19 results on '"Garcia-Dominguez, Ximo"'
Search Results
2. Roles of host genetics and sperm microbiota in reproductive success in healthy rabbit
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Marco-Jiménez, Francisco, Borrás, Sara, Garcia-Dominguez, Ximo, D’Auria, Giuseppe, Vicente, Jose Salvador, and Marin, Clara
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- 2020
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3. Endometrial autotransplantation in rabbits: Potential for fertility restoration in severe Asherman’s syndrome
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Jones, Benjamin P., Vali, Saaliha, Saso, Srdjan, Garcia-Dominguez, Ximo, Chan, Maxine, Thum, Meen-Yau, Ghaem-Maghami, Sadaf, Kaur, Baljeet, García-Valero, Luís, Petrucci, Linda, Yazbek, Joseph, Vicente, Jose S., Quiroga, Isabel, Marco-Jiménez, Francisco, and Smith, J. Richard
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- 2020
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4. Long-term and transgenerational phenotypic, transcriptional and metabolic effects in rabbit males born following vitrified embryo transfer
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Garcia-Dominguez, Ximo, Marco-Jiménez, Francisco, Peñaranda, David S., Diretto, Gianfranco, García-Carpintero, Víctor, Cañizares, Joaquín, and Vicente, José S.
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- 2020
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5. Vitrification of kidney precursors as a new source for organ transplantation
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Marco-Jiménez, Francisco, Garcia-Dominguez, Ximo, Jimenez-Trigos, Estrella, Vera-Donoso, Cesar D., and Vicente, Jose S.
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- 2015
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6. A 3D-Printed Large Holding Capacity Device for Minimum Volume Cooling Vitrification of Embryos in Prolific Livestock Species.
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Marco-Jiménez, Francisco, Garcia-Dominguez, Ximo, García-Valero, Luís, and Vicente, José S.
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VITRIFICATION , *EMBRYOS , *EMBRYO transfer , *BIRTH weight , *RABBITS , *LIVESTOCK , *BLASTOCYST - Abstract
Simple Summary: Commercially available devices with simultaneous vitrification of many embryos are scarce. In this study, we developed a new three-dimensional (3D)-printed device that combines minimum volume cooling vitrification with simultaneous vitrification of a larger number of embryos. The 3D technology was stereolithography, and the Cryoeyelet® device was printed in photosensitive resin. With the open Cryoeyelet®, 25 late rabbit morulae/early blastocysts were vitrified per device and compared with the Cryotop® and the French mini-straw devices. Our results demonstrate that the CryoEyelet® device can be used for the vitrification of a high number of late morulae or early blastocyst rabbit embryos per device, yielding similar outcomes to the most used commercial devices based on minimum essential volume. Although many devices have been developed to reduce sample volume, with an explosion of methods appearing in the literature over the last decade, commercially available devices with simultaneous vitrification of a larger number of embryos are scarce, with the apparent gap for their use in prolific livestock species. In this study, we investigated the effectiveness of a new three-dimensional (3D)-printed device that combines minimum volume cooling vitrification with simultaneous vitrification of a larger number of rabbit embryos. Late morulae/early blastocysts were vitrified with the open Cryoeyelet® device (n = 175; 25 embryos per device), the open Cryotop® device (n = 175; 10 embryos per device), and the traditional closed French mini-straw device (n = 125; 25 embryos per straw) and compared in terms of in vitro development and reproductive performance after transfer to adoptive mothers. Fresh embryos constituted the control group (n = 125). In experiment 1, there was no difference in the development rate to the blastocyst hatching stage between the CryoEyelet® and the other devices. In experiment 2, the CryoEyelet® device showed a higher implantation rate compared with the Cryotop® (6.3% unit of SD, p = 0.87) and French mini-straw® (16.8% unit of SD, p = 1.00) devices. In terms of offspring rate, the CryoEyelet® device was similar to the Cryotop® device but superior to the French straw device. Regarding embryonic and fetal losses, the CryoEyelet® showed lower embryonic losses compared to other vitrification devices. The analysis of bodyweight showed that all devices showed a similar outcomes—a higher birthweight but a lower body weight at puberty than those in the fresh transfer embryos group. In summary, the CryoEyelet® device can be used for the vitrification of many late morulae or early blastocyst stage rabbit embryos per device. Further studies should be performed to evaluate the CryoEyelet® device in other polytocous species for the simultaneous vitrification of a large number of embryos. [ABSTRACT FROM AUTHOR]
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- 2023
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7. Sildenafil Citrate Enhances Renal Organogenesis Following Metanephroi Allotransplantation into Non-Immunosuppressed Hosts.
