Modification of the Lipid Profile of the Initial Oral Biofilm In Situ Using Linseed Oil as Mouthwash

Anna Kensche; Marco Reich; Christian Hannig; Klaus Kümmerer; Matthias Hannig

doi:10.3390/nu13030989

Modification of the Lipid Profile of the Initial Oral Biofilm In Situ Using Linseed Oil as Mouthwash

Anna Kensche
, Marco Reich
, Christian Hannig
, Klaus Kümmerer
, Matthias Hannig

Research output: Journal contributions › Journal articles › Research › peer-review

9 Citations (Scopus)

106 Downloads (Pure)

Abstract

Lipids are of interest for the targeted modification of oral bioadhesion processes. Therefore, the sustainable effects of linseed oil on the composition and ultrastructure of the in situ pellicle were investigated. Unlike saliva, linseed oil contains linolenic acid (18:3), which served as a marker for lipid accumulation. Individual splints with bovine enamel slabs were worn by five subjects. After 1 min of pellicle formation, rinses were performed with linseed oil for 10 min, and the slabs’ oral exposure was continued for up to 2 or 8 h. Gas chromatography coupled with electron impact ionization mass spectrometry (GC-EI/MS) was used to characterize the fatty acid composition of the pellicle samples. Transmission electron microscopy was performed to analyze the ultrastructure. Extensive accumulation of linolenic acid was recorded in the samples of all subjects 2 h after the rinse and considerable amounts persisted after 8 h. The ultrastructure of the 2 h pellicle was less electron-dense and contained lipid vesicles when compared with controls. After 8 h, no apparent ultrastructural effects were visible. Linolenic acid is an excellent marker for the investigation of fatty acid accumulation in the pellicle. New preventive strategies could benefit from the accumulation of lipid components in the pellicle.

Original language	English
Article number	989
Journal	Nutrients
Volume	13
Issue number	3
Pages (from-to)	1-13
Number of pages	13
ISSN	2072-6643
DOIs	https://doi.org/10.3390/nu13030989
Publication status	Published - 19.03.2021

Bibliographical note

This study has been funded by the German Research Foundation (HA 2718/14-3, HA 5192/2-3, KU 1271/6-3).

Research areas and keywords

Chemistry
Dentistry
Analytical Chemistry
Nutrition
Lipids

ASJC Scopus Subject Areas

Nutrition and Dietetics
Food Science

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10.3390/nu13030989Licence: CC BY

DownloadFinal published version, 2.47 MBLicence: CC BY

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The lipidome of the pellicle and the role of lipids for the dynamic process of initial biofilm formation in situ.
Kümmerer, K. (Project manager, academic), Hannig, C. (Project manager, academic), Hannig, M. (Project manager, academic) & Reich, M. (Project manager, academic)
German Research Foundation
11.01.15 → 10.01.18
Project: Research

9 Citations
3 Journal articles
1 Conference abstract in journal
1 Scientific review articles

Intentionelle Modifizierung des Lipidprofils des initialen oralen Biofilms durch Mundspülung mit Leinöl
Reich, M., Kümmerer, K., Robertson, J., Hannig, M. & Hannig, C., 2017, In: Deutsche Zahnärztliche Zeitschrift. 72, S, p. D8 1 p.
Research output: Journal contributions › Conference abstract in journal › Research › peer-review

Open Access
File
Fatty Acid Profile of the Initial Oral Biofilm (Pellicle): an In-Situ Study
Reich, M., Kümmerer, K., Al-Ahmad, A. & Hannig, C., 09.2013, In: Lipids. 48, 9, p. 929-937 9 p.
Research output: Journal contributions › Journal articles › Research › peer-review
35 Citations (Scopus)
Lipids in preventive dentistry
Kensche, A., Reich, M., Kümmerer, K., Hannig, M. & Hannig, C., 04.2013, In: Clinical Oral Investigations. 17, 3, p. 669-685 17 p.
Research output: Journal contributions › Scientific review articles › Research
52 Citations (Scopus)

