Effect of fragaria vesca, hamamelis and tormentil on the initial bacterial colonization in situ

•Fragaria vesca, hamamelis and tormentil significantly reduce initial bioadhesion and glucan formation in situ.•Fragaria vesca, hamamelis and tormentil lead to a thicker more electron dense pellicle.•Fragaria vesca, hamamelis and tormentil and are recommended as adjuvant antibacterial oral therapeut...

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Published inArchives of Oral Biology Vol. 118; p. 104853
Main Authors Kirsch, Jasmin, Jung, Amira, Hille, Kristin, König, Belinda, Hannig, Christian, Kölling-Speer, Isabelle, Speer, Karl, Hannig, Matthias
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.10.2020
Elsevier BV
Subjects
Animals
BacLight
Bacterial Adhesion
Bacterial Adhesion - drug effects
Biofilms
Biofilms - drug effects
Cattle
ConA
DAPI
Dental Pellicle
Fragaria
Fragaria - chemistry
Hamamelis
Hamamelis - chemistry
Humans
Polyphenols
Salivary pellicle
TEM
Polyphenols
BacLight
DAPI
Salivary pellicle
TEM
ConA
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Abstract •Fragaria vesca, hamamelis and tormentil significantly reduce initial bioadhesion and glucan formation in situ.•Fragaria vesca, hamamelis and tormentil lead to a thicker more electron dense pellicle.•Fragaria vesca, hamamelis and tormentil and are recommended as adjuvant antibacterial oral therapeutics. The presentin situ study aims to examine the influence of the polyphenolic tea drugs fragaria vesca, hamamelis and tormentil on the initial oral bioadhesion. Initial biofilm formation was performed on bovine enamel slabs which were carried intraorally by 12 subjects. After 1 min of intraoral pellicle formation, the subjects rinsed with fragaria vesca, tormentil (0.8 mg/8 mL) and hamamelis (0.2 mg/8 mL) for 10 min. Tap water served as negative control, 0.2 % CHX as positive control. The investigations took place on different days (wash-out: 2 days). Afterwards, fluorescence microscopy has been performed per test solution (n = 5) and per subject (n = 12) to visualize bacterial adhesion and glucan formation (8 h oral exposition) with DAPI, ConA and BacLight. Additionally, TEM was used to visualize the pellicle ultrastructure and expectorate samples. Statistical evaluation was carried out using the Kruskal-Wallis- (p < 0.5), Mann–Whitney U test (p < 0.5) and Bonferroni-Holm-correction (p < 0.1). Rinsing with the polyphenolic tea extracts reduced significantly initial bacterial colonization (DAPI) compared to the negative control. There was no significant difference betweenfragaria vesca, hamamelis and tormentil. All solutions showed a reducing effect on the glucan formation. No significant difference was observed between fragaria vesca and CHX. Considerable alterations of the pellicle’s ultrastructure manifested by an increase in thickness and electron density resulted from rinsing with the three polyphenolic aqueous extracts. Fragaria vesca, hamamelis and tormentil significantly reduce initial bioadhesion and glucan formation in situ and are therefore recommended as adjuvant antibacterial oral therapeutics.
