Objective To explore the potential protective effect in vivo of Edaravone, a free radical scavenger on model of acute lung injury in rats with sepsis. Methods Twenty-four male Wistar rats were randomly divided into three groups, ie. a control group( NS group) , a model group( LPS group) , a Edaravone treatment group( ED group) . ALI was induced by injecting LPS intravenously( 10 mg/ kg) in the LPS group and the ED group. Meanwhile the ED group was intravenously injected with Edaravone( 3 mg/ kg) . The NS group was injected with normal saline as control. The lung tissue samples were collected at 6 h after intravenous injection. The wet / dry ( W/D) weight ratio of lung tissue was measured. The levels of myeloperoxidase ( MPO) , malondialdehyde ( MDA ) and superoxide dismutase ( SOD) in lung tissue homogenate were assayed. The pathological changes and expression of nuclear factor-kappa B( NF-κB) in lung tissue were also studied. Results Compared with the NS group, The W/D, pathological scores, NF-κB expression, MPO and MDA levels in the LPS group were significantly higher( all P lt; 0. 01) , and the level of SOD was apparently lower( P lt; 0. 01) . The W/D, pathological scores, NF-κB expression, MPO and MDA levels in the ED group were significantly lower than those in the LPS group( all P lt; 0. 01) and higher than those in the NS group( all P lt; 0. 01) . And the level of SOD in lung tissue of the ED group was higher than that in the LPS group and lower than that in the NS group ( P lt; 0. 01) . Conclusions Edaravone has protective effect on ALI rat model. The mechanismmay be related to its ability of clearing the reactive oxygen species, inhibiting the activation of the signal pathway of NF-κB and inflammatory cascade.
Objective To study the role of hydrogen sulfide (H2S) in prophase of acute peritoneal cavity infection. Methods NaHS was taken as a donor of H2S. Seventy-two Sprague-Dawley rats were divided into 4 groups randomly:control group, cecal ligation and puncture (CLP) and treated with natural saline group,CLP and treated with NAHS group, and CLP and treated with DL-propargylglycine (PAG, an inhibitor of H2S formation) group. Selected 6 rats at 2h, 6h, and 12h after treatment in each group. The contents of TNF-αand H2S in serum and the content of MPO in intestinal tissue were measured, respectively. The histopathological change of ileum tissues were observed at 6 h after treatment in each group. Results The H2S could alleviate CLP-induced inflammation obviously, decrease the content of TNF-α in serum when inflammation,and attenuate the infiltration of neutrophilic granulocyte in small intestine. Conclusion The H2S has anti-inflammation effect in prophase of acute peritoneal cavity infection.
ObjectiveTo study the techniques of mimicking multifactors induced acute pancreatitis in rat by slow-release pump. MethodsSeventy-five healthy SD rats were randomly divided into slowrelease pump group (SRP group), traditional group (TAP group), and sham operation group (SO group). Four percent sodium taurocholate was injected through pancreatobiliary duct of rats directly and retrogradely in TAP group and by slow-release pump in SRP, which mimicked AP pathogenesis from selfdigestion, obstruction, cytokine activation, and many other mechanisms. Detection of serum amylase and pancreatic myeloperoxidase (MPO) leves, observation of pancreatic histological changes and scoring of pancreatitis severity in three groups were performed at 1, 6, 12, and 24 h after successful model induction, respectively. ResultsSerum amylase and pancreatic MPO levels, and the pathological grading score of rats were significantly higher in SRP and TAP groups than in SO group at different time point (Plt;0.05 or Plt;0.01), while they were lower in SRP group than in TAP group with a slowly rising tendency, and there were significant differences at 6 and 12 h time point, respectively (Plt;0.05 or Plt;0.01). Conclusions Slow-release pump technique can induce AP through increasing the pressure of pancreatic duct, tissue edema and sustained releasing inflammation factors by mimicking the pathophysiological process of pancreatitis. Slow-release pump can be kept in place to monitor and control the pressure of pancreatic duct. Slow-release pump method is relatively moderate and easy to manage with a lower mortality.
Objective To summarize the clinical characteristics of patients with interstitial pneumonia with positive myeloperoxidase (MPO-IP). Methods The clinical data of 15 patients hospitalized with MPO-IP from June 2013 to January 2016 were analyzed retrospectively, including clinical manifestations, laboratory test, lung function test, chest high resolution computed tomography (HRCT) and management. Simultaneously, 11 patients with IPF were recruited as control. Results The onset age of MPO-IP was older than that in IPF patients (74.07±6.31 yearsvs. 66.73±6.80 years,P<0.01). There was no manifestation of vasculitis in kidney in all included patients, and the differences were not significant in gender, smoking, cough and expectoration, wheezing, shortness of breath, HRCT manifestations, FVC%pred, TLCO%pred, PaO2 or PaCO2 between the two groups. In 15 MPO-IP patients, HRCT revealed 12 cases of usual interstitial pneumonitis (UIP), 2 cases of nonspecific interstitial pneumonia (NSIP), 1 case of organizing pneumonia (OP), and 5 patients with overlapped emphysema. Eleven IPF patients were all in UIP pattern and 4 with overlapped emphysema. One MPO-IP patients and 5 IPF patients had clubbed-fingers. The differences in clubbed-finger and treatment were significantly different between the two groups. Nine IPF patients received symptomatic treatment and7 MPO-IP patients were administered with glucocorticoids and immunosuppressants. In addition 2 MPO-IP patients were treated with pirfenidone. Conclusions MPO-IP patients have older onset age of disease and lower incidence of clubbed-finger than IPF patients. UIP is the main HRCT change both in MPO-IP and IPF. Beside glucocorticoid and immunosuppressants, pirfenidone is a choice and worthy of further research in management of MPO-IP.
Objective To detect the difference between the peroxidase (POX) by cytochemical staining and cytoplasm myeloperoxidase (cMPO) by flow cytometry in acute leukemia cells, and provide a more accurate basis for the classification of leukemia. Methods The positive rate of POX in acute leukemia cells was detected by cytochemical staining. The positive rate of cMPO in acute leukemia cells was detected by flow cytometry. Then the positive rate of POX and cMPO, and the positive cells score were analyzed. Results The positive rate and the positive cells scores between POX and cMPO in acute lymphoblastic leukemia were significantly different (P<0.05), the positive rate and the positive cells scores of POX were significantly higher than those of cMPO. The positive rate between POX and cMPO in acute non-lymphoblastic leukemia (ANLL) had significant differences (P<0.05), the positive rate of cMPO was higher than that of POX; but no difference was found between POX and cMPO positive cells scores in ANLL (P>0.05). In acute myelocytic leukemia (AML)-M1 subtype, significant difference was found in the positive rate between POX and cMPO (P=0.006); cMPO positive rate was significantly higher than that of POX, but the POX positive cells score was significantly higher than that of cMPO (P=0.001). There were no significances of positive rate and positive cells score in AML-M2, AML-M3, AML-M4, AML-M5 subtypes between POX and cMPO (P>0.05). Conclusions There are not major differences between positive rate of POX and cMPO, as well as the positive cells scores in acute leukemia, especially acute myelocytic leukemia. We can choose the better method according to the actual situation and the sensitivity requirements. The two methods should be replenished by each other and used alternately.