Exploration of Interventricular Septum Motion in Multi-Cycle Cardiac MRI

Eurographics Workshop on Visual Computing for Biomedicine Pub Date : 2017-01-01 DOI:10.2312/vcbm.20171251

L. Tautz, M. Hüllebrand, M. Steinmetz, Dirk Voit, J. Frahm, A. Hennemuth

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引用次数: 2

Abstract

Function of the heart, including interventricular septum motion, is influenced by respiration and contraction of the heart muscle. Recent real-time magnetic resonance imaging (MRI) can acquire multi-cycle cardiac data, which enables the analysis of the variation between heart cycles depending on factors such as physical stress or changes in respiration. There are no normal values for this variation in the literature, and there are no established tools for the analysis and exploration of such multi-cycle data available. We propose an analysis and exploration concept that automatically segments the left and right ventricle, extracts motion parameters and allows to interactively explore the results. We tested the concept using nine real-time MRI data sets, including one subject under increasing stress levels and one subject performing a breathing maneuver. All data sets could be automatically processed and then explored successfully, suggesting that our approach can robustly quantify and explore septum thickness in real-time MRI data. CCS Concepts •Human-centered computing → Visual analytics; •Computing methodologies → Image segmentation;

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多周期心脏MRI对室间隔运动的探讨

心脏的功能，包括室间隔运动，受呼吸和心肌收缩的影响。最近的实时磁共振成像(MRI)可以获得多周期心脏数据，这使得能够根据诸如身体压力或呼吸变化等因素分析心脏周期之间的变化。在文献中没有这种变化的正常值，也没有现成的工具来分析和探索这种多周期数据。我们提出了一种自动分割左右心室，提取运动参数并允许交互式探索结果的分析和探索概念。我们使用9个实时MRI数据集测试了这一概念，其中包括一个处于不断增加的压力水平的受试者和一个进行呼吸操作的受试者。所有数据集都可以自动处理并成功探索，表明我们的方法可以在实时MRI数据中稳健地量化和探索隔层厚度。CCS概念•以人为中心的计算→可视化分析;•计算方法→图像分割;

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Eurographics Workshop on Visual Computing for Biomedicine

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