AbstractList The presentin situ study aims to examine the influence of the polyphenolic tea drugs fragaria vesca, hamamelis and tormentil on the initial oral bioadhesion.OBJECTIVEThe presentin situ study aims to examine the influence of the polyphenolic tea drugs fragaria vesca, hamamelis and tormentil on the initial oral bioadhesion.Initial biofilm formation was performed on bovine enamel slabs which were carried intraorally by 12 subjects. After 1 min of intraoral pellicle formation, the subjects rinsed with fragaria vesca, tormentil (0.8 mg/8 mL) and hamamelis (0.2 mg/8 mL) for 10 min. Tap water served as negative control, 0.2 % CHX as positive control. The investigations took place on different days (wash-out: 2 days). Afterwards, fluorescence microscopy has been performed per test solution (n = 5) and per subject (n = 12) to visualize bacterial adhesion and glucan formation (8 h oral exposition) with DAPI, ConA and BacLight. Additionally, TEM was used to visualize the pellicle ultrastructure and expectorate samples. Statistical evaluation was carried out using the Kruskal-Wallis- (p < 0.5), Mann-Whitney U test (p < 0.5) and Bonferroni-Holm-correction (p < 0.1).DESIGNInitial biofilm formation was performed on bovine enamel slabs which were carried intraorally by 12 subjects. After 1 min of intraoral pellicle formation, the subjects rinsed with fragaria vesca, tormentil (0.8 mg/8 mL) and hamamelis (0.2 mg/8 mL) for 10 min. Tap water served as negative control, 0.2 % CHX as positive control. The investigations took place on different days (wash-out: 2 days). Afterwards, fluorescence microscopy has been performed per test solution (n = 5) and per subject (n = 12) to visualize bacterial adhesion and glucan formation (8 h oral exposition) with DAPI, ConA and BacLight. Additionally, TEM was used to visualize the pellicle ultrastructure and expectorate samples. Statistical evaluation was carried out using the Kruskal-Wallis- (p < 0.5), Mann-Whitney U test (p < 0.5) and Bonferroni-Holm-correction (p < 0.1).Rinsing with the polyphenolic tea extracts reduced significantly initial bacterial colonization (DAPI) compared to the negative control. There was no significant difference betweenfragaria vesca, hamamelis and tormentil. All solutions showed a reducing effect on the glucan formation. No significant difference was observed between fragaria vesca and CHX. Considerable alterations of the pellicle's ultrastructure manifested by an increase in thickness and electron density resulted from rinsing with the three polyphenolic aqueous extracts.RESULTSRinsing with the polyphenolic tea extracts reduced significantly initial bacterial colonization (DAPI) compared to the negative control. There was no significant difference betweenfragaria vesca, hamamelis and tormentil. All solutions showed a reducing effect on the glucan formation. No significant difference was observed between fragaria vesca and CHX. Considerable alterations of the pellicle's ultrastructure manifested by an increase in thickness and electron density resulted from rinsing with the three polyphenolic aqueous extracts.Fragaria vesca, hamamelis and tormentil significantly reduce initial bioadhesion and glucan formation in situ and are therefore recommended as adjuvant antibacterial oral therapeutics.CONCLUSIONSFragaria vesca, hamamelis and tormentil significantly reduce initial bioadhesion and glucan formation in situ and are therefore recommended as adjuvant antibacterial oral therapeutics.
•Fragaria vesca, hamamelis and tormentil significantly reduce initial bioadhesion and glucan formation in situ.•Fragaria vesca, hamamelis and tormentil lead to a thicker more electron dense pellicle.•Fragaria vesca, hamamelis and tormentil and are recommended as adjuvant antibacterial oral therapeutics. The presentin situ study aims to examine the influence of the polyphenolic tea drugs fragaria vesca, hamamelis and tormentil on the initial oral bioadhesion. Initial biofilm formation was performed on bovine enamel slabs which were carried intraorally by 12 subjects. After 1 min of intraoral pellicle formation, the subjects rinsed with fragaria vesca, tormentil (0.8 mg/8 mL) and hamamelis (0.2 mg/8 mL) for 10 min. Tap water served as negative control, 0.2 % CHX as positive control. The investigations took place on different days (wash-out: 2 days). Afterwards, fluorescence microscopy has been performed per test solution (n = 5) and per subject (n = 12) to visualize bacterial adhesion and glucan formation (8 h oral exposition) with DAPI, ConA and BacLight. Additionally, TEM was used to visualize the pellicle ultrastructure and expectorate samples. Statistical evaluation was carried out using the Kruskal-Wallis- (p < 0.5), Mann–Whitney U test (p < 0.5) and Bonferroni-Holm-correction (p < 0.1). Rinsing with the polyphenolic tea extracts reduced significantly initial bacterial colonization (DAPI) compared to the negative control. There was no significant difference betweenfragaria vesca, hamamelis and tormentil. All solutions showed a reducing effect on the glucan formation. No significant difference was observed between fragaria vesca and CHX. Considerable alterations of the pellicle’s ultrastructure manifested by an increase in thickness and electron density resulted from rinsing with the three polyphenolic aqueous extracts. Fragaria vesca, hamamelis and tormentil significantly reduce initial bioadhesion and glucan formation in situ and are therefore recommended as adjuvant antibacterial oral therapeutics.
