Topic 45-Oral Microflora and Dental Plaque
What guides the transition from planktonic to biofilm state?
changes in gene expression and EPS production
protein of whole adult tooth is primarily
collagen
Gingiva (gums) form a
collar around each tooth and includes gingival sulcus (sub gingival crevice) junctional epithelium
streptococci viridian's groups
colonize in mouth gram positive cocci facultative anaerobes (prefer aerobic) can ferment anerobically
Saccharomycetales
commensal yeast species proposed to be antagonists of opportunistic fungal pathogens
Human oral bacterial microbiome (salivary)
compromised of over 600 prevalent taxa at the species level, with distinct subsets predominating at different habitats 1. Streptococcus 2. Prevotella 3. Haemophilus/Neisseria/Veillonella
Fungi are generally not
considered to be beneficial contributors of the normal oral flora of a healthy mouth
dental plaque
dense bacterial mass (biofilm) tightly adherent to the tooth surface
The oral cavity has unique physiological features that play a role in
development and site specific characteristics of oral plaque aka ecology of biofilm communities
In 1965, Jensen and Loe provided
didactic experimental proof of casual relationship between dental plaque and gingivitis
dental plaque/biofilm formation involves
direct cell to cell adhesion via specific surface determinants
S. sanguinis
dominant colonizer of the tooth and supragingival plaque in health, coincide with eruption of teeth
three layers of the tooth
enamel dentine cementum
demineralization
erosion and release of calcium phosphate ions under acid conditions (low pH)
Colonization with pathogen S. mutant coincide with
eruption of teeth
gingival sulcus
formed by the free gingiva, V-shaped shallow space around the tooth in the healthy periodontium
planktonic bacteria
free-living, single cell bacteria before they attach
microbial biofilm formation/growth (after cleaning)
generally shows species succession mediated by microbial metabolic needs and site-specific nutritional availability early colonizers in supragingival plaque late colonizers in subgingival plaque coaggreation is present
What increases numbers on malodorous (overgrowth) tongues?
gram-negative anaerobes
Teeth
hard tissue exposed to environment only mineralized enamel surfaces of teeth are exposed in healthy person
Below the gumline (sub gingival)
host tissue is main food source asaccharolytic; highly proteolytic; hemolytic bacteria tend to be: facultative anaerobes obligate anaerobes commonly colonized by G- anaerobic bacilli and spirochetes, but at very low numbers in healthy person
S. salivarius
largest proportion of the total oral microflora due to being dominate colonizer of the mucosa in health
secondary colonizers
mostly gram negative bacilli (Capnocytophaga ochracea) bind to primary colonizers cared for mouth has sparse plaque
mucosal primary colonizers
mother to infant transmission before teeth eruption Ex: S. mitis/S. salivarius
Subgingiva is also typically colonized by very low numbers of
obligate anaerobes Ex: Porphyromonas, Prevotella, Fusobacterium, Veillonella species
species specific required nutrients
often provided through the waste/by-products of other microbial species in the biofilm (plaque) community use each other for sources and are usually closer together
AEP is
overall negatively charged due to immediate deposition of soluble salivary organic components (glycoproteins) that repel bacterial adhesion to clean teeth under optimal oral pH conditions
Above the gumline (supragingival)
oxygen availability higher nutrients from host diet higher nutrients from host tissue lower bacteria tend to be: aerobic, facultative anaerobes, capnophilic (CO2 growth dependent bacteria) saccharolytic bacteria
what occurs after tooth eruption?
permanent colonization of streptococci climax communities
biofilm
permanently attached (non-motile) polymicrobial communities (dental plaque) embedded in the extracellular polymeric substances (EPS)
endogenous (commensal) microorganisms found in the oral cavity are
predominantly members of the Streptococci genus in a healthy mouth
In 1972, Loe provided
proof of the casual relationship between presence of dental plaque and dental caries via demonstrating the efficacy of oral antiseptics (chlorhexidine)
Chronic human viral infections is a
risk factor for bacterial infections
Acquired enamel pellicle (AEP)
salivary coating on the tooth surface made up of organic molecules (glycoproteins) 1. provides lubrication 2. provides a barrier to tooth erosion caused by acidic molecules generated from fermenting oral bacteria
EPS
self-secreted microbial biofilm matrix consisting of polysaccharides and other polymeric macromolecules that primarily function to protect and architecturally organize the microbial community
Calcium ions in AEP
soluble inorganic component of whole saliva that binds to salivary proteins can facilitate bacterial adhesion to the pellicle by forming a positively charged bridge (low pH)
what are key determinants for dental plaque?
