使用全数字化乳腺摄影术测量乳腺密度的百分比的定量描述。
A quantitative description of the percentage of breast density measurement using full-field digital mammography.
机构信息
H. Lee Moffitt Cancer Center & Research Institute, Cancer Prevention & Control Division, Tampa, FL 33612, USA.
出版信息
Acad Radiol. 2011 May;18(5):556-64. doi: 10.1016/j.acra.2010.12.015.
RATIONALE AND OBJECTIVES
Breast density is a significant breast cancer risk factor that is measured from mammograms. However, uncertainty remains in both understanding its underlying physical properties as it relates to the breast and determining the optimal method for its measurement. A quantitative description of the information captured by the standard operator-assisted percentage of breast density (PD) measure was developed using full-field digital mammography (FFDM) images that were calibrated to adjust for interimage acquisition technique differences.
MATERIALS AND METHODS
The information captured by the standard PD measure was quantified by developing a similar measure of breast density (PD(c)) from calibrated mammograms automatically by applying a static threshold to each image. The specific threshold was estimated by first sampling the probability distributions for breast tissue in calibrated mammograms. A percent glandular (PG) measure of breast density was also derived from calibrated mammograms. The PD, PD(c), and PG breast density measures were compared using both linear correlation (R) and quartile odds ratio measures derived from a matched case-control study.
RESULTS
The standard PD measure is an estimate of the number of pixel values above a fixed idealized x-ray attenuation fraction. There was significant correlation (P < .0001) between the PD(c)-PD (r = 0.78), PD(c)-PG (r = 0.87), and PD-PG (r = 0.71) measures of breast density. Risk estimates associated with the lowest to highest quartiles for the PD(c) measure (odds ratio [OR]: 1.0 ref., 3.4, 3.6, and 5.6), and the standard PD measure (OR 1.0 ref., 2.9, 4.8, and 5.1) were similar and greater than that of the calibrated PG measure (OR 1.0 ref., 2.0, 2.4, and 2.4).
CONCLUSIONS
The information captured by the standard PD measure was quantified as it relates to calibrated mammograms and used to develop an automated method for measuring breast density. These findings represent an initial step for developing an automated measure built on an established calibration platform. A fully developed automated measure may be useful for both research- and clinical-based risk applications.
原理和目的
乳腺密度是一个重要的乳腺癌风险因素,可通过乳房 X 光片进行测量。然而,人们对其与乳房相关的潜在物理特性以及确定其最佳测量方法仍存在不确定性。使用全数字乳房 X 线摄影(FFDM)图像开发了一种对标准操作人员辅助的乳腺密度(PD)测量所捕获信息的定量描述,这些图像经过校准以调整图像间采集技术的差异。
材料和方法
通过从校准的乳房 X 光片中自动应用静态阈值来开发类似的乳腺密度(PD(c))测量方法,对标准 PD 测量所捕获的信息进行量化。通过首先对校准乳房 X 光片中的乳腺组织概率分布进行采样来估计特定的阈值。还从校准的乳房 X 光片中推导出乳腺密度的百分比腺体(PG)测量值。使用线性相关(R)和四分位比值(OR)进行比较,四分位比值是从匹配的病例对照研究中得出的。
结果
标准 PD 测量是对固定理想化 X 射线衰减分数以上的像素值数量的估计。PD(c)-PD(r = 0.78)、PD(c)-PG(r = 0.87)和 PD-PG(r = 0.71)的乳腺密度测量值之间存在显著相关性(P <.0001)。PD(c)测量值的最低到最高四分位数的风险估计(比值比[OR]:1.0 参考,3.4、3.6 和 5.6),以及标准 PD 测量值(OR 1.0 参考,2.9、4.8 和 5.1)与校准 PG 测量值(OR 1.0 参考,2.0、2.4 和 2.4)相似且大于后者。
结论
与校准的乳房 X 光片相关联,对标准 PD 测量所捕获的信息进行了量化,并用于开发测量乳腺密度的自动方法。这些发现代表了在既定校准平台上开发自动测量方法的初步步骤。一个完全开发的自动测量方法可能对研究和临床风险应用都有用。
Zotero 插件