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Automating PACS Quality Control with the Vanderbilt Image Processing Enterprise Resource

机译：自动化PACS质量控制与Vanderbilt图像处理企业资源

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摘要

Precise image acquisition is an integral part of modern patient care and medical imaging research. Periodic quality control using standardized protocols and phantoms ensures that scanners are operating according to specifications, yet such procedures do not ensure that individual datasets are free from corruption–for example due to patient motion, transient interference, or physiological variability. If unacceptable artifacts are noticed during scanning, a technologist can repeat a procedure. Yet, substantial delays may be incurred if a problematic scan is not noticed until a radiologist reads the scans or an automated algorithm fails. Given scores of slices in typical three-dimensional scans and wide-variety of potential use cases, a technologist cannot practically be expected inspect all images. In large-scale research, automated pipeline systems have had great success in achieving high throughput. However, clinical and institutional workflows are largely based on DICOM and PACS technologies; these systems are not readily compatible with research systems due to security and privacy restrictions. Hence, quantitative quality control has been relegated to individual investigators and too often neglected. Herein, we propose a scalable system, the Vanderbilt Image Processing Enterprise Resource–VIPER, to integrate modular quality control and image analysis routines with a standard PACS configuration. This server unifies image processing routines across an institutional level and provides a simple interface so that investigators can collaborate to deploy new analysis technologies. VIPER integrates with high performance computing environments has successfully analyzed all standard scans from our institutional research center over the course of the last 18 months.

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期刊名称 other
作者
Michael L. Esparza; E. Brian Welch; Bennett A. Landman;
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作者单位

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年(卷),期 -1(8319),-1
年度 -1
页码 83190H
总页数 11
原文格式 PDF
正文语种
中图分类
关键词
Automated Image Processing Quality Control DICOM PACS;

机译：自动化图像处理;质量控制;DICOM;PACS;

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专利

1. Quality Control in Automated Manufacturing Processes – Combined Features for Image Processing [J] . B. Kuhlenk?tter, C. Krewet, X. Zhang Acta polytechnica . 2006,第5期

机译：自动化制造过程中的质量控制–图像处理的组合功能
2. Quality Control in Automated Manufacturing Processes- Combined Features for Image Processing [J] . B. Kuhlenkoetter, X. Zhang, C. Krewet Acta Polytechnica . 2006,第5期

机译：自动化制造过程中的质量控制-图像处理的综合功能
3. Implementing enterprise resource planning systems with total quality control and business process reengineering Survey results [J] . Marc J. Schniederjans, Gyu C. Kim International journal of operations & production management . 2003,第3a4期

机译：实施具有全面质量控制和业务流程再造的企业资源计划系统调查结果
4. Automating PACS quality control with the Vanderbilt image processing enterprise resource [C] . Michael L. Esparza, E. Brian Welch Conference on advanced PACS-based imaging informatics and therapeutic applications . 2012

机译：利用Vanderbilt图像处理企业资源自动执行PACS质量控制
5. Automated knowledge acquisition from routine data for process and quality control. [D] . Shieh, Don Shyan-Shu. 1992

机译：从常规数据中自动获取知识，以进行过程和质量控制。
6. Automated image analysis with the potential for process quality control applications in stem cell maintenance and differentiation [O] . David Smith, Katie Glen, Robert Thomas -1

机译：自动化图像分析具有干细胞维护和分化过程质量控制应用的潜力
7. Automating PACS quality control with the Vanderbilt image processing enterprise resource [O] . Michael L. Esparza, E. Brian Welch, Bennett A. L 2016

机译：使用Vanderbilt图像处理企业资源自动化paCs质量控制

Automating PACS Quality Control with the Vanderbilt Image Processing Enterprise Resource

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