west china medical publishers
Author
  • Title
  • Author
  • Keyword
  • Abstract
Advance search
Advance search

Search

find Author "梁振宇" 4 results
  • 哮喘的临床与炎症表型

    支气管哮喘( 简称哮喘) 作为一种异质性疾病, 其发病机制复杂多样, 病理生理改变和临床表现同样具有多样性。表型( Phenotypes) 是指生物体的可观察特征, 是基因型和环境因素相互作用的结果[ 1] ; 它也是能将生物体分成不同独立类群的一系列特征[ 2] 。近年来, 学者们对哮喘的表现和治疗反应的异质性认识不断增加, 从哮喘的不同角度进行观察并归纳出多种临床和炎症表型。虽然对这些表型尚未达成共识, 但它有助于深入认识哮喘的发病机制, 有助于获得对哮喘进行更有针对性的治疗策略。 目前现有的哮喘的分类主要依据是疾病病因、疾病的控制水平与严重程度[ 3] 。这些分类往往不能很好的反映哮喘的异质性。2009 版的哮喘防治指南( GINA) 首次将“表型”的定义引入, 并提出基于表型的分类有助于指导治疗及判断预后[ 3] 。虽然指南并没有明确作出哮喘表型的分类, 但这足以显示出学界对哮喘表型分类的关注。目前, 对哮喘的表型分类仍无统一的共识, 以不同的方法和分类原则可有不同的分类。

    Release date:2016-08-30 11:53 Export PDF Favorites Scan
  • 蛋白酶3在慢性阻塞性肺疾病中的研究进展

    Release date: Export PDF Favorites Scan
  • Study on quantitative analysis of bracket-induced nonlinear response of labio-cheek soft tissue during the orthodontic process

    In the orthodontics process, intervention and sliding of an orthodontic bracket during the orthodontic process can arise large response of the labio-cheek soft tissue. Soft tissue damage and ulcers frequently happen at the early stage of orthodontic treatment. In the field of orthodontic medicine, qualitative analysis is always carried out through statistics of clinical cases, while quantitative explanation of bio-mechanical mechanism is lacking. For this purpose, finite element analysis of a three-dimensional labio-cheek-bracket-tooth model is conducted to quantify the bracket-induced mechanical response of the labio-cheek soft tissue, which involves complex coupling of contact nonlinearity, material nonlinearity and geometric nonlinearity. Firstly, based on the biological composition characteristics of labio-cheek, a second-order Ogden model is optimally selected to describe the adipose-like material of the labio-cheek soft tissue. Secondly, according to the characteristics of oral activity, a two-stage simulation model of bracket intervention and orthogonal sliding is established, and the key contact parameters are optimally set. Finally, the two-level analysis method of overall model and submodel is used to achieve efficient solution of high-precision strains in submodels based on the displacement boundary obtained from the overall model calculation. Calculation results with four typical tooth morphologies during orthodontic treatment show that: ① the maximum strain of soft tissue is distributed along the sharp edges of the bracket, consistent with the clinically observed profile of soft tissue deformation; ② the maximum strain of soft tissue is reduced as the teeth align, consistent with the clinical manifestation of common damage and ulcers at the beginning of orthodontic treatment and reduced patient discomfort at the end of treatment. The method in this paper can provide reference for relevant quantitative analysis studies in the field of orthodontic medical treatment at home and abroad, and further benefit to the product development analysis of new orthodontic devices.

    Release date: Export PDF Favorites Scan
  • Design of nonlinear locking mechanism for shape memory alloy archwire of miniature orthodontic device

    The locking mechanism between bracket and shape memory alloy (SMA) archwire in the newly developed domestic orthodontic device is the key to controlling the precise alignment of the teeth. To meet the demand of locking force in clinical treatment, the tightening torque angle of the locking bolt and the required torque magnitude need to be precisely designed. For this purpose, a design study of the locking mechanism is carried out to analyze the correspondence between the tightening torque angle and the locking force and to determine the effective torque value, which involves complex coupling of contact, material and geometric nonlinear characteristics. Firstly, a simulation analysis based on parametric orthogonal experimental design is carried out to determine the SMA hyperelastic material parameters for the experimental data of SMA archwire with three-point bending. Secondly, a two-stage fine finite-element simulation model for bolt tightening and archwire pulling is established, and the nonlinear analysis is converged through the optimization of key contact parameters. Finally, multiple sets of calibration experiments are carried out for three tightening torsion angles. The comparison results between the design analysis and the calibration experiments show that the deviation between the design analysis and the calibration mean value of the locking force in each case is within 10%, and the design analysis method is valid and reliable. The final tightening torque angle for clinical application is determined to be 10° and the rated torque is 2.8 N∙mm. The key data obtained can be used in the design of clinical protocols and subsequent mechanical optimization of novel orthodontic devices, and the research methodology can provide a valuable reference for force analysis of medical devices containing SMA materials.

    Release date: Export PDF Favorites Scan
1 pages Previous 1 Next

Format

Content