Pulpal Temperature Variances During Step-by-step Adhesive Restorative Procedure Using Three Different High-irradiance Light-curing Units.

IF 1.4 4区 医学 Q3 DENTISTRY, ORAL SURGERY & MEDICINE
R K Nakagawa, H H Araújo de Oliveira, L G Abreu, de Castro Albuquerque R, Dos Santos Alves Morgan Lf, Nogueira Moreira A
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Abstract

The rise in temperature in pulp tissues is related not only to heat transfer by high-irradiance light-curing units (LCUs), but also to restorative procedures. This research aimed to compare the rise in pulp temperature (PT) induced by three LCUs at each restorative step while considering the influence of resin composite shade and thickness. To accomplish this, the investigators used a proposed experimental model replicating pulp fluid circulation with a controlled, simulated intraoral temperature in bovine incisors. The recorded external and internal PT ranged from 36.7°C to 37.1°C and 32.7°C to 33.0°C, respectively. A significant decrease of internal temperature was recorded during class V preparation, followed by a progressive and representative rise of temperature in the subsequent restorative steps. The temperature was significantly higher during light curing of the adhesive system using Valo compared to light curing using Elipar and Radii Cal. However, none of the analyzed devices produced a temperature that exceeded the pulp tolerance limit (a temperature increase over 5.5°C). The paired test showed no significant difference in pulp temperature associated with the thickness of the increment of resin composite. However, shade was found to have more influence on the amount of energy absorbed by pulp tissue-A1 samples showed significantly higher temperature variation compared to samples using the A4 shade of resin composite. To conclude, the microcirculation and the performance of procedures under constant air-water flux dissipate the heat absorbed by the pulp. Additionally, the data suggest that all three LCUs analyzed can be safely used in clinical procedures, and that the resin composite shade may influence the amount of irradiance delivered to the tooth surface and represents a significant factor in pulp temperature variance.

使用三种不同的高辐照度光固化装置进行分步粘接修复过程中的牙髓温度差。
牙髓组织温度的升高不仅与高辐照度光固化装置(LCU)的热传递有关,还与修复过程有关。本研究旨在比较三种 LCU 在每个修复步骤中引起的牙髓温度(PT)升高,同时考虑树脂复合材料色调和厚度的影响。为此,研究人员在牛门牙中使用了一个拟议的实验模型,利用受控的模拟口内温度复制牙髓液循环。记录到的外部和内部 PT 分别为 36.7°C 至 37.1°C 和 32.7°C 至 33.0°C。在五级预备过程中记录到内部温度明显下降,随后的修复步骤中温度逐渐上升,且具有代表性。与使用 Elipar 和 Radii Cal 光固化相比,使用 Valo 光固化粘接剂系统时的温度明显更高。但是,没有一个分析设备产生的温度超过牙髓耐受极限(温度上升超过 5.5°C)。配对测试表明,牙髓温度与树脂复合材料的增量厚度没有明显差异。然而,色调对牙髓组织吸收能量的影响更大--与使用 A4 色调树脂复合材料的样品相比,使用 A1 色调树脂复合材料的样品显示出明显更高的温度变化。总之,微循环和恒定气-水通量下的程序性能可耗散牙髓吸收的热量。此外,数据还表明,所分析的所有三种低密度聚合单元都可以安全地用于临床程序,而树脂复合材料的色调可能会影响传递到牙齿表面的辐照量,并成为牙髓温度变化的一个重要因素。
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
Operative dentistry
Operative dentistry 医学-牙科与口腔外科
CiteScore
4.00
自引率
9.10%
发文量
124
审稿时长
6-12 weeks
期刊介绍: Operative Dentistry is a refereed, international journal published bi-monthly and distributed to subscribers in over 50 countries. In 2012, we printed 84 articles (672 pages). Papers were submitted by authors from 45 countries, in the categories of Clinical Research, Laboratory Research, Clinical Techniques/Case Presentations and Invited Papers, as well as Editorials and Abstracts. One of the strong points of our journal is that our current publication time for accepted manuscripts is 4 to 6 months from the date of submission. Clinical Techniques/Case Presentations have a very quick turnaround time, which allows for very rapid publication of clinical based concepts. We also provide color for those papers that would benefit from its use. The journal does not accept any advertising but you will find postings for faculty positions. Additionally, the journal also does not rent, sell or otherwise allow its subscriber list to be used by any other entity
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