School of Dentistry and Oral Health, Griffith University, Australia.
J Dent. 2011 Dec;39(12):817-24. doi: 10.1016/j.jdent.2011.08.016. Epub 2011 Sep 3.
To investigate the relationship between concentration of fluoride in milk and its re-mineralizing efficacy, and to test whether increasing the volume of fluoridated milk has any effect on its re-mineralizing efficacy.
Third molars were painted leaving a 1 mm window on the buccal and/or lingual surfaces. Artificial carious lesions were induced using a de-mineralizing solution. The teeth were then sectioned longitudinally. Specimens were randomly assigned to 15 groups according to different concentrations and volume; i.e., 2.5 ppm, 5 ppm, 7.5 ppm, 10 ppm, 15 ppm, 20 ppm, and 250 ppm of fluoride with 25 ml/section and 50 ml/section. De-ionized water and plain milk were used as controls. Sections were subjected to pH cycling for 20 days. Polarized light microscopy and micro-radiography were utilized to record the lesion characteristics before and after pH cycling.
Mean lesion depths decreased significantly in all the fluoride groups, and increased significantly in the control groups. There were no differences in percentage of lesion depth decrease when the volume was doubled for the same fluoride concentration. There were also no statistically significant differences between percentages of decrease in lesion depth when the concentration of fluoride in milk was increased.
Fluoridated milk demonstrated a remineralization efficacy on early enamel carious lesions. A 2.5 ppm fluoride milk concentration provided similar remineralization potential to that of higher fluoride concentration in milk.
研究牛奶中氟化物浓度与其再矿化效果之间的关系,并检验增加氟化牛奶的摄入量是否会对其再矿化效果产生影响。
将第三磨牙的颊面和/或舌面留出 1 毫米宽的窗口进行涂氟,用脱矿溶液诱导人工龋损。然后将牙齿纵向切开。根据不同的浓度和体积(即 2.5ppm、5ppm、7.5ppm、10ppm、15ppm、20ppm 和 250ppm 的氟化物,每次 25ml/节和 50ml/节),将样本随机分配到 15 个组中。用去离子水和普通牛奶作为对照。将样本进行 20 天的 pH 循环。用偏光显微镜和微射线照相术记录 pH 循环前后的病变特征。
所有氟化物组的平均病变深度均显著降低,而对照组则显著增加。在相同氟化物浓度下,将体积增加一倍时,病变深度减少的百分比没有差异。当牛奶中的氟化物浓度增加时,病变深度减少的百分比也没有统计学上的显著差异。
氟化牛奶对早期釉质龋损具有再矿化效果。2.5ppm 氟化物牛奶浓度提供的再矿化潜力与高浓度氟化物牛奶相似。
