Your search keyword '"Embryo development"' showing total 4,776 results

1. Time will tell: time-lapse technology and artificial intelligence to set time cut-offs indicating embryo incompetence.

Author

Coticchio, Giovanni, Bartolacci, Alessandro, Cimadomo, Valentino, Trio, Samuele, Innocenti, Federica, Borini, Andrea, Vaiarelli, Alberto, Rienzi, Laura, Ahlström, Aisling, and Cimadomo, Danilo

Abstract

STUDY QUESTION Can more reliable time cut-offs of embryo developmental incompetence be generated by combining time-lapse technology (TLT), artificial intelligence, and preimplantation genetics screening for aneuploidy (PGT-A)? SUMMARY ANSWER Embryo developmental incompetence can be better predicted by time cut-offs at multiple developmental stages and for different ranges of maternal age. WHAT IS KNOWN ALREADY TLT is instrumental for the continual and undisturbed observation of embryo development. It has produced morphokinetic algorithms aimed at selecting embryos able to generate a viable pregnancy, however, such efforts have had limited success. Regardless, the potential of this technology for improving multiple aspects of the IVF process remains considerable. Specifically, TLT could be harnessed to discriminate developmentally incompetent embryos: i.e. those unable to develop to the blastocyst stage or affected by full-chromosome meiotic aneuploidies. If proven valuable, this application would prevent the non-productive use of such embryos, thereby improving laboratory and clinical efficiency and reducing patient stress and costs due to unnecessary embryo transfer and cryopreservation. STUDY DESIGN, SIZE, DURATION The training dataset involved embryos of PGT-A cycles cultured in Embryoscope with a single media (836 euploid and 1179 aneuploid blastocysts and 1874 arrested embryos; 2013–2020). Selection criteria were ejaculated sperm, own (not donated) fresh oocytes, trophectoderm biopsy and comprehensive-chromosome-testing to diagnose uniform aneuploidies. Out-of-sample (30% of training), internal (299 euploid and 490 aneuploid blastocysts and 680 arrested embryos; 2021–2022) and external (97 euploid, 110 aneuploid and 603 untested blastocysts and 514 arrested embryos, 2018 to early 2022) validations were conducted. PARTICIPANTS/MATERIALS, SETTING, METHODS A training dataset (70%) was used to define thresholds. Several models were generated by fitting outcomes to each timing (tPNa-t8) and maternal age. ROC curves pinpointed in-sample classification values associated with 95%, 99% and 99.99% true-positive rate for predicting incompetence. These values were integrated with upper limits of maternal age ranges (<35, 35-37, 38–40, 41–42, and >42 years) in logit functions to identify time cut-offs, whose accuracy was tested on the validation datasets through confusion matrices. MAIN RESULTS AND THE ROLE OF CHANCE For developmental (in)competence, the best performing (i) tPNa cut-offs were 27.8 hpi (error-rate: 0/743), 32.6 hpi (error rate: 0/934), 26.8 hpi (error rate: 0/1178), 22.9 hpi (error-rate: 1/654, 0.1%) and 17.2 hpi (error rate: 4/423, 0.9%) in the <35, 35–37, 38–40, 41–42, and >42 years groups, respectively; (ii) tPNf cut-offs were 36.7 hpi (error rate: 0/738), 47.9 hpi (error rate: 0/921), 45.6 hpi (error rate: 1/1156, 0.1%), 44.1 hpi (error rate: 0/647) and 41.8 hpi (error rate: 0/417); (iii) t2 cut-offs were 50.9 hpi (error rate: 0/724), 49 hpi (error rate: 0/915), 47.1 hpi (error rate: 0/1146), 45.8 hpi (error rate: 0/636) and 43.9 hpi (error rate: 0/416); (iv) t4 cut-offs were 66.9 hpi (error rate: 0/683), 80.7 hpi (error rate: 0/836), 77.1 hpi (error rate: 0/1063), 74.7 hpi (error rate: 0/590) and 71.2 hpi (error rate: 0/389); and (v) t8 cut-offs were 118.1 hpi (error rate: 0/619), 110.6 hpi (error rate: 0/772), 140 hpi (error rate: 0/969), 135 hpi (error rate: 0/533) and 127.5 hpi (error rate: 0/355). tPNf and t2 showed a significant association with chromosomal (in)competence, also when adjusted for maternal age. Nevertheless, the relevant cut-offs were found to perform less well and were redundant compared with the blastocyst development cut-offs. LIMITATIONS, REASONS FOR CAUTION Study limits are its retrospective design and the datasets being unbalanced towards advanced maternal age cases. The potential effects of abnormal cleavage patterns were not assessed. Larger sample sizes and external validations in other clinical settings are warranted. WIDER IMPLICATIONS OF THE FINDINGS If confirmed by independent studies, this approach could significantly improve the efficiency of ART, by reducing the workload and patient impacts (extended culture and cleavage stage cryopreservation or transfer) associated with embryos that ultimately are developmentally incompetent and should not be considered for treatment. Pending validation, these data might be applied also in static embryo observation settings. STUDY FUNDING/COMPETING INTEREST(S) This study was supported by the participating institutions. The authors have no conflicts of interest to declare TRIAL REGISTRATION NUMBER N/A. [ABSTRACT FROM AUTHOR]

Published

2024

2. MAT2A is essential for zygotic genome activation by maintaining of histone methylation in porcine embryos.

Author

Li, Xiao-Han, Lee, Song-Hee, Lu, Qin-Yue, Zhan, Cheng-Lin, Lee, Gyu-Hyun, Kim, Ji-Dam, Sim, Jae-Min, Song, Hyeon-Ji, and Cui, Xiang-Shun

Subjects

*HISTONE methylation, *EMBRYOLOGY, *DNA methylation, *DOUBLE-stranded RNA, *ADENOSYLMETHIONINE

Abstract

Methionine adenosyltransferase 2A (MAT2A) is an essential enzyme in the methionine cycle that generates S-adenosylmethionine (SAM) by reacting with methionine and ATP. SAM acts as a methyl donors for histone and DNA methylation, which plays key roles in zygotic genome activation (ZGA). However, the effects of MAT2A on porcine ZGA remain unclear. To investigate the function of MAT2A and its underlying mechanism in porcine ZGA, MAT2A was knocked down by double-stranded RNA injection at the 1-cell stage. MAT2A is highly expressed at every stage of porcine embryo development. The percentages of four-cell-stage embryos and blastocysts were lower in the MAT2A-knockdown (KD) group than in the control group. Notably, depletion of MAT2A decreased the levels of H3K4me2, H3K9me2/3, and H3K27me3 at the four-cell stage, whereas MAT2A KD reduced the transcriptional activity of ZGA genes. MAT2A KD decreased embryonic ectoderm development (EED) and enhancer of zeste homolog 2 (EZH2) expression. Exogenous SAM supplementation rescued histone methylation levels and developmental arrest induced by MAT2A KD. Additionally, MAT2A KD significantly increased DNA damage and apoptosis. In conclusion, MAT2A is involved in regulating transcriptional activity and is essential for regulating histone methylation during porcine ZGA. • MAT2A affected porcine embryonic development. • MAT2A knockdown decreased histone methylation levels. • MAT2A knockdown decreased ZGA genes expression and induced apoptosis. • SAM supplementation rescued histone methylation levels and developmental arrest induced by MAT2A knockdown. [ABSTRACT FROM AUTHOR]

Published

2024

3. The effect of resveratrol on the developmental competence of feline oocytes vitrified at the metaphase II stage.

Author

Nowak, Agnieszka, Kochan, Joanna, Gabryś, Julia, Kij-Mitka, Barbara, Witarski, Wojciech, Prochowska, Sylwia, and Niżański, Wojciech

Subjects

*OVUM, *ZYGOTES, *VITRIFICATION, *BLASTOCYST, *FLUORESCEIN, *RESVERATROL

Abstract

The objective of this research was to assess the viability and developmental potential of feline oocytes following in vitro maturation (IVM), vitrification, and post-warming incubation with resveratrol. In the first experiment, warmed oocytes were incubated with 0.2 μM, 2 μM, or 20 μM resveratrol for 2 h. Oocytes treated with 0.2 μM resveratrol had the highest viability (68.89 %), as assessed by fluorescein diacetate and ethidium bromide staining, while higher concentrations were associated with diminished oocyte viability. In the second experiment, the warmed oocytes were inseminated following the 2-h incubation with the three concentrations of resveratrol. The presumptive zygotes were then maintained in culture and their development evaluated. The highest cleavage rate was observed when the oocytes had been incubated with 0.2 μM resveratrol (88.34 %), which was higher than for the control group (without resveratrol (75 %)). Moreover, this concentration of resveratrol also augmented the blastocyst formation rate. While the vitrification of oocytes often results in diminished developmental potential in the ensuing embryos, attributed to cryopreservation-induced injury, the utilization of low concentrations of resveratrol enhances the procedure's efficacy. • Resveratrol treatment is a possible countermeasure against cryopreservation‐induced mitochondrial damage. • Resveratrol improved the viability of oocytes after vitrification. • Oocytes vitrified and incubated with resveratrol have good developmental competence after IVF. • Resveratrol improves the quality of oocytes vitrified in minimal volumes. [ABSTRACT FROM AUTHOR]

Published

2024

4. Temporal appearance of embryonic compartments and their sexual dimorphism in chicken.

Author

Horkaew, P., Kupittayanant, S., and Kupittayanant, P.

Subjects

*WASTE gases, *SEXUAL dimorphism, *WASTE management, *ANIMAL welfare, *CHICKENS

Abstract

1. Building on established understandings regarding hormonal and metabolic-driven processes of avian embryo’s growth and development, this paper proposes a novel method, focusing on sex-related dimorphism. Such processes involve crucial activities, e.g. nutrition delivery, gas exchange and waste disposal. These are influenced by interactions among various structures within embryonic compartments, whose sequential patterns between males and females have been proven different.2. The embryonic compartments, having undergone physiological changes during d 8–12, were acquired from candled images. Their temporal appearance model was developed from a non-linear classifier. It was hypothesised that if there is any distinctive pattern associated with the embryonic compartments between embryo sexes, then the classifier can be trained to recognise the dimorphism.3. The results revealed that the proposed method could separate sexes in ovo with accuracy, recall, precision and balance accuracy of 94.71, 93.47, 95.92 and 94.72%, respectively. Error analyses found 4.82% false discovery and 9.78% false omission rates. The method was expected to enhance farming resource management and leads to better animal welfare. [ABSTRACT FROM AUTHOR]

Published

2024

5. Contribution of the paternal histone epigenome to the preimplantation embryo.

Author

Dodd, Ashton R. and Luense, Lacey J.

Abstract

The paternal germline contains a plethora of information that extends beyond DNA. Packaged within the sperm cell is a wealth of epigenetic information, including DNA methylation, small RNAs, and chromatin associated histone proteins and their covalently attached post-translational modifications. Paternal chromatin is particularly unique, as during the process of spermatogenesis, nearly all histones are evicted from the genome with only a small percentage retained in the mature sperm cell. This paternal epigenetic information is encoded into chromatin during spermatogenesis and is delivered to the oocyte upon fertilization. The exact role of these paternally contributed histones to the embryo remains to be fully understood, however recent studies support the hypothesis that retained sperm histones act as a mechanism to poise genes for early embryonic gene activation. Evidence from multiple mammalian species suggests sperm histones are present at loci that are important for preimplantation embryo chromatin dynamics and transcriptional regulation. Furthermore, abnormal sperm histone epigenomes result in infertility, poor embryogenesis, and offspring development. This mini-review describes recent advances in the field of paternal histone epigenetics and their potential roles in preimplantation embryo development. [ABSTRACT FROM AUTHOR]

Published

2024

6. Sperm histone modifications may predict success in human assisted reproduction: a pilot study.

Author

Cambiasso, M. Y., Romanato, M., Gotfryd, L., Valzacchi, G. Rey, Calvo, L., Calvo, J. C., and Fontana, V. A.

