brazil.

130 EFFECT OF HYALURONIC ACID SUPPLEMENTATION ON OVINE EMBRYO DEVELOPMENT IN VITRO AND ON SURVIVAL AFTER VITRIFICATION

2013 ◽  
Vol 25 (1) ◽  
pp. 212
Author(s):  
J. M. Kelly ◽  
D. O. Kleemann ◽  
S. K. Walker
Keyword(s):  
Hyaluronic Acid ◽  
Embryo Development ◽  
Hatching Rate ◽  
Control Medium ◽  
Blastocyst Formation ◽  
Blastocyst Development ◽  
Embryo Survival ◽  
Development In Vitro ◽  
Hatching Rates

Studies have shown that supplementation with hyaluronic acid (HA), a glycosaminoglycan found in mammalian follicular, oviduct, and uterine fluids, improves in vitro development and post-thaw survival of bovine embryos. In this study, we examined the effect of HA supplementation on ovine embryo development and on survival after vitrification using the minimum volume cooling (MVC) cryotop method. Abattoir sourced ovine oocytes were in vitro matured and fertilized as per routine procedures (Walker et al. 1996 Biol. Reprod. 55, 703–708). In Experiment 1 (5 replicates), presumptive zygotes were randomly allocated to IVC medium supplemented with 0.8 mg mL–1 BSA, amino acids, and 0, 0.5, 1.0, 1.5 or 2.0 mg mL–1 HA. Cleavage rates were recorded and blastocyst development evaluated on Day 7 (Day 0 = day of IVF). In Experiment 2 (3 replicates), presumptive zygotes were placed in in vitro culture (IVC) medium with or without 1.0 mg mL–1 HA. Embryos were vitrified using the MVC cryotop method (Kelly et al. 2004 Reprod. Fert. Dev. 16, 172) on either Day 5 (morula–blastocyst stages), Day 6 (compact morula–hatching blastocyst stages), or Day 7 (blastocyst–hatching blastocyst stages). Vitrified embryos were thawed 7 days later and placed into IVC medium. Embryo survival (assessed by blastocoele re-expansion) and hatching rates were recorded on Day 8. Variables were assessed using procedure CATMOD in SAS (SAS Institute Inc., Cary, NC, USA). In Experiment 1, the addition of HA did not affect cleavage or blastocyst formation rates but hatching rates were significantly (P < 0.05) improved at concentrations of 0.5 to 1.5 mg mL–1 (Table 1). In Experiment 2, HA supplementation (1.0 mg mL–1) compared with control medium did not affect cleavage (96.8 and 97.1%, respectively) or blastocyst formation rates (68.6 and 70.2%, respectively). HA significantly (P < 0.05) improved survival after thawing of embryos vitrified on Day 5 (100 v. 85.6%, n = 85 and 90). However no effect was observed when embryos were vitrified on either Day 6 (97.8 v. 97.8%, n = 91 and 92) or Day 7 (96.7 v. 97.9%, n = 92 and 94). Within day, HA supplementation did not affect hatching rate compared with control medium (Day 5, 54.1 v. 53.2%; Day 6, 62.9 v. 65.6%; Day 7, 71.9 v. 62.0%, respectively). These results demonstrate that HA supplementation of IVC medium significantly improves hatching rate of ovine embryos and we speculate that this improvement may correlate with comparable improvements in pregnancy rates after transfer. Hyaluronic acid binds to CD44, a glycoprotein expressed on the surface of preimplantation ovine embryos and shown to play a role on embryo development (Luz et al. 2012 Genet. Mol. Res. 11, 799–809). Hyaluronic acid plays a role in cell migration and we suggest that, in the early blastocyst, it affords an advantage to the trophectoderm cells. Table 1.Effect of hyaluronic acid (HA) supplementation in IVC medium on cleavage, blastocyst, and hatching rates

