Anomaly detection of retention loss in fixed partial dentures using resonance frequency analysis and machine learning: An in vitro study

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

ACS Applied Electronic Materials Pub Date : 2024-02-22 DOI:10.2186/jpr.jpr_d_23_00154

Sara Reda Sammour, Hideki Naito, Tomoyuki Kimoto, Keiichi Sasaki, Toru Ogawa

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引用次数: 0

Abstract

Purpose: This study aimed to determine the usefulness of machine learning techniques, specifically supervised and unsupervised learning, for assessing the cementation condition between a fixed partial denture (FPD) and its abutment using a resonance frequency analysis (RFA) system.

Methods: An in vitro mandibular model was used with a single crown and three-unit bridge made of a high-gold alloy. Two cementation conditions for the single crown and its abutment were set: cemented and uncemented. Four cementation conditions were set for the bridge and abutments: both crowns were firmly cemented, only the premolar crown was cemented, only the molar crown was cemented, and both crowns were uncemented. For RFA under cementation conditions, 16 impulsive forces were directly applied to the buccal side of the tested tooth at a frequency of 4 Hz using a Periotest device. Frequency responses were measured using a 3D accelerometer mounted on the occlusal surface of the tested tooth. Both supervised and unsupervised learning methods were used to analyze the datasets.

Results: Using supervised learning, the fully cemented condition had the highest feature importance scores at approximately 3000 Hz; the partially cemented condition had the highest scores between 1000 and 2000 Hz; and the highest scores for the uncemented condition were observed between 0 and 500 Hz. Using unsupervised learning, the uncemented and partially cemented conditions exhibited the highest anomaly scores.

Conclusions: Machine learning combined with RFA exhibits good potential to assess the cementation condition of an FPD and hence facilitate the early diagnosis of FPD retention loss.

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利用共振频率分析和机器学习检测固定局部义齿固位丧失的异常情况：体外研究

目的：本研究旨在确定机器学习技术（特别是监督学习和非监督学习）在使用共振频率分析（RFA）系统评估固定局部义齿（FPD）与其基台之间的粘接状况时的实用性：方法：使用一个体外下颌模型，模型上有一个高金合金制成的单冠和三单位桥体。为单冠及其基台设定了两种粘结条件：粘结和非粘结。牙桥和基台设置了四种粘结条件：两个牙冠均粘结牢固、仅前磨牙牙冠粘结牢固、仅磨牙牙冠粘结牢固以及两个牙冠均未粘结牢固。在粘接条件下进行 RFA 时，使用 Periotest 设备以 4 Hz 的频率在被测牙齿的颊侧直接施加 16 个脉冲力。使用安装在被测牙齿咬合面上的 3D 加速计测量频率响应。使用监督和非监督学习方法分析数据集：使用监督学习法，完全粘结条件在大约 3000 Hz 时特征重要性得分最高；部分粘结条件在 1000 到 2000 Hz 之间得分最高；未粘结条件在 0 到 500 Hz 之间得分最高。使用无监督学习，未固结和部分固结条件的异常得分最高：机器学习与 RFA 的结合在评估 FPD 的固位情况方面具有很好的潜力，因此有助于早期诊断 FPD 的固位丧失。

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

ACS Applied Electronic Materials Multiple-

CiteScore

7.20

自引率

4.30%

发文量

567