Abstract

Purpose: Currently, assisted reproduction clinics employ various sperm selection techniques to identify the best sperm for fertilization. However, these techniques may not assess crucial sperm traits that can substantially impact embryonic quality. To address this, we propose analyzing diverse histone modifications as potential markers of sperm functionality and success in assisted reproduction techniques. Methods: Cross-sectional pilot study including infertile male patients attending an infertility clinic in CABA, Argentina between April and August 2019 was performed. We used immunofluorescence techniques to evaluate post-translational modifications of histones in sperm and established correlations with in vitro fertilization outcome and embryo quality. Results: Our findings indicate a negative correlation between H3K4me3 and H3K4me2 marks and fertilization rate and showed a positive correlation of this parameter with H3K9me mark. In addition, there was a positive correlation between H3K27me3 and good embryo quality. Conclusions: This pilot study proposes a non-invasive strategy to predict embryo quality by analyzing spermatozoa prior to fertilization. The assessment of histone post-translational modifications in sperm samples could provide useful information for the recognition of epigenetic marks that could predict the health of the embryo of an assisted fertilization treatment. [ABSTRACT FROM AUTHOR]

Published

2024

7. Comparison of Gene Expression for Preimplantation Genes in Bovine Embryos Fertilized in vitro.

Author

Al-Malahi, Nawal M., Daghestani, Maha H., Al-Ghadi, Muath Q., Alkhuriji, Afrah F., Amran, Ramzi A., and Alhimaidi, Ahmad R.

Abstract

Background: In vitro fertilization (IVF) the technique is useful for understanding early mammalian development and maximizing and speeding up genetic improvement in livestock. Genes that function as genetic markers and are involved in the pre-implantation development of embryos may be used to evaluate the quality of an embryo and the expression of these genes is correlated with the timing of embryonic genomic activation. Methods: Maturing the oocytes of bovine, then fertilizing these matured oocytes and finally culturing the fertilized oocytes to develop into embryos. Determined the gene expression of different certain genes HSP70, OCT4, GLUT1, BAX and DNMT1 in these different cell stages of embryos that were produced. Result: The mRNA expression of these genes was estimated after collecting the embryos listed above that were produced by the in vitro technique. The results showed statistically significant differences in the relative abundance between some of the genes mentioned above in each embryo stage. The timing of the zygotic genome activation process (ZGA) can result in differences in gene expression levels between the early embryonic genes in each developmental stage of in vitro-produced bovine embryos. [ABSTRACT FROM AUTHOR]

Published

2024

8. PRP Influences Maturation and Fertilisation of Immature Mouse Oocytes.

Author

Alaee, Sanaz, Zal, Fatemeh, Razban, Vahid, Talaei‐Khozani, Tahereh, Shokri, Saeed, and Khodabandeh, Zahra

Subjects

*ZONA pellucida, *GERMINAL vesicles, *EMBRYOLOGY, *CONTROL groups, *OVUM

Abstract

In vitro maturation (IVM) of immature oocytes is a valuable method to enhance the rate of mature oocytes available for fertilisation. In the current study, platelet‐rich plasma (PRP) was employed in IVM medium of immature oocytes. Harvested germinal vesicle stage oocytes with cumulus cells from female mature BALB/c mice divided into two groups of control and experiment. In the experimental group, GV oocytes matured in the IVM medium supplemented with 5% PRP, while in the control group, GV oocytes matured in the IVM medium without PRP. The percentage of GV, MI, MII and degenerated oocytes, zona pellucida thickness, perivitelline space size, diameter of mature oocytes, gene expression of apoptosis‐related factors and subsequent development of matured oocytes were assessed. The PRP group displayed significantly improved outcomes in various parameters, including a higher proportion of MII and fertilised oocytes, cleavage and blastocyst embryos, compared to the control group. Moreover, the thickness of the zona pellucida was significantly lower in the PRP group than in the control group (p < 0.05). Furthermore, the PRP group demonstrated a significant decrease in the expression of transcripts associated with apoptosis (Bax and caspase‐3); however, in the PRP group, a substantial increase in the expression of Bcl2l1, an apoptosis inhibitor, was observed when compared to the control group (p < 0.05). In conclusion, addition of PRP to the IVM culture media significantly increased oocyte maturation rate, leading to improved fertilisation and subsequent embryonic development. This enhancement highlights the positive influence of PRP on overall in vitro maturation efficiency and early embryonic stages. [ABSTRACT FROM AUTHOR]

Published

2024

9. Effects of In Ovo Taurine Injection on Embryo Development, Antioxidant Status, and Bioactive Peptide Content in Chicken Embryos (Gallus gallus domesticus).

Author

Łukasiewicz Mierzejewska, Monika, Kotuszewska, Marta, Puppel, Kamila, and Madras Majewska, Beata

Subjects

*PEPTIDES, *OXIDANT status, *REACTIVE oxygen species, *EMBRYOLOGY, *TAURINE, *CHICKEN embryos

Abstract

Stress in birds disrupts the homeostasis of the organism, leading to an inability to neutralize reactive oxygen species. Taurine, an effective antioxidant, affects various cellular mechanisms, including cation modulation, protein phosphorylation, and cell proliferation. The aim of the study was to evaluate the effect of colloid with taurine applied in ovo to Albumin on embryonic development, oxidative stress indicators and the content of bioactive peptides—carnosine and anserine—in the pectoral muscle. The research materials were eggs of the parent flock (Ross 308) divided into four groups (K (without injection), T50-concentration of taurine hydrocolloid 50 ppm (mg/L); T100-colloid concentration 100 ppm (mg/L) taurine; T500-colloid concentration of 500 ppm (mg/L) taurine). The experimental solutions were injected in an amount of 0.3 mL into egg white. Eggs were incubated under standard incubation conditions. The addition of 100 and 500 ppm taurine had a highly significant (p = 0.001) effect on the plasma antioxidant potential in chicks. The level of anserine increased with increasing concentrations of taurine. These changes were highly significant (p = 0.007). The level of anserine in the T2 and T3 groups was determined to be 2.5 times higher than in the pectoral muscles of embryos not treated with taurine colloid. An analysis of the results showed that the administration of an increased dose of hydrocolloid with taurine increased the content of carnosine and anserine in the pectoral muscle. Colloid with taurine applied in ovo to chicken white egg reduces oxidative stress and increases homeostasis of the organism. [ABSTRACT FROM AUTHOR]

Published

2024

10. Cellular mechanisms of monozygotic twinning: clues from assisted reproduction.

Author

Jin, Hongbin, Han, Yang, and Zenker, Jennifer

Subjects

*MONOZYGOTIC twins, *HIGH-risk pregnancy, *REPRODUCTIVE technology, *DIZYGOTIC twins, *HUMAN embryos, *MULTIPLE pregnancy

Abstract

BACKGROUND Monozygotic (MZ) twins are believed to arise from the fission of a single fertilized embryo at different stages. Monochorionic MZ twins, who share one chorion, originate from the splitting of the inner cell mass (ICM) within a single blastocyst. In the classic model for dichorionic MZ twins, the embryo splits before compaction, developing into two blastocysts. However, there are a growing number of ART cases where a single blastocyst transfer results in dichorionic MZ twins, indicating that embryo splitting may occur even after blastocyst formation. OBJECTIVE AND RATIONALE For monochorionic MZ twins, we conducted a comprehensive analysis of the cellular mechanisms involved in ICM splitting, drawing from both ART cases and animal experiments. In addition, we critically re-examine the classic early splitting model for dichorionic MZ twins. We explore cellular mechanisms leading to two separated blastocysts in ART, potentially causing dichorionic MZ twins. SEARCH METHODS Relevant studies including research articles, reviews, and conference papers were searched in the PubMed database. Cases of MZ twins from IVF clinics were found by using combinations of terms including 'monozygotic twins' with 'IVF case report', 'ART', 'single embryo transfer', or 'dichorionic'. The papers retrieved were categorized based on the implicated mechanisms or as those with unexplained mechanisms. Animal experiments relating to MZ twins were found using 'mouse embryo monozygotic twins', 'mouse 8-shaped hatching', 'zebrafish janus mutant', and 'nine-banded armadillo embryo', along with literature collected through day-to-day reading. The search was limited to articles in English, with no restrictions on publication date or species. OUTCOMES For monochorionic MZ twins, ART cases and mouse experiments demonstrate evidence that a looser ICM in blastocysts has an increased chance of ICM separation. Physical forces facilitated by blastocoel formation or 8-shaped hatching are exerted on the ICM, resulting in monochorionic MZ twins. For dichorionic MZ twins, the classic model resembles artificial cloning of mouse embryos in vitro , requiring strictly controlled splitting forces, re-joining prevention, and proper aggregation, which allows the formation of two separate human blastocysts under physiological circumstances. In contrast, ART procedures involving the transfer of a single blastocysts after atypical hatching or vitrified-warmed cycles might lead to blastocyst separation. Differences in morphology, molecular mechanisms, and timing across various animal model systems for MZ twinning can impede this research field. As discussed in future directions, recent developments of innovative in vitro models of human embryos may offer promising avenues for providing fundamental novel insights into the cellular mechanisms of MZ twinning during human embryogenesis. WIDER IMPLICATIONS Twin pregnancies pose high risks to both the fetuses and the mother. While single embryo transfer is commonly employed to prevent dizygotic twin pregnancies in ART, it cannot prevent the occurrence of MZ twins. Drawing from our understanding of the cellular mechanisms underlying monochorionic and dichorionic MZ twinning, along with insights into the genetic mechanisms, could enable improved prediction, prevention, and even intervention strategies during ART procedures. REGISTRAITON NUMBER N/A. [ABSTRACT FROM AUTHOR]

Published

2024

11. Dissecting the temporal genetic networks programming soybean embryo development from embryonic morphogenesis to post-germination.

Author

Wang, Yen-Ching, Hsieh, Wei-Hsun, Lin, Liang-Peng, He, Meng-Hsun, Jhan, Ya-Ting, Huang, Chu-Jun, Zhan, Junpeng, Chang, Ching-Chun, Hsieh, Tzung-Fu, and Lin, Jer-Young

Abstract

Key message: Desiccation-stage transcription factors perform similar functions, with early ones focused on desiccation tolerance and later ones on development. Gene networks governing late embryo development diverge between soybean and Arabidopsis. To understand gene activities programming seed embryo development, we profiled the soybean embryo transcriptome across embryonic morphogenesis through post-germination. Transcriptomic landscapes across embryo development feature highly prevalent transcripts, categorized into early and late groups, with shared and distinct functions. During the mid-storage reserve accumulation stage, the upregulated genes are enriched with regulatory tasks at both the transcriptional and chromatin levels, including DNA methylation and chromatin remodeling. The epigenetic-related functions also dominate in the upregulated genes during germination, involving core histone variants and histone chaperones. Gene network analysis reveals both stage-specific modules and modules active across multiple stages. The desiccation-associated gene module integrates diverse transcription factors (TFs) that are sequentially active during different desiccation stages, transitioning from abiotic stress functions early on to developmental functions later. Two TFs, active during the early and mid-desiccation stages were functionally assessed in Arabidopsis overexpression lines to uncover their potential roles in desiccation processes. Interestingly, nearly half of the Arabidopsis orthologs of soybean TFs active in the desiccation-associated module are inactive during Arabidopsis desiccation. Our results reveal that chromatin and transcriptional regulation coordinate during mid-storage reserve accumulation, while distinct epigenetic mechanisms drive germination. Additionally, gene modules either perform stage-specific functions or are required across multiple stages, and gene networks during late embryogenesis diverge between soybean and Arabidopsis. Our studies provide new information on the biological processes and gene networks underlying development from embryonic morphogenesis to post-germination. [ABSTRACT FROM AUTHOR]

Published

2024

12. Effect of the addition of IGF-1 during in vitro culture on the embryonic development speed from different crossbreed bovine embryos.

