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Aim To observe the intervention effects of sodium aescinate on acute lung injury model of rats induced by oleate. Methods Fifty four male SD rats were randomly divided into five groups: normal control group, sodium aescinate control group (without oleate) , oleate model control group,medrol interventional group and sodium aescinate interventional group. Acute lung injury models of rats were made by injecting oleate (OA, 0. 1 ml · kg~(-1) ) through caudal veins, and then rats were observed and killed to detect correlated in-dice. The observation indice were the histomorphology of lung, the wet and dry weights of lung ( W/D), score of injury of lung under light microscope (IQA ) , partial pressure of oxygen in artery ( PaO_2) , the levels of SOD and MDA in blood plasma and lung tissue. Results ① Histomorphology of lung: Lung surface hyperemia relieved obviously and pink secretion from trachea of rats in sodium aescinate interventional group and medrol interventioal group decreased significantly compared with oleate model control group. Under light microscope , compared with oleate model control group, effusion of inflammatory cells in alveolar space of rats in sodium aescinate interventional group and medrol interventional group decreased. ② The wet and dry weights of lung ( W/D ) ; W/D of rats in oleate control model group increased obviously compared with those in normal control group, W/D of rats in sodium aescinate interventional group and medrol interventional group decreased obviously compared with those in oleate model control group. ③ Score of injury of lungs under light microscope (IQA) ; IQA of rats in oleate model control group advanced obviously compared with that in normal control group. IQA of rats in sodium aescinate interventional group and medrol interventional group lowered significantly compared with that in oleate model control group.④ Partial pressure of oxygen in artery (PaO_2) : PaO_2 of rats in oleate model control group lowered significantly compared with that in normal control group. PaO_2 of rats in sodium aescinate interventional group and medrol interventional group improved significantly compared with that in oleate model control group. ⑤ The levels of SOD and MDA in blood plasma and lung tissue:The levels of SOD in plasma and lung tissue of rats in oleate model control group lowered significantly compared with those in normal control group. SOD in plasma and lung tissue of rats in sodium aescinate in-terventional group and medrol interventional group increased significantly compared with that in oleate model control group. The levels of MDA in plasma and lung tissue of rats in oleate model control group lowered significantly compared with those in normal control group. MDA in plasma and lung tissue of rats in sodium aescinate interventional group and medrol interventional group increased significantly compared with that in oleate model control group. Conclusion Sodium aescinate can improve W/D, IQA and PaO_2 by adjusting oxidization of the acute lung injury model of rats, which may provide a possible path for treating acute lung injury in clinical practice.
