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Three-dimensional printing for cardiovascular diseases: from anatomical modeling to dynamic functionality

Hao Wang, Hongning Song, Yuanting Yang, Quan Cao, Yugang Hu, Jinling Chen, Juan Guo, Yijia Wang, Dan Jia, Sheng Cao, Qing Zhou

2020BioMedical Engineering OnLine30 citationsDOIOpen Access PDF

Abstract

Three-dimensional (3D) printing is widely used in medicine. Most research remains focused on forming rigid anatomical models, but moving from static models to dynamic functionality could greatly aid preoperative surgical planning. This work reviews literature on dynamic 3D heart models made of flexible materials for use with a mock circulatory system. Such models allow simulation of surgical procedures under mock physiological conditions, and are; therefore, potentially very useful to clinical practice. For example, anatomical models of mitral regurgitation could provide a better display of lesion area, while dynamic 3D models could further simulate in vitro hemodynamics. Dynamic 3D models could also be used in setting standards for certain parameters for function evaluation, such as flow reserve fraction in coronary heart disease. As a bridge between medical image and clinical aid, 3D printing is now gradually changing the traditional pattern of diagnosis and treatment.

Topics & Concepts

Computer scienceBridge (graph theory)Surgical planningThree dimensional printing3D printingMitral regurgitationBiomedical engineeringSimulationMedicineEngineeringSurgeryMechanical engineeringAnatomy and Medical TechnologyCardiac and Coronary Surgery TechniquesSurgical Simulation and Training
Three-dimensional printing for cardiovascular diseases: from anatomical modeling to dynamic functionality | Litcius