Author

Carrillo-Gonzalez, Diego F., Hernández-Herrera, Darwin Y., Medina-Montes, Adrian F., and Otero-Arroyo, Rafael

Abstract

Supplementation with insulin-like growth factor type 1 (IGF-1) during in vitro culture of bovine embryos has yielded mixed results, likely due to genetic variability among embryos. This work aimed to evaluate the effect of IGF-1 at two concentrations on the development speed embryos from primary F1 crossbreeds used in dual-purpose cattle farming in the Colombian low tropics. Specifically, we investigated the influence of IGF-1 and embryo breed on the blastocyst formation rate. Oocytes were sourced from non-pregnant cows: Bos taurus indicus (20 Brahman and 14 Gyr) and Bos taurus taurus (12 Holstein and 28 Romosinuano). Oocytes were fertilized with semen from specific bulls (Recoil for Holstein, Gabinete for Gyr, and UBER POI 1490 for Brahman). The resulting embryos from each crossbreed group were randomly distributed in three different cultured media with 50 ng/mL IGF-1, 100 ng/mL IGF-1, or no IGF-1 (control) for 7 days. Results showed that 50 ng/mL IGF-1 significantly increased embryo production by day 6 (25.9%±14.56%) compared to control (20.5%±11.84%) and 100 ng/mL IGF-1 (23.0%±9.54%) (p < 0.05). By day 7, both 50 ng/mL (42.6%±26.55%) and 100 ng/mL (49.7%±21.98%) IGF-1 groups exhibited significantly higher production rates compared to the control group (p < 0.001). The embryo breed also influenced development, with Gyr-Holstein (GxH) crossbreeds showing the highest production rates (p < 0.001). In conclusion, IGF-1 supplementation enhances in vitro embryo production, with the effect influenced by both breed and IGF-1 concentration. These findings suggest that breed-specific optimization of IGF-1 conditions is necessary to maximize embryonic development outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

13. Bta-miR-665 improves bovine blastocyst development through its influence on microtubule dynamics and apoptosis.

Author

Xuefeng Guan, Yuan Fan, Six, Rani, Benedetti, Camilla, Raes, Annelies, Montoro, Andrea Fernandez, Xiaole Cui, Dolatabad, Nima Azari, Van Soom, Ann, Pavani, Krishna Chaitanya, and Peelman, Luc

Subjects

EMBRYOLOGY, EXTRACELLULAR vesicles, BLASTOCYST, CELL proliferation, PHENOTYPES

Abstract

Extracellular vesicles (EVs) contain microRNAs (miRNAs), which are important regulators of embryonic development. Nevertheless, little is known about the precise molecular processes controlling blastocyst development and quality. In a previous study, we identified bta-miR-665 as one of the miRNAs more abundantly present in extracellular vesicles of embryo-conditioned culture media of blastocysts compared to degenerate ones. Here, we investigated the effect and regulatory roles of bta-miR-665 in blastocyst development by supplementation of bta-miR-665 mimics or inhibitors to the culture media. Supplementation of bta-miR-665 mimics improved cleavage and blastocyst rate (P < 0.01), and blastocyst quality as indicated by increased inner cell mass rates and reduced apoptotic cell ratios (P < 0.01). Furthermore, supplementation of bta-miR-665 inhibitors had the opposite effect on these phenotypes. Low input transcriptome analysis and RT-qPCR revealed that bta-miR-665 acts on genes linked to microtubule formation and apoptosis/cell proliferation. These insights not only elucidate the important role of bta-miR-665 in embryo development, but also underscore its potential in improving reproductive efficiency in bovine embryo culture. [ABSTRACT FROM AUTHOR]

Published

2024

14. Vitamin E supplementation prevents obesogenic diet-induced developmental abnormalities in SR-B1 deficient embryos.

Author

Quiroz, Alonso, Belledonne, Gabriela, Saavedra, Fujiko, González, Javier, and Busso, Dolores

Subjects

BLOOD lipids, VITAMIN E, NEURAL tube defects, YOLK sac, DIETARY supplements

Abstract

Introduction: Genetic and environmental factors influence the risk of neural tube defects (NTD), congenital malformations characterized by abnormal brain and spine formation. Mouse embryos deficient in Scavenger Receptor Class B Type 1 (SR-B1), which is involved in the bidirectional transfer of lipids between lipoproteins and cells, exhibit a high prevalence of exencephaly, preventable by maternal vitamin E supplementation. SR-B1 knock-out (KO) embryos are severely deficient in vitamin E and show elevated reactive oxygen species levels during neurulation. Methods: We fed SR-B1 heterozygous female mice a high-fat/high-sugar (HFHS) diet and evaluated the vitamin E and oxidative status in dams and embryos from heterozygous intercrosses. We also determined the incidence of NTD. Results and discussion: HFHS-fed SR-B1 HET females exhibited altered glucose metabolism and excess circulating lipids, along with a higher incidence of embryos with developmental delay and NTD. Vitamin E supplementation partially mitigated HFHS-induced maternal metabolic abnormalities and completely prevented embryonic malformations, likely through indirect mechanisms involving the reduction of oxidative stress and improved lipid handling by the parietal yolk sac. [ABSTRACT FROM AUTHOR]

Published

2024

15. Pre-Embryonic Period Observation Shows a Unique Reproductive Strategy of the Critically Endangered Anji Salamander (Hynobius amjiensis).

Author

Qiu, Yu, Chen, Kaiyang, Mei, Yiyun, Yang, Jia, and Chen, Cangsong

Subjects

*COMPETITION (Biology), *WILDLIFE conservation, *SALAMANDERS, *AMPHIBIANS, *SURVIVAL rate

Abstract

Simple Summary: The Anji salamander (Hynobius amjiensis) is an endangered amphibian native primarily to China. Artificial breeding is crucial for its population growth, yet research on its reproduction remains limited. This study identified 25 early embryo stages and observed that these embryos contain less yolk compared to those of other salamanders or frogs. The Anji salamander employs a "mass escape" reproductive strategy, producing fewer but higher-quality offspring due to intense competition within its restricted breeding habitats. This research offers new insights into these salamnders' breeding biology and proposes methods to enhance breeding practices for conservation. Hynobius amjiensis, also known as the Anji salamander, is an amphibian species currently categorized as endangered due to its limited geographical distribution, primarily in China. To address the critical conservation status of this species, artificial breeding is essential for population expansion. However, progress in artificial breeding efforts has been hindered by the scarcity of research on the reproductive biology of the Anji salamander. In this study, we identified 25 distinct early stages of embryo development. Additionally, we observed that Anji salamander embryos contain a lesser amount of yolk compared to other salamanders or frogs. We further discovered that the Anji salamander employs a highly competitive reproductive strategy, producing a smaller number of high-quality offspring. This strategy aims to generate adaptive individuals through intense intraspecific competition, driven by three factors: extremely confined breeding habitats, a substantial number of eggs, and a reduced yolk content. We introduce the term "mass escape" to describe this strategy, which provides a novel perspective on cannibalization, focusing on the consumption of specific body parts rather than a single-individual activity. This study offers valuable insights into artificial breeding techniques designed to mitigate inherent intraspecific competitive pressure, thereby improving metamorphosis and survival rates. Additionally, it provides a comprehensive table detailing the pre-embryonic developmental stages of the Anji salamander. [ABSTRACT FROM AUTHOR]

Published

2024

16. Elucidation of the pluripotent potential of bovine embryonic lineages facilitates the establishment of formative stem cell lines.

Author

Zhi, Minglei, Gao, Dengfeng, Yao, Yixuan, Zhao, Zimo, Wang, Yingjie, He, Pengcheng, Feng, Zhiqiang, Zhang, Jinying, Huang, Ziqi, Gu, Wenyuan, Zhao, Jianglin, Zhang, He, Wang, Shunxin, Li, Xin, Zhang, Qiang, Zhao, Zengyuan, Chen, Xinze, Zhang, Xiaowei, Qin, Lun, and Liu, Jun

Subjects

*PLURIPOTENT stem cells, *EMBRYOLOGY, *GENE expression, *GERM cells, *STEM cells

Abstract

The establishment of epiblast-derived pluripotent stem cells (PSCs) from cattle, which are important domestic animals that provide humans with milk and meat while also serving as bioreactors for producing valuable proteins, poses a challenge due to the unclear molecular signaling required for embryonic epiblast development and maintenance of PSC self-renewal. Here, we selected six key stages of bovine embryo development (E5, E6, E7, E10, E12, and E14) to track changes in pluripotency and the dependence on signaling pathways via modified single-cell transcription sequencing technology. The remarkable similarity of the gene expression patterns between cattle and pigs during embryonic lineage development contributed to the successful establishment of bovine epiblast stem cells (bEpiSCs) using 3i/LAF (WNTi, GSK3βi, SRCi, LIF, Activin A, and FGF2) culture system. The generated bEpiSCs exhibited consistent expression patterns of formative epiblast pluripotency genes and maintained clonal morphology, normal karyotypes, and proliferative capacity for more than 112 passages. Moreover, these cells exhibited high-efficiency teratoma formation as well as the ability to differentiate into various cell lineages. The potential of bEpiSCs for myogenic differentiation, primordial germ cell like cells (PGCLCs) induction, and as donor cells for cell nuclear transfer was also assessed, indicating their promise in advancing cell-cultured meat production, gene editing, and animal breeding. [ABSTRACT FROM AUTHOR]

Published

2024

17. Anomaly Detection in Embryo Development and Morphology Using Medical Computer Vision-Aided Swin Transformer with Boosted Dipper-Throated Optimization Algorithm.

Author

Mazroa, Alanoud Al, Maashi, Mashael, Said, Yahia, Maray, Mohammed, Alzahrani, Ahmad A., Alkharashi, Abdulwhab, and Al-Sharafi, Ali M.

Subjects

*TRANSFORMER models, *DEVELOPMENTAL biology, *OPTIMIZATION algorithms, *ARTIFICIAL intelligence, *FERTILIZATION in vitro

Abstract

Infertility affects a significant number of humans. A supported reproduction technology was verified to ease infertility problems. In vitro fertilization (IVF) is one of the best choices, and its success relies on the preference for a higher-quality embryo for transmission. These have been normally completed physically by testing embryos in a microscope. The traditional morphological calculation of embryos shows predictable disadvantages, including effort- and time-consuming and expected risks of bias related to individual estimations completed by specific embryologists. Different computer vision (CV) and artificial intelligence (AI) techniques and devices have been recently applied in fertility hospitals to improve efficacy. AI addresses the imitation of intellectual performance and the capability of technologies to simulate cognitive learning, thinking, and problem-solving typically related to humans. Deep learning (DL) and machine learning (ML) are advanced AI algorithms in various fields and are considered the main algorithms for future human assistant technology. This study presents an Embryo Development and Morphology Using a Computer Vision-Aided Swin Transformer with a Boosted Dipper-Throated Optimization (EDMCV-STBDTO) technique. The EDMCV-STBDTO technique aims to accurately and efficiently detect embryo development, which is critical for improving fertility treatments and advancing developmental biology using medical CV techniques. Primarily, the EDMCV-STBDTO method performs image preprocessing using a bilateral filter (BF) model to remove the noise. Next, the swin transformer method is implemented for the feature extraction technique. The EDMCV-STBDTO model employs the variational autoencoder (VAE) method to classify human embryo development. Finally, the hyperparameter selection of the VAE method is implemented using the boosted dipper-throated optimization (BDTO) technique. The efficiency of the EDMCV-STBDTO method is validated by comprehensive studies using a benchmark dataset. The experimental result shows that the EDMCV-STBDTO method performs better than the recent techniques. [ABSTRACT FROM AUTHOR]

Published

2024

18. Evolution of Media Supporting the Development of Mammalian Preimplantation Embryos In Vitro.

Author

Men, Hongsheng

Subjects

*REPRODUCTIVE health, *SOCIAL evolution, *MAMMALIAN embryos, *REPRODUCTIVE technology, *ANIMAL genetics, *DOMESTIC animals

Abstract

Simple Summary: The media supporting selected mammalian preimplantation embryos in vitro have played an essential role in the advancement of assisted reproductive technology (ART). ART has in turn transformed biomedical research with genetically modified, disease-specific animal models, agriculture with genetically modified farm animals and human reproductive health with infertility treatment. However, the current culture systems still cannot replicate the in vivo environment, and embryos derived from in vitro systems are poor in quality compared to their in vivo counterparts. The objective of this review is to discuss the lineage of chemically defined media from simple salt solutions to modern media commonly used in embryo cultures for laboratory animals (mice and rats) and farm animals (pigs and cattle) and provide some insights for future improvements. This discussion provides readers with knowledge regarding the evolution of media used to support the development of preimplantation embryos in vitro and aims to inspire interest in the development of media to better support embryo development in vitro. Assisted reproductive technology has revolutionized our ability to genetically manipulate, maintain and rederive laboratory animals of biomedical importance; manipulate animal reproduction or genetics to boost production of farm animals; and improve human reproductive health. The media for in vitro manipulation and the culture of embryos play a critical role in the development of assisted reproductive technology. In this review, the evolution of culture media supporting embryo development in vitro from selected animal species, laboratory animals (mice and rats) and farm animals (pigs and cattle), will be discussed with a focus on the development of chemically defined media. [ABSTRACT FROM AUTHOR]

Published

2024

19. Protein Modifications During Early Embryo Development.

Author

Zhang, Le, Zhang, Yanbing, and Sun, Hailong

Subjects

*CYTOLOGY, *EMBRYOLOGY, *POST-translational modification, *HUMAN embryos, *REPRODUCTIVE technology