74 EFFECT OF BETA-MERCAPTOETHANOL ON THE VITRIFICATION CRYOTOLERANCE OF BOVINE IN VITRO-PRODUCED EMBRYOS

2009 ◽  
Vol 21 (1) ◽  
pp. 137
Author(s):  
E. S. Ribeiro ◽  
M. C. Gonçalves ◽  
M. C. Pedrotti ◽  
L. T. Martins ◽  
R. P. C. Gerger ◽  
...  
Keyword(s):  
Cell Number ◽  
Blastocyst Stage ◽  
High Humidity ◽  
In Vitro Production ◽  
Chi Square ◽  
Embryo Survival ◽  
Chi Square Test ◽  
Vitro Production ◽  
Hatching Rates

The control of oxidative processes in in vitro production (IVP) systems by the use of additives may be an alternative approach to improve embryo cryotolerance. The aim of this study was to verify the effect of β-mercaptoethanol (βME) on the cryotolerance of bovine IVP embryos. In 7 replications, and following IVM-IVF, presumptive zygotes (n = 3735) were in vitro-cultured in SOF medium supplemented or not with 100 μm βME (IVC treatment), at 38.5°C and high humidity. The initial 24 h of IVC was performed in 5% CO2 in air, with the remaining 6 days of IVC carried out in 5% CO2, 5% O2, and 90% N2. On Day 7, resulting blastocysts and expanded blastocysts were vitrified in glass micropipettes in a solution with 20% ethylene glycol + 20% propylene glycol. After warming, embryos were randomly allocated to 1 of 2 sub-groups for an additional 72 h of IVC to the hatching blastocyst (HBL) stage, in fresh SOF medium supplemented or not with 100 μm βME (PVC treatment), at 38.5°C, high humidity and 5% CO2. Experimental groups were as follows: G1 (βME-free medium during IVC and PVC); G2 (βME only during PVC); G3 (βME only during IVC); and G4 (βME during IVC and PVC). Cleavage (Day 2) and blastocyst (Day 7) rates in the IVC treatment and hatching rates (Days 7 to 9) for the PVC treatment were analyzed by the chi-square test, for P < 0.05. Total cell number (TCN) estimated by fluorescence staining in HBL derived from vitrified and nonvitrified embryos was analyzed by ANOVA. The use of βME during IVC did not affect cleavage rates (βME-free, 1491/1858, 80.2% v. βME, 1522/1877, 81.1%), but negatively affected development to the blastocyst stage (βME-free, 813/1858, 43.8% v. βME, 525/1877, 28.0%). Following vitrification, however, βME supplementation during PVC improved hatching rates (G2, 58.1% and G4, 63.8%) compared with groups without the additive (G1, 36.6% and G3, 42.0%). In addition, the presence of βME either during IVC or PVC, or during both culture periods, increased TCN in HBL from vitrified embryos (Table 1). The use of βME during IVC, irrespective of the presence of βME during the PCV period, caused an increase in TCN in HBL in G3 + G4, with no effects on hatching rates (Table 1b), whereas the addition of βME during PVC, irrespective of the presence of βME during the IVC period, resulted in greater hatching rates and TCN in HBL in G2 + G4 than in G1 + G3 (Table 1). In conclusion, the addition of βME during the IVC period did not affect cleavage, but reduced blastocyst yield. Despite that, βME supplementation during the IVC period appeared to have increased the cryotolerance of the resulting blastocysts, expressed by greater TCN in HBL, whereas βME supplementation during the PVC period also improved embryo survival to the vitrification process, manifested by greater hatching rates and TCN in HBL. Table 1.Effect of βME on the cryotolerance of bovine IVP embryos This study was supported by a grant from CNPq/Brazil.

