Effect of Irrigation, Bur Size and Rotational Speed on Thermographic Heat at Implant Site Osteotomy Interface. An In Vitro Study.

IF 4.8 1区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE

Clinical Oral Implants Research Pub Date : 2025-06-16 DOI:10.1111/clr.14462

Karl Paeßens,Leonard van Bebber,Holger Zipprich,Paul Weigl

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Abstract

OBJECTIVES This study aimed to evaluate the impact of drill diameter, rotational speed, and irrigation on critical heat generation (≥ 47°C) at the dynamic bone-drill interface during dental implant osteotomy in pre-existing pilot bone cavities. MATERIAL AND METHODS Bone samples were cut such that immediate and direct thermographic measurements at the dynamic bone-drill interface were possible. Osteotomy cavities of 2.4 mm width were expanded to either 3.2 or 3.8 mm in cortical bovine bone with a thickness of 3.5 mm, using two-bladed twist drills at rotational speeds of 200, 600, or 1000 rpm, with or without saline irrigation. A logistic regression model was developed to predict the likelihood of reaching temperatures ≥ 47°C during osteotomy based on these parameters. RESULTS The absence of irrigation, major osteotomy diameter expansion, and higher rotational speeds were identified as significant risk factors for increasing the bone-drill interface temperature by more than 10°C (OR: irrigation 177.53; expansion step 9.94; speed by 400 rpm 4.94). No osteotomy performed at a low rotational speed (200 rpm) resulted in a critical temperature rise in either drill diameter group when irrigation was provided. However, temperatures exceeded 47°C across all groups when irrigation was absent. CONCLUSIONS Dental implant osteotomy procedures without irrigation result in critical heat stress at the bone-drill interface, even at low drilling speeds. Shortened protocols with large drill diameter differences of up to 1.4 mm can be safely implemented when drilling at 200 rpm with irrigation. Osteotomy protocols can therefore be shortened while maintaining safety. TRIAL REGISTRATION No clinical trial was included in the study.

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灌洗、骨块大小和转速对种植体截骨界面热成像的影响。一项体外研究

目的：本研究旨在评估钻头直径、转速和灌洗对在预先存在的先导骨腔中种植体截骨时动态骨-钻头界面临界产热（≥47°C）的影响。材料和方法骨样品被切割，使得在动态骨-钻界面上进行即时和直接的热成像测量成为可能。在厚度为3.5 mm的牛皮质骨中，使用双刃麻花钻，以200、600或1000 rpm的转速，进行或不进行盐水冲洗，将宽度为2.4 mm的切骨腔扩展到3.2或3.8 mm。基于这些参数，建立了一个逻辑回归模型来预测截骨术中达到≥47°C温度的可能性。结果未冲洗、主要截骨直径扩张和较高的旋转速度是导致骨-钻界面温度升高超过10°C的重要危险因素(OR：冲洗177.53；膨胀步骤9.94；转速由400转4.94)。在低转速（200转/分）下进行截骨术，在提供冲洗时，两组钻孔直径均未出现临界温升。然而，当没有灌溉时，所有组的温度都超过47°C。结论无冲洗的种植体截骨术即使在低钻孔速度下也会导致骨-钻头界面出现临界热应激。当以200转/分钟的速度进行灌水钻井时，可以安全地使用缩短的方案，最大钻孔直径差异可达1.4毫米。因此，截骨术可以在保证安全性的同时缩短手术时间。试验注册本研究未纳入临床试验。

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来源期刊

Clinical Oral Implants Research 医学-工程：生物医学

CiteScore

7.70

自引率

11.60%

发文量

149

审稿时长

3 months

期刊介绍： Clinical Oral Implants Research conveys scientific progress in the field of implant dentistry and its related areas to clinicians, teachers and researchers concerned with the application of this information for the benefit of patients in need of oral implants. The journal addresses itself to clinicians, general practitioners, periodontists, oral and maxillofacial surgeons and prosthodontists, as well as to teachers, academicians and scholars involved in the education of professionals and in the scientific promotion of the field of implant dentistry.