Abstract

Background: Infertility is a global reproductive health burden. Assisted reproductive technologies (ARTs) have been widely used to help patients become pregnant. Few embryos develop to the blastocyst stage with ARTs, leading to relatively low live birth rates. Protein modifications play crucial roles in nearly every aspect of cell biology, including reproductive processes. The aim of this study was to explore the characteristics of protein modifications during embryonic development. Methods: Proteomic data from humans and mice were acquired from the integrated proteome resources (iProX) of ProteomeXchange (PXD024267) and a tandem mass tag (TMT)‐mass spectrometry dataset. Gene ontology (GO) analysis and Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis were applied for functional annotation. Protein–protein interactions (PPIs) of the modification‐related genes were revealed by the STRING database. Modified proteins during mouse embryogenesis were visualized through heatmaps of hierarchically clustering using k‐means. Results: We identified modification‐related proteins in human embryo development and characterized them through heatmaps, GO analysis, KEGG analysis, and PPI network analysis. We found that the 4‐cell stage to the 8‐cell stage might be the demarcation period for modification‐related protein expression patterns during embryo development. Using quantitative mass spectrometry, we elucidated the methylation, acetylation, and ubiquitination events that occur during mouse embryogenesis to validate our findings in human embryonic development to some extent. Conclusions: The results of our study suggest that the posttranslational modifications (PTMs) of human preimplantation embryos might exhibit the same trends as those in mice to exert synergistic and fine‐tuned regulatory effects during embryonic development. [ABSTRACT FROM AUTHOR]

Published

2024

20. Exploring Mechanical Forces Shaping Self-Organization and Morphogenesis During Early Embryo Development.

Author

Huang, Hong, Gao, Shaorong, and Bao, Min

Abstract

Embryonic development is a dynamic process orchestrated by a delicate interplay of biochemical and biophysical factors. While the role of genetics and biochemistry in embryogenesis has been extensively studied, recent research has highlighted the significance of mechanical regulation in shaping and guiding this intricate process. Here, we provide an overview of the current understanding of the mechanical regulation of embryo development. We explore how mechanical forces generated by cells and tissues play a crucial role in driving the development of different stages. We examine key morphogenetic processes such as compaction, blastocyst formation, implantation, and egg cylinder formation, and discuss the mechanical mechanisms and cues involved. By synthesizing the current body of literature, we highlight the emerging concepts and open questions in the field of mechanical regulation. We aim to provide an overview of the field, inspiring future investigations and fostering a deeper understanding of the mechanical aspects of embryo development. [ABSTRACT FROM AUTHOR]

Published

2024

21. High and low performing sires differ in their contributions to early embryonic stress in the bovine.

Author

Fallon, Lindsey, Lockhart, Kelsey N., Spencer, Thomas E., and Ortega, M. Sofia

Subjects

*REACTIVE oxygen species, *DAIRY cattle, *DAIRY industry, *OVUM, *EMBRYOS

Abstract

Context: Sires differ in their ability to produce viable blastocysts, yet our understanding of the cellular mechanisms regulated by the sire during early embryo development is limited. Aims: The first aim was to characterise autophagy and reactive oxygen species (ROS) in embryos produced by high and low performing sires under normal and stress culture conditions. The second aim was to evaluate DNA damage and lipid peroxidation as mechanisms that may be impacted by increased cellular stress, specifically oxidative stress. Methods: Embryos were produced using four high and four low performing sires based on their ability to produce embryos. Autophagy and ROS were measured throughout development. To evaluate oxidative stress response, autophagy, and ROS were measured in 2–6 cell embryos exposed to heat stress. To understand how cellular stress impacts development, DNA damage and lipid peroxidation were assessed. Key results: Under normal conditions, embryos from low performing sires had increased ROS and autophagy. Under heat stress, embryos from low performing sires had increased ROS, yet those from high performing sires had increased autophagy. There was no difference in DNA damage or lipid peroxidation. Conclusions: Results suggest that embryos from low performing sires may begin development under increased cellular stress, and autophagy potentially increases to mitigate the impacts of stress. Implications: There is potential for improving embryonic competence through selection of sires with lower stress-related markers. Understanding how a sire influences early embryo survival, especially in dairy cattle, can enhance dairy industry efficiency and offer insights for other mammals. Investigating cellular stress in early embryos, this study found that low-performing sires, despite fertilising oocytes equally, may cause lower survival rates in the embryo's first week due to increased cellular stress mechanisms. Identifying this phenomenon sheds light on malfunctioning cellular mechanisms regulated by the sire, ultimately reducing embryo survival. Image by Lindsey Fallon. This article belongs to the Collection Dedication to Jim Cummins. [ABSTRACT FROM AUTHOR]

Published

2024

22. Extracellular vesicles affecting embryo development in vitro: a potential culture medium supplement.

Author

Yamei Xue, Haixia Zheng, Yuping Xiong, and Kun Li

Subjects

EMBRYOLOGY, MESENCHYMAL stem cells, EXTRACELLULAR vesicles, EPITHELIAL cells, OVIDUCT, CULTURE media (Biology)

Abstract

Extracellular vesicles (EVs) are nanometer-sized lipid bilayer vesicles released by cells, playing a crucial role in mediating cellular communication. This review evaluates the effect of EVs on early embryonic development in vitro by systematically searching the literature across three databases, Embase, PubMed, and Scopus, from inception (Embase, 1947; PubMed, 1996; and Scopus, 2004) to 30 June 2024. A total of 28 studies were considered relevant and included in this review. The EVs included in these investigations have been recovered from a range of sources, including oviduct fluid, follicular fluid, uterine fluid, seminal plasma, embryos, oviduct epithelial cells, endometrial epithelial cells, amniotic cells, and endometrial-derived mesenchymal stem cells collected primarily from mice, rabbits, cattle and pigs. This diversity in EV sources highlights the broad interest and potential applications of EVs in embryo culture systems. These studies have demonstrated that supplementation with EVs derived from physiologically normal biofluids and cells to the embryo culture medium system has positive effects on embryonic development. Conversely, EVs derived from cells under pathological conditions have shown a negative impact. This finding underscores the importance of the source and condition of EVs used in culture media. Further, the addition of EVs as a culture medium supplement holds significant therapeutic potential for optimizing in vitro embryo culture systems. In conclusion, this evaluation offers a thorough assessment of the available data on the role of EVs in embryo culture media and highlights the potential and challenges of using EVs in vitro embryo production. [ABSTRACT FROM AUTHOR]

Published

2024

23. Advanced maternal age affects their frozen-thawed embryo susceptibility to high oxygen environment

Author

Dhakshanya Predheepan, Sujith Raj Salian, Shubhashree Uppangala, Guruprasad Kalthur, Borut Kovačič, and Satish Kumar Adiga

Subjects

Ovarian aging, Embryo development, Apoptosis, Vitrification, Thawing, Oxidative stress, Medicine, Science

Abstract

Abstract Preimplantation embryos can experience stress from laboratory interventions and a sub-optimal culture environment. Though research has demonstrated advanced maternal age impairs oocyte quality, the response of embryos derived from such oocytes to vitrification-thawing and culture in a high oxygen (O2) environment in the assisted reproductive technology laboratory is unknown. Therefore, in this study, embryos produced by in vitro fertilization (IVF) using oocytes from two- and eight-month-old Swiss albino mice were vitrified and thawed during their 6–8 cell stage. and cultured at low oxygen (5%) tension (LOT) and high oxygen (20%) tension (HOT). Embryo development, apoptosis, inner cell mass (ICM) outgrowth proliferation ability in vitro and pluripotency were assessed. Embryos from advanced maternal age cultured at HOT showed reduced fertilizing ability (p

Published

2024

24. Enhancing porcine oocyte quality and embryo development through natural antioxidants.

Author

Feng, Zheng, Song, Jia, Lin, Chenghong, Wu, Siyu, Wang, Yu, Hui, Qingyuan, Pan, Yinting, Zou, Yiman, Zeng, Chaofeng, Guo, Jinbiao, and Pei, Yangli

Abstract

During fetal development, primordial oocytes maintain their developmental potential through a ROS-minimizing metabolic mechanism. Maturation increases ROS levels, causing stress and damage, which are countered by in vivo antioxidants. In vitro maturation (IVM) worsens this due to fewer antioxidant presence and medium factors. To address this, we evaluated the effects of incorporating various natural antioxidants in the porcine oocyte IVM media. Our findings revealed that 10 μM Dendrobine (DEN), 1 μM Polydatin (PD), 20 μM Limonin (LIM), and 25 μM Nobiletin (NOB) significantly improved the first polar body extrusion rates (p < 0.05), reduced ROS, and increased GSH levels. Individual addition of 100 μg/mL Lycium barbarum polysaccharides (LBP), 0.1 μM Kaempferol (KAE), 250 μM Salidroside (SAL), 10 μM Curcumin (CUR), DEN, PD, LIM, and NOB to the porcine IVM system showed that KAE, LIM, NOB, and LBP treatments yielded the most favorable results. At the gene level, LIM, LBP, and NOB were found to upregulate the expression levels of GPX1, SIRT1, and TFAM, while downregulating Caspase3 and increasing the BCL2/BAX ratio. The inclusion of LIM, NOB, and LBP, either alone or in combination, into the IVM media effectively alleviated oxidative stress in porcine oocytes, decreased cell apoptosis, preserved mitochondrial membrane potential, and enhanced the blastocyst rate. These results offer valuable insights for optimizing the porcine oocyte IVM culture system. • Dendrobine (10 μM), Polydetin (1 μM), Limonin (20 μM), and Nobiletin (25 μM) enhance porcine oocyte maturation. • Limonin (LIM), Nobiletin (NOB), and Lycium barbarum polysaccharides (LBP) enhance blastocyst formation. • LIM, NOB, and LBP reduce oxidative stress, decrease apoptosis, preserve mitochondrial membrane potential in porcine oocytes. [ABSTRACT FROM AUTHOR]

Published

2025

25. Putrescine supplementation improves the developmental competence of in vitro produced bovine embryos.

Author

Alkan, Kubra Karakas, Satilmis, Fatma, Sonmez, Gonca, Deniz, Yunus Emre, Culha, Muhammed Hudai, Ciftci, Muhammed Furkan, Yesilkaya, Omer Faruk, and Alkan, Hasan

Subjects

*EMBRYOLOGY, *HOLSTEIN-Friesian cattle, *REACTIVE oxygen species, *PUTRESCINE, *ZYGOTES

Abstract

The aim of this study was to investigate the effect of putrescine, anti-apoptotic, antioxidant, and a cell proliferation stimulant, on embryo development and quality by supplementing it to in vitro culture medium. In this study, oocytes were obtained from the ovaries of Holstein cattle. Following maturation and fertilization, the presumptive zygotes were randomly assigned to two groups. The first group (Putrescine, n = 435) was supplemented with putrescine at a concentration of 0.5 mM to in vitro culture. The second group (n = 407) was maintained under standard culture conditions without any supplementations to the medium. Following the determination of the developmental stages of the embryos, only those in the blastocyst stage were subjected to differential staining and the cell numbers of the embryos were determined. Moreover, the TUNEL assay was employed to ascertain the extent of cell death and the apoptotic index in the embryos. Additionally, the levels of ROS were determined in the embryos. Furthermore, gene expression analyses were conducted on blastocyst-stage embryos to ascertain the potential of putrescine supplementation in embryo development along specific pathways. Following in vitro culture, the blastocyst formation rate was 44.37 % in the putrescine group and 32.97 % in the control group (P < 0.05). The counts of ICM (60.60 ± 15.79 vs 50.73 ± 16.74), TE (117.70 ± 23.67 vs 94.0 ± 22.46), and TCC (178.30 ± 26.15 vs 144.73 ± 26.86) were found to be statistically higher in blastocysts developing after putrescine supplementation compared to the control group. Furthermore, the number of apoptotic cells (7.69 ± 2.17 vs 9.96 ± 3.99) and the apoptotic index (5.07 % vs 8.01 %) were found to be lower in the putrescine group in comparison to the control group. Nevertheless, it was established that the ROS level in the control group was approximately two-fold higher than in the putrescine group (P < 0.05). The findings also revealed that putrescine up-regulated the gene expression of SOD, GPX4, CAT, BCL2, NANOG and GATA3 while simultaneously down-regulating the BAX expression level. In conclusion, the supplementation of putrescine to the culture medium during in vitro bovine embryo production was found to contribute to the improvement of embryo quality and early embryonic development. The supplementation of putrescine at 0.5 mM during IVC: • Significantly increased the blastocyst formation rate. • Improved the embryonic development competence. • Significantly reduced reactive oxygen species production. • Decreased the number of apoptotic cells and the apoptotic index. • Regulated the expression of genes associated with antioxidant enzymes, pluripotency and apoptosis. [ABSTRACT FROM AUTHOR]

Published

2025

26. Paternal undernutrition and overnutrition modify semen composition and preimplantation embryo developmental kinetics in mice

