Impact of increased gas medium pressure on tooth microcirculation

A. Pototskaya; Потоцкая А. В.; A. Krivonos; Кривонос А. С.; A. Polikarpochkin; Поликарпочкин А. Н.; I. Klenkov; Кленков И. Р.; T. Poplaukhin; Поплаухин Т. С.; D. Klenkova; Кленкова Д. А.

doi:10.29296/25877305-2023-03-14

Impact of increased gas medium pressure on tooth microcirculation

Authors: Pototskaya A.¹, Krivonos A.¹, Polikarpochkin A.², Klenkov I.¹, Poplaukhin T.¹, Klenkova D.¹
Affiliations:
1. S.M. Kirov Military Medical Academy, Ministry of Defense of Russia
2. BAROCOM Sports Medicine Center
Issue: Vol 34, No 3 (2023)
Pages: 66-69
Section: From Practice
URL: https://journals.eco-vector.com/0236-3054/article/view/364528
DOI: https://doi.org/10.29296/25877305-2023-03-14
ID: 364528

Cite item

Full Text

Open Access
Restricted Access

Access granted
Restricted Access

Subscription or Fee Access

Abstract
Full Text
About the authors
References
Supplementary files
Statistics

Abstract

Objective. To evaluate the effect of hyperbaric exposure on tooth microcirculation.

Subjects and methods. The investigation enrolled 14 divers who had undergone a dental examination, followed by a study of the microcirculation of intact and carious teeth, by using laser Doppler flowmetry during simulated (pressure chamber) diving at a depth of 30 m (0.4 MPa) and 70 m (0.8 MPa).

Results. In the 30- and 70-m diving groups, the baseline microcirculation of carious teeth were higher than that of intact teeth by 43.5 and 45.2%, respectively (p<0.05). After pressure chamber diving, there was an insignificant decrease in the microcirculation of intact teeth compared to the baseline values. The carious teeth exhibited a significant (p<0.05) reduction in the microcirculation parameters compared to the baseline values: when diving at a depth of 30 m by 0.7 perfusion units (by 21.2%) and at a depth of 70 m by 1.2 perfusion units (by 41.4%).

Conclusion. The results of the study have indicated that the higher gas medium pressure caused a decrease in the microcirculation of carious teeth. The magnitude of the change in microcirculation parameters depends on the depth of the dive. Further study of the microcirculation of the teeth will be able to create informative evaluation criteria to search for effective pharmacological agents for the prevention of barodontalgia in divers.

Keywords

dentistry, divers, barodontalgia, hyperbaric exposure, microcirculation, carious teeth, intact teeth, laser Doppler flowmetry

Full Text

Russian Federation, Penza

I. Klenkov

S.M. Kirov Military Medical Academy, Ministry of Defense of Russia

Email: csm-barocom@ya.ru

Candidate of Medical Sciences

Russian Federation, Saint Petersburg

T. Poplaukhin

S.M. Kirov Military Medical Academy, Ministry of Defense of Russia

Email: csm-barocom@ya.ru
Russian Federation, Saint Petersburg

D. Klenkova

S.M. Kirov Military Medical Academy, Ministry of Defense of Russia

Email: csm-barocom@ya.ru
Russian Federation, Saint Petersburg

References

Dmitruk A.I. Meditsina glubokovodnykh pogruzhenii. SPb: Sankt-Peterburgskii gosudarstvennyi izdatel'sko-poligraficheskii tekhnikum, 2004; 292 р. (in Russ.).
Iordanishvili A.K., Kovalevskii A.M. Osobennosti klinicheskogo techeniya, lecheniya i profilaktiki zabolevanii zubochelyustnoi sistemy u letnogo i plavsostava. Monografiya. SPb, 1998; 11 р. (in Russ.).
Klenkov I.R. Fiziologicheskoe obosnovanie povysheniya ustoichivosti organizma cheloveka k deistviyu vysokikh partsial'nykh davlenii azota. Avtoref. dis. … kand. med. nauk. SPb, 2020; 24 р. (in Russ.).
Loginova N.K. et al. Lazernaya dopplerografiya pul'py zuba. Novaya meditsinskaya tekhnologiya. M., 2008 (in Russ.). URL: https://stomport.ru/articles/lazernaya-dopplerografiya-pulpy-zuba
Muth C.-M., Tetzlaff K. Herz und Kreislauf kardiozirkulatorische Aspekte beim Tauchen. Bjorn Juttner Caisson. 2017; 1 (32): 26–8.