Micro energy-dispersive x-ray fluorescence spectrometry study of dentin coating with nanobiomaterials

Biophotonics South America Pub Date : 2015-06-19 DOI:10.1117/12.2180965

L. Soares, Sidnei Nahórny, F. R. Marciano, H. Zanin, A. Lobo

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引用次数: 1

Abstract

New biomaterials such as multi-walled carbon nanotubes oxide/graphene oxide (MWCNTO/GO), nanohydroxyapatite (nHAp) and combination of them together or not to acidulated phosphate fluoride gel (F) have been tested as protective coating before root dentin erosion. Fourteen bovine teeth were cleaned, polished, divided into two parts (n=28) and assigned to seven groups: (Control) – without previous surface treatment; F treatment; nHAp; MWCNTO/GO; F+nHAp; F+MWCNTO/GO and F+MWCNTO/GO/nHAp composites. Each sample had two sites of pre-treatments: acid etched area and an area without treatment. After the biomaterials application, the samples were submitted to six cycles (demineralization: orange juice, 10 min; remineralization: artificial saliva, 1 h). Micro energy-dispersive X-ray fluorescence spectrometry (μ-EDXRF) mapping area analyses were performed after erosive cycling on both sites (n=84). μ-EDXRF mappings showed that artificial saliva and MWCNTO/GO/nHAp/F composite treatments produced lower dentin demineralization than in the other groups. Exposed dentin tubules allowed better interaction of nanobiomaterials than in smear layer covered dentin. Association of fluoride with other biomaterials had a positive influence on acid etched dentin. MWCNTO/GO/nHAp/F composite treatment resulted in levels of demineralization similar to the control group.

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纳米生物材料牙本质涂层的微能量色散x射线荧光光谱研究

新型生物材料如多壁氧化碳纳米管/氧化石墨烯(MWCNTO/GO)、纳米羟基磷灰石(nHAp)以及它们的组合或不酸化氟化磷酸盐凝胶(F)作为牙根侵蚀前的保护涂层进行了测试。14颗牛牙齿被清洁、抛光，分成两部分(n=28)，分为7组:(对照组)-之前没有表面处理;F治疗;nHAp;MWCNTO /去;F + nHAp;F+MWCNTO/GO和F+MWCNTO/GO/nHAp复合材料。每个样品有两个预处理点:酸蚀区和未处理区。应用生物材料后，样品进行6个循环(脱矿:橙汁，10 min;再矿化:人工唾液，1 h)。侵蚀循环后，对两个部位(n=84)进行微能量色散x射线荧光光谱(μ-EDXRF)作图区域分析。μ-EDXRF图谱显示，人工唾液和MWCNTO/GO/nHAp/F复合处理的牙本质脱矿率低于其他处理组。暴露的牙本质小管比涂抹层覆盖的牙本质能更好地与纳米生物材料相互作用。氟化物与其他生物材料的结合对酸蚀牙本质有积极的影响。MWCNTO/GO/nHAp/F复合处理导致脱矿水平与对照组相似。

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Biophotonics South America

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