• 主题
高级搜索  >
历史搜索 清空历史
首页> 外文期刊>Journal of applied clinical medical physics / >Method and phantom to study combined effects of in‐plane (x,y) and z‐axis resolution for 3D CT imaging
【24h】

Method and phantom to study combined effects of in‐plane (x,y) and z‐axis resolution for 3D CT imaging

机译:研究面内(x,y)和z轴分辨率对3D CT成像的综合影响的方法和模型

获取原文
           
页面导航
  • 摘要
  • 著录项
  • 相似文献
  • 相关主题

摘要

Increasingly, the advent of multislice CT scanners, volume CT scanners, and total body spiral acquisition modes has led to the use of Multi Planar Reconstruction and 3D datasets. In considering 3D resolution properties of a CT system it is important to note that both the in-plane (x,y) and z-axis (slice thickness) influence the visualization and detection of objects within the scanned volume. This study investigates ways to consider both the in-plane resolution and the z-axis resolution in a single phantom wherein analytic or visualized analysis can yield information on these combined effects. A new phantom called the “Wave Phantom” is developed that can be used to sample the 3D resolution properties of a CT image, including in–plane (x,y) and z-axis information. The key development in this Wave Phantom is the incorporation of a z-axis aspect of a more traditional step (bar) resolution gauge phantom. The phantom can be examined visually wherein a cutoff level may be seen; and/or the analytic analysis of the various characteristics of the waveform profile by including amplitude, frequency, and slope (rate of climb) of the peaks, can be extracted from the Wave Pattern using mathematical analysis such as the Fourier transform. The combined effect of changes in in-plane resolution and z-axis (thickness), are shown, as well as the effect of changes in either in-plane resolution, or z-axis thickness. Examples of visual images of the Wave pattern as well as the analytic characteristics of the various harmonics of a periodic Wave pattern resulting from changes in resolution filter and/or slice thickness, and position in the field of view are shown. The Wave Phantom offers a promising way to investigate 3D resolution results from combined effect of in-plane (x-y) and z-axis resolution as contrasted to the use of simple 2D resolution gauges that need to be used with separate measures of z-axis dependency, such as angled ramps. It offers both a visual pattern as well as a pattern amenable to analytic analysis using Fourier Transform methods, and is believed to offer an image quality test closer to the diagnostic task where the 2D image has the hidden third (z) axis effects.PACS number(s): 87.57.Q-
机译:越来越多的多层CT扫描仪,体积CT扫描仪和全身螺旋采集模式的出现,导致了多平面重建和3D数据集的使用。在考虑CT系统的3D分辨率属性时,请务必注意,面内(x,y)和z轴(切片厚度)都会影响扫描体积内对象的可视化和检测。这项研究调查了在单个体模中同时考虑面内分辨率和z轴分辨率的方法,其中分析或可视化分析可以得出有关这些组合效应的信息。开发了一种称为“ Wave Phantom”的新体模,可用于对CT图像的3D分辨率属性进行采样,包括面内(x,y)和z轴信息。 Wave Phantom的关键发展是将更传统的阶跃式(bar)分辨率测量仪模型与z轴相结合。可以在视觉上检查幻像,其中可以看到截止水平。可以使用数学分析(例如傅立叶变换)从“波形”中提取和/或通过包括峰值的幅度,频率和斜率(爬升率)来分析波形轮廓的各种特征。显示了平面内分辨率和z轴(厚度)的变化的组合效果,以及平面内分辨率或z轴厚度的变化的影响。显示了波形图的视觉图像示例,以及由于分辨率滤镜和/或切片厚度的变化以及视场位置的变化而导致的周期性波形的各种谐波的分析特性。 Wave Phantom提供了一种有前途的方法来研究平面(xy)和z轴分辨率的组合效果产生的3D分辨率结果,这与使用简单的2D分辨率测量仪(需要与z轴相关性的单独测量方法使用)形成对比,例如倾斜的坡道。它提供了视觉图案以及适合使用傅立叶变换方法进行分析的图案,并且据信可以提供更接近诊断任务的图像质量测试,其中2D图像具有隐藏的第三(z)轴效应。 (s):87.57.Q-

著录项

相似文献

  • 外文文献
  • 中文文献
  • 专利
获取原文

客服邮箱:kefu@zhangqiaokeyan.com

京公网安备:11010802029741号 ICP备案号:京ICP备15016152号-6 六维联合信息科技 (北京) 有限公司©版权所有

  • 客服微信

  • 服务号