Mullan F, Mylonas P, Parkinson C, Bartlett D, Austin R S
Restorative Dentistry, School of Dental Sciences, Newcastle University, Framlington Place, Newcastle upon Tyne NE2 4BW, United Kingdom.
Tissue Engineering and Biophotonics, King's College London Dental Institute, Room 36, Floor 17, Tower Wing, Guy's Hospital, London SE1 9RT, United Kingdom.
Dent Mater. 2018 Mar;34(3):531-537. doi: 10.1016/j.dental.2017.12.012. Epub 2018 Jan 6.
To assess the precision of optical profilometry for characterising the 3D surface roughness of natural and polished human enamel in order to reliably quantify acid mediated surface roughness changes in human enamel.
Forty-two enamel samples were prepared from extracted human molars and either polished flat or left unmodified. To investigate precision, the variability of thirty repeated measurements of five areas of one polished and one natural enamel sample was assessed using 655nm Confocal Laser Profilometry. Remaining samples were subjected to forty-five minutes orange juice erosion and microstructural changes were analysed using Sa roughness change (μm) and qualitatively using surface/subsurface confocal microscopy.
Enamel surface profilometry from the selected areas revealed maximal precision of 5nm for polished enamel and 23nm for natural enamel. After erosion, the polished enamel revealed a 48% increase in mean (SD) Sa roughness of 0.10 (0.07)μm (P<0.05), whereas in contrast the natural enamel revealed a 45% decrease in mean (SD) roughness of -0.32 (0.42)μm (P<0.05). These data were supported by qualitative confocal images of the surface/subsurface enamel.
This study demonstrates a method for precise surface texture measurement of natural human enamel. Measurement precision was superior for polished flat enamel in contrast to natural enamel however, natural enamel responds very differently to polished enamel when exposed to erosion challenges. Therefore, thus future studies characterising enamel surface changes following erosion on natural enamel may provide more clinically relevant responses in comparison to polished enamel.
评估光学轮廓术用于表征天然和抛光人牙釉质三维表面粗糙度的精度,以便可靠地量化酸介导的人牙釉质表面粗糙度变化。
从拔除的人类磨牙制备42个牙釉质样本,要么抛光成平面,要么保持原状。为研究精度,使用655nm共聚焦激光轮廓术评估一个抛光牙釉质样本和一个天然牙釉质样本五个区域的30次重复测量的变异性。其余样本进行45分钟橙汁侵蚀,使用Sa粗糙度变化(μm)分析微观结构变化,并使用表面/亚表面共聚焦显微镜进行定性分析。
所选区域的牙釉质表面轮廓术显示,抛光牙釉质的最大精度为5nm,天然牙釉质为23nm。侵蚀后,抛光牙釉质的平均(标准差)Sa粗糙度从0.10(0.07)μm增加了48%(P<0.05),而相比之下,天然牙釉质的平均(标准差)粗糙度从-0.32(0.42)μm降低了45%(P<0.05)。这些数据得到了牙釉质表面/亚表面定性共聚焦图像的支持。
本研究展示了一种精确测量天然人牙釉质表面纹理的方法。与天然牙釉质相比,抛光平面牙釉质的测量精度更高,然而,在受到侵蚀挑战时,天然牙釉质与抛光牙釉质的反应非常不同。因此,与抛光牙釉质相比,未来表征天然牙釉质侵蚀后表面变化的研究可能会提供更具临床相关性的反应。
