This review aimed to summarize the major progress in maternal-fetal medicine achieved by Chinese scientists in recent years.PubMed was systematically searched from January 2020 to November 2023.Publications that repor...This review aimed to summarize the major progress in maternal-fetal medicine achieved by Chinese scientists in recent years.PubMed was systematically searched from January 2020 to November 2023.Publications that reported the progress in embryo implantation,placentation,and parturition made by Chinese scientists in the last 3 years were selected.The milestone events during gestation,embryo implantation,endometrial decidualization,placentation,and parturition are pivotal to a successful pregnancy.Embryo implantation requires intricate interactions between implantation-competent blastocysts and receptive endometrium.To adapt to pregnancy,endometrial stromal cells transform into specialized decidual cells,which occur spontaneously under the influence of ovarian hormones in humans but require the presence of embryos in mice.With embryonic development,the placenta forms to support fetal growth until parturition.The maternal-fetal interface is composed of diverse cell types,including endometrial decidual cells,placental trophoblast cells,endothelial cells,and various immune cells,a sophisticated interplay among which contributes to the maintenance of pregnancy.Near term,the uterus transitions from quiescence to contractility,in preparation for delivery.Disruptions to these events lead to pregnancy-related disorders such as repeated implantation failure,recurrent pregnancy loss,preeclampsia,fetal growth restriction,preterm birth,and infertility.In recent years,Chinese scientists have made prominent achievements in basic research on the aforementioned pregnancy events.Chinese scientists have made remarkable contributions to reproductive biology and maternal-fetal medicine research in recent years,highlighting future research directions in this field.展开更多
Metabolic syndrome(MS)is a cluster of metabolic abnormalities.Obesity and MS are always accompanied by elevated oxidative stress which might affect cellular biomolecules such as DNA.The aim of the present study is to ...Metabolic syndrome(MS)is a cluster of metabolic abnormalities.Obesity and MS are always accompanied by elevated oxidative stress which might affect cellular biomolecules such as DNA.The aim of the present study is to investigate DNA damage profile in obese premenopausal women and its relation to the risk of MS,polycystic ovary syndrome(PCOS)and history of recurrent pre-eclampsia.The study included 90 obese women included cases with MS(nZ30),PCOS(n Z30)and previous history of recurrent preeclampsia(nZ30)and,age-matched healthy non-obese control women(n Z 50).The assessment of leukocyte DNA damage was done by comet assay for all cases and controls.Anthropometry and biochemical parameters have been measured.Results showed that mean percent of DNA damage was significantly higher in MS,PCOS as well as in women with the recurrent preeclampsia as compared to healthy controls.The high level of mean DNA damage frequency in obese women was significantly associated with the increased number of metabolic syndrome components.Cases with 2,3 and 3e5 components showed significantly higher levels of DNA damage than controls.Moreover,cases with 3e5 MS components showed significant higher DNA compared to those with the two components.Regarding PCOS,significant positive association between the mean frequency of DNA damage and waist circumference was observed.The study suggests that metabolic abnormalities,PCOS and recurrent pre-eclampsia might be contributed in development of DNA damage in obese women.DNA damage can serve as an early marker for obesity complications in premenopausal women.展开更多
Osteoarthritis(OA)has been defined as a chronic inflammatory joint disease characterized by progressive articular cartilage degeneration.Recently growing interest in regenerative medicine,using cell therapy and tissue...Osteoarthritis(OA)has been defined as a chronic inflammatory joint disease characterized by progressive articular cartilage degeneration.Recently growing interest in regenerative medicine,using cell therapy and tissue engineering,where cellular components in combination with engineered scaffolds and bioactive materials were used to induce functional tissue regeneration.In the present study,nanofibrous scaffold based on chitosan(CS)/poly(vinyl alcohol)(PVA)were used to develop biologically functionalized biomaterial to mimic the extracellular matrix,allowing the human adipose tissue derived mesenchymal stem cells(ADSCs)to proliferate and differentiate to chondrogenic cells.The morphology of the nanofibrous mat was examined using field emission scanning electron microscope(FE/SEM).The characteristic functional groups and the nature of the chemical bonds between atoms were evaluated using Fourier transform infrared spectroscopy(FTIR)spectrum.Characterization of the seeded cells was morphologically evaluated by scanning electron microscopy and by flow cytometry for the expression of the stem cell surface markers.The differentiation potential was verified after chondrogenic induction by analyzing the expression of chondrogenic marker genes using real-time(RT PCR).Current study suggest significant potential for the use of ADSCs with the nanofibrous scaffolds in improving the osteoarthritis pathology.展开更多
基金supported by the National Key R&D Program of China (2022YFC2702500 and 2021YFC2700302)National Natural Science Foundation of China (82288102).
