Author:
Preethi C,Sathik M Mohamed,Nisha S Shajun
Abstract
Three dimensional (3D) imaging play a prominent role in the diagnosis, treatment planning, and post-therapeutic monitoring of patients with Rheumatic Heart Disease (RHD) or mitral valve disease. More interactive and realistic medical experiences take an advantage of advanced visualization techniques like augmented, mixed, and virtual reality to analyze the 3D models. Further, 3D printed mitral valve model is being used in medical field. All these technologies improve the understanding of the complex morphologies of mitral valve disease. Real-time 3D Echocardiography has attracted much more attention in medical researches because it provides interactive feedback to acquire high-quality images as well as timely spatial information of the scanned area and hence is necessary for intraoperative ultrasound examinations. In this article, three dimensional techniques and its impacts in mitral valve disease are reviewed. Specifically, the data acquisition techniques, reconstruction algorithms with clinical applications are presented. Moreover, the advantages and disadvantages of state-of-the-art approaches are discussed in detail.
Publisher
Universidad Tecnica de Manabi
Subject
Education,General Nursing
Reference44 articles.
1. Aroney N, Markham R, Putrino A, et al. Threedimensional printed cardiac fistulae: a case series. Eur Heart J Case Rep 2019. doi: 10.1093/ehjcr/ytz060.
2. Avendi MR, Kheradvar A, Jafarkhani H. A combined deep learning and deformable-model approach to fully automatic segmentation of the left ventricle in cardiac MRI.MedImageAnal2016;30:108-119.
3. Bagur R, Cheung A, Chu MWA, et al. 3-DimensionalPrinted Model for Planning Transcatheter Mitral Valve Replacement. JACC Cardiovasc Interv 2018;11:812-3.
4. BaoX ,MaoY, LinQ,etal. Mechanism of Kinect-based virtual reality training for motor functional recovery of upper limb safter subacute stroke.NeuralRegenerRes.2013;8(31):2904–2913.
5. BelhajSoulami R, Verhoye JP, Nguyen Duc H, Castro M, Auffret V, Anselmi A, et al.Computer-assistedtranscatheterheartvalveimplantationinvalve-in-valveprocedures.Innovations (Phila)2016;11:193-200.