EVALUATION OF DEVELOPMENT AFTER CRYOPRESERVATION OF IN VITRO-PRODUCED BOVINE EMBRYOS

2009 ◽  
Vol 21 (1) ◽  
pp. 136
Author(s):  
A. C. Nicacio ◽  
R. Simões ◽  
M. A. Peres ◽  
J. S. A. Gonçalves ◽  
F. F. Paula-Lopes ◽  
...  
Keyword(s):  
Liquid Nitrogen ◽  
Granulosa Cells ◽  
Embryo Cryopreservation ◽  
Control Group ◽  
Hatching Rate ◽  
Bovine Embryos ◽  
Quick Freezing ◽  
Group 10 ◽  
Hatching Rates

The inefficiency of embryo cryopreservation protocols limits the broad use of in vitro production (IVP) of bovine embryos. The aim of this work was to identify the damage caused by cryopreservation and embryo culture of IVP bovine embryos after thawing by in vitro development before and after cryopreservation. Cumulus–oocyte complexes were in vitro-matured, fertilized, and cocultured on granulosa cells in SOF with amino acids (SOFaa) supplemented with FCS. Expanded blastocysts (n = 600) harvested on Days 7 to 9 were submitted to controlled freezing [controlled group: 10% ethylene glycol (EG) for 10 min and 1.2°C min–1 cryopreservation], quick-freezing [quick group: 10% EG for 10 min, 20% EG + 20% glycerol (Gly) for 30 s], or vitrification [vitrification group: 10% EG for 10 min, 25% EG + 25% Gly for 30 s] protocols. The embryos of the control group were not exposed to cryoprotectant or cryopreservation method, and the hatching rate was evaluated on Day 12 post-insemination. The straws (quick and vitrification groups) were first placed on nitrogen vapor (0.8 cm over the liquid nitrogen) for 2 min and then immersed in liquid nitrogen. Embryos were thawed in air for 10 s followed by a 25°C water bath for 20 s. Embryos were rehydrated in PBS + 0.2% BSA + 0.3 m sucrose and PBS + 0.2% BSA for 3 min each. To evaluate development of frozen–thawed embryos, they were cocultured on granulosa cells in TCM-199 or SOFaa both supplemented with FCS for 4 days. Hatching rate of the control group was 46.1%. Data were analyzed by PROC MIXED model of SAS System for Windows®. For TCM-199, the controlled group hatching rate was 44.65 ± 5.94%, quick group did not hatch, and vitrification group showed hatching rates of 9.4 ± 6.8%. For SOFaa, the controlled group hatching rate was 11.6 ± 3.4%, embryos submitted to the quick group did not hatch, and the vitrification group showed hatching rates of 8.7 ± 4.5%. Values were significant at P < 0.05. The controlled group showed a difference compared with the other groups of cryopreservation in both media (TCM-199 and SOFaa). However, TCM 199 showed high rates of re-expansion and hatching. In conclusion, the culture medium influences embryo development after cryopreservation, and TCM-199 is more appropriate than SOFaa. Financial support by FAPESP (04/05335-1).

scholarly journals Oocyte Ageing in Zebrafish Danio rerio (Hamilton, 1822) and Its Consequence on the Viability and Ploidy Anomalies in the Progeny

Animals ◽  
2021 ◽  
Vol 11 (3) ◽  
pp. 912
Author(s):  
Swapnil Gorakh Waghmare ◽  
Azadeh Mohagheghi Samarin ◽  
Roman Franěk ◽  
Martin Pšenička ◽  
Tomáš Policar ◽  
...  
Keyword(s):  
Danio Rerio ◽  
Egg Quality ◽  
Complete Loss ◽  
Egg Viability ◽  
Embryo Survival ◽  
Hatching Rates

