scholarly journals 185ASSESSMENT OF VIABILITY OF IN VITRO PRODUCED BOVINE EMBRYOS BY TRIPLE AND SINGLE TRANSFER

2004 ◽  
Vol 16 (2) ◽  
pp. 214
Author(s):  
A.M. van Wagtendonk-De Leeuw ◽  
A. Pugh ◽  
W. McMillan ◽  
J. Hepburn ◽  
B. Peachey ◽  
...  
Keyword(s):  
Survival Rates ◽  
Control Group ◽  
Chi Square ◽  
Embryo Survival ◽  
Actual Distribution ◽  
Holstein Friesian ◽  
Embryo Stage ◽  
Old Donor ◽  
Fresh Culture Medium

Factors that affect the viability of in vitro-produced (IVP) embryos are usually evaluated by comparing pregnancy rates of a treatment and a control group. The ‘er’ model of embryo survival (McMillan WH et al., 1998 Theriogenology 50, 1053–1070) utilizes twin embryo transfer to estimate embryo (‘e’) and recipient (‘r’) contributions to embryo survival, and allows the comparison of treatment effects without using a control group, when treatment is the only change in operations. Application of the model to data of contemporaneous single and twin transfer indicates that ‘e’ and ‘r’ are independent of the number of embryos transferred. Thus, twin transfers enable the efficient use of costly recipients while providing meaningful estimates of single embryo survival rates. The objective of this study was to assess the embryo survival rates of fresh IVP embryos of a newly established IVP lab by applying the model to triple transfers and comparing the expected embryo survival rates with those achieved for single transfers. Cumulus-oocyte complexes (COCs) were aspirated from abattoir-derived ovaries of cows of unknown breeds or by ovum pick-up (OPU) from Holstein-Friesian 2- or 3-yr-old donor cows. COCs were matured in 500μL of TCM199+10% FCS (Life Technologies, Auckland, NZ), 10μgmL−1 FSH and LH (ICPBio, Auckland, NZ), 1μgmL−1 estradiol (Sigma, Auckland, NZ), 100μM cysteamine (Sigma) for 24h under 5% CO2 and then fertilized with 1×106 percoll-separated sperm mL−1 from a single bull (Tervit HR and Pugh PA, 2000 14th ICAR 18, 37(abst)). Twenty-four h after insemination, presumptive zygotes were transferred into 500μL mSOF (Pugh A et al., 2001 Theriogenology 55, 314 (abst)) and cultured for 4 days under humidified 5% CO2, 7% O2 and 88% N2. On Day 4, cleaved embryos were transferred into fresh culture medium and culture continued for a further 3 days under the same conditions. Embryo stage and grade were evaluated on Day 7 of culture. Grades 1, 2 and 3 (IETS manual, 2002) compact morulae and blastocysts produced from abattoir-derived COCs were transferred in triplets, while grades 1 and 2 compact morulae and blastocysts from OPU-derived COCs were transferred singly, in 0.25mL insemination straws into synchronized Holstein-Friesian heifers. Recipients received a CIDR (CIDR Cattle Insert, Pharmacia, Auckland, NZ) at Day −12 followed by a prostaglandin (Estroplan, Parnell Laboratories, Auckland, NZ ) injection at Day −6. CIDRs were removed at Day −2, followed by estrus at Day 0 (= day of IVF). Embryos were transferred on Day 7 and recipients received a CIDR after transfer (ET). CIDRs were removed at Day 19 to synchronize any returns. Two experienced practitioners performed all the transfers. Pregnancies (single transfers) and number of live fetuses (triple transfers) were confirmed at Days 60 and 42, respectively. Pregnancies were terminated between Days 62 and 65 by two prostaglandin injections 48h apart. A total of 76 single transfers resulted in 36 pregnancies (47.4%, binomial SD 5.7%). A total of 75 triple transfers (225 embryos) resulted in 98 viable fetuses (44%) and 58 pregnant recipients (77.3%). For triple transfers, the estimates for ‘e’ and ‘r’ were 0.50 and 0.89, respectively, with the product yielding an expected triple embryo survival rate of 44.1%. The actual distribution of 17, 23, 30 and 5 recipients carrying 0, 1, 2, or 3 fetuses, respectively, was not significantly different from the expected values of 16, 25, 25 and 8 estimated from the model (chi-square=2.49, NS). Estimates for ‘e’ and ‘r’ were not significantly different when combined single and triple data were included in the model (‘e’=0.55 and ‘r’=0.90), indicating that embryo survival is independent of the number of embryos transferred. Results indicate that multiple transfers do increase pregnancy rate (from 47.4 to 77.3%), but not embryo survival posttransfer (44.1 v. 47.4%). Although single ET was done with OPU-derived embryos and triple with slaughterhouse-derived embryos and results are not strictly comparable, the similarity of estimates for ‘e’ suggests that using the same in vitro-embryo assessment criteria resulted in embryos of similar intrinsic viability from the two sources. In the near future, we will perform triple transfers of cryopreserved IVP embryos and use the model to estimate embryo and recipient contributions to embryo survival of frozen IVP embryos, without using a fresh control. We will continue to build a dataset based on triple and single transfers to further assess the effect on embryo survival rates of triple and single transfers.