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Objective To study the role of hydrogen sulfide(H2S)in the pathogenesis of acute lung injury (ALI)-induced oleic acid(OA)and its regulatory effects on the inflammatory msponse.Method The ALI models in SD rats were produced by intravenous injection of OA(0.1 ml/kg).Forty-nine male SD rats were divided into three groups randomly:control group,OA group and OA+sodium hydrosulfide(NaHS)group.Rats of OA group and OA+NaHS group were sacrificed at 2,4 and 6 hours after the administration of OA,respectively.Rats of control group were sacrificed at 6 hours after intravenous normal saline(0.1 ml/kg).PaO2,lung tissue wet/dry(W/D)ratio and IQA score were determined.The concentrations of H2S in lung tissue and plasma were tested by sensitive sulphur electrode.The IL-6.IL-8 and IL-10 levels were measured by doubleantibody sandwich ELSIA.Results Compared with control group,of lung tissues was observed in rats treated with OA induced ALI,which led PaO2 dropped,and lung tissue W/D ratio,PMN%in alvedolar lavage and IQA raised score in the lung at 2,4 or 6 hours after OA injection(P<0.01).In addition,IL-6,IL-8,and IL-10significantly increased,IL-6[plasma,control:(73.95±14.68)pg/ml,2 h:(186.70±23.85)pg/ml,4 h:(238.50±26.46)pg/ml,6 h:(215.95±25.86)pg/ml,P<0.01;lung tissue,control:(60.58±12.91)pg/ml,2 h:(160.32±24.57)pg/ml,4 h:(195.27±46.28)pg/ml,6 h:(185.66±17.42)pg/ml,P all =0.000)],IL-8[plasma,control:(80.69±20.42)pg/ml,2 h:(184.11±19.51)pg/ml,4 h:(286.20±53.34)pg/ml,6 h:(241.30±45.85)pg/ml,P<0.01;lung tissue,control:(69.14±15.96)pg/ml,2 h:(174.10±20.36)pg/ml,4 h:(249.02±31.17)pg/ml,6 h:(237.74±34.18)pg/ml,P<0.01] and IL-10[plasma,control:(39.78±8.97)pg/ml,2 h:(111.18±11.46)pg/ml,4 h:(115.60±13.91)pg/ml,6h:(102.41±9.93)pg/ml,P<0.01;lung tissue,control:(71.86±14.19)pg/ml,2 h:(126.96±18.72)pg/ml,4 h:(151.88±27.61)pg/ml,6 h:(137.28±14.22)pg/ml,P all=0.000] levels.in association with a decreased H2S content of plasma lung tissue decreased in[plasma,control:(36.58±6.80)μmol/L,2 h:(21.30±2.75)μmol/L,4 h:(20.63±1.26)μmol/L,6 h:(20.00±1.60)μmol/L,P<0.01;lung tissue,control:(27.61±2.20)μmol/L,2 h:(20.67±1.37)μmol/L,4 h:(20.79±1.10)μmol/L,6 h:(18.92±0.75)μmol/L,P<0.01]were observed in the plasma and lung tissue of OA-treated rats compared to controls.Administration of NaHS prior to OA treatment could lessen the lung pathologic changes induced by OA and elevate the concentrations of H2S in plasma[4 h:(26.67±3.44)μmol/L vs(20.63±1.26)μmol/L,P=0.042;6 h:(26.98±4.93)μmol/L vs(20.00±1.60)μmol/L,P<0.05]and lung tissue[4 h:(23.20±1.48)μmol/L vs(20.79±1.10)μmol/L,P=0.011;6 h:(21,43±1.79)μmol/L vs(18.92±0.75)μmol/L,P=0.016].At the same time,the levels of IL-6 in plasma(185.37±21.98)pg/ml vs(238.50±26.46)pg/ml,4 h,P=0.000;(124.22±21.84)pg/ml vs(215.95±25.86)pg/ml,6 h,P<0.01]and IL-8(199.40±34.56)pg/ml vs(286.20±53.34)pg/ml,4 h,P<0.01;(146.58±20.23)pg/ml vs(241.30±45.85)pg/ml,6 h,P<0.01]decreased significantly,but the level of IL-10(154.48±18.08)pg/ml vs(115.60±13.91)pg/ml,4 h,P=0.000;(138.06±20.01)pg/ml vs(102.41±9.93)pg/ml,6 h,P<0.01]increased significantly.Conclusions The levels of endogenous H2S drop during the course of ALI oleic acid induced in rats.Exogenous H2S could decrease the levels of inflammatory factors(IL-6and IL-8),but increase the level of anti-inflammatory factors(IL-10).It could change the ratio of inflammatory factors/anti-inflammatory factors and therefore play a protective role against oleic acid induced ALI in rats.
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OBJECTIVE:To investigate the efficacy and safety of carvedilol in patients with chronic heart failure(CHF). METHODS:46patients with CHF were randomly divided into carvedilol group(n=26)and control group(n=20),thareinto,standard therapeutic scheme is used in control group,standard therapeutic scheme+carvedilol is used in carve diol greup.The treatment courses were6months in both groups.RESULTS:Left ventricular end-diastolic diameter(LVEDD)reduced and left ventricular ejection fraction(LVEF)increased in carvedilol group with significant difference comparing with control group(P