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Reliability of a Wearable Motion System for Clinical Evaluation of Dynamic Lumbar Spine Function. 用于动态腰椎功能临床评估的可穿戴运动系统的可靠性

Advances in complementary & alternative medicine

Pub Date : 2022-01-01 Epub Date: 2022-07-06 DOI: 10.31031/acam.2022.07.000660

Hamed Hani, Reid Souchereau, Anas Kachlan, Halle Harris, Jonathan Dufour, Alexander Aurand, Prasath Mageswaran, Madison Hyer, William Marras

Background: Low back pain is the leading cause of disability worldwide. Subjective assessments are often used to assess extent of functional limitations and treatment response. However, these measures have poor sensitivity and are influenced by the patient's perception of their condition. Currently, there are no objective tools to effectively assess the extent of an individual's functional disability and inform clinical decision-making.

Objective: The purpose of this study was to evaluate the reliability of a wearable motion system based on Inertial Measurement Unit (IMU) sensors for use in quantifying low back function.

Methods: Low back motion assessments were conducted by 3 novice raters on 20 participants using an IMU-based motion system. These assessments were conducted over 3 days with 2 days of rest in between tests. A total of 37 kinematic parameters were extracted from the low back motion assessment in all three anatomical planes. Intra-rater and inter-rater reliability were assessed using Intraclass Correlation Coefficients (ICCs) calculated from repeated measures, mixed-effects regression models.

Results: Lumbar spine-specific kinematic parameters showed moderate to excellent reliability across all kinematic parameters. The ICC values ranged between 0.84-0.93 for intra-rater reliability and 0.66 - 0.83 for inter-rater reliability. In particular, velocity measures showed higher reliabilities than other kinematic variables.

Conclusion: The IMU-based wearable motion system is a valid and reliable tool to objectively assess low back function. This study demonstrated that lumbar spine-specific kinematic metrics have the potential to provide good, repeatable metrics to assess clinical function over time.

背景：腰背痛是导致全球残疾的主要原因。主观评估通常用于评估功能受限程度和治疗反应。然而，这些测量方法的灵敏度较低，而且受到患者对自身病情看法的影响。目前，还没有客观的工具来有效评估个人的功能障碍程度并为临床决策提供依据：本研究旨在评估基于惯性测量单元（IMU）传感器的可穿戴运动系统用于量化腰背功能的可靠性：由 3 名新手评定员使用基于 IMU 的运动系统对 20 名参与者进行腰背运动评估。这些评估为期 3 天，两次测试之间休息 2 天。从所有三个解剖平面的腰背运动评估中共提取了 37 个运动学参数。使用重复测量混合效应回归模型计算出的类内相关系数（ICC）对评分者内部和评分者之间的可靠性进行了评估：结果：在所有运动学参数中，腰椎特定运动学参数显示出中等至极佳的可靠性。评分者内部可靠性的 ICC 值介于 0.84-0.93 之间，评分者之间的可靠性介于 0.66-0.83 之间。结论：基于 IMU 的可穿戴运动系统在运动学方面具有很高的可靠性：结论：基于 IMU 的可穿戴运动系统是客观评估腰背功能的有效而可靠的工具。这项研究表明，腰椎特定的运动学指标有可能提供良好的、可重复的指标，以评估一段时间内的临床功能。

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引用次数: 0

Synthesis of Hydroxyapatite 2-Hydroxyethyl Methacrylate Blended Material for Dentistry 牙科用羟基磷灰石-甲基丙烯酸羟乙酯混合材料的合成

Advances in complementary & alternative medicine

Pub Date : 2019-07-15 DOI: 10.31031/acam.2019.04.000600

R. Gunaratne

This study mainly focused to find out suitability of Eppawala Sol Gel Synthesized Hydroxyapatite (SGHAp) as a dental filling material, by comparing and contrasting it with human tooth as well as commercially available Glass Ionomer Cement (GIC), which is currently used for dental applications in Sri Lanka. Selected commercial product containing two main parts as GIC majorly consists of Fluor aluminosilicate glass and 2-hydroxyethyl methacrylate polymer, is currently used self-curing conventional glass ionomer restorative material in Sri Lankan government hospitals which indicates for non-stress bearing restorations, deciduous teeth restorations, geriatric restorations, intermediate restorative and base material for cavities using sandwich technique, cervical restorations, cold build ups, temporary fillings and dentine replacement etc. It is prepared directly before use by mixing its powder component with polymer component clinically and resulted paste is cured within a few seconds [26].

本研究主要通过将Eppawala溶胶-凝胶合成羟基磷灰石（SGHAp）与人类牙齿以及目前在斯里兰卡用于牙科应用的市售玻璃离子水泥（GIC）进行比较和对比，来了解其作为牙科填充材料的适用性。选定的商业产品包含两个主要部分，因为GIC主要由氟铝硅酸盐玻璃和甲基丙烯酸2-羟基乙酯聚合物组成，目前在斯里兰卡政府医院使用的是自固化传统玻璃离聚物修复材料，用于非应力修复、乳牙修复、老年修复，用于蛀牙的中间修复和基底材料，包括夹层技术、颈部修复、冷成型、临时填充物和牙本质置换等。在使用前，通过将其粉末成分与聚合物成分混合在临床上直接制备，制成的糊剂在几秒内固化[26]。

引用次数: 2

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全部化学•材料生命科学医学物理工程技术环境•农林材料科学地球科学法学管理学化学环境科学与生态学计算机科学教育学经济学农林科学人文科学生物学数学物理与天体物理心理学综合性期刊其他工业工程理学历史学农学文学信息工程

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