Fish egg quality can be markedly influenced by the oocyte age after ovulation. In this study, we examined the duration of oocyte ageing in the zebrafish (Danio rerio) and whether prolonged ageing is associated with the incidence of ploidy anomalies in the resulting embryos. Oocytes were incubated in vitro for 6 h post-stripping (HPS) at 26 °C and fertilized at 2-h intervals. Meanwhile, for eggs fertilized immediately after stripping, the fertilization, embryo survival, and hatching rates started at ~80%; these rates decreased to 39%, 24%, and 16%, respectively, for oocytes that had been stored for 4 h (p ˂ 0.05), and there was an almost complete loss of egg viability at 6 HPS. Furthermore, almost 90% of the embryos derived from 6-h aged oocytes died prior to hatching, and all larvae originating from 4- and 6-h aged oocytes showed malformations. The proportion of ploidy abnormal embryos was significantly greater at 4 HPS (18.5%) than at either 0 or 2 HPS (4.7% and 8.8%, respectively). The results revealed that zebrafish oocytes retained their fertilization potential for up to 2 h after stripping at 26 °C and indicated the contribution of post-ovulatory oocyte ageing in the occurrence of ploidy anomalies in the resulting embryos.

scholarly journals 183PREGNANCY RATE FOLLOWING TRANSFER OF IN VITRO- AND IN VIVO-PRODUCED BOVINE EMBRYOS TO LH-TREATED RECIPIENTS

2004 ◽  
Vol 16 (2) ◽  
pp. 213 ◽  
Author(s):  
J. Small ◽  
M. Colazo ◽  
D. Ambrose ◽  
R. Mapletoft ◽  
J. Reeb ◽  
...  
Keyword(s):  
Pregnancy Rate ◽  
Animal Health ◽  
Beef Cows ◽  
Water Bath ◽  
Bovine Embryos ◽  
Chi Square ◽  
Embryo Survival ◽  
Frozen Embryos

The objective was to evaluate the effect of pLH treatment on pregnancy rates in recipients receiving in vivo- or in vitro-produced bovine embryos. Heifers (n=37) and lactating (n=28) and non-lactating (n=150) beef cows were treated at random stages of the cycle with 100μg GnRH i.m. (Cystorelin, Merial Canada Inc., Victoriaville, Quebec, Canada) on Day −9, 500μg cloprostenol i.m. (PGF; Estrumate, Schering Plough Animal Health, Pointe-Claire, Quebec, Canada) on Day —2 and GnRH on Day 0 (66h post-PGF; without estrus detection). Cattle were placed at random, by class, into three groups: no further treatment (Control; n=71), or 12.5mg pLH (Lutropin-V, Bioniche Animal Health, Belleville, Ontario, Canada) on Day 5 (n=72) or on Day 7 (n=72) after the second GnRH. On Day 7, cattle with a CL &gt;10mm in diameter (determined ultrasonically) received in vivo-produced, fresh (Simmental) or frozen (Holstein), or in vitro-produced frozen (Holstein) embryos (embryo type balanced among groups). Embryos were cryopreserved in 10% ethylene glycol; in vivo-produced frozen embryos were thawed 5 to 10s in air, 15s in a water-bath at 30°C and then “direct-transferred” nonsurgically. In vitro-produced frozen embryos (donated by IND Lifetech Inc., Delta, British Columbia, Canada) were thawed in a water-bath at 27°C for 10s and placed in ViGro Holding Plus medium (AB Technology, Pullman, WA, USA) at room temperature, evaluated and then transferred nonsurgically. Pregnancy was determined by ultrasonography on Day 35. Data were analyzed with CATMOD, chi-square and GLM procedures (SAS Institute, Cary, NC, USA.). Twenty cattle (9.3%) did not receive embryos; five heifers had cervical problems, and five heifers and 10 cows did not have a CL &gt;10mm. Overall, 7.1% of the recipients had two CL on the day of embryo transfer. There was no effect (P&gt;0.05) of treatment, embryo type (or interaction) or class of recipient on pregnancy rate (overall, 44.1%, 86/195; Table 1). Similarly, mean (±SD) CL diameter and luteal area did not differ (P&gt;0.05) among groups or between pregnant and open recipients (overall, 22.0±3.4mm and 352.0±108.7mm, respectively). However, recipients with a CL diameter ≥18mm tended (P&lt;0.1) to have a higher pregnancy rate (45.8 vs 25.0%). In a subset of 40 recipients examined ultrasonically on Day 12, 50% of those treated on Day 5 and 70% of those treated with pLH on Day 7 had two CL. In summary, overall pregnancy rate in GnRH-synchronized recipients receiving in vitro- or in vivo-produced embryos by nonsurgical transfer was 44.1%. Embryo survival to Day 35 was not affected by type of embryo or treatment with pLH 5 or 7 days after ovulation. Table 1 Pregnancy rate in recipients on Day 35 based on pLH treatment and embryo-type

