Dental caries (cavities) stems from a dental disease that can be prevented. With the combination of biofilm (dental plaque) and fermentable carbohydrates, with an acidic (low pH) environment in the mouth, dental caries occur.
Tooth surface goes through a process of demineralization (mineral loss) and remineralization (mineral gain) several times a day. When dental plaque is present, its presence creates a condition of unsaturation and supersaturation. Unsaturation occurs during acidic conditions (low pH) in the biofilm when there is less minerals present. This is common in the presence of fermentable carbohydrates. Supersaturation happens when there is an increase in minerals (from saliva or calcium fluoride formulations) and an increase in pH due to reduced or lack of fermentable carbohydrates present or different buffering systems. The increase in the saturation level stops the mineral loss of the enamel and allows minerals to return to the partially demineralized enamel. This process is essential in the development of a cavity. A cavity develops when more minerals are lost than gained during the demineralization and remineralization process. The good news is that an early carious lesion (cavity) can be stopped as long as it is non-cavitated.
Non-cavitated carious lesion can be reversed in several ways; decreasing the amount of dental plaque, reducing the frequency of carbohydrate ingestion and increase in the amount and concentration of fluoride.
Understanding the disease process rather than just treating the condition is a better way of looking at dental caries. With a better understanding, it allows for a preventive approach, especially for those who are at high risk.
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