OBJECTIVE:To investigate the dosage and consumption sum of opioid analgesic drug in Qingdao district. METH-ODS:The consumption data of drugs in 29 public hospitals at secondary or above level in Qingdao district were analyzed statistical-ly by ABC analytic methods and defined daily dose methods. RESULTS:In ABC analysis,5 kinds of class A drugs accounted for 20% of the total number of species,and the percentage of consumption sum was 77.38%;4 kinds of class B drugs accounted for 16.00% of all species numbers,and the percentage of consumption sum was 11.98%;other 16 kinds of drugs accounted for 64.00% of the total number of species,and the percentage of consumption sum was 10.64%. Oxycodone sustained-release tablets and Morphine sustained-release tablets with the highest DDDs consumed more health care costs,serial number ratio was 1.00,syn-chronization was good and conform to the actual needs of clinical work. CONCLUSIONS:The composition ratio of opioid analge-sic drug costs is consistent with the theoretical value,significant discrepancy between cost and DDDs does not appear.

Decompensated liver cirrhosis has various life-threatening complications such as spontaneous bacterial peritonitis, hepatic encephalopathy, and sepsis, and the development of such complications is closely associated with bacterial translocation. Pathological bacterial translocation in patients with liver cirrhosis is caused by the impairment of intestinal barrier function, and thus bacteria can cross the intestinal barrier and enter the mesenteric lymph nodes or other sites. Therefore, a better understanding of the association between intestinal barrier and bacterial translocation in liver cirrhosis can provide new theoretical support for the treatment of liver cirrhosis. This article discusses the four major components of the intestinal barrier, namely the mechanical barrier, the immune barrier, the chemical barrier, and the biological barrier, as well as their changes during bacterial translocation.

Sepsis is a disease with a high mortality rate worldwide,which seriously threatens human life and health.Due to the complexity of its pathogenesis,diagnosis and treatment are often very difficult.Pyroptosis is a newly discovered pro-inflammatory form of programmed cell death,which occurs predominantly in professional phagocytes.During sepsis,appropriate pyroptosis is required for defense against bacterial infection,however,excessive pyroptosis will also aggravate the inflammatory reaction of sepsis.Therefore,the study of the signaling pathways and regulatory mechanisms of pyroptosis in sepsis may contribute to identify potential therapeutic targets.Hence,the study provide an overview of the recent advances which focus on the two signaling pathway of pyroptosis,some caspases which have found new effects,GSDM family and the crosstalk between different form of cell death.

OBJECTIVE:To provide reference for rational selection of antibiotics against non-fermentative Gram-negative bacilli in clinic. METHODS:Etiological data of clinical isolated Pseudomonas aeruginosa(PA),Acinetobacter baumanii(AB) and Stenotrophomonas maltophilia(SM)were collected from the Affiliated Hospital of Qingdao University(called"our hospital"for short)during Jan. 2004-Dec. 2016. Drug resistance of them to commonly used antibiotics was analyzed retrospectively. RESULTS:Totally 15 587 strains of PA,7 446 strains of AB and 2 950 strains of SM were detected. Resistance rates of PA to commonly used antibiotics fluctuated but were in a decreasing tendency. Except for imipenem,resistance rates of PA to commonly used antibiotics decreased significantly,and resistance rates of PA to amikacin and gentamicin decreased to 4.60% and 7.48%, respectively. Resistance rates of AB to most commonly used antibiotics were more than 40%,but it was sensitive to tigecycline (drug resistance of 0-4.03%). Resistance rates of SM to cefoperazone sodium and sulbactam sodium increased from 3.03% in 2004 to 39.01% in 2016,but it was sensitive to sulfamethoxazole,minocycline and levofloxacin. CONCLUSIONS:Non-fermentative Gram- negative bacilli detected in our hospital are mainly PA. Resistance rate of PA to most of the antibiotics is declining;drug resistance of AB is severe;resistance rates of SM to cefoperazone sodium and sulbactam sodium show increasing tendency.Above 3 non-fermentative Gram-negative bacilli are sensitive to amikacin,tegocycline and minocycline. Clinical selection should be based on the results of drug sensitivity test.

Objective To observe the effects of amarogentinon liver cancer stem cells (LCSCs) after insufficient thermal ablation and its mechanism. Methods A insufficient thermal ablation model of HepG2 cells was established by water bath method.The percentage of CD133-positive LCSCs and the mRNA and protein levels of CD133 were detected by flow cytometry, qRT-PCR and Western blot.The insufficient thermal ablation model of HepG2 cells was treated with variable doses of amarogentin for 24 h; the percentage of CD133-positive LCSCs, the proliferation and apoptosis of liver cancer cells, and the mRNA and protein levels of CD133, TBC1D15, and p53were detected by flow cytometry, qRT-PCR and Western blot. Results The percentage of CD133-positive HepG2 cells and the mRNA and protein levels of CD133 and TBC1D15in the insufficient thermal ablation model were significantly higher than those in the normal HepG2 cells.Amarogentin then markedly decreased the percentage of CD133-positive LCSCs, the proliferation rate of HepG2 cells, and the mRNA and protein levels of CD133 and TBC1D15 in the insufficient thermal ablationresidual model (all P < 0.05);inversely, the apoptosis rate of HepG2 cells and the phosphorylated levels of p53 in the insufficient thermal ablation model were significantly increased (all P < 0.05). Conclusion Amarogentin could reduce the proportion of LCSCs after insufficient thermal ablation, inhibit the proliferation, and promote the apoptosis of LCSCs, which maybe associated with increasing the phosphorylation of p53 and inhibiting the expression of TBC1D15.