使用直接数字化探测器评估管电压对骨盆和腰椎射线摄影临床图像质量的影响。

An evaluation of the effect of tube potential on clinical image quality using direct digital detectors for pelvis and lumbar spine radiographs.

机构信息

Department of Medical Imaging, Western Health, Footscray, VIC, Australia.

School of Medicine, Faculty of Health, Deakin University, Waurn Ponds, VIC, Australia.

出版信息

J Med Radiat Sci. 2020 Dec;67(4):260-268. doi: 10.1002/jmrs.403. Epub 2020 Jun 3.

DOI:10.1002/jmrs.403

PMID:32495517

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7753839/

Abstract

INTRODUCTION

High kVp techniques, 15% or 10-kVp rules, are well-known dose reduction methods. Traditionally, the use of high tube potential (i.e. increased kVp) is associated with decreased radiographic contrast and overall image quality. Recent studies suggest contrast and image quality are not heavily reliant on kVp with digital systems. This study aims to assess the effects of the high tube potential technique on clinical radiographic image quality when using digital systems, to validate high kVp as a dose saving technique.

METHODS

A selection of comparable pelvis and lumbar spine radiographs were collected from the hospital's picture archiving and communication system (PACS), with technical factors recorded. All clinical radiographs were assessed by 5 senior radiographers using a 15-point visual grading analysis (VGA) rubric.

RESULTS

For 40 AP pelvis radiographs and 40 lateral lumbar spine radiographs, reduction in the dose area product (DAP) with higher kVp is seen. Average pelvis DAP at 75 kVp = 14.06 mGy.cm ; 85 kVp = 7.47 mGy.cm . Average lumbar spine DAP at 80 kVp = 15.76 mGy.cm ; 90 kVp = 14.83 mGy.cm . Image quality and contrast scores showed no statistically significant difference between the high and low kVp groups (z = 0.06 and 0.12, respectively). Average pelvis VGA score at 75 kVp = 11.26; 85 kVp = 12.55. Average lumbar spine VGA score at 80 kVp = 9.23; 90 kVp = 10.64.

CONCLUSIONS

The high tube potential techniques allowed for reduced patient radiation doses whilst showing no degradation of diagnostic image quality in a clinical setting. This study successfully validates the high kVp technique as a useful tool for reducing patient radiation doses whilst maintaining high diagnostic image quality for digital pelvis and lumbar spine radiography.

摘要

简介

高千伏技术（kVp 技术），即 15%kVp 规则，是众所周知的剂量降低方法。传统上，使用高管电压（即增加 kVp）与降低射线照相对比度和整体图像质量有关。最近的研究表明，在数字系统中，对比度和图像质量并不严重依赖于 kVp。本研究旨在评估在使用数字系统时高管电压技术对临床射线照相图像质量的影响，以验证高 kVp 作为一种节省剂量的技术。

方法

从医院的图像存档和通信系统（PACS）中选择了一些可比的骨盆和腰椎射线照片，并记录了技术因素。所有临床射线照片均由 5 名资深放射技师使用 15 分视觉分级分析（VGA）评分表进行评估。

结果

对于 40 张 AP 骨盆射线照片和 40 张侧位腰椎射线照片，较高 kVp 可降低剂量面积乘积（DAP）。75 kVp 时的平均骨盆 DAP = 14.06 mGy.cm；85 kVp 时的平均骨盆 DAP = 7.47 mGy.cm。80 kVp 时的平均腰椎 DAP = 15.76 mGy.cm；90 kVp 时的平均腰椎 DAP = 14.83 mGy.cm。高、低 kVp 组之间的图像质量和对比度评分无统计学显著差异（z 值分别为 0.06 和 0.12）。75 kVp 时的平均骨盆 VGA 评分为 11.26；85 kVp 时的平均骨盆 VGA 评分为 12.55。80 kVp 时的平均腰椎 VGA 评分为 9.23；90 kVp 时的平均腰椎 VGA 评分为 10.64。

结论

高管电压技术可降低患者的辐射剂量，同时在临床环境中不降低诊断图像质量。本研究成功验证了高 kVp 技术作为一种有用的工具，可降低患者的辐射剂量，同时保持数字骨盆和腰椎射线照相的高诊断图像质量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f6f3/7753839/66d68e47296d/JMRS-67-260-g001.jpg

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使用直接数字化探测器评估管电压对骨盆和腰椎射线摄影临床图像质量的影响。

An evaluation of the effect of tube potential on clinical image quality using direct digital detectors for pelvis and lumbar spine radiographs.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

简介

方法

结果

结论

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