Ultrastructural evaluation of adverse effects on dentine formation from systemic fluoride application in an experimental mouse model

IF 5.4 1区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE International endodontic journal Pub Date : 2024-10-10 DOI:10.1111/iej.14150

Motoki Okamoto, Shohei Yamashita, Melanie Mendonca, Susanne Brueckner, Ria Achong-Bowe, Jeffrey Thompson, Nanako Kuriki, Manabu Mizuhira, Yehuda Benjamin, Henry Fergus Duncan, Eric T. Everett, Maiko Suzuki

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Abstract

Aim

Fluoride is widely used in dentistry for its caries prevention. To reduce dental caries, the optimal fluoride concentration of public water supplies in the United States is 0.7 ppm. However, excessive systemic fluoride consumption can lead to dental/enamel fluorosis. Numerous studies have explored the effects of fluoride on enamel and enamel-forming cells. However, research on systemic fluoride's impact on dentine is limited, particularly the effect of fluoride on the structure of the dentine–pulp complex. Therefore, this study aimed to identify how excessive fluoride affects dentine microstructure using an experimental mouse model.

Methodology

C57BL6/J male mice (6–9 weeks old) were randomized into four groups (Fluoride at 0, 50, 100, or 125 ppm in drinking water) (n = 4/group). Mice were provided water ad libitum for 6 weeks along with fluoride-free food. Thereafter, mandibular incisors were analysed. Enamel phenotypes were evaluated using light microscopy and quantitative light-induced fluorescence (QLF) to measure fluorosis levels. Dentine morphology was evaluated using micro-CT, scanning electron microscopy (SEM), SEM–EDX (energy-dispersive X-ray), microhardness test and histological imaging. Data were analysed using one-way ANOVA with Dunnett's multiple comparisons as a post hoc test and the Kruskal–Wallis test with Dunn's multiple comparisons post hoc test (p < .05).

Results

Mice treated with fluoride at 50–125 ppm developed enamel hypoplasia in their erupting incisors and micro-CT imaging revealed that fluoride 125 ppm caused external resorption of the growing incisor. Dentine mineral density, dentine volume decreased compared with the 0 ppm control, while pulp volume increased compared with the 0 ppm control group. SEM showed wider predentine layer and abnormalities in calcified matrix vesicles derived from odontoblasts in fluoride 100 and 125 ppm groups. Vickers microhardness of dentine significantly decreased in the high-dose group. Fluoride-induced dentine hypoplasia in a dose-dependent manner. Histological evaluation showed excessive fluoride 125 ppm induced micro abscess formation and inflammatory cell infiltration. Fluoride induced dentine dysplasia with a dentine microstructure resembling hypophosphatasia.

Conclusions

High doses of systemic fluoride can cause dentine dysplasia. Both three-dimensional and microstructural analyses showed the structural, chemical and mechanical changes in the dentine and the mineralized tissue components, along with external resorption and pulp inflammation.

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通过超微结构评估在实验小鼠模型中全身应用氟化物对牙本质形成的不利影响。

目的：氟在牙科中被广泛用于预防龋齿。为减少龋齿，美国公共供水的最佳氟浓度为百万分之 0.7。然而，全身摄入过量的氟会导致牙齿/珐琅质氟中毒。许多研究都探讨了氟对珐琅质和珐琅质形成细胞的影响。然而，有关全身性氟化物对牙本质影响的研究却很有限，尤其是氟化物对牙本质-牙髓复合体结构的影响。因此，本研究旨在利用实验小鼠模型确定过量氟对牙本质微观结构的影响：将 C57BL6/J 雄性小鼠（6-9 周大）随机分为四组（饮用水中的氟含量分别为 0、50、100 或 125 ppm）（n = 4/组）。小鼠自由饮水 6 周，同时食用无氟食物。之后，对下颌门牙进行分析。使用光学显微镜和定量光诱导荧光（QLF）评估釉质表型，以测量氟中毒水平。使用显微计算机断层扫描（CT）、扫描电子显微镜（SEM）、SEM-EDX（能量色散 X 射线）、显微硬度测试和组织学成像对牙本质形态进行评估。数据分析采用单因素方差分析和 Dunnett 多重比较后检验，以及 Kruskal-Wallis 检验和 Dunn 多重比较后检验（P 结果）：用 50-125 ppm 的氟化物处理的小鼠萌出的门牙出现釉质发育不全，显微 CT 成像显示 125 ppm 的氟化物会导致生长中的门牙发生外部吸收。与 0 ppm 对照组相比，牙本质矿物质密度和牙本质体积有所下降，而牙髓体积则有所增加。扫描电子显微镜显示，含氟量为 100 ppm 和 125 ppm 组的牙本质层较宽，牙本质细胞钙化基质囊泡异常。高剂量组牙本质的维氏硬度明显下降。氟诱导的牙本质缺损与剂量有关。组织学评估显示，过量的氟 125 ppm 会导致微脓肿形成和炎性细胞浸润。氟化物诱发牙本质发育不良，牙本质微观结构类似于低磷酸盐症：结论：高剂量的全身性氟化物可导致牙本质发育不良。三维和显微结构分析表明，牙本质和矿化组织成分在结构、化学和机械方面都发生了变化，同时还伴有外部吸收和牙髓炎症。

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来源期刊

International endodontic journal 医学-牙科与口腔外科

CiteScore

10.20

自引率

28.00%

发文量

195

审稿时长

4-8 weeks

期刊介绍： The International Endodontic Journal is published monthly and strives to publish original articles of the highest quality to disseminate scientific and clinical knowledge; all manuscripts are subjected to peer review. Original scientific articles are published in the areas of biomedical science, applied materials science, bioengineering, epidemiology and social science relevant to endodontic disease and its management, and to the restoration of root-treated teeth. In addition, review articles, reports of clinical cases, book reviews, summaries and abstracts of scientific meetings and news items are accepted. The International Endodontic Journal is essential reading for general dental practitioners, specialist endodontists, research, scientists and dental teachers.