Automated Identification of Fiducial Points on 3D Torso Images.

IF 2.3 Q3 ENGINEERING, BIOMEDICAL Biomedical Engineering and Computational Biology Pub Date : 2013-07-02 eCollection Date: 2013-01-01 DOI:10.4137/BECB.S11800
Manas M Kawale, Gregory P Reece, Melissa A Crosby, Elisabeth K Beahm, Michelle C Fingeret, Mia K Markey, Fatima A Merchant
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引用次数: 8

Abstract

Breast reconstruction is an important part of the breast cancer treatment process for many women. Recently, 2D and 3D images have been used by plastic surgeons for evaluating surgical outcomes. Distances between different fiducial points are frequently used as quantitative measures for characterizing breast morphology. Fiducial points can be directly marked on subjects for direct anthropometry, or can be manually marked on images. This paper introduces novel algorithms to automate the identification of fiducial points in 3D images. Automating the process will make measurements of breast morphology more reliable, reducing the inter- and intra-observer bias. Algorithms to identify three fiducial points, the nipples, sternal notch, and umbilicus, are described. The algorithms used for localization of these fiducial points are formulated using a combination of surface curvature and 2D color information. Comparison of the 3D co-ordinates of automatically detected fiducial points and those identified manually, and geodesic distances between the fiducial points are used to validate algorithm performance. The algorithms reliably identified the location of all three of the fiducial points. We dedicate this article to our late colleague and friend, Dr. Elisabeth K. Beahm. Elisabeth was both a talented plastic surgeon and physician-scientist; we deeply miss her insight and her fellowship.

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三维躯干图像上基准点的自动识别。
乳房重建是许多女性乳腺癌治疗过程的重要组成部分。最近,整形外科医生已经使用2D和3D图像来评估手术结果。不同基准点之间的距离经常被用作表征乳房形态的定量措施。基准点可以直接标记在受试者上进行直接人体测量,也可以手动标记在图像上。本文介绍了一种新的算法来自动识别三维图像中的基准点。该过程的自动化将使乳房形态的测量更加可靠,减少观察者之间和内部的偏差。算法,以确定三个基点,乳头,胸骨切迹,和脐部,被描述。用于定位这些基点的算法是使用曲面曲率和二维颜色信息的组合来制定的。通过比较自动检测的基准点与人工识别的基准点的三维坐标,以及基准点之间的测地线距离来验证算法的性能。该算法可靠地识别了所有三个基点的位置。我们把这篇文章献给我们已故的同事和朋友,伊丽莎白·k·比姆博士。伊丽莎白是一位才华横溢的整形外科医生和内科科学家;我们深深地怀念她的洞察力和她的友谊。
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