DOI:

10.37988/1811-153X_2022_4_82

The effectiveness of oral hygiene products based on Castéra-Verduzan thermal water in patients with post-COVID syndrome

Authors

  • M.G. Toumassian 1, 3rd year student at the Dental Faculty
    ORCID: 0000-0001-8067-9735
  • S.G. Toumassian 1, 3rd year student at the Dental Faculty
    ORCID: 0000-0002-8439-585X
  • E.A. Satygo 1, PhD in Medical Sciences, full professor of the Paediatric dentistry Department
    ORCID: 0000-0001-9801-503X
  • 1 Mechnikov North-West State Medical University, 195067, Saint-Petersburg, Russia

Abstract

Today, not only the treatment of COVID-19 is relevant, as well as the health recovery after the post-COVID syndrome. The main goal of the study was to determine the effectiveness of BUCCOTHERM® hygiene products based on water from the Castera-Verduzan hydrothermal spring (France) for oral care among patients with post-COVID syndrome.
Materials and methods.
The study involved 80 patients (mean age 21.5 years) who had recovered from COVID-19 and had three or more signs of post-COVID syndrome. They were allocated into 2 groups: 1) 46 patients who used BUCCOTHERM toothpaste and BUCCOTHERM rinse for home oral care; 2) 34 patients who, in addition to toothpaste and BUCCOTHERM rinse, used BUCCOTHERM oral spray three times a day. We measured, before the start of the research and after 3 months of using prophylactic agents by patients, the rate of salivation, viscosity, and pH of the oral fluid, mineralizing potential, and the concentration of calcium and magnesium in saliva.
Results.
After 3 months of regular use of BUCCOTHERM by patients of group I, the mineralizing potential of saliva increased from 1.31 to 2.27 points, and by patients of group II — from 1.28 to 2.87 points (p<0.05).
Conclusion.
The application of BUCCOTHERM oral hygiene products effectively increases the mineralizing potential of saliva, increases the rate of salivation and the concentration of trace elements in the oral fluid in patients with post-COVID syndrome. The most effective is the combined use of BUCCOTHERM toothpaste, rinse and aerosol.

Key words:

oral hygiene, post-COVID syndrome, thermal water

For Citation

[1]
Toumassian M.G., Toumassian S.G., Satygo E.A. The effectiveness of oral hygiene products based on Castéra-Verduzan thermal water in patients with post-COVID syndrome. Clinical Dentistry (Russia).  2022; 25 (4): 82—87. DOI: 10.37988/1811-153X_2022_4_82

