In the study of embryo development process, the morphological features at different stages are essential to evaluate developmental competence of the embryo, which can be used to optimize and improve the system for
Blastocyst ; Embryo Culture Techniques ; Embryonic Development ; Fertilization in Vitro

As the number of young cancer survivors increases, quality of life after cancer treatment is becoming an ever more important consideration. According to a report from the American Cancer Society, approximately 810,170 women were diagnosed with cancer in 2015 in the United States. Among female cancer survivors, 1 in 250 are of reproductive age. Anticancer therapies can result in infertility or sterility and can have long-term negative effects on bone health, cardiovascular health as a result of reproductive endocrine function. Fertility preservation has been identified by many young patients diagnosed with cancer as second only to survival in terms of importance. The development of fertility preservation technologies aims to help patients diagnosed with cancer to preserve or protect their fertility prior to exposure to chemo- or radiation therapy, thus improving their chances of having a family and enhancing their quality of life as a cancer survivor. Currently, sperm, egg, and embryo banking are standard of care for preserving fertility for reproductive-age cancer patients; ovarian tissue cryopreservation is still considered experimental. Adoption and surrogate may also need to be considered. All patients should receive information about the fertility risks associated with their cancer treatment and the fertility preservation options available in a timely manner, whether or not they decide to ultimately pursue fertility preservation. Because of the ever expanding number of options for treating cancer and preserving fertility, there is now an opportunity to take a precision medicine approach to informing patients about the fertility risks associated with their cancer treatment and the fertility preservation options that are available to them.
Adult Stem Cells ; Cell Culture Techniques ; Cryopreservation/*methods ; *Embryo, Mammalian ; Female ; Fertility Preservation/*methods ; Humans ; Neoplasms/drug therapy/*therapy ; *Oocytes ; Ovarian Follicle/drug effects/metabolism/transplantation ; *Ovary/transplantation ; Ovulation Induction/methods ; Precision Medicine

OBJECTIVE: This study was conducted to compare the effects of static culture, dynamic culture, and the combination of dynamic culture with specialized surfaces involving co-culture on human embryonic development. Embryos cultured using conventional static culture (SC) techniques served as a control group. We compared dynamic culture using micro-vibration culture (MVC) and micro-vibration with co-culture (MCoC), in which autologous cumulus cells were used as a specialized surface. METHODS: We conducted a chart review of patients who were treated between January 2011 and November 2014 in order to compare embryonic development rates and pregnancy rates among the groups. Zygotes were cultured in micro-droplets, and embryos were subsequently selected for transfer. Some surplus embryos were cryopreserved, and the others were cultured for blastocyst development. A micro-vibrator was set at the frequency of 42 Hz for duration of 5 seconds per 60 minutes to facilitate embryo development. RESULTS: No significant differences among the groups were present in patient's characteristics. However, the clinical pregnancy rates were significantly higher in the MVC group and the MCoC group than in the SC group. No significant differences were found in the blastocyst development rate between the SC group and the MVC group, but the blastocyst development rate in the MCoC group was significantly higher than in the SC and MVC groups. CONCLUSION: The clinical pregnancy rate was significantly increased by the application of micro-vibration to the embryonic cultures of poor responders. The blastocyst development rate was significantly increased by the application of MCoC to surplus embryos.
Blastocyst ; Coculture Techniques* ; Cumulus Cells ; Embryo Culture Techniques ; Embryonic Development ; Embryonic Structures ; Female ; Humans ; Pregnancy ; Pregnancy Rate ; Zygote