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Garcia-Dominguez, Ximo, Vera-Donoso, César D., Lopez-Moncholi, Eric, Moreno-Manzano, Victoria, Vicente, José S., and Marco-Jiménez, Francisco
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SILDENAFIL , *MORPHOGENESIS , *CITRATES , *ERYTHROPOIETIN , *RENIN - Abstract
In order to harness the potential of metanephroi allotransplantation to the generation of a functional kidney graft on demand, we must achieve further growth post-transplantation. Sildenafil citrate (SC) is widely known as a useful inductor of angiogenesis, offering renoprotective properties due to its anti-inflammatory, antifibrotic, and antiapoptotic effects. Here, we performed a laparoscopic metanephroi allotransplantation after embedding sildenafil citrate into the retroperitoneal fat of non-immunosuppressed adult rabbit hosts. Histology and histomorphometry were used to examine the morphofunctional changes in new kidneys 21 days post-transplantation. Immunofluorescence of E-cadherin and renin and erythropoietin gene expression were used to assess the tubule integrity and endocrine functionality. After the metanephroi were embedded in a 10 µM SC solution, the new kidneys' weights become increased significantly. The E-cadherin expression together with the renin and erythropoietin gene expression revealed its functionality, while histological mature glomeruli and hydronephrosis proved the new kidneys' excretory function. Thus, we have described a procedure through the use of SC that improves the outcomes after a metanephroi transplantation. This study gives hope to a pathway that could offer a handsome opportunity to overcome the kidney shortage. [ABSTRACT FROM AUTHOR]
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- 2022
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8. Impact of embryo technologies on secondary sex ratio in rabbit.
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Garcia-Dominguez, Ximo, Juarez, Jorge D., Vicente, José S., and Marco-Jiménez, Francisco
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SEX ratio , *REPRODUCTIVE technology , *EMBRYO transfer , *ANIMAL offspring sex ratio - Abstract
Increasing evidence indicates that assisted reproductive technologies (ARTs) disturb skewed sex-ratio and induce sex-dimorphic postnatal effects. Undoubtedly, the combination of multiple ovulation and embryo transfer (MOET) together with the use of vitrification technique (MOVET) is currently being used in breeding programs. However, since the first case of sex skewing reported in 1991, the accumulative and long-term transmission of skewed sex-ratio to future generations has not been thoroughly evaluated. Here we test as MOVET program induce a skewed sex ratio, and we consider skewed sex ratio transmission to future generations. To this end, we first evaluated the F1 generation, demonstrating that a MOVET program causes a severe imbalance skewed secondary sex ratio (SSR) towards male by 12%. This imbalanced persist after a second MOVET program (F2 generation), with an accumulative skewed SSR towards male by 25%. Finally, using a crossbred generation derived from crossing F1 males derived from a MOVET program with naturally-conceived (NC) females, we show that the imbalance skewed SRR persist. Bodyweight comparison between MOVET animals and NC counterparts revealed significant changes at birth, weaning and adulthood. However, there was a significant interaction between F2 MOVET animals and sex, demonstrating an apparent accumulative sex-dimorphic effect. At adulthood, MOVET derived males presented a lower body weight. In conclusion, we show that the MOVET program causes a direct, accumulative and long-term transmission of skewed SSR. • Vitrified procedure biases the secondary sex ratio in the rabbit. • Vitrified procedure biases the secondary sex ratio in a transmissible and cumulative form. • Vitrified procedure entails long-term bodyweight consequences. • Vitrified procedure induced a sex-dimorphic pattern at adulthood. [ABSTRACT FROM AUTHOR]
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- 2020
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9. NEPHROBIOBANK. Vitrification of renal precursors as a possible solution to organ shortage
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Garcia-Dominguez, Ximo, Vera-Donoso, Cesar D., Jimenez-Trigos, Estrella, Vicente, Jose S., and Marco-Jiménez, Francisco
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- 2016
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10. Developmental and metabolic changes following vitrified embryo transfer in rabbit embryos.
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Garcia-Dominguez, Ximo, Diretto, Gianfranco, Vicente, Jose S., and Marco-Jimenez, Francisco
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EMBRYO transfer , *HUMAN embryo transfer , *FROZEN human embryos , *MAMMALIAN embryos , *GENITALIA - Published
- 2020
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11. Development of a novel vitrification device that combined the minimum essential volume and a large holding capacity.
