Antimicrobial activity of Averrhoa Bilimbi fruit extract on simulated oral biofilm / Baizatul Amirah Che Baharuddin
This study was conducted to search for new active compounds from plant extracts that can be used as agents for plaque control. Streptococci dominate more than 600 bacterial species reported found in the dental plaque. At the initial phase of plaque or biofilm formation, the bacterial component co...
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| Format: | Thesis |
| Published: |
2018
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| Online Access: | http://studentsrepo.um.edu.my/10386/4/baizatul.pdf http://studentsrepo.um.edu.my/10386/ |
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| Summary: | This study was conducted to search for new active compounds from plant extracts that
can be used as agents for plaque control. Streptococci dominate more than 600 bacterial
species reported found in the dental plaque. At the initial phase of plaque or biofilm
formation, the bacterial component colonising the tooth surface consisted mainly of the
Gram-positive facultatives but as the biofilm becomes complex and matured, it shifts to
consist of more Gram-negative anaerobes. While both Streptococcus sanguinis and
Streptococcus mitis dominates the early phase of plaque formation, Streptococcus
mutans tends to increase in population when the plaque has become more matured.
This study was carried out to investigate the susceptibility of dental plaque bacteria that
includes S. sanguinis, S. mitis and S. mutans to the extract of five plants: Averrhoa
bilimbi, Brucea javanica, Euphorbia tirucalli, Nigella sativa and Vernonia amygdalina.
The screening test was carried out at four different amounts (5, 10, 15 and 20 mg) using
the disc diffusion method while the minimum inhibitory concentration (MIC) was
determined using the microdilution assay. 0.12% (w/v) of chlorhexidine gluconate
(CHX) and sterile distilled water were used as the positive and negative controls,
respectively. It was found that all three bacteria were susceptible to the aqueous extract
of A.bilimbi and V.amygdalina. The MIC of A.bilimbi was 6.25 mg/mL for all three
Streptococcus sp. while V. amygdalina exhibited weak antibacterial response. Based on
this screening, only the extract of A. bilimbi was selected for futher tests. It was
determined that A. bilimbi has a minimum bactericidal concentration of 12.5 mg/mL for
S. mutans dan S. mitis, and 25.0 mg/mL for S. sanguinis. Three active compounds of A.
bilimbi were identified as ascorbic acid, acetylvitisin B and chinic acid. A. bilimbi also
demonstrated slight aggregative effect. At a minimal concentration of 6.25 mg/mL
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(MIC), A. bilimbi extract demonstrated antiadhesion activity on the binding of bacteria
to the acquired pellicle. Extract-treated pellicle was found to prevent bacteria adhesion
and thus decreases bacteria population inside the biofilm by 64.5%. This extract also
showed good antibacterial effect as it can decrease the hydrophobic properties of all
three bacteria surfaces. Lost in hydrophobic properties is a negative effect to bacteria
because it influences the bacteria adherence capacity during the early phase of biofilm
formation. Exposure of biofilm-24hr to A. bilimbi for 30, 60 and 90 sec was found to be
effective in reducing bacterial population in the biofilm by 24.1, 30.5 and 49.8%,
respectively. At a minimal concentration of 6.25 mg/mL (MIC), A. bilimbi extract also
exhibited antiadherence effect on the adhesion of bacteria to the acquired pellicle.
Extract-treated pellicle showed antiadhesion activity by reducing the biofilm attachment
to experimental pellicle by 64.5%. It also reduced the cell surface hydrophobicity of all
streptococcus tested and make them less adherent. A. bilimbi also down regulated the
expression of gtfB by almost 5-fold (RQ = 0.204), almost fully suppress gtfC (RQ =
0.008) and totally suppressed the expression of vicR gene (RQ = 0.000).
The significant antibacterial properties exhibited by A. bilimbi extract suggested its
potential use for plaque control. |
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