PURPOSE: The increasing demand for esthetically pleasing results has contributed to the use of ceramics for dental implant abutments. The aim of this study was to compare the biological response of epithelial tissue cultivated on lithium disilicate (LS₂) and zirconium oxide (ZrO₂) ceramics. Understanding the relevant physicochemical and mechanical properties of these ceramics will help identify the optimal material for facilitating gingival wound closure. METHODS: Both biomaterials were prepared with 2 different surface treatments: raw and polished. Their physicochemical characteristics were analyzed by contact angle measurements, scanning white-light interferometry, and scanning electron microscopy. An organotypic culture was then performed using a chicken epithelium model to simulate peri-implant soft tissue. We measured the contact angle, hydrophobicity, and roughness of the materials as well as the tissue behavior at their surfaces (cell migration and cell adhesion). RESULTS: The best cell migration was observed on ZrO₂ ceramic. Cell adhesion was also drastically lower on the polished ZrO₂ ceramic than on both the raw and polished LS2. Evaluating various surface topographies of LS2 showed that increasing surface roughness improved cell adhesion, leading to an increase of up to 13%. CONCLUSIONS: Our results demonstrate that a biomaterial, here LS2, can be modified using simple surface changes in order to finely modulate soft tissue adhesion. Strong adhesion at the abutment associated with weak migration assists in gingival wound healing. On the same material, polishing can reduce cell adhesion without drastically modifying cell migration. A comparison of LS2 and ZrO2 ceramic showed that LS2 was more conducive to creating varying tissue reactions. Our results can help dental surgeons to choose, especially for esthetic implant abutments, the most appropriate biomaterial as well as the most appropriate surface treatment to use in accordance with specific clinical dental applications.
Biocompatible Materials ; Cell Adhesion ; Cell Movement ; Ceramics* ; Chickens ; Dental Abutments* ; Dental Implants ; Embryo Culture Techniques ; Epithelium ; Esthetics, Dental ; Hydrophobic and Hydrophilic Interactions ; Interferometry ; Lithium* ; Microscopy, Electron, Scanning ; Surgeons ; Tissue Adhesions ; Wound Healing ; Wounds and Injuries ; Zirconium*

With the advancements of stem cells and regenerative medicine, interspecies chimera has become a hot topic and will pave a new way of providing donor sources in organ transplantation. However, the interspecies chimera is confronted with a number of scientific questions and technical obstacles, including selections of appropriate embryonic stage and appropriate culture medium; those factors will deeply influence the developmental balance between donor cells and receptor embryos. Due to its relatively rapid reproductive cycle and similar organ size to human's, porcine is a very potential donor candidate to study these questions. To compare the development and chimeric efficiency of interspecies embryos, we tested and evaluated three different culture systems, PZM-3 (Porcine zygotic medium), culture medium for iPSCs (N2B27) and 3.5 h of N2B27 before PZM-3 (N2B27(3.5 h)), and two different embryonic stages, 8-cell and blastocyst in mouse-porcine chimeric embryos using parthenogenetically activated porcine embryos and mouse induced pluripotent stem cells (miPS). The results showed that, PZM-3 was beneficial for both development of chimeric embryos and miPSCs proliferation in porcine embryos in the 8-cell injection group. After early blastocyst injection, the chimeric efficiency did not appear significantly different among the three culture systems but was lower than 8-cell injection. In summary, the results suggest that 8-cell injection and PZM-3 culture medium are more beneficial to the in vitro development and chimeric efficiency of mouse-porcine chimeric embryos.
Animals ; Blastocyst ; Chimera ; Culture Media ; Embryo Culture Techniques ; veterinary ; Embryo, Mammalian ; Embryonic Development ; Induced Pluripotent Stem Cells ; cytology ; Mice ; Swine

The objective of the present study was to investigate the effects of three different culture media on the development of canine somatic cell nuclear transfer (SCNT) embryos. Canine cloned embryos were cultured in modified synthetic oviductal fluid (mSOF), porcine zygote medium-3 (PZM-3), or G1/G2 sequential media. Our results showed that the G1/G2 media yielded significantly higher morula and blastocyst development in canine SCNT embryos (26.1% and 7.8%, respectively) compared to PZM-3 (8.5% and 0%) or mSOF (2.3% and 0%) media. In conclusion, this study suggests that blastocysts can be produced more efficiently using G1/G2 media to culture canine SCNT embryos.
Animals ; Blastocyst/cytology ; Cloning, Organism/*veterinary ; Culture Media/metabolism ; Dogs/*embryology ; Embryo Culture Techniques/*veterinary ; *Embryonic Development ; Nuclear Transfer Techniques/*veterinary