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Marco-Jimenez, Francisco, Garcia-Dominguez, Ximo, Garcia-Valero, Luis, Viudes-de-Castro, Maria Pilar, and Vicente, Jose S.
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VITRIFICATION , *TANGENTIAL force , *MAXIMA & minima - Published
- 2020
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12. Long-term effects after vitrified embryo transfer procedure are transmitted by paternal germline in rabbits.
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Garcia-Dominguez, Ximo, Marco-Jiménez, Francisco, Juarez, Jorge D., Garcia-Valero, Luis, Peñaranda, David S., Vicente, Jose S., and Viudes-de-Castro, Maria Pilar
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EMBRYO transfer , *GERM cells , *RABBITS , *CYTOPLASMIC inheritance , *GENOMIC imprinting , *FROZEN human embryos - Published
- 2020
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13. Effect of Embryo Vitrification on the Steroid Biosynthesis of Liver Tissue in Rabbit Offspring.
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Marco-Jiménez, Francisco, Garcia-Dominguez, Ximo, Domínguez-Martínez, Marta, Viudes-de-Castro, María Pilar, Diretto, Gianfranco, Peñaranda, David S., and Vicente, José S.
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VITRIFICATION , *EMBRYO transfer , *BIOSYNTHESIS , *EMBRYOS , *FROZEN human embryos - Abstract
Preimplantation embryo manipulations during standard assisted reproductive technologies (ART) have significant repercussions on offspring. However, few studies to date have investigated the potential long-term outcomes associated with the vitrification procedure. Here, we performed an experiment to unravel the particular effects related to stress induced by embryo transfer and vitrification techniques on offspring phenotype from the foetal period through to prepuberal age, using a rabbit model. In addition, the focus was extended to the liver function at prepuberal age. We showed that, compared to naturally conceived animals (NC), offspring derived after embryo exposure to the transfer procedure (FT) or cryopreservation-transfer procedure (VT) exhibited variation in growth and body weight from foetal life to prepuberal age. Strikingly, we found a nonlinear relationship between FT and VT stressors, most of which were already present in the FT animals. Furthermore, we displayed evidence of variation in liver function at prepuberal age, most of which occurred in both FT and VT animals. The present major novel finding includes a significant alteration of the steroid biosynthesis profile. In summary, here we provide that embryonic manipulation during the vitrification process is linked with embryo phenotypic adaptation detected from foetal life to prepuberal age and suggests that this phenotypic variation may be associated, to a great extent, with the effect of embryo transfer. [ABSTRACT FROM AUTHOR]
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- 2020
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14. Metabolomic Analysis Reveals Changes in Preimplantation Embryos Following Fresh or Vitrified Transfer.
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Garcia-Dominguez, Ximo, Diretto, Gianfranco, Frusciante, Sarah, Vicente, José Salvador, and Marco-Jiménez, Francisco
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EMBRYOS , *UNSATURATED fatty acids , *KREBS cycle , *EMBRYO transfer , *REPRODUCTIVE technology , *FROZEN human embryos , *AMINO acid metabolism - Abstract
Although assisted reproduction technologies (ARTs) are recognised as safe, and most of the offspring seem apparently healthy, there is clear evidence that ARTs are associated with changes in the embryo's developmental trajectory, which incur physiological consequences during the prenatal and postnatal stages of life. The present study aimed to address the influence of early (day-3 embryos) embryo transfer and cryopreservation on embryo survival, size, and metabolome at the preimplantation stage (day-6 embryos). To this end, fresh-transferred (FT) and vitrified-transferred (VT) embryos were compared using naturally-conceived (NC) embryos as a control reference. The results show that as in vitro manipulation was increased (NC < FT < VT), both embryo survival rate (0.91 ± 0.02, 0.78 ± 0.05 and 0.63 ± 0.05, for NC, FT, and VT groups, respectively) and embryo size (3.21 ± 0.49 mm, 2.15 ± 0.51 mm, 1.76 ± 0.46 mm of diameter for NC, FT, and VT groups, respectively) were significantly decreased. Moreover, an unbiased metabolomics analysis showed overall down-accumulation in 40 metabolites among the three experimental groups, with embryo transfer and embryo cryopreservation procedures both exerting a cumulative effect. In this regard, targeted metabolomics findings revealed a significant reduction in some metabolites involved in metabolic pathways, such as the Krebs cycle, amino acids, unsaturated fatty acids, and arachidonic acid metabolisms. Altogether, these findings highlight a synergistic effect between the embryo transfer and vitrification procedures in preimplantation embryos. However, the ex vivo manipulation during embryo transfer seemed to be the major trigger of the embryonic changes, as the deviations added by the vitrification process were relatively smaller. [ABSTRACT FROM AUTHOR]
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- 2020
- Full Text
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15. Long-Term Effects Following Fresh/Vitrified Embryo Transfer Are Transmitted by Paternal Germline in a Large Size Rabbit Cohort.
