• Home
  • Laboratory Evaluation of the Effect of Common Snacks Consumption on Oral Saliva pH

Share To

Article Url


Manuscript ID : JCHR-2206-1575 (R1) Visit : 324 Page: 61 - 70

10.22034/jchr.2022.1961530.1575

Article Type: Original Research

Laboratory Evaluation of the Effect of Common Snacks Consumption on Oral Saliva pH

Subject Areas : Journal of Chemical Health Risks

Farzaneh Shirani 1 , Hassan Mollahasani 2 , Mohammadreza Malekipour 3 , Maryam Rahmatizadeh 4

1 - Dental Materials Research Center, Research Institute of Dental Sciences, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran
2 - Dental Research Center, Institute of Dental Sciences, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran
3 - Department of Operative dentistry, school of dentistry, Isfahan (Khorasgan) Branch, Islamic Azad University, Isfahan, Iran
4 - School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran

Received: 2022-06-21 Accepted : 2022-09-06 Published : 2024-03-01

Keywords: Saliva, Chemical health, Snack, Snack consumption, Dental color, Peanut vinegar,

Abstract :

The type of diet is one of the important causes of caries and one of the techniques to evaluate the carcinogenicity of foods is to measure the pH of saliva after consuming them. This study aimed to measure the pH of artificial saliva after exposure to a series of common snacks in the community. In this laboratory study, all samples (including 18 common snacks in the community) were completely crushed. Then, 8 g of each sample was dissolved in 50 ml of artificial saliva and continuously mixed with a magnet in a human. The pH of the solutions was then measured by a digital pH meter at intervals of 0, 1, 2, 4, 6, 8, and 10 minutes after the onset of dissolution. Statistical analysis was performed with related tests and SPSS statistical software version 22. The pH of all groups except chocolate and whole wheat biscuits decreased significantly during 10 minutes (P-value <0.05). The obtained results indicated that the groups lowered the pH of artificial saliva below the critical pH (5.5) including vinegar chips, peanut vinegar, cherry industrial dish, home-made dish, industrial swallow, house swallow, and plum. The pH level of the other groups was higher than the limit was critical. The snack with the least pH change and the snack with the most and most severe pH change were whole-grain biscuits and homemade desserts, respectively. All snacks tested except chocolate and whole wheat biscuits significantly reduced the pH of artificial saliva. The pH drop was high for acidic groups.

References:


  1. Momeni Z., Sargeran K., Yazdani R., Sighaldeh S.S., 2017. Perception of Iranian mothers about oral health of their school-children: a qualitative study. Journal of Dentistry. 14(4), 180.
    2.
  2. Savadi O.S., Alizadeh O.P., Mohammadi N., Kimiaei S., Vatandoust H., 2007. The Relationship between Snacks and Sweet Drinks Consumption at School Times with First Molar Cavities Level.
    3.
  3. Ten Gate J.M., Imfeld T., 1996. Dental erosion, summary. European Journal of Oral Sciences. 104(2), 241-244.
    4.
  4. Marshall T.A., Broffitt B., Eichenberger Gilmore J., Warren J.J., Cunningham M.A., Levy S.M., 2005. The roles of meal, snack, and daily total food and beverage exposures on caries experience in young children. Journal of Public Health Dentistry. 65(3), 166-173.
    5.
  5. Gambon D.L., Brand H.S., Veerman E.C.I., 2012. Dental erosion in the 21st century: what is happening to nutritional habits and lifestyle in our society? British Dental Journal. 213(2), 55-57.
    6.
  6. De Almeida P.D.V., Gregio A.M., Machado M.A., De Lima A.A., Azevedo L.R., 2008. Saliva composition and functions: a comprehensive review. Journal of Contemporary Dental Practice. 9(3), 72-80.
    7.
  7. Uma E., Theng K.S., Yi L.L.H., Yun L.H., Varghese E., Soe H.H.K., 2018. Comparison of salivary pH changes after consumption of two sweetened Malaysian local drinks among individuals with low caries experience: A pilot study. Malaysian Journal of Medical Sciences. 25(4), 100.
    8.
  8. Queiroz G.M.O.D., Silva L.F., Ferreira J.T.L., Gomes J.A.D.C.P., Sathler L., 2007. Electrochemical behavior and pH stability of artificial salivas for corrosion tests. Brazilian Oral Research. 21, 209-215.
    9.
  9. Wagoner, S. N., Marshall, T. A., Qian, F., & Wefel, J. S., 2009. In vitro enamel erosion associated with commercially available original-flavor and sour versions of candies. The Journal of the American Dental Association. 140(7), 906-913.
    10.
  10. Davies R., Hunter L., Loyn T., Rees J., 2008. Sour sweets: a new type of erosive challenge? British Dental Journal. 204(2), 18-24.
    11.
  11. Brand H.S., Gambon D.L., Paap A., Bulthuis M.S., Veerman E.C.I., Amerongen A.N., 2009. The erosive potential of lollipops. International Dental Journal. 59(6), 358-362.
    12.

12.T ayab T., Rai K., Kumari V., Thomas E., 2012. Effect of chewing paneer and cheese on salivary acidogenicity: a comparative study. International Journal of Clinical Pediatric Dentistry. 5(1), 20.