22 Vitrification of bovine embryo using antifreeze polyamino acid

2019 ◽  
Vol 31 (1) ◽  
pp. 137
Author(s):  
T. Fujikawa ◽  
Y. Gen ◽  
S.-H. Hyon ◽  
C. Kubota
Keyword(s):  
Ethylene Glycol ◽  
Survival Rates ◽  
Basal Medium ◽  
Blastocyst Stage ◽  
Bovine Embryo ◽  
Bovine Embryos ◽  
Chi Square ◽  
Embryo Survival ◽  
Polyamino Acid

Carboxylated poly-l-lysine (CPLL) is an ampholytic polymer compound and a polyamino acid with a known functional resemblance to antifreeze proteins. We previously reported that CPLL is an effective cryoprotectant for bovine cells, sperm, and slow-frozen embryos. In this study, we investigated CPLL as a cryoprotectant for vitrified bovine embryos. We developed bovine embryos in vitro and vitrified them at the blastocyst stage. Embryos were equilibrated (3min) and vitrified (1min). Vitrified embryos were cryopreserved in LN (Cryotop® device; Kitazato Corp., Tokyo, Japan) for at least 1 week, thawed with a 0.3M sucrose warming solution, and then cultured in a basal medium (Gibco® medium 199, Grand Island, NY, USA; supplemented with 100µM 2-mercaptoethanol, 10% fetal bovine serum, and antibiotics) at 38.5°C in a humidified atmosphere (5% CO2, 5% O2, 90% N2). We evaluated the embryos morphologically for survival and hatched rate at 0, 24, 48, and 72h post-thawing. In control, the equilibration solution (ES) consisted of 7.5% (vol/vol) dimethyl sulfoxide (DMSO) and 7.5% (vol/vol) ethylene glycol, and the vitrification solution (VS) consisted of 16.5% (vol/vol) DMSO and 16.5% (vol/vol) ethylene glycol and 0.5M sucrose. In this study, CPLL was added to ES and VS at various concentrations instead of DMSO. The CPLL was added at 16.5, 11.0, 5.5, and 2.2% (wt/vol) to VS; respectively, these solutions were named P16.5, P11.0, P5.5, and P2.2. The ES was used 45% CPLL of VS each. Embryos underwent the above procedure concurrently, with testing replicated at least 3 times. We evaluated 88, 34, 38, 44, and 28 embryos with each solution (control, P16.5, P11.0, P5.5, and P2.2, respectively). Results were analysed statistically with a chi-square test and residual analysis, regarding P<0.05 as significant. Survival rates were significantly greater in P11.0 at 24h post-thawing (55.7% v. 89.5%; P<0.05) and in P11.0 and P5.5 at 48h post-thawing (47.7% v. 78.9% and 47.7% v. 79.5%, respectively; P<0.05) relative to controls but showed no significant differences at 0h post-thawing. Hatched rates were significantly greater in P11.0 and P5.5 through 72h post-thawing relative to controls (44.7% v. 22.7% and 52.3% v. 22.7%, respectively; P<0.05). The CPLL improved post-thawing embryo survival and hatched rates when applied during vitrification, thus demonstrating cryoprotective effectiveness. We conclude that CPLL acts as a low-toxicity cryoprotectant for vitrified bovine embryos, and our results are consistent with previous reports of protective CPLL effects for cells and cell membranes.