Author

Hannah L. Morgan, Nader Eid, Nadine Holmes, Sonal Henson, Victoria Wright, Clare Coveney, Catherine Winder, Donna M. O’Neil, Warwick B. Dunn, David J. Boocock, and Adam J. Watkins

Subjects

Paternal diet, Sperm RNA, Semen profile, Embryo development, Uterine response, Biology (General), QH301-705.5

Abstract

Abstract Background The importance of parental diet in relation to eventual offspring health is increasing in prominence due to the increased frequency of parents of reproductive age consuming poor diets. Whilst maternal health and offspring outcome have been studied in some detail, the paternal impacts are not as well understood. A father’s poor nutritional status has been shown to have negative consequences on foetal growth and development and ultimately impact the long-term adult health of the offspring. In this study, we examined sperm- and seminal vesicle fluid-mediated mechanisms of preimplantation embryo development alterations in response to sub-optimal paternal diets. Results Male mice were fed a diet to model either under (low-protein diet (LPD)) or over (high-fat/sugar ‘Western’ diet (WD)) nutrition, LPD or WD supplemented with methyl donors or a control diet (CD) before mating with age-matched females. Male metabolic health was influenced by WD and MD-WD, with significant changes in multiple serum lipid classes and hepatic 1-carbon metabolites. Sperm RNA sequencing revealed significant changes to mRNA profiles in all groups when compared to CD (LPD: 32, MD-LPD: 17, WD: 53, MD-WD: 35 transcripts). Separate analysis of the seminal vesicle fluid proteome revealed a significant number of differentially expressed proteins in all groups (LPD: 13, MD-LPD: 27, WD: 24, MD-WD: 19) when compared to control. Following mating, in vitro time-lapse imaging of preimplantation embryos revealed a significant increase in the timing of development in all experimental groups when compared to CD embryos. Finally, qPCR analysis of uterine tissue at the time of implantation identified perturbed expression of Cd14 and Ptgs1 following mating with WD-fed males. Conclusions Our current study shows that paternal nutritional status has the potential to influence male metabolic and reproductive health, impacting on embryonic development and the maternal reproductive tract. This study highlights potential direct (sperm-mediated) and indirect (seminal vesicle fluid-mediated) pathways in which a father’s poor diet could shape the long-term health of his offspring.

Published

2024

27. Utilisation of Oocyte Diameter as a Non-invasive Indicator of Oocyte and Embryo Quality: Investigating Protein Kinase B Protein Expression in Cumulus–Granulosa Cells and Embryo Morphokinetics

Author

Tita Yuningsih, Budi Wiweko, Arief Boediono, Ina Gunawati, and Nining Handayani

Subjects

cumulus–granulosa cells, embryo development, protein kinase b protein, Gynecology and obstetrics, RG1-991

Abstract

Background: Oocyte diameter is crucial for initiating meiosis and supporting the maturation capability, a prerequisite for successful fertilisation and high-quality embryo development. While numerous studies have explored the correlation between oocyte diameter and embryo development capacity in animal models, limited research appears concerning human oocytes. Aim: This study aims to ascertain whether oocyte diameter can serve as a reliable predictor of oocyte and embryo quality, achieved through its correlation with protein kinase B (Akt) protein levels on cumulus–granulosa cells and blastocyst morphokinetics. Setting and Design: Prospective cohort study included cumulus–granulosa cells collected from 228 mature oocytes of 32 infertile women undergoing in vitro fertilisation treatment. The diameter of the oocytes was measured using the Image J software, and the samples were categorised into three groups based on their diameter: 118.97 µm. Quantification of pAkt and Akt protein total of cumulus–granulosa cells exploited the ELISA method. Embryo morphokinetics and anomaly development events were observed at the blastocyst stage to evaluate embryo quality relative to oocyte diameter. Statistical Analysis Used: The Kruskal–Wallis test and Chi-square test were used. P 0.05). Likewise, there were no significant differences in morphokinetics and anomaly development except for the S2 parameter and reverse cleavage. Conclusion: Reflecting on the molecular profile including pAkt, total Akt protein, morphokinetics and anomaly development, it was observed that oocyte diameter does not correlate with its competency and the quality of the resulting embryo. In addition, oocytes with a diameter below 105.95 µm may have an equal potential to develop into top-quality embryos.

Published

2024

28. Single-cell RNA sequencing reveals the effects of high-fat diet on oocyte and early embryo development in female mice

Author

Qi Zhu, Feng Li, Hao Wang, Xia Wang, Yu Xiang, Huimin Ding, Honghui Wu, Cen Xu, Linglin Weng, Jieyu Cai, Tianyue Xu, Na Liang, Xiaoqi Hong, Mingrui Xue, and Hongshan Ge

Subjects

High-fat diet, Embryo development, Single-cell RNA sequencing, Obesity, Gynecology and obstetrics, RG1-991, Reproduction, QH471-489

Abstract

Abstract Background Obesity is a global health issue with detrimental effects on various human organs, including the reproductive system. Observational human data and several lines of animal experimental data suggest that maternal obesity impairs ovarian function and early embryo development, but the precise pathogenesis remains unclear. Methods We established a high-fat diet (HFD)-induced obese female mouse model to assess systemic metabolism, ovarian morphology, and oocyte function in mice. For the first time, this study employed single-cell RNA sequencing to explore the altered transcriptomic landscape of preimplantation embryos at different stages in HFD-induced obese mice. Differential gene expression analysis, enrichment analysis and protein-protein interactions network analysis were performed. Results HFD-induced obese female mice exhibited impaired glucolipid metabolism and insulin resistance. The ovaries of HFD mice had a reduced total follicle number, an increased proportion of atretic follicles, and irregular granulosa cell arrangement. Furthermore, the maturation rate of embryonic development by in vitro fertilization of oocytes was significantly decreased in HFD mice. Additionally, the transcriptional landscapes of preimplantation embryos at different stages in mice induced by different diets were significantly distinguished. The maternal-to-zygotic transition was also affected by the failure to remove maternal RNAs and to turn off zygotic genome expression. Conclusions HFD-induced obesity impaired ovarian morphology and oocyte function in female mice and further led to alterations in the transcriptional landscape of preimplantation embryos at different stages of HFD mice.

Published

2024

29. Paternal undernutrition and overnutrition modify semen composition and preimplantation embryo developmental kinetics in mice.

Author

Morgan, Hannah L., Eid, Nader, Holmes, Nadine, Henson, Sonal, Wright, Victoria, Coveney, Clare, Winder, Catherine, O'Neil, Donna M., Dunn, Warwick B., Boocock, David J., and Watkins, Adam J.

Subjects

*LOW-protein diet, *GENITALIA, *SEMINAL vesicles, *EMBRYOLOGY, *MALE reproductive health

Abstract

Background: The importance of parental diet in relation to eventual offspring health is increasing in prominence due to the increased frequency of parents of reproductive age consuming poor diets. Whilst maternal health and offspring outcome have been studied in some detail, the paternal impacts are not as well understood. A father's poor nutritional status has been shown to have negative consequences on foetal growth and development and ultimately impact the long-term adult health of the offspring. In this study, we examined sperm- and seminal vesicle fluid-mediated mechanisms of preimplantation embryo development alterations in response to sub-optimal paternal diets. Results: Male mice were fed a diet to model either under (low-protein diet (LPD)) or over (high-fat/sugar 'Western' diet (WD)) nutrition, LPD or WD supplemented with methyl donors or a control diet (CD) before mating with age-matched females. Male metabolic health was influenced by WD and MD-WD, with significant changes in multiple serum lipid classes and hepatic 1-carbon metabolites. Sperm RNA sequencing revealed significant changes to mRNA profiles in all groups when compared to CD (LPD: 32, MD-LPD: 17, WD: 53, MD-WD: 35 transcripts). Separate analysis of the seminal vesicle fluid proteome revealed a significant number of differentially expressed proteins in all groups (LPD: 13, MD-LPD: 27, WD: 24, MD-WD: 19) when compared to control. Following mating, in vitro time-lapse imaging of preimplantation embryos revealed a significant increase in the timing of development in all experimental groups when compared to CD embryos. Finally, qPCR analysis of uterine tissue at the time of implantation identified perturbed expression of Cd14 and Ptgs1 following mating with WD-fed males. Conclusions: Our current study shows that paternal nutritional status has the potential to influence male metabolic and reproductive health, impacting on embryonic development and the maternal reproductive tract. This study highlights potential direct (sperm-mediated) and indirect (seminal vesicle fluid-mediated) pathways in which a father's poor diet could shape the long-term health of his offspring. [ABSTRACT FROM AUTHOR]

Published

2024

30. Arabidopsis TIC236 contributes to proplastid development and chloroplast biogenesis during embryogenesis.

Author

Mei Liu, Lifen Chen, Shijie Gu, Aiwei Zhang, Mengjuan Tong, Shuailei Wang, Juntao Wang, Yirui Zhu, Jingsheng Zhang, Yu Sun, Yi Guo, and Rui Li

Subjects

PLANT organelles, TRANSMISSION electron microscopy, CELL division, CHLOROPLAST membranes, PLASTIDS, EMBRYOLOGY

Abstract

Plastids are essential, semi-autonomous organelles in plants that carry out a multitude of functions during development. Plastids existing in different subtypes are derived from proplastids progenitors and interconvert in response to environmental and growth cues. Most efforts focus on the differentiation from proplastid to other forms. However, the studies of proplastid development are insufficient and whether proplastid biogenesis affects plant growth is yet to be determined. Arabidopsis TIC236, a translocon component at the inner membrane of the chloroplast envelope, is critical for importing chloroplasttargeted preproteins and chloroplast division. In this study, we uncovered the fundamental influence of proplastid biogenesis on embryo development by exploring the function of TIC236 during embryogenesis. Widespread and strong expression of TIC236 was observed in leaves and embryos. The null mutant tic236 had an embryo-lethal phenotype, with cell division in the mutant embryos delayed starting at the octant stage and arrested at the globular stage. Transmission electron microscopy revealed enlarged proplastids with an aberrant inner structure at the dermatogen and globular stages that ultimately did not differentiate into chloroplasts. Additionally, the fluorescence signal distribution patterns of tic236 embryos carrying the pDR5rev::3xVENUS-N7, pPIN1::PIN1-GFP, pWOX5::GFP, and pSCR::H2B-YFP reporter systems were altered. Together, we provide genetic evidence supporting proplastid biogenesis plays a vital role in embryo development and TIC236 is identified as an indispensable player, ensuring normal proplastid development. [ABSTRACT FROM AUTHOR]

Published

2024

31. Artesunate does not affect oocyte maturation and early embryo development of bovine.

Author

Bessa Santana, Priscila Di Paula, Mota, Tatiana Cristina, Oliveira Das Mercês, Marcela, Baia De Souza, Eduardo, Costa De Almeida, Nathalia Nogueira Da, Da Silva Cordeiro, Marcela, Santos, Simone Do Socorro Damasceno, Bahia, Marcelo De Oliveira, Dos Santos Miranda, Moysés, and Ohashi, Otávio Mitio

Subjects

*FIRST trimester of pregnancy, *EMBRYO implantation, *OVUM, *CYTOTOXINS, *EMBRYOS

Abstract

Despite the cytotoxicity and embryotoxicity previously reported artesunate is a recommended drug to treat malaria for adults, children, and women in the first trimester of pregnancy. To address the putative effects of artesunate on female fertility and preimplantation embryo development, when the pregnancy is not detectable yet, artesunate was added to the oocyte in vitro maturation and in vitro embryo development of bovine. Briefly, in experiment 1 the cumulus-oocyte complexes (COCs) were in vitro matured for 18 h with 0.5, 1, or 2 µg/mL of artesunate or not (negative control) and then checked for nuclear maturation and subsequent embryo development. In experiment 2, the COCs were in vitro matured and fertilized without artesunate, which was added (0.5, 1, or 2 µg/mL) from the 1st to the 7th day of embryo culture along with a negative and a positive control group with doxorubicin. As a result, the use of artesunate on oocyte in vitro maturation did not differ from the negative control (p > 0.05) regarding nuclear maturation, cleavage, and blastocyst formation. Also, artesunate on in vitro embryo culture did not differ from negative control (p > 0.05) regarding cleavage and blastocyst formation, except for positive control, with doxorubicin (p < 0.05). In conclusion, under the conditions investigated, there was no evidence of artesunate toxicity on oocyte competence and the preimplantation period of in vitro embryo development in the bovine model, however, artesunate use still should be taken carefully as the outcome of implantation after oocytes and blastocysts exposure to artesunate remains unknown. HIGHLIGHTS: Artesunate added to in vitro maturation did not impair oocyte competence in bovine. Artesunate added to in vitro culture did not affect cleavage and blastocyst formation. No evidence of artesunate toxicity in oocytes and embryos of bovine was found. [ABSTRACT FROM AUTHOR]

Published

2024

32. Fertilization by short-term stored sperm alters DNA methylation patterns at single-base resolution in common carp (Cyprinus carpio) embryos.

