hanadi baeissa calculus. hanadi baeissa dental calculus a)supragingival friable readily removed by...
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Hanadi Baeissa
Calculus
Hanadi Baeissa
Dental calculus
a) Supragingival
• Friable• Readily removed by scaling• Unpigmented• Form in greatest amounts on the lower incisors & upper molars i.e. near the orifices of the main salivary ducts • Composition varies in different sites• Salivary origin
b) Subginival
• Harder• Coloured (often green)
• Present in smaller deposits, which are not localized near the salivary ducts
• Composition less site dependent• non-salivary (serum) origin
Composition of Supragingival Calculus
Inorganic)~ 80%(
Organic)~ 20%(
• Brushite CaHPO4.2H2O detectable in all deposits after 14 days of development
• Derived from saliva & bacteria- Largely protein with carbohydrate attached (12-20%)- GAG (CS, HA & HS) from the gingivae-Lipids (3%) perhaps bacterial origin
Octa calcium phosphate
Ca8 (HPO4)2 (PO4)4
Wetlockite Ca3 (PO4)2With some magnesium
Instead of calcium
apatite
Especially in the presenceOf fluoride
Composition of Supragingival Calculus - ( continue)
F¯ is also present at ≤ 400 ppm (more in old calculus)
Many filamentous bacteria is present (example: leptotrichia buccalis)
Formation is intermittent
Theories of calculus formation:
1. Carbon dioxide loss:
CO2 loss from saliva, as it equilibrates with low CO2 tension in the month ppt of calcium salts
2. pH change by ammonia formation:
Urea NH3 pH, thus favoring ppt of calcium phosphate
3. The phosphatase theory: PPi 2Pi encourage
mineralization of plaque not much evidence to this
4. Seeding theory: A seeding process calculusThis does not explain individual variations in
formation
Bacterial
pyrophosphatase
Steps in calculus formation
Two stages1. Matrix deposition (derived from plaque)
2. Mineralization: reason unknown yet but provision of seed by plaque or bacteria is likely (mainly filamentous bacteria)
Notes: Calculus is higher in smokers. There is variation between different people in
amount of calculus formed First stage of calculus formation (matrix
deposition) occurs readily in both slow and rapid calculus formers
The difference lies in the power to mineralize the matrix
Possible factors effecting calculus formation
1. Differences in plaque
a) composition:
- increase Ca & P more mineralization
- decrease methyl pentose & hexosamine
b) increased rate of plaque formation in heavy calculus formers - therefore, the early stages, rather than the mineralization , differed in the two groups
2. Differences in saliva composition: increase protein, Ca & phosphate calculus increase activities of acid phosphatase,
pyrophosphatase, esterase more calculus increase urea more calculus increase lysozyme activity less calculus presence of low molecular weight protein
adsorbed to apatite & might act as seed calculus
The acidic protein of saliva said to prevent Ca ppt is either deficient or more rapidly broken down by bacteria calculus
High viscosity of saliva less calculus
3. Smoking leads to increased formation
Periodontal DiseaseTwo most frequently occurring forms:
1 -Gengivitis 2 -Periodontitis
• Limited to the gingival or soft tissues, surrounding the teeth
• Results in bleeding of gums, and possibly change in color, shape, size, surface texture and consistency
• Reversible on restoration of hygiene, does not result in destruction of tissues supporting the teeth
• Extension of the inflammatory processfrom the gingival to the supporting periodontal tissue & destruction of these tissues
• Can be controlled but not reversed
•Chronic peridontitis result in loss of bone supporting the teeth mobility tooth loss
The effect of plaque on the gingivae
It was first thought that calculus caused gingivitis
Volunteers not brushing for days developed gingivitis without calculus formation
Conclusion: Old plaque (> 48 hours) periodontal disease, but calculus help by providing mechanical irritation
The nature of toxins in plaque causing Gingivitis
Plaque contains substances which diffuse into the gingival tissues and irritate them: ex.
Proteolytic enzymes from bacteria release of a.a amines + ammonia, H2S and mercaptans (all potential irritants)
broken
down
Plaque antigens such as bacterial endotoxins, enter the gingival and induce antibodies in the local lymph tissues.
The interaction between antibodies & antigens is beneficial, but it activates complement which in turn causes the release of substances contracting the smooth muscles of arterioles and increasing vascular permeability (cytokines edema)
This is part of the inflammatory response destruction of bone and periodontal fibers