24 Survival rates of vitrified biopsied bovine in vitro-produced blastocysts using the VitTrans device

2019 ◽  
Vol 31 (1) ◽  
pp. 138
Author(s):  
N. González ◽  
J. Scherzer ◽  
M. Reichenbach ◽  
C. Otzdorff ◽  
H. Zerbe
Keyword(s):  
Ethylene Glycol ◽  
Dimethyl Sulfoxide ◽  
Embryo Transfer ◽  
Zona Pellucida ◽  
Survival Rates ◽  
Petri Dish ◽  
Blastocyst Stage ◽  
Control Group ◽  
Embryo Survival

In breeding programs, the application of a vitrification method suitable for direct transfer of biopsied embryos can increase the genetic improvement of cattle and help reduce the costs of embryo transfer. The aim of this study was to determine the in vitro survival of biopsied vitrified blastocysts using the new VitTrans device (Morató and Mogas 2014 Cryobiology 68, 288-293), a 1-step in-straw warming system. Immature bovine oocytes were in vitro matured, fertilized, and cultured to the blastocyst stage. A total of 110 grade 1 blastocysts (IETS codes 6 and 7) were randomly allocated to 2 groups: (1) biopsy (n=49) and (2) without biopsy, or control (n=61). Blastocysts were biopsied using a microblade mounted on a micromanipulator. A small portion of the trophoblast, approximately 15%, was cut off and a significant part of the zona pellucida was sliced away. Both groups were then vitrified using the VitTrans device. For vitrification, all blastocysts were exposed to an equilibration medium with 7.5% ethylene glycol+7.5% dimethyl sulfoxide in holding medium (HM) consisting of TCM-199 with 20% FCS, moved into a drop with 16.5% ethylene glycol+16.5% dimethyl sulfoxide+0.5M sucrose in HM, and then placed in a microdroplet on the VitTrans. The VitTrans was plunged into LN and covered with a 0.5-mL straw. For warming, the protective cover was removed from the VitTrans while still submerged in LN. Subsequently, a new 0.5-mL plastic embryo transfer straw was placed on the VitTrans while flushing the warming solution (0.3mL of 0.5M sucrose in HM at 45°C) with a syringe through the lumen of the device. By entering the warming solution into the VitTrans device, the embryo is flushed inside the plastic straw. The straw containing the embryo can then be readily used for transfer after the VitTrans is removed. To recover the embryo in the laboratory, the content of the straw was put into a Petri dish and blastocysts were placed in the culture medium and incubated at 38.5°C in 5% CO2 and 5% O2 in air. Morphology and re-expansion were evaluated 24h post-warming. The embryo survival rate was defined as the ratio of blastocysts that were able to re-expand with regards to the total number of warmed blastocysts. Due to the attachment of embryos inside the straw, a total of 18 embryos were lost during recovery (12 from the biopsied group and 6 from the nonbiopsied group). The ratio of re-expanded blastocysts from the recovered embryos was 40% in the biopsy group and 61% in the control group. In conclusion, vitrification using the VitTrans device showed good results with intact embryos compared with biopsied embryos. In addition, biopsied embryos had a tendency to adhere to the inside of the straw, which is probably due to the damage or loss of the zona pellucida. Additional research is required to minimize the loss of embryos.

scholarly journals Vitrification Effects on the Transcriptome of in vivo-Derived Porcine Morulae

