References
- A
budawood S., Donly K.J., Fluoride release and re-release from various esthetic restorative materials, Am. J. Dent., 2017, 30 (1), 47–51. - B
hardwaj A., Bhardwaj A., Misuriya A., Maroli S., Manjula S., Singh A.K., Nanotechnology in dentistry: Present and future, J. Int. Oral Health, 2014, 6 (1), 121–126. - B
hatnagar A., Kumar E., Sillanpää M., Fluoride Removal from Water by Adsorption – A Review, Chem. Eng. J., 2011, 171 (3), 811–840. - C
abral M.F., Martinho R.L., Guedes -Neto M.V., Rebelo M.A., Pontes D.G., Cohen -Carneiro F., Do conventional glass ionomer cements release more fluoride than resin-modified glass ionomer cements?, Restor. Dent. Endod., 2015, 40 (3), 209–215. - C
ury J.A., Tenuta L.M.A., Enamel remineralization: controlling the caries disease or treating early caries lesions?, Braz. Oral Res., 2009, 23, 23–30. - D
only K.J., Liu J.A., Dentin and enamel demineralization inhibition at restoration margins of Vitremer, Z 100 and Cention N, Am. J. Dent., 2018, 31 (3), 166–168. - E
l Mallakh B.F., Sarkar N.K., Fluoride release from glass-ionomer cements in de-ionized water and artificial saliva, Dent. Mater., 1990, 6, 118–122. - F
ita K., Dobrzyński M., Ziętek M., Diakowska D., Watras A., Wiglusz R.J., Assessment of Microstructure and Release of Fluoride Ions from Selected Fissure Sealants: An In Vitro Study, Materials (Basel), 2021, 14 (17), 4936. - G
arcez R.M., Buzalaf M.A.,de Araújo P.A., Fluoride release of six restorative materials in water and pH-cycling solutions, J. Appl. Oral Sci., 2007, 15 (5), 406–411. - G
ülses A., Ayna M., Emmert M., Karataban P., Kübel P., Wiltfang J., Acil Y., Assessment of marginal integrity of five different polymers in retrograde root-end filling following apicoectomy: An in-vitro analysis with scanning electron microscope and micro-radiography, Acta Bioeng. Biomech., 2021, 23 (3), 133–145. - H
amilton I.R., Biochemical effects of fluoride on oral bacteria, J. Dent. Res., 1990, 69, Spec No: 660–667. - H
attab F.N., Amin W.M., Fluoride release from glass ionomer restorative materials and the effects of surface coating, Biomaterials, 2001, 22, 1449–1458. - H
ayacibara M.F., Ambrosano G.M., Cury J.A., Simultaneous release of fluoride and aluminum from dental materials in various immersion media, Oper. Dent., 2004, 29 (1), 16–22. - H
elvatjoglu -Antoniades M., Karantakis P., Papadogiannis Y., Kapetanios H., Fluoride release from restorative materials and a luting cement, J. Prosthet. Dent., 2001, 86 (2), 156–164. - H
erman K., Wujczyk M., Dobrzyński M., Diakowska D., Wiglusz K., Wiglusz R.J., In Vitro Assessment of Long-Term Fluoride Ion Release from Nanofluorapatite, Materials (Basel), 2021, 14 (13), 3747. - K
anduti D., Sterbenk P., Artnik, and fluoride: A review of use and effects on health, Mater. Socio Med., 2016, 28, 133. - K
obierska -Brzoza J., Dobrzyński M., Fita K., Bader -Orłowska D., Szymonowicz M., Currently Recommended Restorative Materials in Modern Conservative Dentistry, Polym. Med., 2015, 45, 37–43. - K
ong L.X., Peng Z., Li S.D., Bartold P.M., Nanotechnology and its role in the management of periodontal diseases, Periodontol. 2000, 2006, 40, 184–196. - K
osior P., Dobrzyński M., Zakrzewska A., Grosman L., Korczyński M., Blicharski T., Gutbier M., Watras A., Wiglusz R.J., Preliminary In Vitro Study of Fluoride Release from Selected Ormocer Materials, Materials (Basel), 2021, 14 (9), 2244. - L
ubojański A, Piesiak -Panczyszyn D, Zakrzewski W, Dobrzyński W, Szymonowicz M, Rybak Z, Mielan B, Wiglusz RJ, Watras A., The Safety of Fluoride Compounds and Their Effect on the Human Body – A Narrative Review, Materials (Basel), 2023, 16 (3), 1242. - M