References

  1. Augustin M., Schommers P., et al. Post-COVID syndrome in non-hospitalised patients with COVID-19: a longitudinal prospective cohort study. Lancet Reg Health Eur. 2021; 6: 100122. PMID: 34027514
  2. Brandão T.B., Gueiros L.A., Melo T.S., Prado-Ribeiro A.C., Nesrallah A.C.F.A., Prado G.V.B., Santos-Silva A.R., Migliorati C.A. Oral lesions in patients with SARS-CoV-2 infection: could the oral cavity be a target organ? Oral Surg Oral Med Oral Pathol Oral Radiol. 2021; 131 (2): e45-e51. PMID: 32888876
  3. O.’Connor R.J., Preston N., Parkin A., Makower S., Ross D., Gee J., Halpin S.J., Horton M., Sivan M. The COVID-19 Yorkshire Rehabilitation Scale (C19-YRS): Application and psychometric analysis in a post-COVID-19 syndrome cohort. J Med Virol. 2022; 94 (3): 1027—1034. PMID: 34676578
  4. Basille D., Jounieaux V., Andrejak C. [Perspectives post-COVID-19: le point de vue des pneumologues]. Anesthésie&Réanimation. 2022; 8 (3): 236—240 (In French). DOI: 10.1016/j.anrea.2022.03.005
  5. Marchesan J.T., Warner B.M., Byrd K.M. The “oral” history of COVID-19: Primary infection, salivary transmission, and post-acute implications. J Periodontol. 2021; 92 (10): 1357—1367. PMID: 34390597
  6. Grinevich V.B., Kravchuk Yu.A., Ped V.I., Sas E.I., Salikova S.P., Gubonina I.V., Tkachenko E.I., Sitkin S.I., Lazebnik L.B., Golovanova E.V. Management of patients with digestive diseases during the COVID-19 pandemic: Clinical Practice Guidelines by the Gastroenterological Scientific Society of Russia. Experimental and Clinical Gastroenterology Journal. 2020; 7 (179): 4—51 (In Russ.). eLIBRARY ID: 43956997
  7. Czumbel L.M., Kiss S., Farkas N., Mandel I., Hegyi A., Nagy Á., Lohinai Z., Szakács Z., Hegyi P., Steward M.C., Varga G. Saliva as a candidate for COVID-19 diagnostic testing: A meta-analysis. Front Med (Lausanne). 2020; 7: 465. PMID: 32903849
  8. Sabino-Silva R., Jardim A.C.G., Siqueira W.L. Coronavirus COVID-19 impacts to dentistry and potential salivary diagnosis. Clin Oral Investig. 2020; 24 (4): 1619—1621. PMID: 32078048
  9. Sapkota D., Søland T.M., Galtung H.K., Sand L.P., Giannecchini S., To K.K.W., Mendes-Correa M.C., Giglio D., Hasséus B., Braz-Silva P.H. COVID-19 salivary signature: diagnostic and research opportunities. J Clin Pathol. 2020; Online ahead of print. PMID: 32769214
  10. Schafer C.A., Schafer J.J., Yakob M., Lima P., Camargo P., Wong D.T. Saliva diagnostics: utilizing oral fluids to determine health status. Monogr Oral Sci. 2014; 24: 88—98. PMID: 24862597
  11. Jordanishvili A.K. Oral liquid adult: age peculiarities of the physicochemical properties and micro crystallization. Adv Gerontol. 2019; 3: 477—482 (In Russ.). eLIBRARY ID: 38782041
  12. Makedonova Yu.A., Aleksandrina E.S., Dyachenko S.V., Afanayeva O.Yu., Kurkina O.N. Analysis of crystallograms of oral fluid in the dynamics of treatment of patients with pathology of the oral mucosa. Endodontics Today. 2022; 1: 64—71 (In Russ.). eLIBRARY ID: 49143642
  13. Satygo E.A., Bakulin I.G., Limina A.P. Oral hygiene and oral fluid indices in patients with post-COVID syndrome using different kinds of toothpastes. Parodontologiya. 2021; 4: 301—307 (In Russ.). eLIBRARY ID: 47596089
  14. Rogozhnikov G.I., Horowitz E.S., Karpunina T.I., Astashina N.B., Gordeeva V.D. Correction of microecological disorders and prevention of oral dysbiosis in patients with jaw defects using mineral water of the Klyuchi resort. Ural Medical Journal. 2008; 10 (50): 105—108 (In Russ.). eLIBRARY ID: 12502243
  15. Chen Z., Miao Z., Zhang P., Xiao H., Liu H., Ding C., Tan H., Li J. Bioinspired enamel-like oriented minerals on general surfaces: towards improved mechanical properties. J Mater Chem B. 2019; 7 (34): 5237—5244. PMID: 31380880
  16. Danilina T.F., Mikhalchenko D.V., Naumova V.N., Zhidovinov A.V. Casting in orthopedic dental practice. Clinical aspects. Volgograd State Medical University, 2014. Pp. 131—134 (In Russ.). eLIBRARY ID: 24174635
