Unfortunately these crystals are susceptible to rupture by acids, but are the greatest teeth protectors. A big help when it comes to dealing with trying to protect teeth on a daily base is the fluoride that is took in when drinking fluids such as water. Though too much fluoride can be harmful, within moderations, it keeps teeth healthy. It is important when dealing with enamel because it interacts with many compounds that are Methods In order to discover this information I had to read several Journal articles and ether information that was based off of the chemistry of enamel, how it is structured and how it protects teeth in a human mouth.
I was able to analyze information and narrow down my options to a specific article that dealt with the main ideas of this essay to understand the formation of crystallization that creates enamel and how this. Using prior knowledge from classes other than chemistry, such as composition helped me to better understand how to rhetorically analyze papers. Robinson et al. , used various pictures and graphs to project the developmental stages that occur in order to process enamel and protect it by fluoride.
These authors used previous studies to support their ideas over Results As a result of all the information I read, Colic Robinson et al. , stated, “Degradation of albumin also occurs at this stage, probably as a result of comprehensive destruction of molecules which might impair crystal growth. ” (Robinson et al. 1991) As known, degradation of enamel caused by an excess amount of acid is bad for teeth, the saliva that is produced neutralizes these acids enabling teeth to use the compounds that are found in saliva to reinitialize the enamel to be able to protect he tooth .
As long as the rate of demutualization and the rate of demutualization remain in balanced, teeth remains strong and healthy. If for any reason the selective uptake of fluoride and magnesium reaches a maximum of maturation, there after will be a decreasing towards the mature tissue. “At the transitional stage the matrix in the proportion of low molecular weight components. ” The chemistry of mellowing/mineral binding still remains to be clarified in vivo, meaning that there has yet to be an explanation of the process that occurs when dealing with mellowing.
No specific mineral binding groups have been identified. ” (Robinson et al. , 1991) as stated, there have been further research up to date with this situation but not much has been found, studies are still continuing so the optimistic ambition to fugue out this Jigsaw like situation is high at stake. I Secretors Stage Stage I Transitional Stage I I Mineral Phase/ Matrix I Maturation I Mineral Phase/ Matrix I Mineral Phase/Matrix Figure 1 This chart portrays the various stages that occur during the process of creating enamel, including reimplementation and demutualization. Discussion
In conclusion to this research Journal, enamel consists of approximately 96% susceptible to rupture by acids, but are the greatest teeth protectors. Since enamel is made up of crystallites that are fixated into bundles known as prisms or rods, it is then able to cover the dentin cap of a tooth and define the limits of the crown of a tooth. Age effects the enamel in teeth, it becomes worn out, discovered and decreases the permeability of enamel. If fluoride ions are incorporated into hydroxylation crystals, the enamel on the tooth allows it to become more resistant to acid rupture.
But if there is an excess amount of fluoride it can cause harm to the tooth allowing mottled enamel to develop. Minerals are lost from a tooth’s enamel layer when acids, formed from plaque bacteria and sugars in the mouth. When acids attack the enamel, minerals such as fluoride, calcium, and phosphate that come from the food and water consumed in our daily intake reinitialize the enamel layer from the tooth. Too much demutualization without enough reimplementation to repair the enamel layer can lead to tooth decay.
When more minerals are lost from teeth than re replaced, dental caries or cavities form because bacteria that thrive on the sugars found in the mouth multiply on dental surfaces and produce acids that are most likely hazardous to the protection of a tooth. Magnesium and fluoride in particular have been shown to be selectively acquired by the enamel during the transitional stage, magnesium and fluoride have opposite effects on the growth of hydroxylation causing the chemistry of enamel to vary.
In conclusion to this research Journal, I came to the conclusion that there is a vast mount of information that is to be presented when discussing the chemistry of enamel and how it interacts with compound that are using when dealing with fillings, crowns and etc. I wasn’t able to discuss every piece of information that was in this article because it was way beyond the scope of my research and ability to understand in full depth. To my fullest potential, I was able to explain the formation and structure of enamel and how it can possibly destroy and cause degradation among teeth.
Though this is advanced research, I enjoyed learning and dedicating time to do y best at understanding this concept over enamel due to the fact that dentistry is my proposed profession. This Journal wasn’t really an experiment. Yet Just finding based on other studied that have taken place but embellished with detail to give greater detail as to how enamel is made up and structured so that it suits teeth to its fullest potential. Reference: Robinson, C. , Karma, J. , Brooked, S. , Bonanzas, W. , & Shore, R. (n. D. ). The Chemistry of Enamel development. Leeds Dental Institute, Division of Oral Biology-ћ 39, ]45-152 .