Author

Cheng, Yu, Zhang, Songpei, Nayak, Rigolin, Věchtová, Pavlína, Schumacher, Fabian, Linhartová, Pavla, Gazo, Ievgeniia, Linhartová, Zuzana, Waghmare, Swapnil Gorakh, Kleuser, Burkhard, Dey, Abhipsha, Rodinová, Vladimíra, Rodina, Marek, Štěrba, Jan, Alavi, Sayyed Mohammad Hadi, Labbé, Catherine, and Linhart, Otomar

Subjects

*LIQUID chromatography-mass spectrometry, *MITOGEN-activated protein kinases, *EMBRYOLOGY, *WHOLE genome sequencing, *DNA methylation, *CATTLE fertility

Abstract

Sperm after short-term storage in vitro is widely used for artificial fertilization in aquaculture. It has been shown that short-term storage affects sperm motility characteristics, resulting in diminished fertility. However, the detrimental effects of short-term sperm storage on embryos development have remained unexplored in single-base methylome resolution. The main aim of the present study was to investigate DNA methylation in the offspring of common carp (Cyprinus carpio) derived from short-term stored sperm. Sperm were stored in artificial seminal plasma on ice (0–2 °C) for 0, 3 and 6 days in vitro, fertilization was performed using oocytes from a single female, and embryos were collected at the mid-blastula stage. In the DNA methylation study, DNA from both sperm and embryos was extracted and analysed using liquid chromatography with tandem mass spectrometry (LC–MS/MS). Concurrently, DNA methylation levels of embryos in single base were evaluated through whole genome bisulfite sequencing (WGBS). Sperm storage showed negative effects on sperm motility, viability, and DNA integrity, but had no effect on global DNA methylation of spermatozoa and resulting embryos. Results from the WGBS showed that methylation of 3313 differentially methylated regions (DMRs)-target genes was affected in the embryos fertilized with the 6-day-stored sperm, and the identified DMRs were mainly involved in cell adhesion, calcium, mitogen-activated protein kinase and adrenergic signalling, melanogenesis, metabolism and RNA transport. Such results suggest that prolongation of storage time may have certain impacts on embryonic development. These initial results provide valuable information for future consideration of the DNA methylome in embryos generated from short-term stored sperm, which are used for genetic management of broodstock in aquaculture. [ABSTRACT FROM AUTHOR]

Published

2024

33. FGF18 impairs blastocyst viability, DNA double-strand breaks and maternal recognition of pregnancy genes.

Author

Goetten, André Lucio Fontana, Barreta, Marcos Henrique, Pinto da Silva, Yago, Bertolin, Kalyne, Koch, Júlia, Rocha, Cecilia Constantino, Dias Gonçalves, Paulo Bayard, Price, Christopher Alan, Antoniazzi, Alfredo Quites, and Portela, Valerio Marques

Subjects

*DOUBLE-strand DNA breaks, *DNA repair, *BLASTOCYST, *GRANULOSA cells, *PREGNANCY, *DNA damage

Abstract

Embryonic mortality in cattle is high, reaching 10–40 % in vivo and 60–70 % in vitro. Death of embryos involves reduced expression of genes related to embryonic viability, inhibition of DNA repair and increased DNA damage. In follicular granulosa cells, FGF18 from the theca layer increases apoptosis and DNA damage, so we hypothesized that FGF18 may also affect the oocyte and contribute to early embryonic death. The aims of this study were to identify the effects of FGF18 on cumulus expansion, oocyte maturation and embryo development from cleavage to blastocyst stage using a conventional bovine in vitro embryo production system using ovaries of abattoir origin. Addition of FGF18 during in-vitro maturation did not affect FSH-induced cumulus expansion or rates of nuclear maturation. When FGF18 was present in the culture system, rates of cleavage were not affected however, blastocyst and expanded blastocyst development was substantially inhibited (P < 0.05), indicating a delay of blastulation. The number of phosphorylated histone H2AFX foci per nucleus, a marker of DNA damage, was higher in cleavage-stage embryos cultured with FGF18 than in those from control group (P < 0.05). Furthermore, FGF18 decreased accumulation of PTGS2 and IFNT2 mRNA in blastocysts. In conclusion, these novel findings suggest that FGF18 plays a role in the regulation of embryonic death during the early stages of development by impairing DNA double-strand break repair and expression of genes associated with embryo viability and maternal recognition of pregnancy during the progression from oocyte to expanded blastocysts. • FGF18 had no effect on cumulus expansion, oocyte nuclear maturation, or embryo development from cleavage stage. • FGF18 added during IVM increased DNA double-strand breaks in cleavage-stage embryos. • FGF18 impaired development to the blastocyst and expanded blastocyst stages. • FGF18 added during embryo culture reduced abundance of PTGS2 mRNA, an embryo viability marker, and mRNA encoding IFNT2, a protein responsible for maternal recognition of pregnancy. [ABSTRACT FROM AUTHOR]

Published

2024

34. Effect of Transport Condition on the Structural Integrity of Ovarian Tissue and the Development of Sheep Embryos In-Vitro.

Author

AL-HAFEDH, Saif, ALESAWI, Yahy Abood Kareem, and CEDDEN, Fatin

Subjects

CUMULUS cells (Embryology), EMBRYOLOGY, BUFFER solutions, OVUM, OVARIES, OVARIAN follicle

Abstract

The oocyte quality decreases during ovarian tissue transport to the laboratories of in vitro embryo production. To provide additional information on how the conditions of transporting sheep ovaries impact the ovarian tissue and oocytes’ ability to develop into blastocyst stages, we have studied new transport media Ankara University Zootekni (AUZ1, AUZ2) supplemented with antioxidants (melatonin, Vit E, and Vit A), buffer solution, and energy substrates, and compared them with the traditional transport media: Phosphate-Buffered Saline (PBS), and Charles Rosenkrans 1 (CR1), Normal Saline (NS) at different temperatures (-6 to 30 °C). We also studied and compared how well different transport media preserve the ovarian tissue's structural integrity while transporting sheep ovaries at 4°C. Our findings indicated that various temperatures and transport media play critical roles in embryo development. The embryo development rates showed that when sheep ovaries are transported in AUZ1, they produce oocytes with a higher embryo development rate than other transport media at any temperature. In addition, histology examination revealed that the transport of sheep ovarian tissue in any medium at a temperature of 4 °C did not negatively impact the viability and histomorphology of the primordial, primary, and secondary follicles. In contrast to other transport media, the AUZ1 medium maintained the normal morphology of antral follicles, Graafian follicles, and the cumulus oophorus of sheep ovarian tissue. In conclusion, adding melatonin, buffer solution, and energy substrates to the transportation medium of ovarian tissues has a beneficial and positive role in maintaining ovarian tissue and increasing the rates of embryonic development. [ABSTRACT FROM AUTHOR]

Published

2024

35. The Effects of Magnetic Fields Created by Mobile Phones on In Vitro Embryo Development.

Author

Celik, Nihal Gurlek, Ulger, Harun, and Nisari, Mehtap

Subjects

NONIONIZING radiation, EMBRYOS, IN vitro studies, CELL phones, ELECTROMAGNETIC fields, DESCRIPTIVE statistics, CENTRAL nervous system, RATS, ENVIRONMENTAL exposure, ANIMAL experimentation, ONE-way analysis of variance, HISTOLOGICAL techniques, RADIO waves, FETAL development, DATA analysis software, COMPARATIVE studies, CULTURES (Biology), RADIATION-induced abnormalities, PHYSIOLOGICAL effects of radiation, FETUS

Abstract

Aim: The risks to public health of radiofrequency signals emitted by mobile phones, an indispensable part of our daily lives, have begun to be questioned. For this reason, the magnetic field created by a third-generation mobile phone was applied to the embryos obtained by in vitro embryo culture technique during the organogenesis period of the rat embryo and its effect on development was examined. Material and Method: In our study, 20 adult female rats weighing between 200-300 g and 30 male Wistar albino rats weighing over 300 g were used. The developmental morphology of embryos from the control and experimental groups exposed to magnetic fields for different periods (24 hours, 48 hours) was evaluated. Results: When the morphological score, yolk sac diameter, crown-rump length and number of somites of embryos exposed to magnetic fields for different periods were compared, the experimental groups regressed compared to the control group. Conclusion: As a result, it was shown that developmental delays and deformities may occur in embryos depending on the duration of exposure to the magnetic field. [ABSTRACT FROM AUTHOR]

Published

2024

36. Modification of cryoprotectants on sperm cryopreservation: A study of embryo development.

Author

Larasati, Manggiasih Dwiayu, Lestari, Silvia Werdhy, Pangestu, Mulyoto, Hestiantoro, Andon, and Wasian, Gito

Subjects

EMBRYOLOGY, FERTILIZATION in vitro, CELL size, CELL membranes, EMBRYOS, SPERMATOZOA, CRYOPROTECTIVE agents

Abstract

Objective: This research was conducted to analyze the effect of cryopreservation of sperm using modified cryoprotectants on embryo development through in vitro fertilization (IVF). In this research, three types of cryoprotectant combinations were compared, including Nakagata, modified cryoprotectant, and commercial (Kitazato). Materials and Methods: Several parameters, namely sperm concentration, motility, morphology, plasma membrane integrity, cryo-survival rate, and viability rate, were measured and compared before vitrification and warming. Embryo development was also observed on the first and third days of development based on the cell number, cell size, and fragmentation rate. Results: Sperm cryopreservation exhibited a negative influence on embryo quality. Both Nakagata cryoprotectants and modified cryoprotectants attained good-quality embryos. In terms of embryonic development, this research revealed a modified cryoprotectant superior to Nakagata's cryoprotectant, although Kitazato was superior to the Nakagata cryoprotectant and modified cryoprotectant. Significant differences were found in the three cryoprotectants on observations on day 1 and day 3, all of them with p-value < 0.05. Conclusion: Modified cryoprotectant was found to be better than Nakagata but less significant than Kitazato in terms of embryonic development quality. Therefore, modified cryoprotectants could be a better alternative compared to commercial (Kitazato) cryoprotectants for improving embryo quality. [ABSTRACT FROM AUTHOR]

Published

2024

37. Single-cell RNA sequencing reveals the effects of high-fat diet on oocyte and early embryo development in female mice.

Author

Zhu, Qi, Li, Feng, Wang, Hao, Wang, Xia, Xiang, Yu, Ding, Huimin, Wu, Honghui, Xu, Cen, Weng, Linglin, Cai, Jieyu, Xu, Tianyue, Liang, Na, Hong, Xiaoqi, Xue, Mingrui, and Ge, Hongshan

Subjects

*OVARIAN follicle, *ORGANS (Anatomy), *EMBRYOLOGY, *HIGH-fat diet, *GRANULOSA cells

Abstract

Background: Obesity is a global health issue with detrimental effects on various human organs, including the reproductive system. Observational human data and several lines of animal experimental data suggest that maternal obesity impairs ovarian function and early embryo development, but the precise pathogenesis remains unclear. Methods: We established a high-fat diet (HFD)-induced obese female mouse model to assess systemic metabolism, ovarian morphology, and oocyte function in mice. For the first time, this study employed single-cell RNA sequencing to explore the altered transcriptomic landscape of preimplantation embryos at different stages in HFD-induced obese mice. Differential gene expression analysis, enrichment analysis and protein-protein interactions network analysis were performed. Results: HFD-induced obese female mice exhibited impaired glucolipid metabolism and insulin resistance. The ovaries of HFD mice had a reduced total follicle number, an increased proportion of atretic follicles, and irregular granulosa cell arrangement. Furthermore, the maturation rate of embryonic development by in vitro fertilization of oocytes was significantly decreased in HFD mice. Additionally, the transcriptional landscapes of preimplantation embryos at different stages in mice induced by different diets were significantly distinguished. The maternal-to-zygotic transition was also affected by the failure to remove maternal RNAs and to turn off zygotic genome expression. Conclusions: HFD-induced obesity impaired ovarian morphology and oocyte function in female mice and further led to alterations in the transcriptional landscape of preimplantation embryos at different stages of HFD mice. [ABSTRACT FROM AUTHOR]

Published

2024

38. Drinking water quality impacts oocyte viability and embryo development.

Author

Winstanley, Yasmyn E., Gonzalez, Macarena B., Andreas, Eryk, Connaughton, Haley, Bergen, Jean, Ween, Miranda, Russell, Darryl L., Shearer, Cameron J., Robertson, Sarah A., and Robker, Rebecca L.

