Biomechanics and orthodontics may seem unrelated, but biomechanics can help improve orthodontic treatments and prevent injuries. Biomechanical analysis can identify problems, such as chronic back pain in orthodontists, and offer solutions, such as adjustable chairs. Understanding biomechanics can benefit many fields and improve efficiency and performance.
Biomechanics and orthodontics are two words usually not coupled together. The science of biomechanics refers to the body in motion, while orthodontics is the dental specialty that deals with bite irregularity. These two seemingly unrelated terms can be related to each other simply because biomechanics is applicable to any type of movement. There is movement involved in orthodontics, so biomechanics in orthodontics is important.
People who work in the exciting field of biomechanics tend to view the human body as a machine. This may seem strange; however, this field can help prevent and treat injuries, improve performance, and lead people to better lives in terms of both productivity and happiness. Biomechanics in orthodontics can manifest itself in many ways. Perhaps a person’s bite is not due to the alignment of the teeth or jaw, but to the actual movement made to close the mouth. Biomechanical analysis of this movement can help a person improve their biting action, relieving the problem without surgery.
Perhaps an orthodontist has succumbed to chronic back problems after years of serving others with his or her skills. This may seem unrelated to biomechanics in orthodontics, but taking another look reveals a different perspective. Recording the movements performed by this orthodontist during the day offers an important tool to a biomechanical researcher, allowing him to draw conclusions about the orthodontist.
This orthodontist, who suffers from lower back pain, spends most of his working life hunched over to get a better view of the patient’s mouth. Hours of this action a day over many years may have caused traumatic stress to the lumbar spine, resulting in crippling pain. The biomechanics researcher who identifies this problem can offer a solution. It may involve purchasing an adjustable chair, which allows a patient to be raised and lowered according to the preferences of the orthodontist, helping to relieve the stress that causes lower back pain.
This is one of many examples of how important biomechanics is in orthodontics. Understanding biomechanics can help a person realize how applicable this science is to many other seemingly unrelated fields. Where there is movement, there is also room for improvement and biomechanics in orthodontics is simply one of many examples of this. Orthodontists, support workers, and patients receiving oral care can all benefit from the new insights gained through biomechanical research. Greater efficiency and performance on the go can help everyone live a more productive and happier life regardless of occupation.
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