机械振荡IPR系统的实验验证。

IF 1.1 Q3 DENTISTRY, ORAL SURGERY & MEDICINE
Minerva dental and oral science Pub Date : 2024-02-01 Epub Date: 2023-09-28 DOI:10.23736/S2724-6329.23.04815-5
Elisabetta Cretella Lombardo, Saveria Loberto, Alessia Balboni, Francesca C DE Razza, Silvia Fanelli, Chiara Pavoni
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引用次数: 0

摘要

背景:近端牙釉质复位术(IPR)是一种临床手术,包括对牙釉质近端表面进行复位和解剖重建,作为获得空间的一种方法。长期以来,人们一直在讨论与这种临床程序相关的生物学效应。因此,本研究的目的是评估邻区牙釉质还原(IPR)振荡机械系统的牙釉质还原效率和对牙釉质表面的影响。方法:15个完整的振荡IPR序列包括一个开启器(0.1mm),两个用于活性IPR阶段的金属条(0.2和0.3mm),三个用于活性和初始抛光阶段的树脂条(0.4和0.5mm),以及一个用于抛光阶段的树脂条(0.15mm)。通过交替干滑动的摩擦学试验(线性往复式摩擦计;C.S.M.Instruments,Peseux,Switzerland),在15颗新拔出的牙齿上选择并测试序列。通过使用TayMap软件对处理过的表面进行3D分析。然后,在摩擦学分析之前和之后,使用FEI Quanta 200(FEI,Hillsboro,OR,USA)在30.00 kV的高真空下对搪瓷表面进行定性评估。在30倍、100倍和300倍的放大倍率下获得图像。结果:与未处理的搪瓷表面相比,所有处理过的搪瓷表面都观察到最小的表面不规则性。三维分析显示,经过摩擦学试验后,磨损模式一致。同时,SEM分析显示,在整个机械IPR序列之后,处理过的表面上出现了光滑和规则的磨损线。所示的宏观不规则性可以被认为与未处理表面的不规则性相似。结论:采用标准振荡IPR序列可以有效减少邻间牙釉质,留下规则和谐的表面。在活跃的IPR阶段结束时,应始终执行适当的抛光程序,以确保良好的长期预后和对生物结构的适当尊重。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental validation of mechanical oscillating IPR system.

Background: Interproximal enamel reduction (IPR) is a clinical procedure which involves reduction and anatomic recontouring of interproximal surfaces of enamel as a method of gaining space. The biological effects related to this clinical procedure have long been discussed. Thus, the aim of this study was to evaluate the enamel reduction efficiency and the effects on enamel surfaces of the oscillating mechanical system for interproximal enamel reduction (IPR).

Methods: Fifteen complete oscillating IPR sequences included one opener (0.1 mm), two metallic strips for active IPR phase (0.2 and 0.3 mm), three resin strips for active and initial polishing phases (0.4 and 0.5 mm), and one resin strip for polishing phase (0.15 mm). Sequences were selected and tested on fifteen freshly extracted teeth by means of tribological tests with alternative dry-sliding motion (Linear Reciprocating Tribometer; C.S.M. Instruments, Peseaux, Switzerland). A 3D analysis of treated surfaces was performed by using a TayMap software. Then, enamel surfaces were qualitatively evaluated before and after the tribological analysis, with a FEI Quanta 200 (FEI, Hillsboro, OR, USA) in high vacuum at 30.00 kV. Images were acquired at a 30×, 100× and 300× magnification.

Results: Minimum surface irregularities were observed on all treated enamel surfaces when compared with untreated ones. The 3D analysis showed a uniform wear pattern after tribological tests. Meanwhile, the SEM analysis revealed smooth and regular wear lines on treated surfaces after the entire mechanical IPR sequence. The macroscopic irregularities illustrated can be considered similar to those of untreated surfaces.

Conclusions: The adoption of a standardized oscillating IPR sequence allows an efficient reduction of the interproximal enamel, leaving regular and harmonious surfaces. Adequate polishing procedures should always be performed at the end of active IPR phases in order to guarantee a good long-term prognosis and proper respect of biological structures.

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Minerva dental and oral science
Minerva dental and oral science DENTISTRY, ORAL SURGERY & MEDICINE-
CiteScore
2.50
自引率
5.00%
发文量
61
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