2021 ◽  
Vol 8 ◽  
Author(s):  
Cristina Cuello ◽  
Cristina A. Martinez ◽  
Josep M. Cambra ◽  
Alejandro González-Plaza ◽  
Inmaculada Parrilla ◽  
...  
Keyword(s):  
Gene Expression ◽  
Metabolic Pathways ◽  
Survival Rates ◽  
Gene Expression Pattern ◽  
Control Group ◽  
High Survival ◽  
Embryo Survival ◽  
Developmental Potential

Despite the reported promising farrowing rates after non-surgical and surgical transfers of vitrified porcine morulae and blastocysts produced in vivo (range: 70–75%), the pregnancy loss is 5–15 fold higher with vitrified than with fresh embryos. The present study aimed to investigate whether vitrification affects the transcriptome of porcine morulae, using microarrays and RT-qPCR validation. Morulae were obtained surgically from weaned sows (n = 13) on day 6 (day 0 = estrus onset). A total of 60 morulae were vitrified (treatment group). After 1 week of storage, the vitrified morulae were warmed. Vitrified-warmed and non-vitrified fresh morulae (control; n = 40) were cultured for 24 h to assess embryo survival by stereomicroscopy after. A total of 30 vitrified/warmed embryos that were deemed viable and 30 fresh control embryos (three pools of 10 for each experimental group) were selected for microarray analysis. Gene expression was assessed with a GeneChip® Porcine Genome Array (Affymetrix). An ANOVA analysis p-unadjusted <0.05 and a fold change cut-off of ±1.5 were set to identify differentially expressed genes (DEGs). Data analysis and biological interpretation were performed using the Partek Genomic Suite 7.0 software. The survival rate of morulae after vitrification and warming (92.0 ± 8.3%) was similar to that of the control (100%). A total of 233 DEGs were identified in vitrified morulae (38 upregulated and 195 downregulated), compared to the control group. Nine pathways were significantly modified. Go-enrichment analysis revealed that DEGs were mainly related to the Biological Process functional group. Up-regulated DEGs were involved in glycosaminoglycan degradation, metabolic pathways and tryptophan metabolism KEGG pathways. The pathways related to the down-regulated DEGs were glycolysis/gluconeogenesis, protein export and fatty acid elongation. The disruption of metabolic pathways in morulae could be related to impaired embryo quality and developmental potential, despite the relatively high survival rates after warming observed in vitro. In conclusion, vitrification altered the gene expression pattern of porcine morulae produced in vivo, generating alterations in the transcriptome that may interfere with subsequent embryo development and pregnancy after embryo transfer.

43 NEW METHOD FOR ONE-STEP WARMING/IN-STRAW CRYOPROTECTANT DILUTION FOR IN VITRO-PRODUCED BOVINE BLASTOCYSTS AFTER VITRIFICATION WITH THE CRYOLOGIC VITRIFICATION METHOD

2015 ◽  
Vol 27 (1) ◽  
pp. 114
Author(s):  
J. N. Caamaño ◽  
E. Gómez ◽  
B. Trigal ◽  
M. Muñoz ◽  
S. Carrocera ◽  
...  
Keyword(s):  
Embryo Transfer ◽  
Survival Rates ◽  
Field Conditions ◽  
Control Group ◽  
Embryo Survival ◽  
Grant Support ◽  
One Step ◽  
The One ◽  
New System

