Angle Orthod. 2021 Sep 1;91(5):576-582. doi: 10.2319/090120-761.1.
To quantify differences in the etch quality of enamel within and between human teeth, which has not previously been attempted.
The buccal right and left halves of 27 extracted human teeth were randomly allocated to scanning electron microscopy (SEM) or micro-computed tomography (μCT) for evaluation. The buccal surfaces were pumiced, etched with 37% phosphoric acid gel etchant for 15 seconds, rinsed, and air dried. Each tooth was divided into three regions (incisal, middle, and cervical) and viewed after etching at 1200× magnification with SEM. The μCT scans were taken before and after etching to calculate apparent and material mineral densities.
SEM showed greater aprismatic enamel and poorer etch quality (ie, significantly less percentage enamel) for the posterior than anterior teeth and for the cervical region than for the incisal and middle regions of all teeth. Although there were no density differences prior to etching, μCT demonstrated that etching increased material density significantly more for the anterior than posterior teeth. Prior to etching, the enamel in the cervical regions was significantly less dense than the enamel in the middle or incisal regions. Etching significantly increased the material density of all three regions, which decreased initial regional differences. After etching, the apparent density of the cervical region remained significantly lower than the densities of the other two regions.
Based on SEM and μCT, there is greater aprismatic enamel and inferior etch quality in the cervical regions of all tooth types and is clinically significant in explaining the failure of sealant retention and the propensity for white spot lesions.
定量评估人牙釉质内和牙釉质间的酸蚀质量差异,前人尚未进行过此类研究。
将 27 颗人离体牙的颊面右侧和左侧随机分配到扫描电子显微镜(SEM)或微计算机断层扫描(μCT)组,用于评估。牙釉质颊面用浮石粉打磨,用 37%磷酸凝胶酸蚀剂酸蚀 15 秒,冲洗并风干。每颗牙分为三个区域(切端、中间和颈缘),酸蚀后在 1200×放大倍数下用 SEM 观察。在酸蚀前后进行 μCT 扫描,以计算表观和材料矿物密度。
SEM 显示,后牙的无釉柱牙釉质更多,酸蚀质量(即,明显更少的牙釉质百分比)更差,且所有牙齿的颈缘区域均比切端和中间区域差。尽管在酸蚀前没有密度差异,但 μCT 显示,酸蚀使前牙的材料密度增加明显大于后牙。在酸蚀之前,颈缘区的牙釉质密度明显低于中间和切端区域的牙釉质。酸蚀显著增加了所有三个区域的材料密度,从而降低了初始区域差异。酸蚀后,颈缘区域的表观密度仍明显低于其他两个区域。
基于 SEM 和 μCT,所有类型牙齿的颈缘区域都有更多的无釉柱牙釉质和较差的酸蚀质量,这在临床上可以解释密封剂保留失败和白色斑点病的易感性。