A quantitative and non-invasive vibrational method to assess bone fracture healing: a clinical case study.

Q2 Medicine

International Biomechanics Pub Date : 2021-12-01 DOI:10.1080/23335432.2021.1874528

Lorenza Mattei, Miriam Di Fonzo, Stefano Marchetti, Francesca Di Puccio

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引用次数: 7

Abstract

Orthopaedics needs a robust diagnostic tool that can help or even replace traditional radiography in bone healing assessment, thus reducing patient exposure to ionizing radiation. We used a vibrational method to assess the healing of a complex fracture treated with external fixation, exploiting a quantitative and non-invasive procedure. Callus stiffening was monitored from the time of surgery until the fixator was removed. Our approach overcomes previous limitations and involves a longer period of healing monitoring (about 9 months), very frequent tests (bi-weekly), and the analysis of a single test configuration. The healing process was monitored by analysing the percentage increments of the squared resonant frequencies (SFIs), related to the stiffness variation and the changes in the frequency response functions. The results were validated by X-rays images, and revealed that the most sensitive parameter to quantify the healing was the SFI of the first resonant frequency which increased by about 20% per month during the formation of the woven callus and up to about 50% at the end of healing completion. This study confirms the potential of the vibrational method as an alternative to radiography in fracture healing assessment.

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一种定量和非侵入性的振动方法评估骨折愈合:一个临床病例研究。

骨科需要一种强大的诊断工具，可以帮助甚至取代传统的骨愈合评估放射摄影，从而减少患者暴露于电离辐射。我们采用振动法评估外固定治疗的复杂骨折的愈合情况，这是一种定量和非侵入性的方法。从手术开始监测骨痂僵硬情况，直到取出固定架。我们的方法克服了以前的限制，包括更长的愈合监测期(约9个月)，非常频繁的测试(每两周)，以及对单个测试配置的分析。通过分析与刚度变化和频率响应函数变化相关的平方共振频率(SFIs)的百分比增量来监测愈合过程。x射线图像验证了结果，结果表明，第一个共振频率的SFI是量化愈合的最敏感参数，在编织骨痂形成期间每月增加约20%，在愈合完成时增加约50%。这项研究证实了振动法在骨折愈合评估中替代x线摄影的潜力。

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

International Biomechanics Medicine-Rehabilitation

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

17 weeks

期刊介绍： International Biomechanics is a fully Open Access biomechanics journal that aims to foster innovation, debate and collaboration across the full spectrum of biomechanics. We publish original articles, reviews, and short communications in all areas of biomechanics and welcome papers that explore: Bio-fluid mechanics, Continuum Biomechanics, Biotribology, Cellular Biomechanics, Mechanobiology, Mechano-transduction, Tissue Mechanics, Comparative Biomechanics and Functional Anatomy, Allometry, Animal locomotion in biomechanics, Gait analysis in biomechanics, Musculoskeletal and Orthopaedic Biomechanics, Cardiovascular Biomechanics, Plant Biomechanics, Injury Biomechanics, Impact Biomechanics, Sport and Exercise Biomechanics, Kinesiology, Rehabilitation in biomechanics, Quantitative Ergonomics, Human Factors engineering, Occupational Biomechanics, Developmental Biomechanics.