Cite this

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title = "Modification of the Lipid Profile of the Initial Oral Biofilm In Situ Using Linseed Oil as Mouthwash",

abstract = "Lipids are of interest for the targeted modification of oral bioadhesion processes. Therefore, the sustainable effects of linseed oil on the composition and ultrastructure of the in situ pellicle were investigated. Unlike saliva, linseed oil contains linolenic acid (18:3), which served as a marker for lipid accumulation. Individual splints with bovine enamel slabs were worn by five subjects. After 1 min of pellicle formation, rinses were performed with linseed oil for 10 min, and the slabs{\textquoteright} oral exposure was continued for up to 2 or 8 h. Gas chromatography coupled with electron impact ionization mass spectrometry (GC-EI/MS) was used to characterize the fatty acid composition of the pellicle samples. Transmission electron microscopy was performed to analyze the ultrastructure. Extensive accumulation of linolenic acid was recorded in the samples of all subjects 2 h after the rinse and considerable amounts persisted after 8 h. The ultrastructure of the 2 h pellicle was less electron-dense and contained lipid vesicles when compared with controls. After 8 h, no apparent ultrastructural effects were visible. Linolenic acid is an excellent marker for the investigation of fatty acid accumulation in the pellicle. New preventive strategies could benefit from the accumulation of lipid components in the pellicle.",

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author = "Anna Kensche and Marco Reich and Christian Hannig and Klaus K{\"u}mmerer and Matthias Hannig",

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AU - Reich, Marco

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AU - Kümmerer, Klaus

AU - Hannig, Matthias

N1 - This study has been funded by the German Research Foundation (HA 2718/14-3, HA 5192/2-3, KU 1271/6-3).

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N2 - Lipids are of interest for the targeted modification of oral bioadhesion processes. Therefore, the sustainable effects of linseed oil on the composition and ultrastructure of the in situ pellicle were investigated. Unlike saliva, linseed oil contains linolenic acid (18:3), which served as a marker for lipid accumulation. Individual splints with bovine enamel slabs were worn by five subjects. After 1 min of pellicle formation, rinses were performed with linseed oil for 10 min, and the slabs’ oral exposure was continued for up to 2 or 8 h. Gas chromatography coupled with electron impact ionization mass spectrometry (GC-EI/MS) was used to characterize the fatty acid composition of the pellicle samples. Transmission electron microscopy was performed to analyze the ultrastructure. Extensive accumulation of linolenic acid was recorded in the samples of all subjects 2 h after the rinse and considerable amounts persisted after 8 h. The ultrastructure of the 2 h pellicle was less electron-dense and contained lipid vesicles when compared with controls. After 8 h, no apparent ultrastructural effects were visible. Linolenic acid is an excellent marker for the investigation of fatty acid accumulation in the pellicle. New preventive strategies could benefit from the accumulation of lipid components in the pellicle.

AB - Lipids are of interest for the targeted modification of oral bioadhesion processes. Therefore, the sustainable effects of linseed oil on the composition and ultrastructure of the in situ pellicle were investigated. Unlike saliva, linseed oil contains linolenic acid (18:3), which served as a marker for lipid accumulation. Individual splints with bovine enamel slabs were worn by five subjects. After 1 min of pellicle formation, rinses were performed with linseed oil for 10 min, and the slabs’ oral exposure was continued for up to 2 or 8 h. Gas chromatography coupled with electron impact ionization mass spectrometry (GC-EI/MS) was used to characterize the fatty acid composition of the pellicle samples. Transmission electron microscopy was performed to analyze the ultrastructure. Extensive accumulation of linolenic acid was recorded in the samples of all subjects 2 h after the rinse and considerable amounts persisted after 8 h. The ultrastructure of the 2 h pellicle was less electron-dense and contained lipid vesicles when compared with controls. After 8 h, no apparent ultrastructural effects were visible. Linolenic acid is an excellent marker for the investigation of fatty acid accumulation in the pellicle. New preventive strategies could benefit from the accumulation of lipid components in the pellicle.

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KW - Dentistry

KW - Analytical Chemistry

KW - Nutrition

KW - Lipids

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Modification of the Lipid Profile of the Initial Oral Biofilm In Situ Using Linseed Oil as Mouthwash

Abstract

Bibliographical note

Research areas and keywords

ASJC Scopus Subject Areas

Access to Document

Fingerprint

Projects

The lipidome of the pellicle and the role of lipids for the dynamic process of initial biofilm formation in situ.

Research output

Intentionelle Modifizierung des Lipidprofils des initialen oralen Biofilms durch Mundspülung mit Leinöl

Fatty Acid Profile of the Initial Oral Biofilm (Pellicle): an In-Situ Study

Lipids in preventive dentistry

Cite this