scholarly journals Vitrification of In Vitro Produced Porcine Blastocysts: Influence of Cryoprotectants Toxicity and Embryo Age

2019 ◽  
Vol 47 (1) ◽  
Author(s):  
Lain Uriel Ohlweiler ◽  
Joana Claudia Mezzalira ◽  
Alceu Mezzalira
Keyword(s):  
Cell Number ◽  
Lower Percentage ◽  
Toxicity Tests ◽  
Hatching Rate ◽  
Embryo Viability ◽  
Embryo Survival ◽  
Porcine Embryo ◽  
Negative Role ◽  
Cryoprotectant Solution

Background: Porcine embryos are sensible to all assisted reproduction manipulations, especially the ones that involve cryopreservation. Despite the high cryoprotectant concentrations routinely applied, vitrification is the most effective technique to date. These substances toxicity can also play a negative role in embryo viability. During in vitro porcine embryo production, the speed of development is often unevenly distributed. It is possible that their development speed, affects embryo tolerance to cryoprotectants. This study aimed to evaluate the toxicity of porcine embryos of days 5 or 6 of culture to cryoprotectant agents; as well as to assess embryo survival to vitrification.Material, Methods & Results: Parthenogenetic porcine blastocysts and expanded blastocysts of days 5 and 6 of culture were exposed to toxicity tests (experiments 1 and 2) and vitrification (experiment 3) using different protocols. In the first experiment, three different cryoprotectants were used (Dimethyl sulfoxide - DMSO, Ethylene glycol – EG, and Sucrose - SUC), combined in three different associations (G1: 15% EG + 15% DMSO with 0.5M SUC; G2: 16% EG + 16% DMSO with 0.4M SUC; G3: 18% EG + 18% DMSO with 0.5M SUC). In the fresh Control, embryos of day 6 are more sensible than the ones of day 5, whom showed a lower hatching rate (39.7 vs. 60.8%). After the toxicity (Experiment 1) test, the G1 showed better expansion rates in day 6 (50.0 vs 31.0 and 3.6% for G2 and G3) and higher hatching of day 6 compared to G2 and G3 (23.2, vs. 8.6 and 0.0% for G2 and G3). The fresh non hatched embryos at day 8, derived at day 6, had a lower percentage of cells with cleaved caspase-3 (20.2%) compared with the G1 (30.5%), G2 (31.4%) and G3 (30.5%). The hatched embryos of day 5 from G2 had lower total cell number (TCN) compared with the day 6 hatched embryos, whereas in G1 the TCN was not affected. The second experiment compared EG combined to one of these three extracellular cryoprotectants: Polyvinylpyrrolidone/sucrose/trehalose (respectively groups: PVP, SUC, TRE). The group SUC has raised the best results for day 5 embryos, whereas for day 6 embryos SUC and TRE were both best. The third experiment tested four vitrification protocols, being P1: EG+DMSO+TRE/warming with SUC; P2: EG+DMSO+TRE/warming TRE; P3: EG+TRE/ warming SUC; P4: EG+TRE/warming TRE. The expansion of vitrified day 5 embryos was higher in the P1 (20.0%) in comparison with the other three groups (4.3, 4.3 and 4.4% for P2, P3 and P4, respectively), with no difference for their hatching rates, been it lower comparing to the Control. Day 6 embryos showed no difference in expansion and hatching for the vitrified groups, been them lower than the Control.Discussion: Embryos obtained on day 6 are more sensible than the ones of day 5, fact observed when the embryos were exposed to cryoprotectant solution, as well by the behavior of the no treated Control embryos. The toxicity increases as it does the concentration of intracellular cryoprotectant, where over 16% of the intracellular cryoprotectors already affected the day 6 embryos development. For the day 5 embryos however, 15 or 16% of the intracellular cryoptrotectors, had similar behavior to the embryos. For the extracellular solutions, however, it is variable according the embryos development speed. Indeed, it is necessary to adjust the cryoprotectors to be used to cryopreserve porcine in vitro produced embryos obtained at days 5 and 6 of culture.

