Monitoring natural frequency for osseointegration and bone remodeling induced by dental implants

2009 IEEE International Conference on Computational Intelligence for Measurement Systems and Applications Pub Date : 2009-05-11 DOI:10.1109/CIMSA.2009.5069953

Wei Li, D. Lin, Qing Li, M. Swain

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引用次数: 3

Abstract

Dental implantation to a certain extent changes the biomechanical environment, thereby leading to the surrounding supporting bone to remodel. Computational remodeling has been well established in lone bone community and a range of mathematical formulae have been available with acceptable accuracy and effectiveness. However, there has been limited information and remodeling data available for dental scenarios, despite its predominate importance and popularity in clinic. An in-vivo frequency test technique was developed to determine the extent of osseointegration and remodeling passively. It could not help predict on-going healing and consequence of implantation. This paper develops a predictive model to relate osseointegration and bone remodeling to a progressive change in natural frequencies, thereby better utilizing the data acquired from experiments. The results allow us to establish a more realistic remodeling formula, thereby making a patient-specific prediction possible.

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监测种植体诱导骨整合和骨重塑的自然频率

种植牙在一定程度上改变了生物力学环境，从而导致周围支撑骨的重塑。计算重建已经很好地建立在孤独骨群落和一系列的数学公式，具有可接受的准确性和有效性。然而，有有限的信息和重塑数据可用于牙科场景，尽管其在临床上占主导地位的重要性和普及。开发了一种体内频率测试技术来确定骨整合和被动重塑的程度。它不能帮助预测持续愈合和植入的后果。本文建立了一个预测模型，将骨整合和骨重塑与自然频率的渐进变化联系起来，从而更好地利用从实验中获得的数据。结果使我们能够建立一个更现实的重塑公式，从而使患者特异性预测成为可能。

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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2009 IEEE International Conference on Computational Intelligence for Measurement Systems and Applications

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