andel I.D., Relation of Saliva and Plaque to Caries, J. Dent. Res., 1974, 53 (2), 246–266. - M
athur V.P., Dhillon J.K., Dental Caries: A Disease Which Needs Attention,. Indian J. Pediatr., 2018, 85, 202–206. - M
ay E., Donly K.J., Fluoride release and re-release from a bioactive restorative material, Am. J. Dent., 2017, 30 (6), 305–308. - M
oothedath M., Moothedath M., Jairaj A., Harshitha B., Baba S.M., Khateeb S.U., Role of Nanotechnology in Dentistry: Systematic Review, J. Int. Soc. Prev. Community Dent., 2019, 9 (6), 535–541. - N
aoum S., Ellakwa A., Martin F., Swain M., Fluoride release, recharge and mechanical property stability of various fluoride-containing resin composites, Oper. Dent., 2011, 36 (4), 422–432. - N
igam A.G., Murthy R., Pandey R., Estimation of Fluoride Release from Various Dental Materials in Different Media – An In Vitro Study, Int. J. Clin. Pediatric Dent., 2009, 2, 1–8. - P
eres M.A., Macpherson L.M.D., Weyant R.J., Daly B., Venturelli R., Mathur M.R., Listl S., Celeste R.K., Guarnizo -Herreño C.C., Kearns C., Benzian H., Allison P., Watt R.G., Oral diseases: a global public health challenge, Lancet, 2019, 394 (10194), 249–260. - P
orenczuk A., Jankiewicz B., Naurecka M., Bartosewicz B., Sierakowski B., Gozdowski D., Kostecki J., Nasiłowska B., Mielczarek A., A Comparison of the Remineralizing Potential of Dental Restorative Materials by Analyzing Their Fluoride Release Profiles, Adv. Clin. Exp. Med., 2019, 28, 815–823. - P
ytko -Polonczyk J., Jakubik A., Przeklasa -Bierowiec A., Muszyńska B., Artificial saliva and its use in biological experiments, J. Physiol. Pharmacol., 2017, 68 (6), 807–813. - R
ao B.S., Moosani G.K., Shanmugaraj M., Kannapan B., Shankar B.S., Ismail P.M., Fluoride release and uptake of five dental restoratives from mouthwashes and dentifrices, J. Int. Oral Health, 2015, 7 (1), 1–5. - R
ezk -Lega F., Ögaard B., Rölla G., Availability of fluoride from glass-ionomer luting cements in human saliva, Eur. J. Oral Sci., 1991, 99, 60–63. - R
ošin -Grget K., Peroš K., Sutej I., Bašić K., The cariostatic mechanisms of fluoride, Acta Med. Acad., 2013, 42 (2), 179–88. - S
idhu S.K., Nicholson J.W., A Review of Glass-Ionomer Cements for Clinical Dentistry, J. Funct. Biomater., 2016, 7 (3), 16. - S
ikorska -Jaroszyńska M.H., Czelej G., Fluor w Stomatologii i Medycynie, Wydawnictwo Czelej, Lublin, Poland, 2000, ISBN 83-88063-09-X. - S
immer J.P., Hardy N.C., Chinoy A.F., Bartlett J.D., Hu J.C.C., How fluoride protects dental enamel from demineralization, J. Int. Soc. Prev. Community Dent., 2020, 10 (2), 134–141. - S
taszczyk M., Kępisty M., Kołodziej I., Kościelniak D., Gregorczyk -Maga I., Ciepły J., Jurczak A., Dental Caries Status and Trend in 5-, 7- and 12-Year-Old Children from the Małopolskie Region in Comparison to the Polish Population, Nowa Stomatol., 2018, 23, 55–65. - S
ztyler K., Pajączkowska M., Nowicka J., Rusak A., Chodaczek G., Nikodem A., Wiglusz R.J., Watras A., Dobrzyński M., Evaluation of the microbial, cytotoxic and physico-chemical properties of the stainless steel crowns used in pediatric dentistry, Acta Bioeng. Biomech., 2022, 24 (4), 127–137. DOI: 10.37190/ABB-02221-2023-01. - V
ieira A.R.,de Souza I.P., Modesto A., Fluoride Uptake and Release by Composites and Glass Ionomers in a High Caries Challenge Situation, Am. J. Dent., 1999, 12, 14–18. - W
iegand A., Buchalla W., Attin T., Review on fluoridereleasing restorative materials-Fluoride release and uptake characteristics,antibacterial activity and influence on caries formation, Dent. Mater., 2007, 23, 343–362. - W
illiams J.A., Billington R.W., Pearson G.J., The influence of sample dimensions on fluoride ion release from a glass ionomer restorative cement, Biomaterials, 1999, 20, 1327–1337.