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Autoimmune pancreatitis (AIP) is a chronic inflammatory disease of the pancreas associated with autoimmune and characterized by pancreatic enlargement and irregular stenosis of the pancreatic duct. Due to its similar characteristics with pancreatic cancer, and some AIP patients complicated with pancreatic cancer, it has become a difficulty in clinical diagnosis and treatment. Its pathogenesis is unknown and its curative effect is uncertain. In recent years, the pathological mechanism, diagnostic system and therapeutic methods of this disease have been updated constantly. This paper summarizes the research progress of the above aspects.
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The radial force of the degradable esophageal stent before and after degradation is one of the important indicators for effective treatment of esophageal stricture. Based on a combination of in vitro experiments and finite element analysis, this paper studies and verifies the biomechanical properties of a new type of degradable esophageal stent under different esophageal stricture conditions. Under radial extrusion conditions, the maximum stress at the port of the stent is 65.25 MPa, and the maximum strain is 1.98%; The peak values of stress and strain under local extrusion and plane extrusion conditions both appear in the extrusion area and the compression expansion area at both ends, which are respectively 48.68 MPa, 46.40 MPa, 0.49%, 1.13%. The maximum radial force of the undegraded stent was 11.22 N, and 97% and 51% of the maximum radial force were maintained after 3 months and 6 months of degradation, respectively. The research results verify the safety and effectiveness of the radial force of the new degradable esophageal stent, and provide a theoretical basis for the clinical treatment of esophageal stricture.
Subject(s)
Humans , Esophageal Stenosis/surgery , Finite Element Analysis , Mechanical Phenomena , StentsABSTRACT
Objective:To evaluate the safety and efficacy of a novel endoscopic anastomosis clip for the stomach perforation via an animal trial.Methods:Six pigs were used as experimental animals, and two perforation models (10-20 mm in diameter) were created by an endoscopic needle-knife in the stomach of each pig. The perforations were then closed by the novel detachable endoscopic anastomosis clip. The animal survival and healing of the lesions were recorded. All the clips were taken out 30 days after operation through endoscopy. Half of the animals were immediately after clip extraction and the other half of the animals survived for another 30 days owing to observation.Results:All clips were implanted successfully and all lesions healed during 30 days after the operation. All animals survived. The clip natural shedding rate was 33.3%(4/12), and the rest of clips were successfully disassembled and removed. All animals were alive 30 days after clip removal with lesions healed.Conclusion:The novel anastomosis clip is safe and effective in animal experiments with easy to operate. It could be recommended for further clinical research with good clinical prospect.
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Natural killer T(NKT) cells are a heterogeneous group T cells that share properties of both natural killer cells and T cells,play an important role in tumor immunity.Related researches have confirmed that actived NKT cells can inhabit tumor progress,but activated NKT cells commonly become anergic for some unknown reasons after a short time.This article reviews researches on the possible mechanisms and solutions to NKT cells anergy.
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Objective To design a new cancer vaccine by using alpha-galactosylceramide (α-Galcer,α-GC) loaded tumor cells in combination with TLR 9 ligand and to evaluate its therapeutic effects on colon canc-er in mice.Methods MC38 cells were transfected with lentivirus (GFP-CD1d) to prepare CD1d-MC38 cells. The expression of CD1d molecules in CD1d-MC38 cells was detected by fluorescence microscopy , RT-PCR and flow cytometry.The sorted CD1d-MC38 cells were loaded with α-Galcer to prepare CD1d-MC38/α-GC complex. Flow cytometry was performed to evaluate the efficiency of combination .A mouse model of colon cancer was es-tablished to investigate the therapeutic effects of α-Galcer loaded tumor cells in combination with TLR 9 ligand ( CD1d-MC38/α-GC+CpG1826) on colon cancer in mice by analyzing tumor growth and mice survival time .Im-munohistochemical staining was used to detect CD 4+T and CD8+T infiltrating lymphocytes in tumor tissues .Re-sults The MC38 cancer cells that expressed CD 1d and GFP were successfully constructed , among which 98.10%±2.53%were positive for CD1d.Moreover, the CD1d-MC38 cells could combine with α-Galcer effec-tively in a dose and time dependent manner .Compared with PBS treated group ,α-GC treated group and TLR9 ligand treated group , the experimental vaccine strategy was sufficient to inhibit the growth of established tumors and prolong survival of tumor-bearing mice (P<0.01).Immunohistochemistry analysis revealed that levels of CD4+T cells and CD8+T cells in experiment group were significantly higher than those in groups treated with PBS,α-GC and TLR9 ligand (P<0.01).Conclusion CD1d-MC38/α-GC in combination with CpG1826 could efficiently inhibit the growth of established tumors and prolong survival of tumor-bearing mice .Immunohisto-chemistry analysis revealed that CD 4+T cells and CD8+T cells played important roles in anti-tumor immunity.
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Myeloid-derived suppressor cells are a heterogeneous population of early myeloid progenitors,immature granulocytes,macrophages,and dendritic cells at different stages of differentiation.These cells have the capacity to suppress both the innate immunity response mediated by the cytotoxic natural killer cells and natural killer T cells,and the adaptive immune response mediated by CD4+ and CD8+ T cells.In addition,myeloid-derived suppressor cells have close links with macrophages,dendritic cells,regulate T cells and so on,and also play an important role in the process of tumor progression.