The purpose of this study is to evaluate the embryotoxicity of alkaloids in Senecionis Scandentis Hebra on in vitro cultured mouse embryos. Mouse whole embryo culture (WEC) was applied in this study. Post-implantation (8.5 d) mouse embryos were isolated from their mothers, and cultured in medium of immediately centrifuged serum (ICS) with different concentrations of seneciphylline (target concentrations were 100, 50, 25 and 12.5 μg x mL(-1)) or senkirkine (target concentrations were 50, 25 and 12.5 μg x mL(-1)) for 48 h. After culturing completed, the development and organic morphodifferentiation of the cultured embryos were evaluated microscopically. Treatment with seneciphylline and senkirkine had adverse effects on the development and organic morphodifferentiation of embryos. The effect also had clear dose-response. Alkaloidals in Senecionis Scandentis Hebra had embryotoxicity on cultured embryos, which indicated that pregnant people exposed to Senecionis Scandentis Hebra may get potential risk on fetus.
Animals ; Embryo Culture Techniques ; Embryo, Mammalian ; drug effects ; Female ; Mice ; Pregnancy ; Pyrrolizidine Alkaloids ; toxicity ; Senecio ; chemistry ; Teratogens ; toxicity

BrdU (5-Bromo-2'-deoxyuridine) is usually used to label the mitotic cells as well as to trace reagent in cell transplation. However, BrdU could also exert some side effect on cellular biological characteristics upon inappropriate use. To explore the appropriate concentration of BrdU for labelling retinal progenitor cells (RPCs), we co-cultured Embryonic day (E) 17. 5 RPCs with different concentrations of BrdU, which were 0.2, 1, 5 and 10 micromol/L, respectively. After 48 hours, the RPCs were proliferation- or differentiation-cultured. Immunofluorescence was used to detect the BrdU-positive ratio and differentiation potential. Cell count was used to evaluate proliferation ability, and lactate dehydrogenase (LDH) release assay was used to monitor cytotoxicity. The results showed that 0.2 micromol/ L BrdU could not label RPCs clearly, while BrdU of 1, 5 or 10 micromol/L could label the RPCs with similar ratios. 1 micromol/L BrdU displayed no obvious cytotoxicity and showed no obvious effect on the proliferation and differentiation ability. However, 5 micromol/L or 10 micromol/L BrdU could evidently inhibit RPCs proliferation, partly due to the cytotoxicity effect. Furthermore, 10 micromol/L BrdU could inhibit the differentiation of RPCs towards MAP2-positive nerve cells, but showed no influence on the differentiation of RPCs towards GFAP- and glutamine synthetase positive glial cells. This study suggested that 1 micromol/L BrdU could be an appropriate concentration for RPCs labelling and could efficiently label RPCs without obvious side effect.
Animals ; Bromodeoxyuridine ; chemistry ; Cell Culture Techniques ; methods ; Cell Differentiation ; Cell Proliferation ; Embryo, Mammalian ; Immunohistochemistry ; Mice ; Retina ; cytology ; Staining and Labeling ; Stem Cells ; cytology

