Adaptive pulse rate scheduling for reduced dose X-ray cardiac interventional fluoroscopic procedures

[1992] Proceedings Fifth Annual IEEE Symposium on Computer-Based Medical Systems Pub Date : 1992-06-14 DOI:10.1109/CBMS.1992.245023

A. Abdel-Malek, J. Bloomer, F. Yassa

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Abstract

Presents an approach for reducing X-ray absorbed dose during cardiac fluoroscopic interventional procedures. The approach hinges on two main concepts: (1) adapting the X-ray pulse rate to the activity of the organ under investigation (the heart); and (2) maintaining the appearance of a 30-frame/s display rate to the viewer. The first concept was accomplished through the processing of multiple sensor information to determine the onset of the various phases of ventricular motion within the cardiac cycle. For each detected phase of the cardiac cycle, a specific tube pulse rate is assigned or automatically determined (after a learning period) such that high activity phases will have higher tube rate than phases with low activity. In order to maintain a 30-frame/s display rate to the viewer, a last-frame-hold approach was used and the resultant sequence shows minimal jerkiness artifacts as a result of the adaptive-motion-dependent sampling strategy. Preliminary results of the proposed system indicate the possibility of a three-to-one reduction of the tube pulse-rate. This translates to a dose reduction of a similar ratio.<>

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低剂量x线心脏介入透视程序的自适应脉搏率调度

提出了一种在心脏透视介入过程中减少x线吸收剂量的方法。该方法取决于两个主要概念:(1)使x射线脉冲率适应被调查器官(心脏)的活动;(2)对观看者保持30帧/秒的显示速率。第一个概念是通过处理多个传感器信息来确定心脏周期内心室运动的各个阶段的开始。对于每个检测到的心周期阶段，指定或自动确定一个特定的管脉率(经过一段学习期)，这样高活动阶段将比低活动阶段具有更高的管脉率。为了保持30帧/秒的显示速率，使用了最后一帧保持方法，结果序列显示出最小的抖动伪影，这是自适应运动依赖采样策略的结果。该系统的初步结果表明，有可能将管脉率降低三倍。这转化为类似比例的剂量减少。

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[1992] Proceedings Fifth Annual IEEE Symposium on Computer-Based Medical Systems

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