评估体外功能循环载荷下牙科植入物主要稳定性的新方法:使用合成骨的生物力学初步研究。

IF 2.2 4区 医学 Q2 DENTISTRY, ORAL SURGERY & MEDICINE
Journal of Periodontal and Implant Science Pub Date : 2024-06-01 Epub Date: 2023-09-07 DOI:10.5051/jpis.2301780089
Jean-Pierre Fischer, Stefan Schleifenbaum, Felicitas Gelberg, Thomas Barth, Toni Wendler, Sabine Löffler
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引用次数: 0

摘要

目的:本试验旨在开发一种新的测试装置,用于体外评估牙科植入物的主要稳定性。这是通过基于动态和循环载荷产生的微运动的连续记录来表征它们的长期行为来实现的。方法:将20个螺钉植入物,每个长度为11mm,直径为3.8mm(前磨牙)或4.3mm(磨牙),插入5个合成下颌模型的后部区域。生理性咀嚼负荷是通过将下颌骨的颊舌运动与垂直施加的咀嚼力叠加来模拟的。使用光学三维(3D)测量系统,在10000个测试周期内同时测定由交替偏心载荷引起的牙冠相对于牙槽骨的微运动。结果:从第10个周期到第10000个周期,牙冠的颊舌偏转显著增加(结论:在合成下颌模型中,种植牙在平均咀嚼力下的循环往复加载会产生显著的松动。在牙槽骨中观察到的回避运动表明,牙槽骨的解剖结构和屈服可能会显著影响力的分布,从而影响种植牙的力学行为功能性循环载荷下的外部植入物运动补充了已知的方法,并通过对动态骨-植入物相互作用提供更深入的理解,有助于植入物设计和外科技术的发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel approach to assessing the primary stability of dental implants under functional cyclic loading in vitro: a biomechanical pilot study using synthetic bone.

Purpose: This pilot study was conducted to develop a novel test setup for the in vitro assessment of the primary stability of dental implants. This was achieved by characterising their long-term behaviour based on the continuous recording of micromotions resulting from dynamic and cyclic loading.

Methods: Twenty screw implants, each 11 mm in length and either 3.8 mm (for premolars) or 4.3 mm (for molars) in diameter, were inserted into the posterior region of 5 synthetic mandibular models. Physiological masticatory loads were simulated by superimposing cyclic buccal-lingual movement of the mandible with a vertically applied masticatory force. Using an optical 3-dimensional (3D) measuring system, the micromotions of the dental crowns relative to the alveolar bone resulting from alternating off-centre loads were concurrently determined over 10,000 test cycles.

Results: The buccal-lingual deflections of the dental crowns significantly increased from cycle 10 to cycle 10,000 (P<0.05). The deflections increased sharply during the first 500 cycles before approaching a plateau. Premolars exhibited greater maximum deflections than molars. The bone regions located mesially and distally adjacent to the loaded implants demonstrated deflections that occurred synchronously and in the same direction as the applied loads. The overall spatial movement of the implants over time followed an hourglass-shaped loosening pattern with a characteristic pivot point 5.5±1.1 mm from the apical end.

Conclusions: In synthetic mandibular models, the cyclic reciprocal loading of dental implants with an average masticatory force produces significant loosening. The evasive movements observed in the alveolar bone suggest that its anatomy and yielding could significantly influence the force distribution and, consequently, the mechanical behaviour of dental implants. The 3D visualisation of the overall implant movement under functional cyclic loading complements known methods and can contribute to the development of implant designs and surgical techniques by providing a more profound understanding of dynamic bone-implant interactions.

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来源期刊
Journal of Periodontal and Implant Science
Journal of Periodontal and Implant Science DENTISTRY, ORAL SURGERY & MEDICINE-
CiteScore
3.30
自引率
5.30%
发文量
38
期刊介绍: Journal of Periodontal & Implant Science (JPIS) is a peer-reviewed and open-access journal providing up-to-date information relevant to professionalism of periodontology and dental implantology. JPIS is dedicated to global and extensive publication which includes evidence-based original articles, and fundamental reviews in order to cover a variety of interests in the field of periodontal as well as implant science.
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