Fluoride content of available bottled drinking water in Tripoli, Libya

المؤلفون

  • Awatif Almaqrah Libyan Center for Biotechnology Research مؤلف
  • Hassan Eltaib Libyan Center for Biotechnology Research مؤلف
  • Sundus Almontasir Libyan Center for Biotechnology Research مؤلف
  • Insherah Idbeaa Department of Botany. Faculty of science. Aljabal ALGharbi University مؤلف
  • Gamila Elesvgh Food and Drug Control Center, Tripoli Libya مؤلف
  • Fauzia Mohamed Department of Zoology. Faculty of science Tripoli University مؤلف
  • Abdurrahman Eswayah Libyan Center for Biotechnology Research مؤلف

DOI:

https://doi.org/10.58916/jhas.v8i3.149

الكلمات المفتاحية:

Fluoride، bottled water، oral health، Palintest

الملخص

Abstract: The present study was carried out to evaluate the fluoride content of bottled water brands available in the market of Tripoli city and to measure if it is consistent with local standards. A total of 23 commercially available brands were collected and examined for fluoride content. 22 samples were locally produced and one was imported. The average fluoride levels of each sample was determined using the procedure outline in the Palintest photometer method and then compared with the fluoride content printed on the bottle labels. In all bottled water brands investigated, 19 brands of the analyzed samples did not state the fluoride levels on the labels of the bottles. The determined fluoride concentrations ranged from 0 to 2.75 ppm. For each brand, the fluoride level was not similar to the labeled fluoride. 82.6% (19 brands) had a fluoride content lower than the Libyan standards, 1 brands had a fluoride content higher than the Libyan standards, and 7 brands had zero fluoride content. All the samples examined had fluoride content outside the range regulated by Libyan standards. There was a significant variation between the F levels stated by the manufacturer on the bottle labels and the values measured during the investigation.       

التنزيلات

تنزيل البيانات ليس متاحًا بعد.

المراجع

Abdullah M. Aldrees, Saad M. Al-Manea, Fluoride content of bottled drinking waters available in Riyadh, Saudi Arabia. The Saudi Dental Journal (2010) 22, 189–193

Ahiropoulos , V. , 2006. Fluoride content of bottled waters in North Greece. Int. J. Paediatr. Dent. 16(2)111-116

American Dental Association (updated on June 5, 2002). American Dental Association Statement on Water Fluoridation Efficacy and Safety. Available from: <http://www.ada.org/prof/resources/posi-tions/statements/fluoride2.asp> (accessed 29.08.09).

Clark D. C., Hann H. J., Williamson M . F., Berkowitz J., Influence of Exposure to Various Fluoride Technologies on the Prevalence of Dental Fluorosis, Community Dentistry and Oral Epidemiology, 1994; vol. 22, 461–464.

Clark D.C., Trends in prevalence of dental fluorosis in North America, Community Dentistry and Oral Epidemiology, 1994; vol. 22, 148–152.

Centers for Disease Control and Prevention (CDC), 2013. Community water fluoridation. Division of Oral Health. Available: .

David Robinson; Val Reed, The A-Z of social research jargon, Aldershot, Hants, England ; Brookfield, Vt., USA : Ashgate/ARENA, ©1998

Fejerskov O., Thylstrup A., Larsen M . J., Clinical and Structural Features and Possible Pathogenic Mechanisms of Dental Fluorosis, Scandinavian Journal of Dental Research, 1977, vol. 85, 510 – 534.

Jagtap.S.,2012Yenkie,M.K. Labhsetwar, N.,Rayalu,S., 2012.Fluoride in drinking water and defluoridation of water. Chem. Rev. 112,2454-2466.

Kiristy M . C., Levy S. M ., Warren J. J., Guha-Chowdhury N., Heilman J. P., Marshall T., Sources of Fluoride Intake in Children, Journal of the American Dental Association, 1996, vol. 127, 895 – 902.

laiumandier JA, Ayers LW.Fluoride and bacterial content of bottled water s tap water. Arch Fam Med 2000;9:24

Levy S. M ., Maurice T. J., Jakobsen J. R., Feeding Patterns, Water Sources and Fluoride Exposures of Infants and 1-Year-Olds, Journal of the American Dental Association, 1993; vol. 124, 65–69.

Mahvi AH, Zazoli MA, Younecian M, Esfandiari Y. Fluoride content of Iranian black tea and tea liquor. Fluoride 2006;39(4):266-8.

McFadyen, E.E., McNee, S.G., Weetman, D.A., 1982. Fluoride content of some bottled waters. Br. Dent. J. 153 (12), 423– 424.

Mohamed Yehia Z. Abouleish, Evaluation of fluoride levels in bottled water and their contribution to health and teeth problems in the United Arab Emirates. The Saudi Dental Journal (2016) 28, 194–202.

Murray JJ. Appropriate use of fluoride of human health. Geneva: world Health Organization, 1986

Reza Fouladi Fard, Amir Hossein Mahvi, Sara Sadat Hosseini, Mohammad Khazaei, FLUORIDE CONCENTRATIONS IN BOTTLED DRINKING WATER AVAILABLE IN NAJAF AND KARBALA, IRAQ, Research report Fluoride 47(3)249–252 July- September 2014

Richards A., Kragstrup J., Josephsen J., Fejerskov O., Dental Fluorosis Developed in Post-Secretory Enamel, Journal of Dental Research, 1986; vol. 65, 1406–1409.

Rodwan‑Junior JG. Bottled water 2011: the recovery continues [Internet]. New York: International Bottled Water Association; 2012. [cited 5 set 2014]. Available from: http://www.bottledwater.org/files/2011BWstats.pdf.

Stannard, J., Rovero, J., Tsamtsouris, A., Gavris, V., 1990. Fluoride content of some bottled waters and recommendations for fluoride supplementation. J. Pedod. 14, 103–107.

Studlick, J., Bain, R., 1980. Bottled waters-expensive ground water. Ground water 18, 340.

WHO drinking-water quality series. Fluoride in drinking water. Edited by Bailey K, Chilton J, Dahi E, Lennon M, Jackson P, Fawell J, 2006.

World Health Organization. Report of an expert committee on Oral Health Statues and Fluoride use and Oral Health. WHO Technical Report Series No 846. WHO:Geneva, Switzerland 1994.

(Barbier O, Arreola-Mendoza L, Del Razo LM: Molecular mechanisms of fluoride toxicity. Chem Biol Interact 188(2): 319- 333, 2010 …… DANIEL ARAKI RIBEIRO1,2, CAROLINE MARGONATO CARDOSO2, VERONICA QUISPE YUJRA2, MILENA DE BARROS VIANA1, ODAIR AGUIAR JR.1, LUCIANA PELLEGRINI PISANI1 and CELINA TIZUKO FUJIYAMA OSHIMA2 . Fluoride Induces Apoptosis in Mammalian Cells:In Vitro and In Vivo Studies. ANTICANCER RESEARCH 37: 4767-4777 (2017))

التنزيلات

منشور

2023-09-07

إصدار

القسم

Article

كيفية الاقتباس

Awatif Almaqrah, Hassan Eltaib, Sundus Almontasir, Insherah Idbeaa, Gamila Elesvgh, Fauzia Mohamed, & Abdurrahman Eswayah. (2023). Fluoride content of available bottled drinking water in Tripoli, Libya. مجلة جامعة بني وليد للعلوم الإنسانية والتطبيقية, 8(3), 156-161. https://doi.org/10.58916/jhas.v8i3.149

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