文摘This review aimed to summarize the major progress in maternal-fetal medicine achieved by Chinese scientists in recent years.PubMed was systematically searched from January 2020 to November 2023.Publications that reported the progress in embryo implantation,placentation,and parturition made by Chinese scientists in the last 3 years were selected.The milestone events during gestation,embryo implantation,endometrial decidualization,placentation,and parturition are pivotal to a successful pregnancy.Embryo implantation requires intricate interactions between implantation-competent blastocysts and receptive endometrium.To adapt to pregnancy,endometrial stromal cells transform into specialized decidual cells,which occur spontaneously under the influence of ovarian hormones in humans but require the presence of embryos in mice.With embryonic development,the placenta forms to support fetal growth until parturition.The maternal-fetal interface is composed of diverse cell types,including endometrial decidual cells,placental trophoblast cells,endothelial cells,and various immune cells,a sophisticated interplay among which contributes to the maintenance of pregnancy.Near term,the uterus transitions from quiescence to contractility,in preparation for delivery.Disruptions to these events lead to pregnancy-related disorders such as repeated implantation failure,recurrent pregnancy loss,preeclampsia,fetal growth restriction,preterm birth,and infertility.In recent years,Chinese scientists have made prominent achievements in basic research on the aforementioned pregnancy events.Chinese scientists have made remarkable contributions to reproductive biology and maternal-fetal medicine research in recent years,highlighting future research directions in this field.
基金Authors acknowledge the financial assistance provided by National Research Center,Egypt.
文摘Metabolic syndrome(MS)is a cluster of metabolic abnormalities.Obesity and MS are always accompanied by elevated oxidative stress which might affect cellular biomolecules such as DNA.The aim of the present study is to investigate DNA damage profile in obese premenopausal women and its relation to the risk of MS,polycystic ovary syndrome(PCOS)and history of recurrent pre-eclampsia.The study included 90 obese women included cases with MS(nZ30),PCOS(n Z30)and previous history of recurrent preeclampsia(nZ30)and,age-matched healthy non-obese control women(n Z 50).The assessment of leukocyte DNA damage was done by comet assay for all cases and controls.Anthropometry and biochemical parameters have been measured.Results showed that mean percent of DNA damage was significantly higher in MS,PCOS as well as in women with the recurrent preeclampsia as compared to healthy controls.The high level of mean DNA damage frequency in obese women was significantly associated with the increased number of metabolic syndrome components.Cases with 2,3 and 3e5 components showed significantly higher levels of DNA damage than controls.Moreover,cases with 3e5 MS components showed significant higher DNA compared to those with the two components.Regarding PCOS,significant positive association between the mean frequency of DNA damage and waist circumference was observed.The study suggests that metabolic abnormalities,PCOS and recurrent pre-eclampsia might be contributed in development of DNA damage in obese women.DNA damage can serve as an early marker for obesity complications in premenopausal women.
基金This research was financially supported by National Research Centre,Cairo,Egypt(Project grant no.P11010170).
文摘Osteoarthritis(OA)has been defined as a chronic inflammatory joint disease characterized by progressive articular cartilage degeneration.Recently growing interest in regenerative medicine,using cell therapy and tissue engineering,where cellular components in combination with engineered scaffolds and bioactive materials were used to induce functional tissue regeneration.In the present study,nanofibrous scaffold based on chitosan(CS)/poly(vinyl alcohol)(PVA)were used to develop biologically functionalized biomaterial to mimic the extracellular matrix,allowing the human adipose tissue derived mesenchymal stem cells(ADSCs)to proliferate and differentiate to chondrogenic cells.The morphology of the nanofibrous mat was examined using field emission scanning electron microscope(FE/SEM).The characteristic functional groups and the nature of the chemical bonds between atoms were evaluated using Fourier transform infrared spectroscopy(FTIR)spectrum.Characterization of the seeded cells was morphologically evaluated by scanning electron microscopy and by flow cytometry for the expression of the stem cell surface markers.The differentiation potential was verified after chondrogenic induction by analyzing the expression of chondrogenic marker genes using real-time(RT PCR).Current study suggest significant potential for the use of ADSCs with the nanofibrous scaffolds in improving the osteoarthritis pathology.