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Garcia-Dominguez, Ximo, Vicente, José Salvador, Viudes-de-Castro, María P., and Marco-Jiménez, Francisco
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EMBRYO transfer , *GERM cells , *MAMMALIAN embryos , *REPRODUCTIVE technology , *RABBITS , *BODY weight , *FROZEN human embryos , *CHILD development deviations - Abstract
Simple Summary: Assisted reproductive technologies (ARTs) involve an extraordinary change in the natural developmental trajectory of the mammalian embryo, incurring potential long-term and inheritable effects in the resulting offspring. The results of this study demonstrate, for the first time, that ex vivo embryo manipulations during fresh and vitrified embryo transfer are associated with paternally inherited bodyweight variation, but seemed not transmissible via the female germline. This asymmetry in the transmission of acquired features following ARTs suggests that embryo paternal and maternal genomes differ in their degree of susceptibility to the lasting effects of ARTs. This study would provide a novel view of developmental plasticity in the early mammalian embryo. The concept of developmental programming suggests that the early life environment influences offspring phenotype in later life, whose effects may also be manifested in further generations. Valuable pieces of evidence come from the fields applying assisted reproductive technologies (ARTs), which deprive embryos of their optimal maternal environment and were thus associated with subsequent developmental deviations. Recently, we demonstrated that the in vitro manipulations during a vitrified embryo transfer procedure incurs a cumulative and transgenerational decline in the growth performance of the resulting offspring. Here, we provide a longitudinal study to investigate whether previous developmental deviations could be indistinctly paternally or maternally transmitted using crossbred mattings. Our findings revealed that early embryo manipulations through fresh and vitrified embryo transfer incurred paternally transmissible effects over the growth pattern and adult body weight, which seemed not inheritable via the female germline. Similar inheritable effects were observed after fresh and vitrified embryo transfer, suggesting that disturbing optimal embryo development through in vitro manipulations was the principal trigger of transmissible effects, rather than embryo cryopreservation per se. [ABSTRACT FROM AUTHOR]
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- 2020
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16. Long-Term Phenotypic and Proteomic Changes Following Vitrified Embryo Transfer in the Rabbit Model.
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Garcia-Dominguez, Ximo, Marco-Jiménez, Francisco, Peñaranda, David S., and Vicente, José Salvador
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EMBRYO transfer , *FERTILIZATION in vitro , *LIPID metabolism , *MAMMALIAN embryos , *MAMMAL development , *REPRODUCTIVE technology , *PROTEOMICS , *FROZEN human embryos - Abstract
Simple Summary: This study was conducted to demonstrate how a vitrified embryo transfer procedure incurs phenotypic and molecular changes throughout life. This study reports the first evidence describing that embryonic manipulation during a vitrified embryo transfer cycle induced molecular modifications, concerning oxidative phosphorylation and dysregulations in zinc and lipid metabolism in liver tissue, which has been reported as responsible for postnatal variations of the phenotype. Nowadays, assisted reproductive technologies (ARTs) are considered valuable contributors to our past, but a future without their use is inconceivable. However, in recent years, several studies have evidenced a potential impact of ART on long-term development in mammal species. To date, the long-term follow-up data are still limited. So far, studies have mainly focused on in vitro fertilization or in vitro culture, with information from gametes/embryos cryopreservation field being practically missing. Herein, we report an approach to determine whether a vitrified embryo transfer procedure would have long-term consequences on the offspring. Using the rabbit as a model, we compared animals derived from vitrified-transferred embryos versus those naturally conceived, studying the growth performance, plus the weight throughout life, and the internal organs/tissues phenotype. The healthy status was assessed over the hematological and biochemical parameters in peripheral blood. Additionally, a comparative proteomic analysis was conducted in the liver tissue to investigate molecular cues related to vitrified embryo transfer in an adult tissue. After vitrified embryo transfer, birth weight was increased, and the growth performance was diminished in a sex-specific manner. In addition, vitrified-transferred animals showed significantly lower body, liver and heart weights in adulthood. Molecular analyses revealed that vitrified embryo transfer triggers reprogramming of the liver proteome. Functional analysis of the differentially expressed proteins showed changes in relation to oxidative phosphorylation and dysregulations in the zinc and lipid metabolism, which has been reported as possible causes of a disturbed growth pattern. Therefore, we conclude that vitrified embryo transfer is not a neutral procedure, and it incurs long-term effects in the offspring both at phenotypic and molecular levels. These results described a striking example of the developmental plasticity exhibited by the mammalian embryo. [ABSTRACT FROM AUTHOR]
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- 2020
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17. Developmental Plasticity in Response to Embryo Cryopreservation: The Importance of the Vitrification Device in Rabbits.
