{"title":"Review of tissue-mimicking materials for anthropomorphic modeling of arterial vessels","authors":"Dariya I. Abyzova, M. Kodenko","doi":"10.17816/dd626907","DOIUrl":null,"url":null,"abstract":"BACKGROUND: In computed tomographic angiography, anthropomorphic specimens made of tissue-mimicking materials are used to improve the diagnosis of pathological changes in arteries. The design of test objects requires the selection of materials with properties that correctly reproduce the biomechanical and radiographic characteristics of the arterial wall. Tissue-mimicking materials used in modern specimens do not always take into account the conditions under which the arterial wall functions in vivo [1]. In addition, the selection of materials is required to simulate pathological processes, such as changes in the thickness of the arterial wall in the area of the aneurysm, simulation of thrombus [2]. The choice of tissue-mimicking materials to create a test specimen has a significant impact on the results of studies conducted with these materials. \nAIM: The aim of this study is to ascertain the biomechanical and X-ray properties of tissue-mimicking materials for the anthropomorphic modeling of arterial vascular test objects. \nMATERIALS AND METHODS: A literature analysis was conducted to investigate the potential of tissue-mimicking materials for the creation of arterial vessel test objects. The search query included the following keywords: abdominal aorta, aneurysm, CT-angiography, tissue-mimicking material, test objects, and mechanical properties of the arterial wall. The results of the literature review were used to investigate the biomechanical characteristics of the arterial vessel wall in a healthy state and in aneurysm. The advantages and disadvantages of different types of tissue-mimicking materials were analyzed. In the course of this analysis, the requirements for biomechanical and X-ray properties of tissue-mimicking materials were formulated. A ranked list of tissue-mimicking materials for the creation of anthropomorphic test objects of arterial vessels for studies by computed tomographic angiography was prepared. \nRESULTS: During the course of the work, the requirements for biomechanical and X-ray properties of tissue-imitating materials for the creation of an arterial vessel test object were formulated. Further development of the topic will entail the expansion of the number of simulated pathologies and the search for universal materials suitable for the creation of multimodal test objects. \nCONCLUSIONS: The results obtained can be used to improve arterial vascular test objects.","PeriodicalId":34831,"journal":{"name":"Digital Diagnostics","volume":" 8","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-07-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Digital Diagnostics","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.17816/dd626907","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
BACKGROUND: In computed tomographic angiography, anthropomorphic specimens made of tissue-mimicking materials are used to improve the diagnosis of pathological changes in arteries. The design of test objects requires the selection of materials with properties that correctly reproduce the biomechanical and radiographic characteristics of the arterial wall. Tissue-mimicking materials used in modern specimens do not always take into account the conditions under which the arterial wall functions in vivo [1]. In addition, the selection of materials is required to simulate pathological processes, such as changes in the thickness of the arterial wall in the area of the aneurysm, simulation of thrombus [2]. The choice of tissue-mimicking materials to create a test specimen has a significant impact on the results of studies conducted with these materials.
AIM: The aim of this study is to ascertain the biomechanical and X-ray properties of tissue-mimicking materials for the anthropomorphic modeling of arterial vascular test objects.
MATERIALS AND METHODS: A literature analysis was conducted to investigate the potential of tissue-mimicking materials for the creation of arterial vessel test objects. The search query included the following keywords: abdominal aorta, aneurysm, CT-angiography, tissue-mimicking material, test objects, and mechanical properties of the arterial wall. The results of the literature review were used to investigate the biomechanical characteristics of the arterial vessel wall in a healthy state and in aneurysm. The advantages and disadvantages of different types of tissue-mimicking materials were analyzed. In the course of this analysis, the requirements for biomechanical and X-ray properties of tissue-mimicking materials were formulated. A ranked list of tissue-mimicking materials for the creation of anthropomorphic test objects of arterial vessels for studies by computed tomographic angiography was prepared.
RESULTS: During the course of the work, the requirements for biomechanical and X-ray properties of tissue-imitating materials for the creation of an arterial vessel test object were formulated. Further development of the topic will entail the expansion of the number of simulated pathologies and the search for universal materials suitable for the creation of multimodal test objects.
CONCLUSIONS: The results obtained can be used to improve arterial vascular test objects.
背景:在计算机断层扫描血管造影术中,用组织模拟材料制成的拟人化标本可用于改善动脉病理变化的诊断。设计测试对象需要选择具有能正确再现动脉壁的生物力学和放射学特性的材料。现代标本中使用的组织模拟材料并不总是考虑到动脉壁在体内发挥作用的条件[1]。此外,材料的选择还需要模拟病理过程,如动脉瘤区域动脉壁厚度的变化、血栓的模拟[2]。选择仿组织材料制作测试样本对使用这些材料进行研究的结果有重大影响。目的:本研究旨在确定用于动脉血管测试对象拟人建模的仿组织材料的生物力学和 X 射线特性。材料与方法:为研究仿组织材料在创建动脉血管测试对象方面的潜力,我们进行了文献分析。搜索关键词包括:腹主动脉、动脉瘤、CT 血管造影、组织模拟材料、测试对象和动脉壁的机械性能。文献综述的结果用于研究动脉血管壁在健康状态和动脉瘤状态下的生物力学特性。分析了不同类型组织模拟材料的优缺点。在分析过程中,对组织模拟材料的生物力学和 X 射线特性提出了要求。编制了一份组织仿真材料排名表,用于创建拟人化的动脉血管测试对象,供计算机断层扫描血管造影研究使用。结果:在工作过程中,制定了用于制作动脉血管测试对象的仿组织材料的生物力学和 X 射线特性要求。该课题的进一步发展需要扩大模拟病理的数量,并寻找适合创建多模态测试对象的通用材料。结论:所获得的结果可用于改进动脉血管测试对象。