Efecto del ultrasonido endodóntico sobre clorhexidina al 2% en la formación de paracloroanilina. Estudio in vitro

Daniela Onetto , Verónica Correa , Pilar Araya , Ismael Yévenes , Miguel Neira
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引用次数: 2

Abstract

Introduction

Chlorhexidine (CHX) in aqueous solution is hydrolysed to p-chloroaniline (PCA), a process accelerated by increasing temperature and pH. Using endodontic ultrasound based on oscillation phenomena, cavitation, and acoustic microstreaming generates heat, affecting the CHX.

Objective

The aim of this in vitro study was to identify and quantify the physical-chemical changes, temperature and pH, and the amount of PCA formed by increasing the temperature of 2% CHX by endodontic ultrasound.

Materials and methods

Samples of 2% CHX were activated for 30, 60, 90, and 120 seconds with endodontic ultrasound 24,500 Hz. The pH and temperature were measured before and after activation, as well as the formation and amount of PCA, by reading and recording the result obtained from a standard calibration curve reading at 375 nm in a UV-visible light spectrophotometer.

Results

Independent of time, ultrasound increased the temperature of 2% CHX by 1 °C and acidified the solution. No significant changes were recorded in pH and temperature. No staining or precipitates were observed in samples ultrasonically activated at different times. Samples read at 375 nm showed no measurable PCA values. Absorption spectra of 2% CHX and 2% CHX activated for more than 60 seconds showed different spectral curves, peaks, and absorbance values.

Conclusions

Ultrasound increased the temperature and acidified the solution of CHX for all application times. No PCA was detected by visible spectrophotometry. Absorption spectra of 2% CHX activated with ultrasound at different times differs from 2% CHX without activation.

These differences indicate degradation of CHX and possible presence of PCA.

根管超声对2%洗必泰对对氯苯胺形成的影响。体外研究
水溶液中的氯己定(CHX)水解为对氯苯胺(PCA),该过程通过温度和ph的升高而加速。利用基于振荡现象的根管超声,空化和声微流产生热量,影响CHX。目的通过牙髓超声对2% CHX进行温度升高处理,确定其体外理化变化、温度、pH值及PCA形成量。材料和方法2% CHX样品在24,500 Hz的牙髓超声下分别激活30、60、90和120秒。通过在紫外可见分光光度计上读取并记录在375 nm处读取标准校准曲线的结果,测量活化前后的pH和温度,以及PCA的形成和数量。结果超声使2% CHX的温度升高1℃,使溶液酸化,与时间无关。pH值和温度无明显变化。超声活化不同时间的样品均未见染色或沉淀。在375 nm处读取的样品没有可测量的PCA值。激活60秒以上的2% CHX和2% CHX的吸收光谱显示出不同的光谱曲线、峰和吸光度值。结论超声在所有应用时间内均能提高CHX溶液的温度和酸化程度。可见分光光度法未检测到PCA。超声激活的2% CHX在不同时间的吸收光谱与未激活的2% CHX不同。这些差异表明CHX的降解和可能存在PCA。
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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