50 research outputs found
Сучасний погляд на проблему бронхолегеневої дисплазії та відкритої артеріальної протоки у недоношених новонароджених
У статті відображені сучасні аспекти патогенезу та клініки бронхолегеневої дисплазії у недоношених новонароджених. Надано аналіз впливу різних антенатальних та інтранатальних факторів на формування та перебіг бронхолегеневої дисплазії. Окремо розглянуто проблему відкритої артеріальної протоки,
патогенез, механізми впливу на розвиток бронхолегеневої дисплазії та обтяження її стану. Розглянуто клінічні
та патогенетичні апекти функціонування відкритої артеріальної протоки у недоношених новонароджених.
. The article reflects the modern aspects
of the pathogenesis and clinic of bronchopulmonary
dysplasia in premature infants. An analysis of the
impact of various antenatal and intranatal factors on
the development and course of bronchopulmonary
dysplasia. Separately the problem of patent ductus
arteriosus. Pathogenesis, mechanisms of influence on
the development of bronchopulmonary dysplasia and
encumbrance of her condition. Discussed the clinical
and pathogenetic apects functioning of patent ductus
arteriosus in preterm infants
Developmental toxicity and brain aromatase induction by high genistein concentrations in zebrafish embryos
Genistein is a phytoestrogen found at a high level in soybeans. In vitro and in vivo studies showed that high concentrations of genistein caused toxic effects. This study was designed to test the feasibility of zebrafish embryos for evaluating developmental toxicity and estrogenic potential of high genistein concentrations. The zebrafish embryos at 24 h post-fertilization were exposed to genistein (1 × 10−4 M, 0.5 × 10−4 M, 0.25 × 10−4 M) or vehicle (ethanol, 0.1%) for 60 h. Genistein-treated embryos showed decreased heart rates, retarded hatching times, decreased body length, and increased mortality in a dose-dependent manner. After 0.25 × 10−4 M genistein treatment, malformations of survived embryos such as pericardial edema, yolk sac edema, and spinal kyphosis were also observed. TUNEL assay results showed apoptotic DNA fragments in brain. This study also confirmed the estrogenic potential of genistein by EGFP expression in the brain of the mosaic reporter zebrafish embryos. This study first demonstrated that high concentrations of genistein caused a teratogenic effect on zebrafish embryos and confirmed the estrogenic potential of genistein in mosaic reporter zebrafish embryos
Inhibition of cancer cell invasion and metastasis by genistein
Genistein is a small, biologically active flavonoid that is found in high amounts in soy. This important compound possesses a wide variety of biological activities, but it is best known for its ability to inhibit cancer progression. In particular, genistein has emerged as an important inhibitor of cancer metastasis. Consumption of genistein in the diet has been linked to decreased rates of metastatic cancer in a number of population-based studies. Extensive investigations have been performed to determine the molecular mechanisms underlying genistein’s antimetastatic activity, with results indicating that this small molecule has significant inhibitory activity at nearly every step of the metastatic cascade. Reports have demonstrated that, at high concentrations, genistein can inhibit several proteins involved with primary tumor growth and apoptosis, including the cyclin class of cell cycle regulators and the Akt family of proteins. At lower concentrations that are similar to those achieved through dietary consumption, genistein can inhibit the prometastatic processes of cancer cell detachment, migration, and invasion through a variety of mechanisms, including the transforming growth factor (TGF)-β signaling pathway. Several in vitro findings have been corroborated in both in vivo animal studies and in early-phase human clinical trials, demonstrating that genistein can both inhibit human cancer metastasis and also modulate markers of metastatic potential in humans, respectively. Herein, we discuss the variety of mechanisms by which genistein regulates individual steps of the metastatic cascade and highlight the potential of this natural product as a promising therapeutic inhibitor of metastasis