Subjects

SPERMATOZOA physiology, OVUM physiology, EMBRYONIC physiology, EMBRYOS, PEARSON correlation (Statistics), FLUORODEOXYURIDINE, REPRODUCTIVE health, RESEARCH funding, T-test (Statistics), GONADOTROPIN, CHI-squared test, DESCRIPTIVE statistics, WATER supply, MICE, ANIMAL experimentation, FERTILIZATION in vitro, ENVIRONMENTAL exposure, CHORIONIC gonadotropins, LIQUID chromatography, MASS spectrometry, METROPOLITAN areas, WATER pollution, ONE-way analysis of variance, STAINS & staining (Microscopy), DATA analysis software

Abstract

Normal reproductive function and fertility is considered a "sixth vital sign" because disruptions to this sensitive physiological system can forewarn other health issues, including exposure to environmental toxicants. We found that female mice exhibited profound loss of embryos during pre-implantation and fetal development coincident with a change to the source of their drinking water. When female mice were provided with tap water from the building in which they were housed (Water 2), instead of tap water from a neighboring building which was their previous supply (Water 1), ovulated oocytes were degenerated or had impaired meiotic maturation, and failed to form embryos. The harmful effects of Water 2 exposure were not reversible even following a recovery period; however, carbon-filtration of Water 2 removed the toxic contaminant. Water composition analysis to identify the responsible toxicant(s) found that trace elements were present at expected levels and phthalates were undetectable. Per- and Poly-fluoroalkyl Substances (PFAS), a family of persistent organic pollutants were detected at ~4 ng/L. To investigate further, female mice were given drinking water categorized by level of PFAS contamination (0.6 ng/L, 2.8 ng/L, or 4.4 ng/L) for 9 weeks. Compared to mice consuming purified MilliQ water, mice consuming PFAS-contaminated water had decreased oocyte quality, impaired embryogenesis and reduced cell numbers in blastocysts. PFAS concentration in the drinking water was negatively correlated with oocyte viability. Importantly, the levels of PFAS detected in the tap water are within current "safe level" guidelines, and further research is needed to determine whether PFAS are responsible for the observed reproductive toxicity. However, this research demonstrating that water deemed suitable for human consumption has detrimental effects on mammalian embryo development has important implications for public health and water quality policies. [ABSTRACT FROM AUTHOR]

Published

2024

39. MicroRNAomic Analysis of Spent Media from Slow- and Fast-Growing Bovine Embryos Reveal Distinct Differences.

Author

Rio, Paul Del, DiMarco, Sierra, and Madan, Pavneesh

Subjects

*GENE expression, *EMBRYOLOGY, *ZYGOTES, *EMBRYOS, *BLASTOCYST

Abstract

Simple Summary: Embryos release microRNAs (miRNAs) into their surrounding spent media during early development. Gene expression is expected to vary between embryos of good and poor developmental potential; therefore, identifying miRNAs unique to good-quality embryos can aid in embryo selection. This study aimed to characterize the miRNA expression in the spent media of embryos identified as slow- versus fast-growing, as developmental timing may be indicative of embryo quality. Distinct miRNA populations were detected in the spent media conditioned with bovine embryos growing at different developmental rates at the two-cell, eight-cell, and blastocyst stage in vitro. The results highlight the novel and non-invasive miRNA biomarkers of early embryo development. In bovine embryos, the microRNA (miRNA) expression has been profiled at each stage of early development in vitro. The miRNAomic analysis of spent media has the potential to reveal characteristics of embryo health; however, applications are limited without categorizing miRNA profiles by embryo quality. Time-lapse imaging has shown the timing of embryo development in vitro may be indicative of their developmental potential. The study aimed to characterize miRNAs in the spent media of bovine embryos with different growth rates during the pre-implantation phase. Bovine cumulus–oocyte complexes were aspirated from ovaries, fertilized, and cultured to blastocyst stage of development. At the 2-cell, 8-cell, and blastocyst stage, each microdrop of 30 presumptive zygotes were classified as slow- or fast-growing based on the percentage of embryos that had reached the desired morphological stage. A comparative analysis was performed on the spent media of slow- and fast-growing embryos using the results of a GeneChip miRNA 4.0 array hybridization. In total, 34 differentially expressed miRNAs were identified between the comparison groups: 14 miRNAs were found in the 2-cell samples, 7 in the 8-cell samples, and 12 in the blastocyst samples. The results demonstrate distinct miRNAs populations can be identified between slow- and fast-growing embryos, highlighting the novel biomarkers of developmental potential at each stage of pre-implantation development. [ABSTRACT FROM AUTHOR]

Published

2024

40. Maternal Malnutrition and Elevated Disease Risk in Offspring.

Author

Thornburg, Kent L. and Valent, Amy M.

Abstract

US populations have seen dramatic increases in the prevalence of chronic disease over the past three generations. Rapid increases in type 2 diabetes and obesity have occurred in all the states but have been particularly striking in the Deep South. These increases have contributed to decreases in life expectancy and to painful elevations in health care costs. The causes of worsening population health are complex and incompletely understood. However, there is strong evidence that vulnerability to chronic conditions is determined in early life. Most chronic diseases are developmentally driven. There are specific stressors experienced in early life that influence epigenetic and structural changes during development. These include malnutrition, severe levels of social stress, toxic chemicals, and low oxygen levels. Most US populations have experienced a decrease in the quality of the food they consume as industrial foods have replaced garden-grown foods. Thus, the consumption of too few nutrients before and during pregnancy and during lactation influences the growth of the placenta and fetal organs and their level of resilience when faced with stresses in postnatal life and particularly as adults. Animal studies have shown that the effects of poor nutrition can be passed on to future generations. The most powerful way that the current epidemics of obesity and insulin resistance can be reversed is by providing key nutrients to prospective mothers and those already pregnant. [ABSTRACT FROM AUTHOR]

Published

2024

41. The effects of using UV light instead of formaldehyde in disinfection of hatching eggs on shell microbial load, embryo development, hatchability, and chick characteristics.

Author

Coulibaly, Frantogoma, Onbaşılar, Esin Ebru, Bakır, Buket, and Sarıçam İnce, Seyyide

Subjects

*POULTRY embryology, *EGGS, *T-test (Statistics), *RESEARCH funding, *ULTRAVIOLET radiation, *DESCRIPTIVE statistics, *CHI-squared test, *SALMONELLA, *STERILIZATION (Disinfection), *BIRDS, *BACTERIA, *FORMALDEHYDE, *ANIMAL experimentation, *ONE-way analysis of variance, *STAPHYLOCOCCUS

Abstract

In this study, it was aimed to determine the effects of using UV light instead of formaldehyde in disinfection of hatching eggs on the microbial load, shell and yolk compositions, embryo development, hatching results and chick characteristics. 552 hatching eggs were divided into formaldehyde fumigation and disinfection with UV groups. After disinfection, bacteriological growth was not observed in groups. While the difference between the groups in terms of hatching results was insignificant, it was determined that the incubation period in the UV group was shorter than that of formaldehyde group. On the hatching day, relative chick weight and weight of bursa Fabricus were found to be higher in the UV group. UV light can be used as an alternative to formaldehyde as disinfection of hatching eggs because it is easy to use and does not cause any negative effects on egg shell structure, embryo development, hatching results and chick characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

42. Development and validation of an automated robotic system for preparation of embryo culture dishes.

Author

Lattin, Miriam T., Djandji, Alexandre S., Kronfeld, Matan T., Samsel, Tara, Ling, Ruifeng, Ciskanik, Martin, Sadowy, Sasha, Forman, Eric J., and Williams, Zev

Subjects

*HUMAN in vitro fertilization, *EMBRYOS, *HUMAN embryos, *FERTILIZATION in vitro, *TABLEWARE

Abstract

To study the development and clinical validation of the ART Pipetting Robot for the IVF Laboratory (APRIL), a liquid-handling robot customized for the precise preparation of microdroplet culture dishes in the field of in vitro fertilization (IVF). A prospective randomized study conducted at an academic IVF center comparing mouse and human embryo outcomes and quantitative measures of accuracy in embryo dishes prepared using APRIL compared with standard manual preparation. Academic IVF center. The study involved the assessment of the automated culture dish preparation system, APRIL, compared with manual preparation methods in the context of IVF treatment. ART Pipetting Robot for the IVF Laboratory is an enclosed liquid-handling robot equipped with custom three-dimensional–printed adapters and designed to dispense embryo culture media and mineral oil into microdroplet culture dishes. The study evaluated the precision and consistency of APRIL in culture dish preparation by looking at droplet mass, pH of prepared media droplets, and mouse and human embryo development rates. Clinical implementation was assessed by comparing embryo development and outcomes in dishes prepared by APRIL and human embryologists. Compared with embryo culture dishes prepared using standard manual procedures, embryo culture dishes prepared using APRIL demonstrated a greater than 10-fold improvement in consistency (coefficient of variation, 0.46% vs. 6%–7%), maintained optimal pH levels (pH range, 7.281–7.33 vs. 7.275–7.311), and had a greater mouse embryo blastocyst rate (100% vs. 90%–91%). Human embryos cultured in dishes prepared by APRIL had a higher rate of development on days 3 (92.4% vs. 82.6%) and 5 (19.75% vs. 15.57%), and a total number of usable embryos (50.3% vs. 46.1%) compared with manually prepared dishes, although the last two outcomes did not reach statistical significance. The results suggest that the use of an automated robotic system for preparation of embryo culture dishes may improve accuracy and outcome measures while reducing the need for trained laboratory personnel to prepare the dishes manually. [ABSTRACT FROM AUTHOR]

Published

2024

43. Proteomic Profiling of Cocos nucifera L. Zygotic Embryos during Maturation of Dwarf and Tall Cultivars: The Dynamics of Carbohydrate and Fatty Acid Metabolism.

Author

Granados-Alegría, María Inés, Canto-Canché, Blondy, Gómez-Tah, Rufino, Félix, Jean Wildort, Tzec-Simá, Miguel, Ruiz-May, Eliel, and Islas-Flores, Ignacio

Subjects

*PENTOSE phosphate pathway, *COCONUT palm, *PHOSPHATE metabolism, *FATTY acids, *ABIOTIC stress

Abstract

There is a limited number of studies analyzing the molecular and biochemical processes regulating the metabolism of the maturation of Cocos nucifera L. zygotic embryos. Our research focused on the regulation of carbohydrate and lipid metabolic pathways occurring at three developmental stages of embryos from the Mexican Pacific tall (MPT) and the Yucatan green dwarf (YGD) cultivars. We used the TMT-synchronous precursor selection (SPS)-MS3 strategy to analyze the dynamics of proteomes from both embryos; 1044 and 540 proteins were determined for the MPT and YGD, respectively. A comparison of the differentially accumulated proteins (DAPs) revealed that the biological processes (BP) enriched in the MPT embryo included the glyoxylate and dicarboxylate metabolism along with fatty acid degradation, while in YGD, the nitrogen metabolism and pentose phosphate pathway were the most enriched BPs. Findings suggest that the MPT embryos use fatty acids to sustain a higher glycolytic/gluconeogenic metabolism than the YGD embryos. Moreover, the YGD proteome was enriched with proteins associated with biotic or abiotic stresses, e.g., peroxidase and catalase. The goal of this study was to highlight the differences in the regulation of carbohydrate and lipid metabolic pathways during the maturation of coconut YGD and MPT zygotic embryos. [ABSTRACT FROM AUTHOR]

Published

2024

44. Sperm‐borne miR‐34c‐5p and miR‐191‐3p as markers for sperm motility and embryo developmental competence.

Author

Pinto, Soraia, Pereira, Sara C., Rocha, António, Barros, Alberto, Alves, Marco G., and Oliveira, Pedro F.

