Streptococcus mutans- Tooth Decay: Difference between revisions

Streptococcus mutans From:http://microbiologyglossary.wikispaces.com [http://microbiologyglossary.wikispaces.com/Streptococcus+mutans

Etiology/Bacteriology

Taxonomy

Kingdom: Bacteria | Phylum: Firmicutes | Class: Bacilli | Order: Lactobacillales | Family: Streptococcaceae | Genus: Streptococcus | Species: S. mutans

Description

Streptococcus mutans are gram-positive cocci shaped bacteria. These facultative anaerobes are commonly found in the human oral cavity and is a significant contributor to tooth decay. The result of decay can greatly effect the overall health of the individual. (http://en.wikipedia.org/wiki/Streptococcus_mutans) S. mutans are mesophilic and grow at temperatures between 18-40 degrees Celsius.(http://www.whatarebacteria.com/streptococcus-mutans/) Streptococcus mutans is a cariogenic microorganism that breaks down sugar for energy and produces an acidic environment, which demineralizes the superficial structure of the tooth. The result of the conversion disintegrates the coating of the tooth then later dissolves the Calcium molecule creating a hole. Transmission of S. mutans can be found in people of all ages although it is more common for infants and children. The transfer of genotypes are responsible for the transmission of S. mutans from mothers to their children although, there is a genotypic variation from one population to the next. (http://www.podj.com.pk/Dec_2012/p-28.pdf)

Pathogenesis

Transmission

Streptococcus mutans is considered to be part of the "norman" flora of the human mouth, which is associated with dental caries also known as tooth decay. Dental caries is an infectious and communicable dental disease that effects people of all ages. Streptococcus mutans can be passed from one person to the next via horizontal or vertical transmission. The transmission route of Streptococcus mutans is to colonize itself among human hosts. Children and infants are more prone to the diagnosis of Streptococcus mutans and studies show that many receive it from their primary caregivers. (http://www.podj.com.pk/Dec_2012/p-28.pdf) S. mutans favors hard non shedding surfaces to establish permanent colonies, which implies that levels of S. mutans are undetected in infants until the primary teeth extravasate. Although, recent studies have shown that S. mutans is able to colonize the furrows of the tongue in pre-denate infants. Typically between the ages of one and two, teeth erupt, which allows S. mutans to establish flourishing colonies on teeth, and causes cavities. The indication of cavity formation is the appearance of detectable levels of bacteria on teeth. When S. mutans is detected in the furrows of the tongue it is concluded that the vertical transmission route for the bacteria from mother to child arises shortly after birth. To prove this, saliva samples of two to five year old children were taken, which revealed a high fidelity in genetic make-up of each host's S. mutans population. These experiments also concluded that plasmid DNA correlates to different rates, which primarily implys vertical transmission. Mothers with large amounts of bacteria or those who have suffered from many dental caries themselves are likely to transmit the same virulence factors to their children. When the mothers salivary S. mutans levels exceed 105 Colony Forming Units are nine times more likely to pass bacteria on to their children. (http://www.jyi.org/issue/the-role-of-streptococcus-mutans-and-oral-ecology-in-the-formation-of-dental-caries/)

Colonization

The growth and metabolism of S. mutans changes the environmental conditions in the mouth, which enables fastidious organisms to colonize them and causes the formation of dental plaque. S. mutans metabolizes sucrose to lactic acid by using the enzyme Glucansucrase. The mouth creates a highly acidic environment that allows this process and causes highly mineralized tooth enamal to be vulnerable to decay. S. mutans is a specialized organism equipped with receptors that improve adhesion to the surface of the teeth. It uses sucrose to produce a sticky extracellular dextran-based polysaccharide that allows the bacteria to adhere forming plaque. S. mutans produces dextran with the enzyme dextransucrase to form the reaction: n sucrose --------> (glucose)n + n fructose. These sugars are digested by S. mutans and produce lactic acid as an end product. The combination of acid and plaque is the causative agent of decay.(http://en.wikipedia.org/wiki/Streptococcus_mutans)

Clinical features

Diagnosis

Treatment

Treatment for tooth decay depends on how severe the decay is. One may simply be able to reverse slight tooth decay by the application of fluoride. ( http://www.webmd.com/oral-health/tc/tooth-decay-topic-overview) When a processed sugar is consumed, the bacteria from the mouth combine with the sugar to produce acid.This acid can erode the tooth enamel and damage teeth. Fluoride is used to protect teeth from the demineralization caused by the acid. Fluoride does this by accumulating the demineralized areas of the tooth and strengthening the enamel in a process called remineralization. Fluoride is efficient in preventing tooth decay and making teeth stronger however, it is much less effective if a cavity has already formed. (http://www.medicalnewstoday.com/articles/154164.php)
To fix cavities caused by the bacterial strain Streptococcus mutans a dentist will need to adequately preform either a composite filling or an amalgam filling. In both types of fillings, the dentist will remove the decayed portion of the tooth and fill in the area of the tooth where the decayed area once resided. The two most common fillings used today are amalgam fillings and composite fillings. Amalgam fillings are made from a mixture of silver, tin, zinc, copper and mercury. Advantages of the amalgam filling is durability, strength and expense. Amalgam fillings are durable in the fact that they usually outlast composite fillings, and do not need to be replaced for approximately 10-15 years. These fillings are strong since they can withstand the chewing forces, and are less expensive than composite fillings. Disadvantages of amalgam fillings is that they cause: discoloration, cracks and fractures, allergic reactions, and destroy more tooth structure. These fillings also have poor aesthetics since the silver fillings are not the color of one's natural tooth. Composite fillings are made from a mixture of plastic and fine glass particles. Some advantages of composite fillings are: aesthetics the fact that the filling closely matches the color of the tooth, the ability to bond to the tooth structure since composite fillings are chemically bonded to the tooth they provide better support, versatility not only does the material fill cavities it is also used to repair chipped, broken down teeth. Tooth-sparing preparation is also an advantage of composite fillings this is because, sometimes less tooth structure needs to be removed than what the amalgam filling will provide. Disadvantages of tooth decay include: lack of durability. Composite fillings wear out sooner than amalgam fillings lasting 5 years as opposed to 10-15 years. There is also an increase in chair time because the process to apply the filling is longer vs. the amalgam filling. Additional visits are required, chipping the composite material from the tooth, and the fact that composite fillings are double the cost of amalgam fillings. (http://www.webmd.com/oral-health/guide/dental-health-fillings?page=2)
If one experiences an extreme case of tooth decay a root canal or crown may be used. If the decay exceeds a certain level the dentist may end up needing to extract the tooth.

Prevention

It is a fact that every human has bacteria already existing in their mouth. The only prevention is to lessen the impact of the fermentation by product lactic acid. This can be accomplished by brushing, flossing and reducing the intake of refined and processed sugars. These processed sugars come in the form of sweets, colas and processed powered sweeteners. Studies have shown that rinsing one's mouth out with water can greatly reduce the probability of cavities after the consumption of these sugars. It is almost impossible to completely reduce the effects of S. mutans but there is an option to control it. (http://web.mst.edu/~microbio/bio221_2006/S_mutans.htm)

Host Immune Response

References

References

[Sample reference] Takai, K., Sugai, A., Itoh, T., and Horikoshi, K. "Palaeococcus ferrophilus gen. nov., sp. nov., a barophilic, hyperthermophilic archaeon from a deep-sea hydrothermal vent chimney". International Journal of Systematic and Evolutionary Microbiology. 2000. Volume 50. p. 489-500.

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