Effects of salivary contamination on the shear bond strengths of universal adhesives to dentin.

IF 0.9 4区 医学 Q3 DENTISTRY, ORAL SURGERY & MEDICINE
American journal of dentistry Pub Date : 2024-10-01
Mark A Latta, Toshiki Takamizawa, Scott M Radniecki, Wayne W Barkmeier, Frank Pfefferkorn, Luisa M Antunes, Melissa R Siebert, Alvin R Samuels
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引用次数: 0

Abstract

Purpose: To evaluate the shear bond strength (SBS) of resin composite to dentin contaminated with artificial saliva (AS) containing mucin and amylase using an experimental method controlling the volume of saliva and adhesive in a defined surface area.

Methods: Flat bonding surfaces were prepared on extracted human molars (320 grit surface). Using adhesive tape, a 4.5 mm bonding window was prepared on the dentin surfaces. Groups (n= 12) were prepared using the etch & rinse (ER) or self-etch (SE) modes for Adhese Universal (ADH), Scotchbond Universal Plus (SBU), and Prime & Bond active (PBA) dental adhesives (DA). For the control (C) groups, the adhesives were applied per the manufacturers' instructions with 2.0 µl or 3.0 µl of the adhesive. For the saliva-contaminated groups, 1.0 µl of artificial saliva with mucin was applied in the bonding window either dried or allowed to remain wet before the application of either 2.0 µl or 3.0 µl of the adhesive. After the adhesive film was air dried and light cured using an Ultradent bonding fixture, Spectrum TPH3 was bonded to the prepared surfaces. After water storage for 24 hours at 37°C, the specimens were debonded and shear bond strength (SBS) was calculated (MPa). A Kruskal-Wallis test with Bonferroni correction was used to determine group differences (P< 0.05). Scanning electron microscopy (SEM) was performed to visualize the interfacial surfaces prepared using an ion-etching technique.

Results: Mean SBS for the three adhesives were similar in both ER and SE modes to uncontaminated dentin surfaces for all the control groups. For dentin contaminated with dried or wet saliva, both the surface condition and the adhesive system were significant factors at a confidence level of 95%. For the dried saliva test groups, ADH and PBA with 3.0 µl of adhesive generated similar SBS values to controls while SBU generated lower values. Lower values were generated when using 2.0 µl of adhesive for the three adhesives in SE and ER modes except for PBA in the ER mode. Using wet saliva and 3.0 µl of adhesive ADH and SBU generated lower SBS values while PBA generated similar values to controls. Under SEM, morphology at the adhesive dentin interfaces was similar among the adhesives to uncontaminated dentin but notable differences were observed for SBU and ADH for both wet and dried saliva-contaminated surfaces.

Clinical significance: Salivary contamination differentially affects shear bond strength and the morphology of the bonded interface of universal adhesives to dentin. These differences are specific to the adhesive tested and are influenced by using the etch and rinse or self-etch strategies and the volume of adhesive used. When concerned about salivary contamination clinically, maximizing the volume of adhesive on the substrate may help mitigate the deleterious effects of saliva contamination.

唾液污染对通用粘合剂与牙本质剪切粘接强度的影响。
目的:采用一种实验方法,在确定的表面区域内控制唾液和粘合剂的体积,以评估树脂复合材料与被含有粘蛋白和淀粉酶的人工唾液(AS)污染的牙本质的剪切粘接强度(SBS):在拔出的人类臼齿上制备平整的粘接表面(320 粗细度表面)。使用胶带在牙本质表面制备 4.5 毫米的粘接窗口。对 Adhese Universal (ADH)、Scotchbond Universal Plus (SBU) 和 Prime & Bond active (PBA) 牙科粘合剂 (DA) 使用蚀刻和冲洗 (ER) 或自蚀刻 (SE) 模式制备组(n= 12)。对照 (C) 组按照生产商的说明使用 2.0 µl 或 3.0 µl 的粘合剂。对于唾液污染组,在涂抹 2.0 微升或 3.0 微升粘合剂之前,先在粘合窗口涂抹 1.0 微升含有粘蛋白的人工唾液,要么晾干,要么保持湿润。使用 Ultradent 粘接夹具对粘接膜进行风干和光固化后,将 Spectrum TPH3 粘接到准备好的表面上。在 37°C 水温下存放 24 小时后,对试样进行脱粘,并计算剪切粘接强度(SBS)(兆帕)。采用 Kruskal-Wallis 检验和 Bonferroni 校正来确定组间差异(P< 0.05)。使用扫描电子显微镜(SEM)观察使用离子蚀刻技术制备的界面表面:在所有对照组中,三种粘合剂在 ER 和 SE 模式下的平均 SBS 与未受污染的牙本质表面相似。对于被干唾液或湿唾液污染的牙本质,在 95% 的置信水平下,表面条件和粘合剂系统都是显著因素。对于干唾液测试组,使用 3.0 µl 粘合剂的 ADH 和 PBA 产生的 SBS 值与对照组相似,而 SBU 产生的值较低。在 SE 和 ER 模式下,三种粘合剂使用 2.0 µl 粘合剂产生的 SBS 值都较低,只有 PBA 在 ER 模式下除外。使用湿唾液和 3.0 µl 粘合剂时,ADH 和 SBU 产生的 SBS 值较低,而 PBA 产生的值与对照组相似。在扫描电子显微镜下,粘合剂牙本质界面的形态与未受污染的牙本质相似,但在受唾液污染的湿表面和干表面,SBU 和 ADH 都观察到明显的差异:唾液污染会对通用粘合剂与牙本质的剪切粘接强度和粘接界面的形态产生不同的影响。这些差异是测试的粘合剂所特有的,并受到蚀刻冲洗或自酸洗策略以及粘合剂用量的影响。当临床上担心唾液污染时,最大限度地增加基底上的粘合剂用量可能有助于减轻唾液污染的有害影响。
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
American journal of dentistry
American journal of dentistry 医学-牙科与口腔外科
CiteScore
2.40
自引率
7.10%
发文量
57
审稿时长
1 months
期刊介绍: The American Journal of Dentistry, published by Mosher & Linder, Inc., provides peer-reviewed scientific articles with clinical significance for the general dental practitioner.
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