Vitrification is considered an alternative to slow-rate freezing to cryopreserve in vitro-produced (IVP) bovine embryos. However, the use of vitrified IVP embryos for embryo transfer under field conditions is difficult because of the requirements of the current thawing protocols. The objective of this study was to develop a simple one-step warming/in-straw cryoprotectant dilution procedure for IVP bovine blastocysts that were vitrified using the cryologic vitrification method. In this study, 109 Day-7 IVP blastocysts were subjected to vitrification using the conventional fibreplugs (groups of 5 embryos were loaded in 3 mL of vitrification medium). Warming was performed in one-step in MS1 (0.25 M sucrose in BV = TCM 199-Hepes + 20% FCS) either using a 4-well plate for 5 min (control group) or in a new system that allowed in-straw cryoprotectant dilution designed to avoid losses of embryos and to maintain the temperature required during this procedure. This new system is composed of an adaptor with a wider opening that is coupled to the French straw and a heated metal chamber to protect and keep the straw at 41°C. Warmed embryos were washed and subsequently cultured in mSOFaaci + 6 gL–1 BSA + 10% FCS for 48 h. Re-expansion (at 2, 24, and 48 h) and hatching rates (at 24 and 48 h) were recorded. Data were analysed by ANOVA and are presented as LSM ± standard error. Embryo survival rates of embryos warmed by the one-step warming/in-straw cryoprotectant dilution procedure did not differ from the control group (see Table 1). These results suggest that the cryologic vitrification method combined with our warming system for in-straw cryoprotectant dilution may be used for direct embryo transfer under field conditions. Table 1.Embryo survival rates of in vitro-produced embryos vitrified by the cryologic vitrification method and warmed by the new one-step warming/in-straw cryoprotectant dilution procedure This study received grant support: INIA-RTA 2011–0090 and FEDER. M. Muñoz was supported by grant MICINN-RYC08-03454, and B. Trigal by a grant from Cajastur. The authors are members of the COST Action FA1201 Epiconcept.

255 SONIC HEDGEHOG PROMOTES IN VITRO OOCYTE MATURATION AND EMBRYO DEVELOPMENT IN GOATS

2015 ◽  
Vol 27 (1) ◽  
pp. 217 ◽  
Author(s):  
W. De-Chi ◽  
H. Jan-Chi ◽  
L. Neng-Wen ◽  
C. Hsin-I ◽  
C. Lih-Ren ◽  
...  
Keyword(s):  
Embryo Development ◽  
Sonic Hedgehog ◽  
Oocyte Maturation ◽  
Survival Rates ◽  
Cumulus Cells ◽  
Cell Surface Receptor ◽  
Control Group ◽  
Embryo Survival ◽  
Receptor System

The signalling of the Hh family peptides is mediated through a cell surface receptor system consisting of 2 proteins: patched (Ptc) and smoothened (Smo). In the absence of Hh ligand, the Hh receptor Ptc represses Smo, whereas in the presence of Hh, the suppression of Smo is lifted, leading to the activation of downstream transcriptional factors (Gli1, Gli2, and Gli3) in vertebrates. Previous studies have examined Sonic hedgehog (Shh) signalling pathways in developing and adult mouse ovaries and concluded that the Shh signalling pathway may be involved in granulosa cell proliferation and oocyte maturation. We investigated the effects of Shh protein on caprine oocyte maturation, embryo development, and embryo survival rate after transfer of vitrified/thawed in vitro-produced (IVP) embryos to recipients. Cumulus-oocyte complexes (COC) were collected by slicing ovarian follicles (1–5 mm in diameter). On average, 40 to 50 oocytes were randomly allocated to each well containing 500 μL of IVM medium and supplemented with 0 (control), 0.125, 0.25, 0.5, or 1.0 μg mL–1 recombinant mouse Shh protein. After 24 h of IVM, cumulus cells were partially removed. Oocytes were washed and transferred into a droplet of 80 μL of fertilization medium and were fertilized with frozen-thawed sperm for 18 h at 38.8°C. After IVF, presumptive zygotes were cultured on goat oviduct epithelial monolayers in M199 for 9 days. The 2 frozen-thawed selected embryos were transferred to one recipient. All data were subjected to ANOVA, using the general linear model procedure in SAS (version 9), followed by Tukey's test. Embryo survival rates were compared by using the chi-square test. The RT-PCR analyses showed that the expressions of Shh, SMO, Ptch1, and Gli1 were detected in whole ovaries, granulosa cells, COC, cumulus cells, oocytes, and oviduct epithelia except for Ptch1 in cumulus cells. Supplementation of Shh (0.25 or 0.5 μg mL–1) enhanced oocyte maturation as opposed to the control group (92.4%, n = 67 and 95.0%, n = 62 v. 86.2%, n = 64, respectively, P < 0.05). This effect could be reversed by the simultaneous addition of cyclopamine (0.5–1.0 μm), a Shh inhibitor. Similar to intact COC, denuded oocytes showed enhanced maturation (72.0%, n = 94 v. 60.5%, n = 126) with Shh supplementation. For subsequent embryo development, an improved blastocyst rate (P < 0.05) was 66.3 ± 10.9 (n = 135) when embryos were derived from the oocytes matured in the presence of 0.5 μg mL–1 Shh rather than 41.4 ± 12.9 (n = 137) of the control group. After embryo transfer, the kidding and embryo survival rates of vitrified embryos derived from the Shh-supplemented group were 56 (16 recipients) and 31% (48 embryos) higher than that 38 (16 recipients) and 15% (54 embryos) without Shh supplementation (P < 0.05). The present study suggests that Shh signalling is active in caprine ovaries during folliculogenesis and beneficial to oocyte maturation and subsequent embryo development to the blastocyst stage (in vitro) and to term.

