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Objective To investigate the correlation between serum adropin protein and homocysteine (Hcy) level in the patients with coronary artery disease (CAD) ,and to study their relationship with CAD se-verity .Methods One hundred and seventy cases of CAD in this hospital from August 2015 to October 2016 were selected as the research subjects .Peripheral blood was collected for measuring serum adropin protein , Hcy and other conventional biochemical indicators ,and the coronary artery lesion was detected by coronary an-giography ,the severity of coronary artery lesion was assessed by SYNTAX score .Results In 170 cases of CAD ,mean serum Hcy level was (15 .92 ± 8 .31)μmol/L ,the adropin protein level in the hyperhomocysteine-mia group was lower than that in the non-hyperhomocysteinemia group ,the difference was statistically signifi-cant(P<0 .05) .Mean SYNTAX score in all cases was (21 .51 ± 11 .20) points ,and serum adropin protein was negatively correlated with Hcy level (r= -0 .169 ,P= 0 .028) ,serum Hcy level had no obvious correlation with SYNTAX score (r= 0 .124 ,P=0 .108) ,the adropin protein level was negatively correlated with SYN-TAX score (r= -0 .181 ,P=0 .018) .Generalized structural equation model showed that with the decrease of adropin protein level ,the SYNTAX score was increased (P=0 .019) ,compared with the patients without com-plicating hyperhomocysteinemia ,the SYNTAX score in the patients with hyperhomocysteinemia was much higher(P=0 .005) .Conclusion The lower the adropin protein level ,the higher the Hcy level and the severe the coronary artery lesion .
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Objective To investigate the inhibitory effect of icariin(ICA) on the xenograft tumors growth of esophageal car‐cinoma and to preliminarily investigate its mechanism .Methods The MTT assay and Giemsa staining were applied to detect and observe the in vitro inhibitory effect of ICA on esophagus cancer cell lines Eca‐109 and TE‐13 .The xenograft tumor model of nude mouse esophagus cancer cell was constructed and divided into 3 groups ,6 cases in each group .Each mouse in the experimental group was intraperitoneally injected by ICA 50 mg/kg ;while the control group was injected by the same volume of normal saline and the positive control group was injected by cis‐platinum 2 mg/kg ,once every 2 days ,a total of 14 days .The tumor volume was measured once per 3 d .After experiment ,the tumor weight was measured;the TUNEL staining was used to observe the morphological chan‐ges and cell apoptosis of tumor tissue in each group .The changes of Fas and FasL protein expression in tumor tissues were analyzed by immunohistochemistry .The FasL and IFN‐γlevels in peripheral blood were tested by the ELISA assay .Results ICA exerted no obvious inhibitory effect on the proliferation of Eca‐109 and TE‐13 cell in vitro .The average volume and weight of xenografts tumor had statistical difference between the experimental group and the positive control group (P<0 .05) .The TUNEL staining results showed that the tumor tissues had obvious apoptosis ,the number of apoptosis cells was significantly increased compared with the control group(P<0 .05) .The immunohistochemistry experimental results showed that the expression of Fas and FasL was signifi‐cantly increased(P<0 .05) .The ELISA experimental results demonstrated that the FasL and IFN‐γlevels of peripheral blood in the experimental group were significantly increased(P<0 .05) .Conclusion ICA had no obvious inhibitory effect on esophageal cancer cell proliferation in vitro ,but could induce in vivo apoptosis through the Fas expression and secretion of FasL and IFN‐γ,thus plays the role of anti‐esophageal cancer .
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OBJECTIVE To observe the protection of vitamin C on the cardiac injury induced by 50 nm titanium dioxide inmice.METHODS Kunming mice were ad mistered by ig of vitamin C 100,200 and 400 mg·kg -1 for 2 d.And then the mice were ad mistered by ig of nano-TiO2 2 g·kg -1 and vitamin C (100.0,200.0 and 400.0 mg·kg -1 )for 3 d,the interval of treatment with nano-TiO2 and vitamin C was 4 h.The mice were scarified 24 h later after the last ad ministration.Electrocardiogra m (ECG)was determinated by physiological recorder.The myocardial enzy mes activities in serum and superoxide dismutase (SOD)and glutathione peroxidase(GSH-Px)activities in serum and myocardial tissue were determinated by bioche mical method.Cometassay was used to detect the DNA da mage of the heart. Heart tissue was used for histopathological exa mination by HE staining.RESULTS Co mpared with the control,ECG showed higher S-T and T-wave a mplitude of nano-TiO2 2 g·kg -1 (P<0.05).The myocar-dial enzy mes activities significantly increased and activities of SOD and GSH-Px significantly decreased in nano-TiO2 group,compared with the control group(P <0.05).Cometassay showed that olive tail mo ment (OTM)was significantly increased after nano-TiO2 2 g·kg -1 ,compared with the control group (P<0.05).The histopathology showed ede ma of myocardial cells,myofibril disorders and increasing infla mmatory cells.Vita min C 100,200 and 400 mg·kg -1 can decrease S-T in ECG,OTM,myocardial enzy mes activities,increase the SOD and GSH-Px activities in serum and myocardial tissue;reduce myocardial hypertrophy and infla mmatory cells.CONCLUSION nano-TiO2 can induce myocardial injury inmice and vitamin C can alleviate the da mage.The mechanism may be associated with the antioxidant ability of vitamin C inmyocardial tissue.