We may often wonder what contributes to people’s height, weight, and long hair. The answer is quite simple that all these factors are totally a result of genetics. But has anybody ever thought about the main contributing factor in having strong or bad teeth? Are bad teeth genetic? Let’s explore this today.
According to the CDC, nearly two-third of adolescents have tooth decay problems. And science clarifies that 60% of the tooth decays chances or having crooked or soft teeth are due to genetics. However, scientists are also of the opinion that oral health is a combination of both genetics and dental care. The following areas have a greater impact of genetics on a person’s teeth.
Tooth Enamel
Enamel contributes to saving the tooth from decay or attracting bacteria towards it. The thicker enamel is less likely to get bacteria. In the formation of tooth enamel, genetics plays a major role. Therefore, those who have a thin layer of enamel have a high risk of allowing bacteria to affect their teeth.
Saliva strength
Calcium and potassium are extremely important for making teeth strong. However, these work best when these are metabolized, and saliva helps in that. Genes play a major role in making saliva capable of that.
Sweet tooth
Many people like to have sweet items more than others. Their sweet tooth is always putting them into a temptation to have or leave a sweet item. The more people eat sweet items, the more their chances are of tooth decay. Gene is the main factor in having a sweet tooth. If one of the parents has a tendency to get attracted to sweets, some of the kids would naturally have it.
However, your teeth not only get their strength or weakness from genetics. 40% is the share of other things that people use like fizzy drinks, red wine, smoking, and many more. If you think your teeth are troubling you, try to contact a dentist as soon as possible. Texas Premier Dental is one of the dentistry that can help to solve your dental concern so call us on 281.206.0100 to know if your bad teeth are a result of your genetic.