scholarly journals 159 TWIN vs. SINGLE TRANSFER OF IVP HOLSTEIN HEIFER EMBRYOS TO BEEF RECIPIENTS

2005 ◽  
Vol 17 (2) ◽  
pp. 230 ◽  
Author(s):  
A. Fischer-Brown ◽  
G. Barquero ◽  
S. Clark ◽  
C. Ferguson ◽  
F. Ireland ◽  
...  
Keyword(s):  
Large Scale ◽  
Survival Rates ◽  
Fetal Loss ◽  
Cumulus Cells ◽  
Embryo Production ◽  
Chi Square ◽  
Embryo Survival ◽  
Production Scheme ◽  
Chi Square Analysis

Use of sexed semen in conjunction with in vitro embryo production is a potentially efficient means of obtaining offspring of predetermined sex. Here we evaluate a production scheme involving single and bilateral twin transfer of Holstein female embryos to beef cattle recipients. Holstein oocytes were fertilized with the X-bearing fraction of gender-sorted Holstein semen. Cumulus cells were removed with aid of a vortex or microfluidic device (μFD). Half of the vortexed embryos were cultured in KSOMaaBSA (control), as were all μFD embryos. The remaining vortexed embryos were cultured in control medium with 6% avian white yolk (WY). Embryo production and transfer occurred across five replicates. Cows (n = 475) were synchronized using an Ovsynch protocol. They were administered GnRH on Day −9, PGF on Day −2, and GnRH on Day 0. Half of the cows received a CIDR (1.38 g progesterone) with the 1st GnRH injection. The CIDR was removed at the time of PGF treatment. Day 7 Grade 1 blastocysts were transferred fresh 7 days after the 2nd GnRH injection. Control and WY embryos were transferred as ipsilateral singles and bilateral twins; μFD embryos were transferred singly. Pregnancy was diagnosed with ultrasound between 41–46 days and confirmed between 60–90 days; fetal sexing confirmed that 95% of fetuses were female. Effects on embryo survival were analyzed by logistic regression. Chi-square analysis was applied to survival rates. Replication affected embryo survival (P < 0.05). There was no effect of cumulus removal, medium, or CIDR use. Fetal loss between ultrasounds was greater for twin vs. single transfers (30% vs. 15%, respectively; P < 0.01). Probability of embryo survival was estimated to increase ∼0.006 with each increasing day postpartum. Five cases of hydrallantois were detected during the 5th month of gestation for 1 control twin, 1 WY single, and 3 WY twin transfers, originating from 3 replicates. On a production per transfer basis, the proportion of fetuses obtained for single and twin transfers was 30% and 55%, respectively (P < 0.001). Although there was greater embryonic loss for twin compared to single transfers, a higher percentage of cows receiving twins established and maintained pregnancy. Large-scale transfer of IVP Holstein heifer embryos to beef recipients is a feasible production scheme. Table 1. Embryo survival and pregnancy rates

scholarly journals 46 Effect of the addition of α-tocopherol to in vitro maturation media of bovine oocytes

