University College Dublin, Belfield, Ireland.
AJR Am J Roentgenol. 2010 Jul;195(1):181-7. doi: 10.2214/AJR.09.2851.
Quality assurance in medical imaging is directly beneficial to image quality. Diagnostic images are frequently displayed on secondary-class displays that have minimal or no regular quality assurance programs, and treatment decisions are being made from these display types. The purpose of this study is to identify the impact of calibration on physical and psychophysical performance of liquid crystal displays (LCDs) and the extent of potential variance across various types of LCDs.
Three display types were evaluated from Hewlett Packard, Viewsonic, and NEC, which totalled 36 LCDs. These displays were calibrated to the DICOM gray scale standard display function using a VeriLum photometer and associated software under the same ambient room conditions. The American Association of Physicists in Medicine Task Group 18 test patterns were used to measure minimum and maximum luminance, contrast ratios, luminance response, veiling glare (physical and psychophysical), psychophysical noise, spatial resolution, and display uniformity.
Improvements after calibration were noted in all display types for luminance response and psychophysical evaluations of veiling glare. Minimum luminance, contrast ratios, and display uniformity improvements were noted in two separate display types. The only significant reduction in performance was noted for physical evaluations of veiling glare.
The data presented show that calibration has a significant impact on the brightness and contrast of displays, and other display parameters are influenced by this. The amount of variation in performance that was still evident after calibration is of concern.
医学影像质量保证直接有益于影像质量。诊断图像经常在二级显示器上显示,这些显示器几乎没有或没有定期的质量保证程序,而治疗决策正是基于这些显示类型做出的。本研究的目的是确定校准对液晶显示器(LCD)的物理和心理物理性能的影响,以及不同类型的 LCD 之间潜在差异的程度。
从惠普、Viewsonic 和 NEC 评估了三种显示类型,共 36 个 LCD。这些显示器在相同的环境房间条件下,使用 VeriLum 光度计和相关软件,根据 DICOM 灰度标准显示功能进行了校准。使用美国医学物理学家协会任务组 18 测试模式来测量最小和最大亮度、对比度比、亮度响应、视觉眩光(物理和心理物理)、心理物理噪声、空间分辨率和显示均匀性。
在所有显示类型中,亮度响应和视觉眩光的心理物理评估校准后都有改善。在两种单独的显示类型中,最小亮度、对比度比和显示均匀性得到了改善。唯一显著降低的是视觉眩光的物理评估性能。
所呈现的数据表明,校准对显示器的亮度和对比度有显著影响,其他显示参数也受到影响。校准后仍存在明显性能变化的程度令人担忧。