53 EFFECT OF THE TIME INTERVAL BETWEEN OVARY COLLECTION AND OOCYTE IN VITRO MATURATION ON EQUINE CLONED EMBRYO DEVELOPMENT

2010 ◽  
Vol 22 (1) ◽  
pp. 184
Author(s):  
A. Gambini ◽  
J. Jarazo ◽  
R. Olivera ◽  
D. Salamone
Keyword(s):  
Embryo Development ◽  
In Vitro Maturation ◽  
Limiting Factor ◽  
Time Interval ◽  
Activation Process ◽  
Blastocyst Development ◽  
Sodium Pyruvate ◽  
Chi Square ◽  
Group I

The availability of viable equine oocytes is a limiting factor on in vitro embryo production; therefore, it is necessary to assess some of the variables that affect oocyte viability. The aim of our study was to evaluate one of those variables: the effect of time between the collection of the ovary and oocyte in vitro maturation. Ovaries of slaughtered mares were collected during the breeding season (Argentine, Southern hemisphere). They were separated in bags every half hour and treated separately after arriving at the laboratory. COCs were recovered by a combination of scraping and washing of all visible follicles with a syringe filled with DMEM supplemented with 1 mM sodium pyruvate and 15 IU mL-1 heparin. COCs were matured for 24 to 26 h in 3 groups, according to time interval: 4 to 7 (group I), 7 to 10 (II), and 10 to 12 (III) hours. The medium for maturation was TCM-199 supplemented with 10% fetal bovine serum (FBS), 1 μL mL-1 insulin-transferrin-selenium, 1 mM sodium pyruvate, 100 mM cysteamine, and 0.1 mg mL-1 of FSH at 39°C in a humidified atmosphere of 5% CO2 in air. The cumulus was removed by a trypsin treatment and vortexing in hyaluronidase (1 mg mL-1). Cloning and fusion procedures were performed following the zona-free technique described by Lagutina et al. (2007 Theriogenology 67, 90-98). Two experiments were carried out by using different activation protocols. In experiment 1, the activation process was 22 mM ionomycin in H-TALP for 4 min followed by 3h culture in 1.9 mM 6-DMAP in SOF, whereas in experiment 2, we used 8.7 mM ionomycin in H-TALP for 4 min followed by 4 h culture in 1 mM 6-DMAP and 10 mg mL-1 cycloheximide in SOF. Embryos were cultured in wells of well (WOW) system. Half of the medium was renewed on Day 3 with fresh SOF and on Day 5 with DMEM/F12 with 10% FBS. Cleavage was assessed 48 h after activation; the rate of blastocyst formation was recorded at Days 8 and 9. Results were compared using chi-square test (P < 0.05). In experiment 1, maturation rates were significantly different between group I (n = 135, 54.1%) and III (n = 94, 40.4%), group II did not differ from them (n = 138, 53%). Cleavage rates differed statistically between II (n = 44, 75%) and III (n = 27, 40.7%), but not with group I (n = 53, 98%). No significant differences were found in blastocyst development; however, we observed a certain tendency towards an increase in the blastocyst rate as the time interval was lower (I: 3/53, 5.7%; II: 1/44, 2.3%; III: 0/27, 0%). In experiment 2, there were no significant differences between group I and II in rates of maturation (n = 56, 59% v. n = 111, 44.5%), cleavage (n = 22, 91% v. n = 34, 82%) or blastocyst rates (1/22, 4.5% v. 7/34, 20.6%). We conclude that cloned equine embryo development, using the two activation protocols tested, is not affected when the time interval between ovary collection and oocyte IVM is within 4 to 10 h.

