ABSTRACT:Objective To investigate the interaction of polymorphisms of TNF-αgene promoter-308G/A and PPAR-γ2 gene-C34G with acute pancreatitis (AP)and its severity degree.Methods Totally 150 mild acute pancreatitis(MAP),150 moderately severe acute pancreatitis(MSAP)and 150 severe acute pancreatitis(SAP)cases were selected for this study,and 450 healthy persons as control group.The genetic polymorphisms of TNF-αgene promoter-308G/A and PPAR-γ2 gene-C34G were analyzed by the technique of PCR in peripheral blood leukocytes of above-mentioned cases and the results were verified by direct DNA sequencing method.Results The frequencies of -308G/A(GA),-308G/A(AA),-C34G(CG)and-C34G(GG)were 24.00%,26.67%,24.00% and 26.00% in MAP group,34.67%,36.67%,34.00% and 36.67% in MSAP group,42.00%,46.00%,43.33% and 46.00% in SAP group,and 14.44%,14.22%,12.89% and 14.67% in control group,respectively.Statistical tests showed significant difference in the frequencies among each group (all P<0 .0 1 ).The risk of AP significantly increased in subjects with-308G/A(GA),genotype (ORMAP=2.677 6,ORMSAP=6.625 0,ORSAP=21.514 7),in those with-308G/A(AA)genotype (ORMAP=2.570 0,ORMSAP=6.401 8,ORSAP=18.903 4),in those with-C34G(CG) genotype (ORMAP=2.668 4,ORMSAP=6.776 9,ORSAP=22.207 2),and in those with-C34G(GG)genotype (ORMAP=2.633 8,ORMSAP=6.472 5,ORSAP=21.570 2).Combined analysis of the polymorphisms showed that percentage of-308G/A(AA)/-C34G(GG)in MAP,MSAP,SAP and control groups was 7.33%,13.33%,20.67% and 2.00%,respectively,and statistical tests showed significant difference in the frequency among each group (all P<0.01).The people who carried-308G/A(AA)/-C34G(GG)had a high risk of AP (ORMAP=7.284 2,ORMSAP=41.296 1,ORSAP=363.973 6),and statistical analysis suggested a positive interaction between-308G/A(AA)and-C34G(GG)in increasing the risk of AP (γ2MAP=2.114 2,γ4MAP=2.080 0,γ2MSAP=2.108 7,γ4MSAP=2.050 6,γ2SAP=2.138 8,γ4SAP=2.000 1).Likewise,there were also positive interactions in the pathogenesis of AP between-308G/A(GA)and-C34G(GG),-308G/A(GA)and-C34G(CG),-308G/A(AA)and-C34G(CG)(All γ>1). Conclusion These carriers of-308G/A(GA),-308G/A(AA),-C34G(CG)and-C34G(GG)genotypes may have a high risk of developing AP,and significant interactions between genetic polymorphisms of-308G/A and-C34G add the risk of the occurrence and development of AP.

Objective　To analyze the composition, population density, seasonal trends, and insecticide resistance monitoring results of vector mosquitoes in Liaocheng City from 2020 to 2022, providing a reference basis for further mosquito control measures. Methods　According to the "Implementation Plan for National Vector Biomonitoring", adult mosquito monitoring was carried out using mosquito traps and double-layer stacked nets at two national level monitoring points in Dong’e and Chiping. The Bretu Index method was used for monitoring throughout the city, and the immersion method was used for monitoring mosquito insecticide resistance. The monitoring period for adult mosquitoes was from March to November, and for juvenile mosquitoes was from May to October. Results　From 2020 to 2022, a total of 816 mosquito traps were deployed, capturing 4 717 adult mosquitoes with an average density of 5.78 mosquitoes per trap-night. Among them, 4 232 were Culex pipiens pallens, accounting for 89.72% of the total mosquito population, followed by 15 were Anopheles sinensis, accounting for 0.32%; 10 Aedes albopictus, accounting for 0.21%; 460 other mosquito species, accounting for 9.75%. Mosquito density was higher in rural areas compared to urban areas, with the highest density found in livestock sheds, followed by parks, hospitals, farms, and residential areas. Adult mosquito was first observed in May, with the peak activity occurring from June to August. The double-layer net method captures only Aedes albopictus, with an average net trapping index of 2.99 mosquitoes/(net·h), and their activity was concentrated from June to September. The average Brayton Index (BI) from May to October was 15.95, with a peak occurring in July and gradually decreasing after August. Insecticide resistance monitoring found that Culex pipiens pallens in Liaocheng City exhibited low resistance to permethrin, deltamethrin, dithion, and beta cypermethrin, with beta cypermethrin having the highest resistance. Conclusion　The dominant mosquito species in Liaocheng City is Culex pipiens pallens, followed by Aedes albopictus. The peak activity of adult and juvenile mosquitoes is concentrated between July and September, showing a distinct seasonal trend of growth and decline, posing a risk of dengue fever outbreaks. Culex pipiens pallens exhibits resistance to some insecticides, and timely measures should be taken to prevent the outbreak of mosquito-borne infectious diseases.

Objective To investigate the distribution and characteristics of iodine excess areas in Liaocheng City of Shandong Province, and to provide data evidence for taking intervention measures. Methods From 2011 to 2013, 1 - 3 samples of drinking water were collected from all administrative villages in 8 counties (cities and districts) of Liaocheng.At the same time,1 sample of edible salt was collected from the household where water samples were collected. Arsenic and cerium spectrophotometry was used for the detection of water iodine and salt iodine was detected by semi-quantitative method. The region were divide according to the definition of "Water Source Excess Iodine Area and Excess Iodine Disease Area"(GB/T 19380-2016)and"Division of Iodine Deficiency Disorders Area"(GB 16005-2009).Results A total of 7 794 water samples were collected in 5 865 villages of 134 towns and the iodine median was 158.2 μg/L. The median of water iodine of 57 samples was less than 10 μg/L in drinking water and the ratio was 0.7%;2 286 samples were 10- 100 μg/L and the ratio was 29.3%; 5 451 samples were over 100 μg/L and the ratio was 69.9%. The towns with suitable water iodine (10 - 100 μg/L) and high water iodine ( > 100 μg/L) were 24.6%(33/134)and 75.4%(101/134), respectively, and no iodine deficiency town was found. The areas with high water iodine were distributed in patchy or foci. A total of 3 300 salt samples were collected,among them,iodized salt was 1 183(35.58%,1 183/3 300)and non-iodized salt was 2 117(64.15%,2 117/3 300). Among them, there were 36 towns with high iodine content and 20 towns with suitable iodine content, and the iodized salt coverage rates were 10.72% (225/2 099) and 79.77% (958/1 201),respectively.Conclusions The population of Liaocheng City is at risk of iodine excess.The high iodine areas coexists with suitable iodine areas.