OBJECTIVE To study and develop an effervescent disinfection tablet with low chlorine smell.METHODS The specially tiny smashing technology and the high molecular complexon technology were applied to make the tablet after mixing the complex organic chlorine powder made by a special technoloy with the effervescent agent.RESULTS No chlorine was detected by examining the disinfection solution with 4000 mg/L available chlorine,but it was 0.997 mg/m3 for the symclosene(trichloroisocyanuric acid) disinfection tablet.The sterilization,toxicology,sanitary examination,etc all met the disinfectant standards made by the Ministry of Health.CONCLUSIONS "Aiershi" brand disinfection tablet is one kind of disinfectants with low chlorine smell.Its compound disinfection fluid,is without chlorine smell nearly.It is unharmful to the human body and the environment.And it highly praises by thousand hospitals using it for more than two years.It has been one of items of scientific and technological achievement of Shanghai municipal government.The use of low chlorine disinfection tablet could be expanded.

Adenocarcinoma ; pathology ; Adult ; Female ; Humans ; Kidney Neoplasms ; pathology ; Male ; Middle Aged

Changes in protein glycosylation modification have been found to be closely related to cancer and other diseases. Profiling glycosylation change has become an effective way to explore the diagnosis and treatment markers. The accuracy of quantitative technology is the key to reveal the mystery of glycosylation, and the screening and validation of glycosylation disease markers is dependant on the study of large clinical samples. Therefore, glycomic technology are expected to be simple, rapid, high-throughput, accurate and practical. In this paper, the characteristics of some commonly used glycomic analysis techniques and their applications in glycan markers are briefly discussed, and the characteristics, progress and applications of high-throughput precision glycome quantitative methods based on MALDI MS are emphasized.

Objective:Analyze the correlation between serum immunoglobulin G (IgG) N-glycan and Lauren classification of gastric cancer.Methods:A retrospective study was performed on 17 patients with diffuse type gastric cancer and 21 patients with intestinal type who received treatment in Zhongshan Hospital from 2017 to 2018, and the general medical history data and disease characteristics were summarized. The serum IgG glycome profiles were analyzed by ultraperformance liquid chromatography, and the difference between intestinal type and diffuse type gastric cance was compared.Logistic regression was used to evaluate the correlation between serum IgG N-glycan and Lauren classification.Results:IgG N-glycome analysis included 27 directly detected glycans and 4 derived traits. H=Hexose, N=N-acetylglucosamine, F=Fucose, S=Sialic acid.There was no significant difference in IgG N-glycan among different chemotherapy protocol. Compared with intestinal type, H3N3F1 ( t=3.785, P=0.001), H3N4( t=3.919, P=0.002), H3N4F1( t=2.770, P=0.005), H3N5F1( t=2.888, P=0.010) were decreased in diffuse type; H4N4F1(6)( t=?3.488, P<0.001), H5N4F1( t=?3.401, P=0.003), H5N5F1( t=?2.303, P=0.023), H5N4F1S1 ( t=?3.068, P=0.008) were increased.H3N3F1( OR:1.20, P=0.008), H3N4( OR:1.32, P=0.005), H3N4F1 ( OR:1.13, P=0.017), H3N5F1 ( OR:1.78, P=0.015), H4N4F1(6)( OR:0.43, P=0.008), H5N4F1(6)( OR:0.74, P=0.008), H5N5F1 ( OR:0.32, P=0.036), H5N4F1S1( OR:0.48, P=0.009) were significantly correlated with Lauren classification. Sialylated ( t=?2.717, P=0.012) and galactosylated ( t=?3.400, P=0.001) IgG N-glycan were reduced in patients with intestinal type gastric cancer.Galactosylated ( OR:0.87, P=0.007) and sialylated ( OR:0.62, P=0.015) IgG N-glycan were significantly correlated with Lauren classification. Conclusion:Some IgG N-glycan are significantly correlated with Lauren classification, which can be used as potential biomarkers.

Development of thoracolumbar vertebra (TLV) and rib primordium (RP) is a common evolutionary feature across vertebrates, although whole-organism analysis of the expression dynamics of TLV- and RP-related genes has been lacking. Here, we investigated the single-cell transcriptome landscape of thoracic vertebra (TV), lumbar vertebra (LV), and RP cells from a pig embryo at 27 days post-fertilization (dpf) and identified six cell types with distinct gene expression signatures. In-depth dissection of the gene expression dynamics and RNA velocity revealed a coupled process of osteogenesis and angiogenesis during TLV and RP development. Further analysis of cell type-specific and strand-specific expression uncovered the extremely high level of HOXA10 3'-UTR sequence specific to osteoblasts of LV cells, which may function as anti-HOXA10-antisense by counteracting the HOXA10-antisense effect to determine TLV transition. Thus, this work provides a valuable resource for understanding embryonic osteogenesis and angiogenesis underlying vertebrate TLV and RP development at the cell type-specific resolution, which serves as a comprehensive view on the transcriptional profile of animal embryo development.