242 USE OF BRAIN-DERIVED NEUROTROPHIC FACTOR IN IN VITRO PREMATURATION OF BOVINE OOCYTES SUBJECTED TO PARTHENOGENETIC ACTIVATION

2008 ◽  
Vol 20 (1) ◽  
pp. 200
Author(s):  
T. H. C. De Bem ◽  
R. Rochetti ◽  
P. R. L. Pires ◽  
F. F. Bressan ◽  
P. R. Adona ◽  
...  
Keyword(s):  
In Vitro Culture ◽  
Embryo Development ◽  
Polar Body ◽  
Hatching Rate ◽  
Blastocyst Development ◽  
Embryo Production ◽  
Parthenogenetic Activation ◽  
Bovine Oocytes ◽  
Hatching Rates

Prematuration provides an additional time for oocyte capacitation and maturation in an attempt to improve in vitro embryo production (IVP) rates and allows media supplementation during this period for IVP. The aim of this study was to use brain-derived neurotropic factor (BDNF) in prematuration to improve maturation of bovine oocytes subjected to parthenogenetic activation and cultured with different media. Oocytes were subjected to prematuration in TCM-199 medium supplemented with 10 µm butyrolactone I, 2.0 mm pyruvate, and 10 µg mL–1 gentamicin for 24 h in the absence of BDNF (control) or in the presence of 10 ng mL–1 BDNF (BD). Oocytes were then in vitro-matured (IVM) in TCM-199 medium supplemented with 10% FCS, 0.5 µg mL–1 FSH, 5.0 µg mL–1 LH, 2.0 mm pyruvate, and 10 µg mL–1 gentamicin at 38.5�C under 5% CO2 in air. After 19 h oocytes were denuded using hyaluronidase and vortexing for 3 min for the 1st polar body (1PB) selection. Those which extruded the 1PB were maintained in IVM until 26 h, when parthenogenetic activation was performed (5 min in 5 µm ionomycin, followed by 3 h in 2 mm 6-DMAP). Activated oocytes were then transferred to in vitro culture (IVC) for embryo development evaluation. Embryos from both groups were cultured in SOF medium with 2.5% FCS, 0.05 g mL–1 BSA, 0.2 mm pyruvate, and 10 mg mL–1 gentamicin. Cleavage rates on the second day of in vitro culture (D2), embryo production at Days 7 and 8 (D7 and D8), and hatching rate at Day 8 were evaluated. Data regarding 1PB extrusion, cleavage, blastocyst development on D7 and D8, and blastocyst D8 hatching rates of three replicates were analyzed by chi-square test at 5% significance using the BIOESTATS 4.0 software. Control and BD, respectively, did not show differences (P > 0.05) regarding 1PB extrusion (n = 164, 63.81%, and n = 175, 66.79%) or cleavage (n = 117, 71.34%, and n = 138, 78.86%). However, for control and BD, respectively, blastocyst development on D7 (n = 63, 38.41%, and n = 89, 50.86%), D8 (n = 63, 38.41%, and n = 91, 52.00%), and hatching on D8 (n = 22, 34.92%, and n = 39, 43.82%) were all significantly higher for BD when compared with control (P < 0.05). In conclusion, BDNF during prematuration improved in vitro embryo development by increasing blastocyst and hatching rates of parthenogenetic embryos.

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