Performance of a Convolutional Neural Network- Based Artificial Intelligence Algorithm for Automatic Cephalometric Landmark Detection.

IF 0.8 Q4 DENTISTRY, ORAL SURGERY & MEDICINE Turkish Journal of Orthodontics Pub Date : 2022-06-01 DOI:10.5152/TurkJOrthod.2022.22026
Mehmet Uğurlu
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引用次数: 3

Abstract

Objective: The aim of this study is to develop an artificial intelligence model to detect cephalometric landmark automatically en- abling the automatic analysis of cephalometric radiographs which have a very important place in dental practice and is used routinely in the diagnosis and treatment of dental and skeletal disorders.

Methods: In this study, 1620 lateral cephalograms were obtained and 21 landmarks were included. The coordinates of all landmarks in the 1620 films were obtained to establish a labeled data set: 1360 were used as a training set, 140 as a validation set, and 180 as a testing set. A convolutional neural network-based artificial intelligence algorithm for automatic cephalometric landmark detection was developed. Mean radial error and success detection rate within the range of 2 mm, 2.5 mm, 3 mm, and 4 mm were used to eval- uate the performance of the model.

Results: Presented artificial intelligence system (CranioCatch, Eskişehir, Turkey) could detect 21 anatomic landmarks in a lateral ceph- alometric radiograph. The highest success detection rate scores of 2 mm, 2.5 mm, 3 mm, and 4 mm were obtained from the sella point as 98.3, 99.4, 99.4, and 99.4, respectively. The mean radial error ± standard deviation value of the sella point was found as 0.616 ± 0.43. The lowest success detection rate scores of 2 mm, 2.5 mm, 3 mm, and 4 mm were obtained from the Gonion point as 48.3, 62.8, 73.9, and 87.2, respectively. The mean radial error ± standard deviation value of Gonion point was found as 8.304 ± 2.98.

Conclusion: Although the success of the automatic landmark detection using the developed artificial intelligence model was not in- sufficient for clinical use, artificial intelligence-based cephalometric analysis systems seem promising to cephalometric analysis which provides a basis for diagnosis, treatment planning, and following-up in clinical orthodontics practice.

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一种基于卷积神经网络的人工智能算法的自动头侧标记检测性能。
目的:本研究的目的是开发一种人工智能模型来自动检测头影测量标志,从而实现头影测量X线片的自动分析。头影测量x线片在牙科实践中具有非常重要的地位,并在牙科和骨骼疾病的诊断和治疗中常规使用。方法:本研究共获得1620张侧位头影,包括21个标志。获得1620张胶片中所有地标的坐标,以建立标记数据集:1360张用作训练集,140张用作验证集,180张用作测试集。开发了一种基于卷积神经网络的人工智能算法,用于自动头影测量界标检测。使用2 mm、2.5 mm、3 mm和4 mm范围内的平均径向误差和成功检测率来评估模型的性能。结果:所提出的人工智能系统(CranioCatch,Eskişehir,土耳其)可以在侧位ceph-alometric射线照片中检测到21个解剖标志。鞍点2 mm、2.5 mm、3 mm和4 mm的最高成功检测率得分分别为98.3、99.4、99.4和99.4。鞍点的平均径向误差±标准偏差值为0.616±0.43。从Gonion点获得的2 mm、2.5 mm、3 mm和4 mm的最低成功检测率得分分别为48.3、62.8、73.9和87.2。Gonion点的平均径向误差±标准偏差值为8.304±2.98,治疗计划和临床正畸实践的跟进。
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来源期刊
Turkish Journal of Orthodontics
Turkish Journal of Orthodontics Dentistry-Orthodontics
CiteScore
2.10
自引率
9.10%
发文量
34
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