Dentin Remineralization Induced by Micro-nano Bioactive Glass Spheres

doi:10.15541/jim20210158

[1] G R HOLLAND, M N NARHI, M ADDY et al. Guidelines for the design and conduct of clinical trials on dentine hypersensitivity. Journal of Clinical Periodontology, 24, 808-813(1997).

[2] M ADDY, N X WEST. The role of toothpaste in the aetiology and treatment of dentine hypersensitivity. Monogr. Oral. Sci., 23, 75-87(2013).

[3] W H ARNOLD, M PRANGE, E A NAUMOVA. Effectiveness of various toothpastes on dentine tubule occlusion. Journal of Dentistry, 43, 440-449(2015).

[4] M BERKATHULLAH, M S FAROOK, O MAHMOUD. The effectiveness of remineralizing agents on dentinal permeability. BioMed Research International, 4072815(2018).

[5] F BAINO, S HAMZEHLOU, S KARGOZAR. Bioactive glasses: where are we and where are we going?. Journal of Functional Biomaterials, 9, 25(2018).

[6] J R JONES. Review of bioactive glass: from Hench to hybrids. Acta Biomaterialia, 9, 4457-4486(2013).

[7] H E SKALLEVOLD, D ROKAYA, Z KHURSHID et al. Bioactive glass applications in dentistry. International Journal of Molecular Sciences, 20, 5960(2019).

[8] L LITKOWSKI, D C GREENSPAN. A clinical study of the effect of calcium sodium phosphosilicate on dentin hypersensitivity-proof of principle. J. Clin. Dent., 21, 77-81(2010).

[9] L GENDREAU, A P BARLOW, S C MASON. Overview of the clinical evidence for the use of NovaMin in providing relief from the pain of dentin hypersensitivity. J. Clin. Dent., 22, 90-95(2011).

[10] D A HOFFMAN, A E CLARK, W J RODY et al. A prospective randomized clinical trial into the capacity of a toothpaste containing NovaMin to prevent white spot lesions and gingivitis during orthodontic treatment. Progress in Orthodontics, 16, 25(2015).

[11] I FAROOQ, A MAJEED, E ALSHWAIMI et al. Efficacy of a novel fluoride containing bioactive glass based dentifrice in remineralizing artificially induced demineralization in human enamel. Fluoride, 52, 447-455(2019).

[12] Z WANG, Y SA, S SAURO et al. Effect of desensitising toothpastes on dentinal tubule occlusion: a dentine permeability measurement and SEM in vitro study. Journal of Dentistry, 38, 400-410(2010).

[13] M VOLLENWEIDER, T J BRUNNER, S KNECHT et al. Remineralization of human dentin using ultrafine bioactive glass particles. Acta Biomater., 3, 936-943(2007).

[14] A R CURTIS, N X WEST, B SU. Synthesis of nanobioglass and formation of apatite rods to occlude exposed dentine tubules and eliminate hypersensitivity. Acta Biomater., 6, 3740-3746(2010).

[15] X Y SHENG, W Y GONG, Q HU et al. Mineral formation on dentin induced by nano-bioactive glass. Chinese Chemical Letters, 27, 1509-1514(2016).

[16] H R FERNANDES, A GADDAM, A REBELO et al. Bioactive glasses and glass-ceramics for healthcare applications in bone regeneration and tissue engineering. Materials, 11, 2530(2018).

[17] K ZHENG, A R BOCCACCINI. Sol-Gel processing of bioactive glass nanoparticles: a review. Advances in Colloid and Interface Science, 249, 363-373(2017).

[18] Q HU, X CHEN, N ZHAO et al. Fabrication and characterization of dodecylamine derived monodispersed mesoporous bioactive glass sub-micron spheres. Journal of Sol-Gel Science and Technology, 69, 9-16(2014).

[19] K LIANG, Y GAO, J LI et al. Effective dentinal tubule occlusion induced by polyhydroxy-terminated PAMAM dendrimer in vitro. RSC Advances, 4, 43496-43503(2014).

[20] J Y GAL, Y FOVET, M ADIB-YADZI. About a synthetic saliva for in vitro studies. Talanta, 53, 1103-1115(2001).

[21] M SCHUMACHER, P HABIBOVIC, S van RIJT. Mesoporous bioactive glass composition effects on degradation and bioactivity. Bioactive Materials, 6, 1921-1931(2021).

[22] X ZHANG, D ZENG, N LI et al. Large-pore mesoporous Ca-Si-based bioceramics with high in vitro bioactivity and protein adsorption capability for bone tissue regeneration. Journal of Materials Chemistry B, 4, 3916-3924(2016).

[23] Z XU, K G NEOH, A KISHEN. A biomimetic strategy to form calcium phosphate crystals on type I collagen substrate. Materials Science and Engineering: C, 30, 822-826(2010).