Embryos with a poor morphological score at cleavage stage are usually discarded because they are considered unsuitable for transfer and cryopreservation. This study examined the in vitro blastocyst development after extended culture of these embryos and the clinical outcomes after transfer of these blastocysts in warming cycles. A total of 597 blastocysts (24.7%) were obtained from 2421 embryos with low morphological scores after extended culture. One hundred and sixty blastocysts (6.6%) with optimal morphology were vitrified. Embryo utilization rate was increased from 30.8% to 32.6%. After warming, 61 out of 92 blastocysts (66.3%) survived and were transferred in 44 cycles. The clinical pregnancy rate and the implantation rate were 40.9% (18/44) and 32.8% (20/61) respectively. Thirteen healthy babies were born, and 5 pregnancies aborted spontaneously. Our study suggested that some blastocysts derived from embryos with a poor morphological score can be successfully vitrified and give rise to live births. Selection and vitrification of viable embryos after extended culture of embryos with a poor morphological score may constitute a proposal to avoid embryo wastage.
Adult ; Cryopreservation ; methods ; Embryo Culture Techniques ; methods ; Embryo Transfer ; methods ; statistics & numerical data ; Female ; Fertilization in Vitro ; methods ; statistics & numerical data ; Humans ; Infertility ; pathology ; therapy ; Middle Aged ; Pregnancy ; Pregnancy Outcome ; Vitrification ; Young Adult

OBJECTIVETo establish a suitable protocol for activating mouse somatic cell nuclear transfer embryos with strontium chloride (SrCl2).

METHODSWe constructed and identified mouse nuclear transfer (NT) embryos. After nuclear injection, we activated the NT embryos using the following chemical activation methods: exposing the NT embryos to 5 and 10 mmol/L SrCl2 strontium for 1 -8 h, activating the NT embryos with 1-20 mmol/L SrCl2 strontium at 4 and 6 h, treating the NT embryos with 10 mmol/L SrCl2 strontium in different activating media, and exposing the NT embryos to 10 mmol/L SrCl2 strontium combined with 6-dimethylaminopurine (6-DMAP) and cytochalasin B (CB). After activation, the NT embryos were cultured in vitro in the cleavage medium.

RESULTSWhen the NT embryos were treated with SrCl2 at the concentration of 5 mmol/L, the cleavage rate was remarkably higher at 6 h (38.9%) than at 1 h (6.7%), 2 h (22.8%), 3 h (22.8%) and 4 h (25.6%) (P < 0.05), but with no significant differences from those at 5 h (28.9%), 7 h (34.4%) and 8 h (28.9%) (P > 0.05). When the NT embryos were treated with SrCl2 for 6 h, the rates of cleavage and blastulation were 68.9% and 7.2% at 10 mmol/L, markedly higher than at 1 mmol/L (28.3% and 0%), 2.5 mmol/L (35.6% and 0%), 5 mmol/L (37.8% and 1.1%), 7.5 mmol/L (60.6% and 2.2%), 15 mmol/L (51.7% and 1.1%), and 20 mmol/L (41.7% and 1.1%) (P < 0.05). The cleavage rate of the NT embryos cultured in the Ca2+ and Mg2+ KSOM medium was 27.8%, significantly lower than in the Ca(2+)-free KSOM (69.4%), Ca2+/Mg(2+)-free KSOM (66.1%), and Ca2+/Mg(2+)-free + EDTA KSOM (68.3%) (P < 0.05). The total cell blastocyst number was significantly larger in the NT embryos treated with SrCl2 + CB (45.40 +/- 2.23) than in those treated with SrCl2 (30.15 +/- 1.12), 6-DMAP (34.95 +/- 1.38), and 6-DMAP + CB (37.45 +/- 1.43) (P < 0.05).

CONCLUSIONSix-hour treatment with 10 mmol/L SrCl2 in Ca2+ alone or in combination with CB can well activate NT embryos in mice.

Animals ; Blastocyst ; cytology ; drug effects ; Embryo Culture Techniques ; Embryo, Mammalian ; cytology ; drug effects ; Embryonic Development ; drug effects ; Female ; Mice ; Mice, Inbred C57BL ; Nuclear Transfer Techniques ; Oocytes ; cytology ; drug effects ; Strontium ; pharmacology