The presentin situ study aims to examine the influence of the polyphenolic tea drugs fragaria vesca, hamamelis and tormentil on the initial oral bioadhesion. Initial biofilm formation was performed on bovine enamel slabs which were carried intraorally by 12 subjects. After 1 min of intraoral pellicle formation, the subjects rinsed with fragaria vesca, tormentil (0.8 mg/8 mL) and hamamelis (0.2 mg/8 mL) for 10 min. Tap water served as negative control, 0.2 % CHX as positive control. The investigations took place on different days (wash-out: 2 days). Afterwards, fluorescence microscopy has been performed per test solution (n = 5) and per subject (n = 12) to visualize bacterial adhesion and glucan formation (8 h oral exposition) with DAPI, ConA and BacLight. Additionally, TEM was used to visualize the pellicle ultrastructure and expectorate samples. Statistical evaluation was carried out using the Kruskal-Wallis- (p < 0.5), Mann-Whitney U test (p < 0.5) and Bonferroni-Holm-correction (p < 0.1). Rinsing with the polyphenolic tea extracts reduced significantly initial bacterial colonization (DAPI) compared to the negative control. There was no significant difference betweenfragaria vesca, hamamelis and tormentil. All solutions showed a reducing effect on the glucan formation. No significant difference was observed between fragaria vesca and CHX. Considerable alterations of the pellicle's ultrastructure manifested by an increase in thickness and electron density resulted from rinsing with the three polyphenolic aqueous extracts. Fragaria vesca, hamamelis and tormentil significantly reduce initial bioadhesion and glucan formation in situ and are therefore recommended as adjuvant antibacterial oral therapeutics.
ArticleNumber 104853
Author Kölling-Speer, Isabelle
Jung, Amira
Hille, Kristin
König, Belinda
Speer, Karl
Hannig, Christian
Kirsch, Jasmin
Hannig, Matthias
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  givenname: Amira
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  organization: Clinic of Operative Dentistry, Medical Faculty Carl Gustav Carus, Technische Universität Dresden, Fetscherstraße 74, D-01307, Dresden, Germany
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  givenname: Kristin
  surname: Hille
  fullname: Hille, Kristin
  organization: Clinic of Operative Dentistry, Medical Faculty Carl Gustav Carus, Technische Universität Dresden, Fetscherstraße 74, D-01307, Dresden, Germany
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  givenname: Christian
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  organization: Clinic of Operative Dentistry, Medical Faculty Carl Gustav Carus, Technische Universität Dresden, Fetscherstraße 74, D-01307, Dresden, Germany
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  givenname: Isabelle
  surname: Kölling-Speer
  fullname: Kölling-Speer, Isabelle
  organization: Special Food Chemistry and Food Production, TU Dresden, Bergstraße 66, D-01069, Dresden, Germany
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  givenname: Karl
  surname: Speer
  fullname: Speer, Karl
  organization: Special Food Chemistry and Food Production, TU Dresden, Bergstraße 66, D-01069, Dresden, Germany
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  givenname: Matthias
  orcidid: 0000-0003-0669-6881
  surname: Hannig
  fullname: Hannig, Matthias
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Keywords Polyphenols
BacLight
DAPI
Salivary pellicle
TEM
ConA
Language English
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Snippet •Fragaria vesca, hamamelis and tormentil significantly reduce initial bioadhesion and glucan formation in situ.•Fragaria vesca, hamamelis and tormentil lead to...
The presentin situ study aims to examine the influence of the polyphenolic tea drugs fragaria vesca, hamamelis and tormentil on the initial oral bioadhesion....
The presentin situ study aims to examine the influence of the polyphenolic tea drugs fragaria vesca, hamamelis and tormentil on the initial oral...
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SubjectTerms Animals
BacLight
Bacterial Adhesion
Bacterial Adhesion - drug effects
Biofilms
Biofilms - drug effects
Cattle
ConA
DAPI
Dental Pellicle
Fragaria
Fragaria - chemistry
Hamamelis
Hamamelis - chemistry
Humans
Polyphenols
Salivary pellicle
TEM
Title Effect of fragaria vesca, hamamelis and tormentil on the initial bacterial colonization in situ
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0003996920302314
https://dx.doi.org/10.1016/j.archoralbio.2020.104853
https://cir.nii.ac.jp/crid/1873116917931614336
https://www.ncbi.nlm.nih.gov/pubmed/32801033
https://www.proquest.com/docview/2434757742
Volume 118
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