  17. Zolotarev N.N. Balneological application of funds in dentistry. International Student Scientific Bulletin. 2016; 2: 35 (In Russ.). eLIBRARY ID: 27290843
  18. Gumilevskiy B.Y., Zhidovinov A.V., Derevyanchenko S.P., Kolesova T.V., Denisenko L.N. The relationship of immune inflammation and clinical manifestations of galvanise oral cavities. Fundamental research. 2014; 7—2: 278—281 (In Russ.). eLIBRARY ID: 21736715
  19. Zhidovinov A.V., Golovchenko S.G., Denisenko L.N., Matveev S.V., Arutyunov G.R. The problem of choice cleaning methods provisionally designs on stage orthopedic treatment. Modern Problems of Science and Education. 2015; 3: 232 (In Russ.). eLIBRARY ID: 23703660
  20. Kozyreva Z.K., Khetagurova L.G., Kozyrev K.M. Structurally functional basis of immunorehabilitation of chronic gingivitis patients by eleuterococcus and phytovit phytoadaptogens. Sulphide mineral water “Redant-4” influence. Journal of New Medical Technologies. 2011; 3: 209—214 (In Russ.). eLIBRARY ID: 16999405
  21. Prasad N., Pushpaangaeli B., Ram A., Maimanuku L. Fluoride concentration in drinking water samples in Fiji. Aust N Z J Public Health. 2018; 42 (4): 372—374. PMID: 29697882
  22. Koryukina I.P., Sidorov V.V., Maslov Yu.N., Leonova L.E., Chernyshova L.E., Kuranov G.V., Krasina Yu.Yu. Assessment of antimicrobial properties of hydrosulfuric mineral water of health resort Ust-Kachka. Perm Medical Journal. 2011; 5: 90—95 (In Russ.). eLIBRARY ID: 17062826
  23. Kuprina I.V. Borisovskaya mineral water effects on the hard dental tissue pathology in children and its use in the complex prevention of dental caries in the Kuzbass region (clinical and laboratory study): master’s thesis. Omsk State Medical Academy, 2009. 104 p. (In Russ.). eLIBRARY ID: 19201292
  24. Xavier G.M.B., De Almeida A.S., de Souza Bentes A.G., Sano I.S., Silva C.M., Araújo J.L.N. Assessment of the erosive potential of mineral waters in bovine dental enamel. The Open Dentistry Journal. 2022; 16: 1—6. DOI: 10.2174/18742106-v16-e2208180
  25. Leonova L.E., Smelova L.Z., Pavlova G.A., Krasina Yu.Yu., Chernyshova L.E. Clinicofunctional estimation of results of periodontitis balneopelotherapy. Perm Medical Journal. 2012; 6: 106—110 (In Russ.). eLIBRARY ID: 18353394
  26. da Silva Bonifácio A., de Lima Brum R., Tavella R.A., Ramires P.F., Lessa I.M., Dos Santos M., da Silva Júnior F.M.R. Human health risk assessment of metals and anions in surface water from a mineral coal region in Brazil. Environ Monit Assess. 2021; 193 (9): 567. PMID: 34383141
  27. Leonova L.E., Smelova L.Z., Pavlova G.A., Chernyshova L.E. Complex treatment of chronic periodontitis with balneopeloid therapy. Stomatology. 2013; 1: 35—39 (In Russ.). eLIBRARY ID: 18876280
  28. Mikhalchenko D.V., Filyuk E.A., Zhidovinov A.V., Fedotova Yu.M. Social problems of prevention of dental diseases among students. Modern Problems of Science and Education. 2014; 5: 474 (In Russ.). eLIBRARY ID: 22566875
  29. Sadykova O.M. Comparative evaluation of the minor balneotherapy effect in treating for mucositis. Medical Newsletter of Vyatka. 2016; 3 (51): 73—77 (In Russ.). eLIBRARY ID: 29039286
  30. Khvostov S.N., Poroysky S.V., Mikhalchenko D.V., Yarygina E.N., Zhidovinov A.V. Comparative analysis and justification of the choice of experimental models used in the study of osseointegration of dental implants. Clinical Dentistry (Russia). 2018; 3 (87): 58—62 (In Russ.). eLIBRARY ID: 35670898
  31. Addison M.J., Rivett M.O., Phiri O.L., Milne N., Milne V., McMahon A.D., Macpherson L.M.D., Bagg J., Conway D.I., Phiri P., Mbalame E., Manda I., Kalin R.M. ‘Hidden Hot Springs’ as a source of groundwater fluoride and severe dental fluorosis in Malawi. Water. 2021; 13 (8): 1106. DOI: 10.3390/w13081106
  32. Badet C., Dhalluin-Olive F., Richard B. [Apport du thermalisme au contrôle du pH de la plaque dentaire: application aux eaux thermales de Castéra-Verduzan. Presse thermale et climatique. 1999; 136 (2): 93—95 (In French). https://bit.ly

Received

September 13, 2022

Accepted

November 13, 2022

Published on

December 21, 2022