In vitro experimental study on the mechanical properties of biodegradable polymer stents / 生物医学工程学杂志

experimental test for mechanical properties of a vascular stent is a main method to evaluate its effectiveness and safety, which is of great significance to the clinical applications. In this study, a comparative study of planar, V-groove and radial compression methods for the radial support property test were performed, and the effects of compression rate and circumferential position on the test results were conducted. Based on the three-point bending method, the influences of compression rate and circumferential position on flexibility were also explored. And then a best test proposal was selected to evaluate the radial support property and flexibility of the three self-designed stents and the comparative biodegradable vascular stent (BVS) (BVS1.1, Abbott Vascular, USA) with different outside diameters of 1.4 mm, 1.7 mm and 2.4 mm. The results show that the developing trends of the compression load with the compression displacement measured by the three radial support property test methods are the same, but normalized radial force values are quite different. The planar compression method is more suitable for comparing the radial support properties of stents with different diameters and structures. Compression rate has no obvious effect on the testing results of both the radial support property and flexibility. Compression circumferential position has a great impact on testing radial support property with the planar or V-groove compression methods and testing flexibility with three-point bending method. The radial support properties of all the three self-designed stents are improved at a certain degree compared to that of the BVS stent. The study has better guide significance and reference value for testing mechanical properties of vascular stents.

Effect of RAGE and its ligands on CD4 + T cells / 中国药理学通报

RAGE (receptor for advanced glycation end products) is a multiligand receptor on the cell surface.Ligand-RAGE inter-actions activate several signal transduction pathways that propa-gate cellular oxidative stress and inflammatory response.RAGE expressed on the CD4 + T cells has been identified as a central transduction receptor which affects the activation,proliferation, migration and differentiation of the cells.In addition,blockade of RAGE suppressed the development of multiple immune-related disorders mediated by CD4 + T cells.These studies highlight the importance of RAGE and its ligands for CD4 + T cells.This arti-cle briefly reviews the role of RAGE and its ligands on the prolif-eration,migration and differentiation of CD4 + T cells and sum-marizes the related research progress.