使用级联卷积神经网络算法识别后正位头颅图标和测量值的准确性:一项多中心研究。

IF 2.6 3区 医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE
Korean Journal of Orthodontics Pub Date : 2024-01-25 Epub Date: 2023-12-11 DOI:10.4041/kjod23.075
Sung-Hoon Han, Jisup Lim, Jun-Sik Kim, Jin-Hyoung Cho, Mihee Hong, Minji Kim, Su-Jung Kim, Yoon-Ji Kim, Young Ho Kim, Sung-Hoon Lim, Sang Jin Sung, Kyung-Hwa Kang, Seung-Hak Baek, Sung-Kwon Choi, Namkug Kim
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引用次数: 0

摘要

目的使用级联卷积神经网络(CNN)量化中线相关地标识别对后正位(PA)头颅影像中线偏差测量的影响:方法: 将从 9 所大学医院获得的 2,903 张 PA 头影图像分为训练集、内部验证集和测试集(n = 2,150、376 和 377)。作为金标准,2 位正畸学教授标记了双侧地标,包括前颧骨缝点和侧眶(LO),以及中线地标,包括胆嵴(crista galli)、前鼻骨棘(ANS)、上齿中点(UDM)、下齿中点(LDM)和menton(Me)。在测试中,检查员-1 和检查员-2(3 年和 1 年正畸住院医师)以及 Cascaded-CNN 模型对地标进行了标记。地标识别点对点误差后,测量成功检测率(SDR)和中线地标偏离中矢状线的距离和方向(ANS-mid、UDM-mid、LDM-mid 和 Me-mid),并进行统计分析:结果:级联-CNN 算法显示出临床上可接受的点对点误差水平(检查者-1 为 1.26 毫米,检查者-2 为 1.75 毫米)。2 毫米范围内的平均 SDR 为 83.2%,LO(右侧,96.9%;左侧,97.1%)和 UDM(96.9%)的准确度较高。与金标准相比,ANS-mid、UDM-mid 和 LDM-mid 的绝对测量误差均小于 1 毫米:无论图像采集方法如何变化,级联-CNN 模型都可被视为自动识别中线地标和量化成人患者 PA 头影中线偏差的有效工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Accuracy of posteroanterior cephalogram landmarks and measurements identification using a cascaded convolutional neural network algorithm: A multicenter study.

Objective: : To quantify the effects of midline-related landmark identification on midline deviation measurements in posteroanterior (PA) cephalograms using a cascaded convolutional neural network (CNN).

Methods: : A total of 2,903 PA cephalogram images obtained from 9 university hospitals were divided into training, internal validation, and test sets (n = 2,150, 376, and 377). As the gold standard, 2 orthodontic professors marked the bilateral landmarks, including the frontozygomatic suture point and latero-orbitale (LO), and the midline landmarks, including the crista galli, anterior nasal spine (ANS), upper dental midpoint (UDM), lower dental midpoint (LDM), and menton (Me). For the test, Examiner-1 and Examiner-2 (3-year and 1-year orthodontic residents) and the Cascaded-CNN models marked the landmarks. After point-to-point errors of landmark identification, the successful detection rate (SDR) and distance and direction of the midline landmark deviation from the midsagittal line (ANS-mid, UDM-mid, LDM-mid, and Me-mid) were measured, and statistical analysis was performed.

Results: : The cascaded-CNN algorithm showed a clinically acceptable level of point-to-point error (1.26 mm vs. 1.57 mm in Examiner-1 and 1.75 mm in Examiner-2). The average SDR within the 2 mm range was 83.2%, with high accuracy at the LO (right, 96.9%; left, 97.1%), and UDM (96.9%). The absolute measurement errors were less than 1 mm for ANS-mid, UDM-mid, and LDM-mid compared with the gold standard.

Conclusions: : The cascaded-CNN model may be considered an effective tool for the auto-identification of midline landmarks and quantification of midline deviation in PA cephalograms of adult patients, regardless of variations in the image acquisition method.

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来源期刊
Korean Journal of Orthodontics
Korean Journal of Orthodontics DENTISTRY, ORAL SURGERY & MEDICINE-
CiteScore
3.50
自引率
10.50%
发文量
48
审稿时长
>12 weeks
期刊介绍: The Korean Journal of Orthodontics (KJO) is an international, open access, peer reviewed journal published in January, March, May, July, September, and November each year. It was first launched in 1970 and, as the official scientific publication of Korean Association of Orthodontists, KJO aims to publish high quality clinical and scientific original research papers in all areas related to orthodontics and dentofacial orthopedics. Specifically, its interest focuses on evidence-based investigations of contemporary diagnostic procedures and treatment techniques, expanding to significant clinical reports of diverse treatment approaches. The scope of KJO covers all areas of orthodontics and dentofacial orthopedics including successful diagnostic procedures and treatment planning, growth and development of the face and its clinical implications, appliance designs, biomechanics, TMJ disorders and adult treatment. Specifically, its latest interest focuses on skeletal anchorage devices, orthodontic appliance and biomaterials, 3 dimensional imaging techniques utilized for dentofacial diagnosis and treatment planning, and orthognathic surgery to correct skeletal disharmony in association of orthodontic treatment.
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