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Tonsillolith, not just a stone but a living biofilm

Tonsillolith, not just a stone but a living biofilm
Tonsillolith, not just a stone but a living biofilm
Objective: to study the morphology and activity of tonsilloliths, demonstrating oxygen respiration, denitrification, and acidification on exposure to sucrose.

Study design: tonsilloliths were extracted in atraumatic conditions during tonsillectomy from 16 adults and sent to two different laboratories for histological, bacteriological, and biofilm studies under sterile conditions.

Setting: multicenter laboratory study.

Subjects and methods: multiple tonsilloliths from two patients examined by confocal microscopy and microelectrodes were used to measure aerobic/anaerobic respiration and acid production (dissolved oxygen, nitrous oxide, pH) when exposed to saliva following addition of sucrose and fluoride.

Results: morphologically, tonsilloliths were similar to dental biofilms, containing corncob structures, filaments, and cocci. Microelectrodes showed that the microorganisms respired oxygen and nitrate. The oxygen concentration in the center of the tonsillolith was depleted to approximately one-tenth of that of the overlying fluid. The addition of sucrose resulted in acid production within the tonsillolith, dropping the pH from 7.3 to 5.8. The data showed stratification with oxygen respiration at the outer layer of tonsillolith, denitrification toward the middle, and acidification toward the bottom. The depletion of oxygen and acid production following addition of sucrose may allow the proliferation of anaerobic/acidophilic bacteria. Fluoride suppressed acid production in the presence of sucrose.

Conclusions: tonsilloliths exhibit biofilm structure and the formation of chemical gradients through physiological activity. Although tonsillectomy is an option for treating cryptic infections, understanding the morphology and biofilm characteristics of tonsilloliths may stimulate scientists to use limited or targeted remedies in the future
0194-5998
316-321
Stoodley, Paul
08614665-92a9-4466-806e-20c6daeb483f
Debeer, Dirk
fc1a7a0a-613d-4a5c-af1a-09d03f4a58b4
Longwell, Mark
46107021-4f21-4b92-8fe8-3cda3f255077
Nistico, Laura
7a83886a-6bf1-46a1-87dd-75a120d41603
Hall-Stoodley, Luanne
94ebdc00-b549-4488-b15f-5310fb965f5b
Wenig, Bruce
73027969-3543-4934-840c-247af087175f
Krespi, Yosef P.
e3c5d817-98d0-4de4-8af7-11402421b8a0
Stoodley, Paul
08614665-92a9-4466-806e-20c6daeb483f
Debeer, Dirk
fc1a7a0a-613d-4a5c-af1a-09d03f4a58b4
Longwell, Mark
46107021-4f21-4b92-8fe8-3cda3f255077
Nistico, Laura
7a83886a-6bf1-46a1-87dd-75a120d41603
Hall-Stoodley, Luanne
94ebdc00-b549-4488-b15f-5310fb965f5b
Wenig, Bruce
73027969-3543-4934-840c-247af087175f
Krespi, Yosef P.
e3c5d817-98d0-4de4-8af7-11402421b8a0

Stoodley, Paul, Debeer, Dirk, Longwell, Mark, Nistico, Laura, Hall-Stoodley, Luanne, Wenig, Bruce and Krespi, Yosef P. (2009) Tonsillolith, not just a stone but a living biofilm. Otolaryngology Head and Neck Surgery, 141 (3), 316-321. (doi:10.1016/j.otohns.2009.05.019).

Record type: Article

Abstract

Objective: to study the morphology and activity of tonsilloliths, demonstrating oxygen respiration, denitrification, and acidification on exposure to sucrose.

Study design: tonsilloliths were extracted in atraumatic conditions during tonsillectomy from 16 adults and sent to two different laboratories for histological, bacteriological, and biofilm studies under sterile conditions.

Setting: multicenter laboratory study.

Subjects and methods: multiple tonsilloliths from two patients examined by confocal microscopy and microelectrodes were used to measure aerobic/anaerobic respiration and acid production (dissolved oxygen, nitrous oxide, pH) when exposed to saliva following addition of sucrose and fluoride.

Results: morphologically, tonsilloliths were similar to dental biofilms, containing corncob structures, filaments, and cocci. Microelectrodes showed that the microorganisms respired oxygen and nitrate. The oxygen concentration in the center of the tonsillolith was depleted to approximately one-tenth of that of the overlying fluid. The addition of sucrose resulted in acid production within the tonsillolith, dropping the pH from 7.3 to 5.8. The data showed stratification with oxygen respiration at the outer layer of tonsillolith, denitrification toward the middle, and acidification toward the bottom. The depletion of oxygen and acid production following addition of sucrose may allow the proliferation of anaerobic/acidophilic bacteria. Fluoride suppressed acid production in the presence of sucrose.

Conclusions: tonsilloliths exhibit biofilm structure and the formation of chemical gradients through physiological activity. Although tonsillectomy is an option for treating cryptic infections, understanding the morphology and biofilm characteristics of tonsilloliths may stimulate scientists to use limited or targeted remedies in the future

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More information

Published date: September 2009
Additional Information: The National Centre for Advanced Tribology at Southampton (nCATS)

Identifiers

Local EPrints ID: 71644
URI: http://eprints.soton.ac.uk/id/eprint/71644
ISSN: 0194-5998
PURE UUID: 0ea2c8af-8162-4e9c-98df-091473daf494
ORCID for Paul Stoodley: ORCID iD orcid.org/0000-0001-6069-273X

Catalogue record

Date deposited: 18 Dec 2009
Last modified: 14 Mar 2024 02:55

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Contributors

Author: Paul Stoodley ORCID iD
Author: Dirk Debeer
Author: Mark Longwell
Author: Laura Nistico
Author: Luanne Hall-Stoodley
Author: Bruce Wenig
Author: Yosef P. Krespi

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