Accuracy of artificial intelligence-assisted soft tissue landmark identification in serial lateral cephalograms of Class III two-jaw surgery patients.

IF 2.3 3区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE

Korean Journal of Orthodontics Pub Date : 2025-09-25 Epub Date: 2025-06-20 DOI:10.4041/kjod24.302

Sun Hyong Kim, Inhwan Kim, Jin-Hyoung Cho, Kyung-Hwa Kang, Minji Kim, Su-Jung Kim, Yoon-Ji Kim, Sang-Jin Sung, Young Ho Kim, Sung-Hoon Lim, Seung-Hak Baek, Namkug Kim, Mihee Hong

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引用次数: 0

Abstract

Objective: To evaluate the accuracy of artificial intelligence (AI)-assisted soft tissue landmark identification (STLI) on serial lateral cephalograms (Lat-Cephs) of Class III patients treated with two-jaw orthognathic surgery across four different time-points.

Methods: A convolutional neural network model was developed for STLI, trained and validated using 3,004 Lat-Cephs from 751 patients. The test set included 224 Lat-Cephs from 56 patients, divided into the genioplasty (n = 22) and non-genioplasty (n = 34) groups. The four time-points included initial (T0), pre-surgery (T1, brackets), post-surgery (T2, brackets, surgical plates, and screws [S-PS]), and debonding (T3, S-PS and fixed retainers). AI accuracy was compared with a human standard for 13 soft tissue landmarks. Mean radial errors (MREs), horizontal and vertical errors, and statistical differences were analyzed.

Results: The total MRE across all time-points was 1.50 ± 0.48 mm, with 64.9% of values being less than 1.5 mm MRE. There were no significant differences in accuracy among the four time-points (T0, 1.41 mm; T1, 1.53 mm; T2, 1.58 mm; T3, 1.47 mm). The pronasale, stomion inferius (Stmi), stomion superius (Stms) showed an increase in MRE (P < 0.01, P < 0.05, and P < 0.05, respectively), whereas the Lower Lip showed a decrease in MRE (P < 0.01). There were no significant differences in errors across time-points for the soft-tissue B point, soft-tissue Pogonion, or soft-tissue Menton between the genioplasty and non-genioplasty groups.

Conclusions: The AI algorithm in this study might be an effective tool for STLI in Lat-Cephs at T1, T2, and T3, despite the presence of brackets, S-PS, fixed retainers, genioplasty, and bone remodeling.

查看原文本刊更多论文

人工智能辅助下III类双颌手术患者连续侧位脑电图软组织地标识别的准确性。

目的：评估人工智能（AI）辅助软组织地标识别（STLI）在4个不同时间点对III类双颌正颌手术患者的连续侧位脑电图（latcephs）的准确性。方法：建立STLI的卷积神经网络模型，使用751例患者的3,004个latc - ceph进行训练和验证。试验集包括56例患者的224例la - ceph，分为genioplasty组（n = 22）和non-genioplasty组（n = 34）。四个时间点包括初始（T0）、术前（T1、托槽）、术后（T2、托槽、手术钢板和螺钉[S-PS]）和脱粘（T3、S-PS和固定固位器）。人工智能的准确性与人类标准的13个软组织标志进行了比较。平均径向误差（MREs）、水平和垂直误差，并进行统计学差异分析。结果：各时间点的总MRE为1.50±0.48 mm，小于1.5 mm的MRE占64.9%。4个时间点（T0, 1.41 mm; T1, 1.53 mm; T2, 1.58 mm; T3, 1.47 mm）的准确率无显著差异。前鼻、下口、上口的MRE分别升高（P < 0.01、P < 0.05、P < 0.05），下唇的MRE则降低（P < 0.01）。在软组织B点、软组织Pogonion或软组织Menton的误差在时间点上，在genio成形术组和非genio成形术组之间没有显著差异。结论：本研究中的AI算法可能是T1、T2和T3时lati - cephs STLI的有效工具，尽管存在托槽、S-PS、固定固位器、genioplasty和骨重塑。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Korean Journal of Orthodontics DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

3.50

自引率

10.50%

发文量

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.