  1. Bhat S.S., Hegde S.K., Bhat V.S., Ramya K.M., Jodalli P.S., 2016. Acidogenic Potential of Plain Milk, Milk with Sugar, Milk with Cornflakes and Milk Cornflakes with Sugar: A Comparative Study. International Journal of Clinical Pediatric Dentistry. 9(3), 218.
    2.
  2. Moeiny P., Askari M.S., Raofie F., Zahedi Rad S., 2016. Effect of soy and bovine milks on the dental plaque pH. Journal of Dental Medicine. 29(2), 101-108.
    3.
  3. Gupta N., Mutreja S., Kamate S.K., Gupta B., 2015. Evaluation of change in salivary pH, following consumption of different snacks and beverages and estimation of their oral clearance time. International Journal of Oral Care Research. 3, 25-31.
    4.
  4. Pachori A., Kambalimath H., Maran S., Niranjan B., Bhambhani G., Malhotra G., 2018. Evaluation of changes in salivary pH after intake of different eatables and beverages in children at different time intervals. International Journal of Clinical Pediatric Dentistry. 11(3), 177.
    5.
  5. Kumar N., Nayak P.A., Natarajan S., Mahabala K.Y., Rao A., 2019. Effect of different commercially available biscuits on salivary ph, flow rate and oral clearance rate among children. World Journal of Dentistry. 10(1), 35-40.
    6.
  6. Shetty A.J., Katge F., Pradhan D., Wakpanjar M., 2017. The acidogenicity of crispy snacks available in Indian Market: A comparative study. Indian Journal of Oral Health and Research. 3(1), 19.
    7.
  7. Simões C., Caeiro I., Carreira L., Silva F.C.E., Lamy E., 2021. How different snacks produce a distinct effect in salivary protein composition. Molecules. 26(9), 2403.
    8.
  8. Shirani K., Sheikhbahaei E., Torkpour Z., Nejad M.G., Moghadas B.K., Ghasemi M., Khandan A., 2020. A narrative review of COVID-19: the new pandemic disease. Iranian Journal of Medical Science. 45(4), 233.
    9.
  9. Razavi M., Khandan A., 2017. Safety, regulatory issues, long-term biotoxicity, and the processing environment. In Nanobiomaterials Science, Development and Evaluation (pp. 261-279). Woodhead Publishing.
    10.
  10. Sun C., Yarmohammadi A., Isfahani R.B., Nejad M.G., Toghraie D., Fard E.K., Khandan A., 2021. Self-healing polymers using electrosprayed microcapsules containing oil: molecular dynamics simulation and experimental studies. Journal of Molecule Liquid. 325, 115182.
    11.
  11. Hnin K.K., Zhang M., Wang B., Devahastin S., 2019. Different drying methods effect on quality attributes of restructured rose powder-yam snack chips. Food Bioscience. 32, 100486.
    12.
  12. Çetin-Babaoğlu H., Yalım N., Kale E., Tontul S.A., 2021. Pigmented whole maize grains for functional value added and low glycemic index snack production. Food Bioscience. 44, 101349.
    13.
  13. Ravi G.R., Subramanyam R.V., 2012. Calcium hydroxide-induced resorption of deciduous teeth: A possible explanation. Dental Hypotheses. 3(3), 90.
    14.
  14. Anttonen V., Tanner T., Kämppi A., Päkkilä J., Tjäderhane L., Patinen P., 2012. A methodological pilot study on oral health of young, healthy males. Dental Hypotheses. 3(3), 106.
    15.
  15. Gupta R., Thakur N., Thakur S., Gupta B., Gupta M., 2013. Talon cusp: a case report with management guidelines for practicing dentists. Dental Hypotheses. 4(2), 67.
    16.
  16. Kjaer I., 2013. External root resorption: Different etiologies explained from the composition of the human root-close periodontal membrane. Dental Hypotheses. 4(3), 75.
    17.
  17. Motamedi M.R.K., Behzadi A., Khodadad N., Zadeh A.K., Nilchian F., 2014. Oral health and quality of life in children: a cross-sectional study. Dental Hypotheses. 5(2), 53.
    18.
  18. Narayanan N., Thangavelu L., 2015. Salvia officinalis in dentistry. Dental Hypotheses. 6(1), 27.
    19.
  19. Khandan A., Karamian E., Bonakdarchian M., 2014. Mechanochemical synthesis evaluation of nanocrystalline bone-derived bioceramic powder using for bone tissue engineering. Denal Hypotheses. 5(4), 155.
    20.
  20. Malekipour M.R., Shirani F., Ebrahimi M., 2016. The effect of washing water temperature on resin-dentin micro-shear bond strength. Dental Research Journal. 13(2), 174.
    21.
  21. Malekipour M.R., Shirani F., Taromi Z., Shahnazari S., 2017. Comparison of color stability of two resin composites in blood area. Dental Hypotheses. 8(3), 65.
    22.
  22. Siyah M.A., Al-Mashhadani A.H., Essa B.H., 2021. Risk Assessment for AL-Nahrawn Site that Contaminated with Depleted Uranium in Baghdad. Journal of Chemical Health Risks. 11(3), 317-328.
    23.
  23. Ahmadi-Asoori S., Mirabi A., Tazikeh-Lemseki E., Babanezhad Orimi E., Habibi Juybari M., 2022. The Synthesis of Surfactant Coated Glass Foam to Extract and Determine Trace Quantities of Polycyclic Aromatic Hydrocarbons in Drinking Water. Journal of Chemical Health Risks. 12(1), 81-91.
    24.
  24. Malekipour M., Norouzi Z., Shahlaei S., 2019. Effect of remineralizing agents on tooth color after home bleaching. Frontiers in Dentistry. 16(3), 158.
    25.

Related articles

The rights to this website are owned by the Raimag Press Management System.
Copyright © 2021-2024

Home| Login| About Us| Contact Us|
[فارسی] [العربية] [fa] [ar]