Vascular endothelialgrowth factor ( VEGF) is amultifunctional cytokine thatexerts in vivo a key rolein physiologicalneoangiogenesisduring embryonicde-velopmentor the female cycle and pathologicalneoan-giogenesis of many diseases including hypervascular-ized tumors,rheumatoid arthritis,and retinopathiesdiseases[1— 3] by stimulating endothelial cell prolifera-tion and vessel hyperpermeability.VEGF exists asone of five different isoforms,VEGF1 2 1 ,VEGF1 65 ,VEGF1 83,VEGF1 89and VEGF2 … 相似文献
BackgroundThyroid dysfunction in patients with morbid obesity usually resolves after bariatric surgery. However, the role of diverse types of adipose tissue in the process remains unknown.ObjectivesWe aim to investigate the effects of visceral and subcutaneous fat on thyroid function in a Chinese population with morbid obesity who underwent sleeve gastrectomy (SG).SettingUniversity hospital, Shanghai, ChinaMethodsRepeated measurement data of thyroid hormone and body fat were collected at 0, 3, 6, 12, 24, and 36 months after sleeve gastrectomy. Dual-energy X-ray absorptiometer and quantitative computerized tomography (CT) were used to compute visceral fat and subcutaneous fat. Repeated measures correlation (rmmcorr) package was employed for correlation analysis with generalized additive mixed model (GAMM) determining the independent factors.ResultsThyroid stimulating-hormone (TSH) showed notable decrease at 36 months after surgery, coupled with reduction of BMI (38.08 kg/cm2 versus 24.28 kg/cm2), C-reactive protein (CRP), visceral adipose tissue (786.74 cm2 versus 367.44 cm2), body fat rate, and waistline (118.13 cm versus 100.87 cm). Only visceral fat, diabetes, and CRP proved to be independent variables for TSH decline, without correlation with subcutaneous fat.ConclusionThe present study is first to report the effects of different types of body fat on thyroid function in a Chinese population with morbid obesity, revealing that loss of visceral fat is the key to improving endocrine and metabolic activity after bariatric surgery. 相似文献
The concentration of eco-toxic zinc oxide nanoparticles (nZnO) in aquatic ecosystems is increasing, and an effective method for their removal is needed. We hypothesize that microalgal cells may act as nZnO vehicles—if the nZnO concentration does not affect their swimming ability—enabling Zn diffusion and sedimentation. We conducted experiments using flasks connected via a U-type vessel; the first flask contained nZnO suspensions and second flask contained artificial seawater, respectively. We added microalgae to the first flask and illuminated the second. The microalgae appeared to promote sedimentation. However, only a few microalgal cells passed via phototaxis into the second flask, so the detection of nZnO or Zn ions in the second flask was not possible. Therefore, to confirm whether the microalgae affect Zn transportation, a more accurate method to detect nZnO or Zn ions at very low concentrations is needed.