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Garcia-Dominguez, Ximo, Vicente, José Salvador, and Marco-Jiménez, Francisco
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VITRIFICATION , *EMBRYOS , *CRYOPRESERVATION of organs, tissues, etc. , *CRYOPROTECTIVE agents , *COMPOSITION of milk , *ANIMAL offspring sex ratio , *EMBRYO transfer - Abstract
Simple Summary: This study was conducted to demonstrate how embryo manipulation techniques incur phenotypic changes throughout life. This study reports the first evidence demonstrating that the vitrification device used is not a trivial decision, providing valuable information about how the cooling–warming rates during vitrification can be partly responsible of the postnatal phenotypic variations. In this study, we evaluated the effect of embryo vitrification using two different devices on adulthood phenotype in rabbits. In vitro development, prenatal embryo survival, body weight, growth performance, haematological and biochemical peripheral blood analysis, reproductive performance, and lactation performance traits were compared between the experimental groups. They derived from naturally-conceived embryos (NC), fresh-transferred embryos (FT), vitrified-transferred embryos using mini-straw (VTs), or vitrified-transferred embryos using Cryotop (VTc). Straw-vitrified embryos exhibited lower in vitro developmental rates and in vivo survival rates following embryo transfer compared to its Cryotop-vitrified counterparts. Moreover, the VTs group exhibited higher foetal losses than VTc, FT, and NC groups. Independently of the vitrification device, vitrified-transferred (VT) offspring showed a skewed sex ratio in favour of males, and an increased birth bodyweight. In contrast, postnatal daily growth was diminished in all ART (i.e., FT and VT) animals. In adulthood, significant differences in body weight between all groups was founded—all ART progenies weighed less than NC animals and, within ART, VT animals weighed less than FT. For VT groups, weight at adulthood was higher for the VTs group compared with the VTc group. Peripheral blood parameters ranged between common values. Moreover, no differences were found in the fertility rates between experimental groups. Furthermore, similar pregnancy rates, litter sizes, and the number of liveborns were observed, regardless of the experimental group. However, decreased milk yield occurred for VTc and FT animals compared to VTs and NC animals. A similar trend was observed for the milk composition of dry matter and fat. Concordantly, reduced body weight was found for suckling kits in the VTc and FT groups compared to VTs and NC animals. Our findings reveal that developmental changes after the embryo vitrification procedure could be associated with an exhibition of the embryonic developmental plasticity. Moreover, to our best knowledge, this study reports the first evidence demonstrating that the vitrification device used is not a trivial decision, providing valuable information about how the cooling–warming rates during vitrification can be partly responsible of the postnatal phenotypic variations. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
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18. Experimental Evidence Reveals Both Cross-Infection and Cross-Contamination Risk of Embryo Storage in Liquid Nitrogen Biobanks.
