Accuracy of thermal microsensors embedded in orthodontic retainers of different material composition and thickness: An in vitro study

IF 0.5 4区医学 Q4 DENTISTRY, ORAL SURGERY & MEDICINE

Australasian Orthodontic Journal Pub Date : 2023-01-01 DOI:10.2478/aoj-2023-0005

Khaled Wafaie, H. Mohammed, Ahmed M. El Sergani, Ibtehal Almagrami, Ahmed G. Qaisi, Qiao Yiqiang

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引用次数: 2

Abstract

Abstract Objectives: The present research aimed to assess the accuracy and precision of the TheraMon® microsensor embedded in different thicknesses of Hawley retainers (HR) for comparison with vacuum formed retainers (VFR). Methods: Thirty microsensors contained within different thicknesses and composition of retainers were divided into three equal groups: Group A thick coverage HR (3 mm), Group B thin coverage HR (1 mm), and Group C VFR (1 mm). The microsensors were immersed in thermostatic water at a controlled temperature of 35°C, which corresponds to the average intra-oral temperature. After 1 week, data were gathered using the TheraMon® client software and analysed using ANOVA and Turkey’s HSD tests. Results: All TheraMon® microsensors were functional and produced uninterrupted recordings during the 1-week test period. Thermal detection differed between the three removable retainer groups. A near accurate thermostatic water detection was noticed with the thin HR with a mean temperature of 34.81 ± 0.04°C, followed by VFR 34.77 ± 0.09°C, and finally the thick HR 34.73 ± 0.05°C (ANOVA p-value = 0.025). A between-group comparison showed a significant mean difference (MD) between the thin and thick HR groups (MD: 0.08, p-value = 0.01). However, there were no significant differences between VFR and neither the thick Hawley (MD: 0.04, p-value = 0.27) nor the thin Hawley group (MD: -0.03, p-value = 0.39). Conclusion: A removable retainer’s variation in material thickness and composition could induce small but detectable changes in the precision of thermal detection by TheraMon® microsensors.

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热微传感器嵌入不同材料组成和厚度的正畸固位器的准确性:体外研究

摘要目的:本研究旨在评估嵌入不同厚度霍利固位器(HR)的TheraMon®微传感器的准确性和精密度，并与真空成形固位器(VFR)进行比较。方法:将30个微传感器在不同厚度和组成的固位器内均匀分为3组:A组厚覆盖HR (3mm)， B组薄覆盖HR (1mm)， C组VFR (1mm)。将微传感器浸入恒温水中，控制温度为35℃，与口腔内平均温度相对应。1周后，使用TheraMon®客户端软件收集数据，并使用方差分析和土耳其HSD测试进行分析。结果:所有TheraMon®微传感器功能正常，并在1周的测试期间产生不间断的记录。三组可移动固位器之间的热检测存在差异。薄层HR(平均温度34.81±0.04°C)、厚层HR(平均温度34.77±0.09°C)和厚层HR(平均温度34.73±0.05°C)具有较好的恒温水检测精度(方差分析p值= 0.025)。组间比较，HR薄组与HR厚组的平均差异(MD)显著(MD: 0.08, p值= 0.01)。然而，VFR与厚Hawley组(MD: 0.04, p值= 0.27)和薄Hawley组(MD: -0.03, p值= 0.39)之间均无显著差异。结论:可移动固位器的材料厚度和成分的变化会引起TheraMon®微传感器热检测精度的微小但可检测的变化。

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

Australasian Orthodontic Journal Dentistry-Orthodontics

CiteScore

0.80

自引率

25.00%

发文量

期刊介绍： The Australasian Orthodontic Journal (AOJ) is the official scientific publication of the Australian Society of Orthodontists. Previously titled the Australian Orthodontic Journal, the name of the publication was changed in 2017 to provide the region with additional representation because of a substantial increase in the number of submitted overseas'' manuscripts. The volume and issue numbers continue in sequence and only the ISSN numbers have been updated. The AOJ publishes original research papers, clinical reports, book reviews, abstracts from other journals, and other material which is of interest to orthodontists and is in the interest of their continuing education. It is published twice a year in November and May. The AOJ is indexed and abstracted by Science Citation Index Expanded (SciSearch) and Journal Citation Reports/Science Edition.