2020 ◽  
Vol 98 (Supplement_2) ◽  
pp. 2-3
Author(s):  
Theisy P Acosta Pérez
Keyword(s):  
In Vitro Maturation ◽  
Cumulus Cells ◽  
Control Group ◽  
Chi Square ◽  
Cumulus Expansion ◽  
Minimum Concentration ◽  
Maturation Rate ◽  
Chi Square Test ◽  
System Data

Abstract α-tocopherol is known to be a powerful antioxidant, in this regard, it was added to bovine oocyte in vitro maturation media to evaluate its effect on oocyte maturation. Oocytes (n = 624) aspirated from ovaries of slaughtered cows were classified by quality and divided in four categories according to cytoplasm appearance and cumulus cells layers. Oocytes were washed in TCM-199 supplemented with fetal bovine serum (FBS) and FSH, then distributed in maturation media (TCM-199 supplemented with FBS, FSH and gentamicin). Three experimental groups of α-tocopherol (50, 100 and 200 mM) and a control group without α-tocopherol were used. Maturation was carried 22 h at 38.5°C in a 5% CO2 atmosphere. Oocytes were examined to determine cumulus expansion as categorical data (expansion or no expansion), as well as cumulus expansion Index (CEI). For CEI determination oocytes were graded 0 to 4, being 0 those with null expansion and 4 those with a noticeable cell expansion, then the number of oocytes were multiplied by the grade given and a sum of the totals was obtained, the new total was divided by the total of oocytes in the group and the result obtained corresponded to the CEI of the group. Results were analyzed with Chi Square test (for maturation rates) and an ANOVA (for the CEI) using the SAS system, data are presented as mean ± standard error. There was no statistical difference between control and α-tocopherol groups (P &gt;0.05). Numerically, the control group showed a higher maturation rate (100%) and obtained a higher CEI (2.44±0.20), followed by the 50 mM group (98.16%; 2.39±0.13), the groups 200 mM (97.40%; 2.00±0.14) and 100 mM (96.25%; 2.06±0.24) were the lowest. The addition of the minimum concentration (50 mM) of α-tocopherol to the maturation media could improve maturation rates without exposing oocytes to toxic effects.

scholarly journals Effects of Vitrification on the Blastocyst Gene Expression Profile in a Porcine Model

2021 ◽  
Vol 22 (3) ◽  
pp. 1222
Author(s):  
Cristina Cuello ◽  
Cristina A. Martinez ◽  
Josep M. Cambra ◽  
Inmaculada Parrilla ◽  
Heriberto Rodriguez-Martinez ◽  
...  
Keyword(s):  
Gene Expression ◽  
Gene Expression Analysis ◽  
Survival Rates ◽  
Control Group ◽  
P Value ◽  
Transcriptome Profile ◽  
Embryo Viability ◽  
The Impact

This study was designed to investigate the impact of vitrification on the transcriptome profile of blastocysts using a porcine (Sus scrofa) model and a microarray approach. Blastocysts were collected from weaned sows (n = 13). A total of 60 blastocysts were vitrified (treatment group). After warming, vitrified embryos were cultured in vitro for 24 h. Non-vitrified blastocysts (n = 40) were used as controls. After the in vitro culture period, the embryo viability was morphologically assessed. A total of 30 viable embryos per group (three pools of 10 from 4 different donors each) were subjected to gene expression analysis. A fold change cut-off of ±1.5 and a restrictive threshold at p-value < 0.05 were used to distinguish differentially expressed genes (DEGs). The survival rates of vitrified/warmed blastocysts were similar to those of the control (nearly 100%, n.s.). A total of 205 (112 upregulated and 93 downregulated) were identified in the vitrified blastocysts compared to the control group. The vitrification/warming impact was moderate, and it was mainly related to the pathways of cell cycle, cellular senescence, gap junction, and signaling for TFGβ, p53, Fox, and MAPK. In conclusion, vitrification modified the transcriptome of in vivo-derived porcine blastocysts, resulting in minor gene expression changes.

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

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