Subjects

*SPERM motility, *NUCLEAR magnetic resonance spectroscopy, *EMBRYOS, *EMBRYOLOGY, *REPRODUCTIVE technology, *NONNUTRITIVE sweeteners

Abstract

Background Objective Materials and methods Results Discussion and conclusion Sperm‐borne microRNAs play a pivotal role in influencing essential cellular processes during fertilization, impacting the quality of embryo development. Dysregulated microRNA profiles have been associated with compromised embryonic development and increased incidences of pregnancy loss.This study aimed to investigate the potential associations between the abundance of miR‐34c‐5p and miR‐191‐3p in human spermatozoa with sperm quality, as well as with embryo quality and metabolic performance during in vitro development.Thirteen couples who underwent a total of 13 cycles participated in this study. The sperm quality was assessed using conventional methods following World Health Organization guidelines. Quantitative polymerase chain reaction was employed to measure microRNA abundance in spermatozoa. Embryos were categorized as good, lagging, or bad based on morphokinetic evaluation. Evaluation of embryo metabolic performance involved tracking changes in specific metabolites within the cultured media using nuclear magnetic resonance spectroscopy. Statistical analysis was conducted to explore the correlation between microRNA abundance in human spermatozoa and all other collected data.Our findings revealed a negative correlation between the abundance of miR‐34c‐5p (but not miR‐191‐3p) and total sperm motility, potentially mediated by the modulation of key signaling pathways. Additionally, higher levels of miR‐34c‐5p in spermatozoa were strongly associated with the consumption or release of key metabolites by developing embryos, particularly those linked with lipid and glucose metabolism, suggesting enhanced metabolic performance, while miR‐191‐3p was mostly associated with glucose consumption. Concurrently, only miR‐34c‐5p content in spermatozoa correlated with higher embryo quality.This study provides evidence suggesting that the abundance of miR‐34c‐5p in spermatozoa is correlated not only with total sperm motility but also with markers of embryo developmental competence, highlighting the potential significance of this sperm microRNA content as a biomarker in assisted reproduction. [ABSTRACT FROM AUTHOR]

Published

2024

45. The maternal embrace: the protection of plant embryos.

Author

Woudenberg, Sjoerd, Hadid, Feras, Weijers, Dolf, and Borassi, Cecilia

Subjects

*PLANT protection, *EMBRYOS, *BROWN algae, *ENVIRONMENTAL protection, *EMBRYOLOGY, *MULTICELLULAR organisms

Abstract

All land plants—the embryophytes—produce multicellular embryos, as do other multicellular organisms, such as brown algae and animals. A unique characteristic of plant embryos is their immobile and confined nature. Their embedding in maternal tissues may offer protection from the environment, but also physically constrains development. Across the different land plants, a huge discrepancy is present between their reproductive structures whilst leading to similarly complex embryos. Therefore, we review the roles that maternal tissues play in the control of embryogenesis across land plants. These nurturing, constraining, and protective roles include both direct and indirect effects. In this review, we explore how the maternal surroundings affect embryogenesis and which chemical and mechanical barriers are in place. We regard these questions through the lens of evolution, and identify key questions for future research. [ABSTRACT FROM AUTHOR]

Published

2024

46. Successful equine in vitro embryo production by ICSI – effect of season, mares' age, breed, and phase of the estrous cycle on embryo production.

Author

Fonte, Juliana Schleich, Alonso, Maria Augusta, Junior, Marc Peter Maserati, Gonçalves, Marcos Antônio, Pontes, Jose Henrique, Bordignon, Vilceu, Fleury, Perla Dagher Cassoli, and Fernandes, Claudia Barbosa

Subjects

*ESTRUS, *BLASTOCYST, *HORSE breeding, *MARES, *INTRACYTOPLASMIC sperm injection, *OVARIAN follicle, *EMBRYOS, *LUTEAL phase, *OVUM

Abstract

This retrospective study aimed at identifying factors that contribute to the success of equine in vitro embryo production by intracytoplasmic sperm injection (ICSI). A total of 7993 ovum pick-up (OPU) sessions were performed, totaling 2540 donor mares and semen from 396 stallions. Oocytes were aspirated at multiple sites in Brazil and were sent to the laboratory, within 6 h from OPU, in pre-maturation medium where they were in vitro matured (IVM) followed by ICSI and in vitro embryo culture for 7–8 days. The number of recovered oocytes, matured oocytes, cleaved embryos and blastocysts were used to explore the effect of age and breed of the donor mare, time of year in which the mare was aspirated and phase of the estrous cycle on the day of follicular aspiration. Mares between 6 and 15 years old were superior to other age groups in most parameters evaluated, including the average number of blastocysts per OPU. The impact of age was similar when evaluated within two breeds, American Quarter Horse (AQHA) and Warmblood mares. We observed that breed (AQHA, Warmblood, Crioulo, Lusitano and Mangalarga) had an important effect on most of the parameter evaluated, including number of oocytes recovered, blastocysts produced per OPU, and blastocyst rates. The overall impact of season was less pronounced than age and breed, with the only statistically significant difference being a higher rate of oocyte maturation during the summer season. Finally, most of the parameters evaluated were superior in follicular phase mares, with or without dominant follicle than luteal phase mares. In conclusion, this retrospective study revealed that breed, age, season and stage of estrous at the time of OPU are all important parameters for the success of equine embryo production by ICSI. This technology enables producing embryos all-year-round from mares of different breeds and ages from OPU-derived oocytes collected at multiple sites. • Embryo produced per OPU was greater in mares between 6 and 15 years old. • The time of the year did not influence the number of oocytes recovered. • Mares in estrus produce more embryos per opu. [ABSTRACT FROM AUTHOR]

Published

2024

47. MtPIN4 plays critical roles in amino acid biosynthesis and metabolism of seed in Medicago truncatula.

Author

Jiang, Hongjiao, Xie, Lijun, Gu, Zhiqun, Mei, Hongyao, Wang, Haohao, Zhang, Jing, Wang, Minmin, Xu, Yiteng, Zhou, Chuanen, and Han, Lu

Subjects

*MEDICAGO, *AMINO acid metabolism, *MEDICAGO truncatula, *AUXIN, *SEED development, *SEED crops, *SEED proteins

Abstract

SUMMARY: The regulation of seed development is critical for determining crop yield. Auxins are vital phytohormones that play roles in various aspects of plant growth and development. However, its role in amino acid biosynthesis and metabolism in seeds is not fully understood. In this study, we identified a mutant with small seeds through forward genetic screening in Medicago truncatula. The mutated gene encodes MtPIN4, an ortholog of PIN1. Using molecular approaches and integrative omics analyses, we discovered that auxin and amino acid content significantly decreased in mtpin4 seeds, highlighting the role of MtPIN4‐mediated auxin distribution in amino acid biosynthesis and metabolism. Furthermore, genetic analysis revealed that the three orthologs of PIN1 have specific and overlapping functions in various developmental processes in M. truncatula. Our findings emphasize the significance of MtPIN4 in seed development and offer insights into the molecular mechanisms governing the regulation of seed size in crops. This knowledge could be applied to enhance crop quality by targeted manipulation of seed protein regulatory pathways. [ABSTRACT FROM AUTHOR]

Published

2024

48. Altered N6‐methyladenosine methylation level in spermatozoa messenger RNA of the male partners is related to unexplained recurrent pregnancy loss.

Author

Yang, Tingting, Liu, Yanyan, Lin, Ziyuan, Chen, Feng, Zhu, Lin, Zhang, Lin, Zhou, Bin, Li, Fuping, and Sun, Huaqin

Subjects

*MESSENGER RNA, *ADENOSINES, *RNA modification & restriction, *GENE expression, *SPERMATOZOA

Abstract

Background Methods Findings Interpretation Understanding the pathogenesis of unexplained recurrent pregnancy loss is paramount for advancing effective treatments. Various biological processes, including spermatogenesis and embryo development, are tightly regulated by N6‐methyladenosine modifications. However, few studies have focused on the impact of sperm N6‐methyladenosine modifications on embryonic development. Therefore, we aimed to study altered N6‐methyladenosine‐mediated messenger RNA methylation modifications in the spermatozoa of male partners from couples experiencing unexplained recurrent pregnancy loss, to identify potential diagnostic markers and explore their potential molecular mechanisms in pregnancy loss and embryogenesis.Methylated RNA immunoprecipitation (MeRIP) sequencing and RNA sequencing were conducted on the spermatozoa of men from couples in the ‘unexplained recurrent pregnancy loss’ group (n = 6), and the fertility control group (n = 6). To identify the role of the detected key genes, zebrafish model embryos were studied, and multi‐omics (transcriptomics, proteomics, and metabolomics) analyses helped to explore the molecular mechanism of abnormal embryogenesis.Comparing unexplained recurrent pregnancy loss with the fertility control group, 217 N6‐methyladenosine peaks were significantly upregulated, and 40 were downregulated in the spermatozoa. The combined analyses of spermatozoa‐methylated RNA immunoprecipitation sequencing and RNA sequencing indicated that N6‐methyladenosine methylation and the expression of SEMA5A, MT‐ATP6, ZNF662, and KDM4C were significantly different. In zebrafish embryos, the altered expression of the four genes increased embryonic mortality and malformations by disturbing several key signaling pathways and zygotic genome activation.This study highlights the paternal epigenome, which could be one of the reasons for faulty embryogenesis leading to pregnancy loss. The N6‐methyladenosine modification, the most prevalent RNA modification, contributes to the exploration and understanding of the paternal epigenome in the maintenance of pregnancy and fetal growth and development. The four genes identified in this study may serve as potential diagnostic markers and elucidate novel molecular mechanisms of embryogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

49. A prospective study of the proteome of equine pre‐implantation embryo.

Author

Teles Filho, Antônio Carlos de A., Sanchez, Deisy J. D., Viana, Arabela G. A., Sheheryar, Sheheryar, Guerreiro, Denise D., Bustamante‐Filho, Ivan C., Martins, Aline M. A., Sousa, Marcelo V., Ricart, Carlos A. O., Fontes, Wagner, and Moura, Arlindo A.

Subjects

*EMBRYOS, *HUMAN embryo transfer, *FERTILIZATION in vitro, *LONGITUDINAL method, *IN vitro studies, *BLASTOCYST, *PROTEOMICS, *MASS spectrometry, *PROTEIN folding

Abstract

The present study was conducted to investigate the global proteome of 8‐day‐old equine blastocysts. Follicular dynamics of eight adult mares were monitored by ultrasonography and inseminated 24 h after the detection of a preovulatory follicle. Four expanded blastocysts were recovered, pooled, and subjected to protein extraction and mass spectrometry. Protein identification was conducted based on four database searches (PEAKS, Proteome Discoverer software, SearchGUI software, and PepExplorer). Enrichment analysis was performed using g:Profiler, Panther, and String platforms. After the elimination of identification redundancies among search tools (at three levels, based on identifiers, peptides, and cross‐database mapping), 1977 proteins were reliably identified in the samples of equine embryos. Proteomic analysis unveiled robust metabolic activity in the 8‐day equine embryo, highlighted by an abundance of proteins engaged in key metabolic pathways like the TCA cycle, ATP biosynthesis, and glycolysis. The prevalence of chaperones among highly abundant proteins suggests that regulation of protein folding, and degradation is a key process during embryo development. These findings pave the way for developing new strategies to improve equine embryo media and optimize in vitro fertilization techniques. [ABSTRACT FROM AUTHOR]

Published

2024

50. Excluding alanine from minimum essential medium (MEM) nonessential amino acid supplementation of the culture medium facilitates post-fertilization events and early cleavages of bovine oocytes fertilized in vitro.

Author

Nobuhiko ITAMI, Satoshi AKAGI, and Yuji HIRAO1

Subjects

ALANINE, BLASTOCYST, CULTURE media (Biology), AMINO acids, EMBRYOLOGY

Abstract

Embryonic transfer of bovine blastocysts produced by in vitro fertilization is widely utilized-despite a compromised conception rate. It has been suggested that a set of four evaluation criteria for judging the quality of embryos, based on the timing of early cleavages and proper morphologies of embryos, can effectively predict pregnancy success. These blastocysts are hereafter referred to as four-criteria-compliant blastocysts. The same criteria should be used to modify the culture media to improve embryo quality. For example, culture media is often supplemented with nonessential amino acids (NEAA) at a uniform concentration despite the major variation in their concentration in the oviductal fluid. In the present study, the effects of the embryo culture medium, namely CR1, supplemented with all seven MEM NEAA or six of them, excluding one at a time, were examined. All media, except for the medium that did not contain proline and serine, tended to improve the efficiency of producing four-criteria-compliant blastocysts, and excluding alanine was particularly effective. The absence of alanine resulted in the rapid occurrence of the first cleavage and pronuclear formation of fertilized oocytes in the alanine-free medium compared to that in the medium containing alanine. These results suggested that alanine hinders certain events involved in the progression of early embryogenesis, which is necessary to achieve the four criteria that provide a benchmark for pregnancy. Therefore, a significantly higher percentage of embryos satisfied the recommended criteria and developed into four-criteria-compliant blastocysts when developed in alanine-free medium than in alanine-containing medium. [ABSTRACT FROM AUTHOR]

Published

2024