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Marin, Clara, Garcia-Dominguez, Ximo, Montoro-Dasi, Laura, Lorenzo-Rebenaque, Laura, Vicente, José S., and Marco-Jimenez, Francisco
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LIQUID nitrogen , *FERTILITY preservation , *HUMAN reproductive technology , *EMBRYOS , *EMBRYO transfer , *FROZEN human embryos , *BIOBANKS , *ENTEROBACTER aerogenes - Abstract
Simple Summary: This study was conducted to demonstrate the potential hazards of cross-infection and cross-contamination of embryos during storage in liquid nitrogen biobanks. For the harmless and successful cryopreservation of embryos, the vitrification method must be chosen meticulously to guarantee not only a high post-thaw survival of embryos, but also to reduce the risk of disease transmission when those embryos are in storage for long periods. In recent decades, gamete and embryo cryopreservation have become routine procedures in livestock and human assisted reproduction. However, the safe storage of germplasm and the prevention of disease transmission continue to be potential hazards of disease transmission through embryo transfer. This study aimed to demonstrate the potential risk of cross-infection of embryos from contaminated liquid nitrogen, and cross-contamination of sterile liquid nitrogen from infected embryos in naked and closed devices. Additionally, we examined the effects of antibiotic-free media on culture development of infected embryos. The study was a laboratory-based analysis using rabbit as a model. Two experiments were performed to evaluate both cross-infection (liquid nitrogen to embryos) and cross-contamination (embryos to liquid nitrogen) of artificially inoculated Salmonella Typhimurium, Staphylococcus aureus, Enterobacter aerogenes, and Aspergillus brasiliensis. Rapid cooling through vitrification was conducted on rabbit embryos, stored for a year, thawed, and cultured. In vivo produced late morulae–early blastocyst stages (72 h) embryos were used (n = 480). Embryos were cultured for 1 h in solutions with and without pathogens. Then, the embryos were vitrified and stored in naked and closed devices for one year in two liquid nitrogen biobanks (one pathogen-free and the other artificially contaminated). Embryos were warmed and cultured for a further 48 h, assessing the development and the presence of microorganism (chromogenic media, scanning electron microscopy). Embryos stored in naked devices in artificially contaminated liquid nitrogen became infected (12.5%), while none of the embryos stored in closed devices were infected. Meanwhile, storage of artificially infected embryos incurred liquid nitrogen biobank contamination (100%). Observations by scanning electron microscopy revealed that all the microorganisms were caught in the surface of embryos after the vitrification-thawed procedure. Nevertheless, embryos cultured in antibiotics and antimycotic medium developed to the hatched blastocyst stage, while artificially infected embryos cultured in antibiotic-free medium failed to develop. In conclusion, our findings support that both cross-contamination and cross-infection during embryo storage in liquid nitrogen biobanks are plausible. So, to ensure biosafety for the cryogenic storage, closed systems that avoid direct contact with liquid nitrogen must be used. Moreover, it seems essential to provide best practice guidelines for the cryogenic preservation and storage of gametes and embryos, to define appropriate quality and risk management procedures. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
19. Minimally Invasive Embryo Transfer and Embryo Vitrification at the Optimal Embryo Stage in Rabbit Model.
- Author
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Garcia-Dominguez X, Marco-Jimenez F, Viudes-de-Castro MP, and Vicente JS
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- Animals, Female, Laparoscopy, Models, Animal, Morula physiology, Phylogeny, Pregnancy, Rabbits, Embryo Transfer methods, Embryo, Mammalian physiology, Vitrification
- Abstract
Assisted reproductive techniques (ARTs), such as in vitro embryo culture or embryo cryopreservation, affect natural development patterns with perinatal and postnatal consequences. To ensure the innocuousness of ART applications, studies in animal models are necessary. In addition, as a last step, embryo development studies require evaluation of their capacity to develop full-term healthy offspring. Here, embryo transfer to the uterus is indispensable to perform any ARTs-related experiment. The rabbit has been used as a model organism to study mammalian reproduction for over a century. In addition to its phylogenetic proximity to the human species and its small size and low maintenance cost, it has important reproductive characteristics such as induced ovulation, a chronology of early embryonic development similar to humans and a short gestation that allow us to study the consequences of ART application easily. Moreover, ARTs (such as intracytoplasmic sperm injection, embryo culture, or cryopreservation) are applied with suitable efficiency in this species. Using the laparoscopic embryo transfer technique and the cryopreservation protocol presented in this article, we describe 1) how to transfer embryos through an easy, minimally invasive technique and 2) an effective protocol for long-term storage of rabbit embryos to provide time-flexible logistical capacities and the ability to transport the sample. The outcomes obtained after transferring rabbit embryos at different developmental stages indicate that morula is the ideal stage for rabbit embryo recovery and transfer. Thus, an oviductal embryo transfer is required, justifying the surgical procedure. Furthermore, rabbit morulae are successfully vitrified and laparoscopically transferred, proving the effectiveness of the described techniques.
- Published
- 2019
- Full Text
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