species composition and accumulation
Specific bacterial species have
specific bacterial cell surface adhesion molecules that bind to specific protein receptors (ligands) found in the tooth pellicle and overcome that negative charge
junctional epithelium
starting from the base of the sulcus, is directly attached to the tooth surface
Oral streptococci are historically referred to as
streptococci viridians (group name) and include a wide variety of species commonly classified into taxonomic groups
Example of coaggreagation
streptococcus sanguinis cells (cocci) form "corn cobs" surrounding Corynebacterium matruchotii cells (bacilli)
What do oral bacteria need from host to grow? (diet and tissue)
sugars or protein
Saliva is
supersaturated with soluble calcium phosphate (1.5mM) at neutral pH that precipitates when pH increases
primary colonizers
supra gingival plaque population on tooth surfaces in a cared for mouth gram positive cocci (S. sanguinis, S. oralis, S. gordonii, S. mitis)
dentine
bone-like tissue (70% inorganic) covered by enamel at crown and cementum at root
What will help determine the preferred distribution of certain species within the oral cavity and their site specific metabolism?
1. relative amounts of oxygen available 2. microbial oxygen tolerance and/or requirements
mycobiome
101 genera identified (w/9-23 genera in any single person) Candida species were isolated from 75% of all study participants
Site specific microbial metabolism also depends on
amount of plaque build up
when does increased diverse colonization of the oral cavity occur around?
9 months to 1 year
periodontal pockets contain ____ O2
About 0.6-4%
posterior surface of the tongue contains ____ O2
About 12%
Normal air contains ____ O2
About 20%
6 taxonomic groups of streptococci viridians (SSMMAB)
anginosus group minis group sanguinis group mutans group salivarius group bovis group (gut microbes rarely in the oral cavity/endocarditis/colon cancer)
remineralization
calcium phosphate deposition and assimilation (high pH >7)
A bacterial factor that influences microbial adherence and persistence in the oral cavity is
EPS
anginosus group
S. anginosus S. constellatus S. intermedius (oral disease)
Bovis group
S. gallolyticus S. infantarius S. pasteurianus
Sanguinis group
S. gordonii S. sanguinis (typically found in mouth) S. parasanguinis S. oligofermentans
Mutans group
S. mutans (oral disease) S. sobrinus (oral disease)
mitis group
S. oralis S. mitis (typically found in mouth) S. cristus S. infantis
salivarius group
S. vestibular is S. salivarius (typically found in mouth)
calculus
accumulation of saliva and gingival fluid materials (calcium salts) that become mineralized on plaque/desquamated epithelial cells and adhere to tooth surfaces.
enamel
acellular, avascular, hard, brittle hardest tissue in the human body 96% inorganic matter 4% organic matter primarily made up of hydroxyapatite (crystalline calcium phosphate) Also, other ions from endogenous/exogenous sources like magnesium or fluoride
coaggreagation
between bacterial organisms of different species
autoaggregation
between bacterial organisms of same species
Viruses are
NOT considered beneficial contributors of the normal oral flora of the health mouth most viruses identified are bacteriophage
most associated with odor
Neisseria Veillonella Fusobacterium Porphyromonas Parvimonas Prevotella-produce volatile sulfur waste
tongue is predominantly colonized by
Streptococcus spp. S. salivarius other commensal isolates seen include porphyromas, prevotella, actinomyces, and veillonella species
late colonizers
bind to secondary colonizers gram negative obligate anaerobic bacilli and spirochetes reside in subgingiva prominent in periodontal disease development
cementum
thin bone-like tissue (55% inorganic) that fixes teeth to the alveolar (jaw) bone
oral colonization after birth is
transient aka NOT PERMANENT population will change
AEP initially repels, but
ultimately promotes bacterial adhesion
oral Mucosa
variety of soft tissue sites with unique characteristics
oral cavity of fetus is
virtually sterile (low load)
Bacteriophage in patients with periodontitis
were proposed to likely kill their bacterial hosts this contributing to good oral health
In an uncared for mouth, plaque accumulates
when certain secondary colonizers accumulate and dominate in the population teeth at higher risk for caries (S. mutant, lactobacillus fermented) or periodontal (gum) disease (prevotella and actinomyces)
materia alba
white or cream-colored cheesy mass that can collect over dental biofilm on unclean, neglected teeth; it is composed of food debris, mucin, and bacteria loose "white" accumulation of food, desquamated epithelial cells and other debris around teeth
