Science, Mathematics, and Art in Orthodontics Essay

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Introduction

Orthodontics is a department of dentistry that offers services of diagnosis, correction, and prevention of misaligned bite patterns and mal-positioned teeth and jaws. Science, mathematics, and art relate a lot with orthodontics for it to succeed. Dr. Buchanan has created a profession out of learning and identifying principles like the Fibonacci sequence, rules of thirds, and the golden rule. There is a reason why people view a particular work of art pleasing, music engaging, or another person as attractive. It has to relate with the golden percentage or the golden proportion. In orthodontics, this concept is defined as a mathematical analysis tool applied to analyze the smile and how it suits the proportions of other parts of facial appearance.

The principles are initially found in nature, where they are defined as the Fibonacci sequence. It’s a mathematics formula where every number in the series is the total of the two numbers coming before it. This concept is located in things like the hurricane’s swirl, artichoke’s flowering, and the human’s facial structure. These things in nature can be pleasing to look at, even without understanding the reason for enjoying them. This information confirms why art, science, and mathematics are related to orthodontics. This concept is discussed below in detail to bring out a clear picture of it.

Golden Ratio in Orthodontics

Golden ratio proportions have an essential relationship with facial aesthetics in people who are experiencing adolescence. Various angles and linear figures in cephalometrics have served as great rules for understanding the planning of orthodontic procedures. The results of the golden relationship help Dr. Buchanan in identifying the region of balance and therefore determine the best method of achieving harmonic balance in aesthetics (Jang et al., 87). Dr. Buchanan uses this process which leads to operational unity and efficiency.

Fibonacci and Orthodontics

Everything in life and dentistry uses symmetry and balance to introduce what is attractive to man’s eyes. Artists later understood that by balancing the characteristics of an image by thirds instead of limited centering them, their artwork had pleasing smoothness, making it so beautiful to man’s eyes. These identical patterns have become a precious instrument in dentistry. Learning and identifying them aids a person in designing smiles that follow the inspiration, impartiality, and correspondence gotten in nature. The same rule of thirds is viewing the patient’s face in three different but professional regions to make a smile that is attractive within the equality of that unique face. All this process involves math, science, and art which result in a more beautiful complexion.

Cutting-Edge Care

Dr. Buchanan provides innovative cutting-edge orthodontic care and technology for children and adults. She was among the first people in this field to serve Insignia customized braces. Unlike the old ones that are produced to fit any teeth, this type of braces allows to calculate and use brackets to influence tooth movement in the most favourable way for every individual patient. Dr. Buchanan’s improved 3D technology allows her to show the patients the actual outcome to expect before braces are put on the teeth (Penning et al., 1498). She also majors in the Damon system that enables line arrangement of teeth without necessarily eliminating permanent teeth or use palate expander instruments. This procedure improves every patient’s general facial result for the smile with all the natural ten teeth. Additionally, Dr. Buchanan offers the in-office CAT imaging system for 3D images of every patient’s mouth without gummy, chaotic impressions.

One of the most excellent offers to gift a person, or even the individual himself, is a pretty, fully operating smile. Treatment that involves orthodontics by applying the golden ratio and Fibonacci guidelines can positively aid a person to have the best appearance. This look changes self-image and gives people a healthy, full-operating smile. This appearance is a result of applying math, science, and orthodontics in the same procedure.

Mathematical Application in Tooth Displacement

Orthodontic treatment is served worldwide for teeth extraction and alignment to change the arrangement of the remaining teeth. However, tooth displacement does not function directly with force applied. Therefore, biomechanical variables like the weight of the tooth, rigidity, and damping coefficient of the periodontal ligament and alveolar bone are engaged in the differential equation. When solving the inequality, tooth displacement, thereby, tooth velocity can be obtained for a specific force (Spingarn et al., 44). Also, based on the proportions of the design, Dr Buchanan would identify the entire tooth displacement required for every set of the treatment so that the complete process occurs.

Conclusion

It is evident from the discussion that art, science, mathematics, and orthodontics relate well. If they are applied in the same process, it leads to a successful and beautiful teeth alignment. In art, mathematics is also involved using the Fibonacci sequence, which has proved to offer quality artworks, hence glorifying great artists like DaVinci. Music also inter-connects with maths, as it is evident that people apply the golden ratio rule in designing and making musical instruments. Dr. Buchanan also confirms that the usage of 3D technology shows patients the natural outcome before putting braces on the teeth. This dental process improves a person’s facial appearance, therefore, raising self-esteem. All these procedures are successful by combining art, mathematics, science, and orthodontics.

References

Jang, Kab Soo, et al. “A three-dimensional photogrammetric analysis of the facial esthetics of the Miss Korea pageant contestants.” Korean Journal of Orthodontics 47.2 (2017): 87.

Penning, E. W., et al. “Orthodontics with customized versus non-customized appliances: a randomized controlled clinical trial.” Journal of Dental Research 96.13 (2017): 1498-1504.

Spingarn, Camille, et al. “Theoretical numerical modeling of the oxygen diffusion effects within the periodontal ligament for orthodontic tooth displacement.” Journal of Cellular Immunotherapy 4.1 (2018): 44-47.

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