Orthotics

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Orthotics

Orthotics is the medical field concerned with the application and manufacture of orthoses, devices which support or correct the function of a limb or the torso.

The term is derived from the Greek "ortho", to straighten. Sciences such as materials engineering, gait analysis, anatomy and physiology, and psychology contribute to the work done by orthotists, the professionals engaged in the field or orthotics. Individuals who benefit from an orthosis have sustained a physical impairment such as a stroke, spinal cord injury, or a congenital abnormality such as spina bifida or cerebral palsy.

Orthotics allow the muscles, tendons and bones of the feet and lower legs to function at their highest potential. When appropriately prescribed, orthotics can decrease pain, not only in the foot, but in other parts of the body such as the knee, hip and lower back. They can also increase stability in an unstable joint, prevent a deformed foot from developing additional problems, and improve quality of life overall.

Custom / Prefabricated

Some professionals choose to use the adjective orthotic as a noun, usually describing a foot supporting device or insole. Orthosis (plural: orthoses) is the base word for orthotic and is grammatically more apt to decribe the items or devices that provide direct contact with a portion of the external body surface, rendering resistance to unwanted movement. All orthoses are fabricated prior to being delivered or fitted to the person using them. Some of the devices are made or fabricated with specifications that derive directly from considerations of a single person end user. Often though, orthoses are made well in advance of their delivery to the end user with generic proportions used, e.g. small, medium, or large.

Orthoses that directly support the knee, back, hip, and even the upper extremity exist; manufactured by specialized technicians and fitted to the end user, often referred to as a patient, are delivered by orthotists. The orthotist generally works by prescription, as a pharmacist would. In fact, many prefabricated orthoses can be found in a pharmacy. Some prefabricated orthoses, or supports, are soft and can be purchased as a retail item. Care in proper fit of any device that applies force to the body must be taken to ensure good results and to prevent unwanted problems from an orthosis that is too tight or otherwise uncomfortable.

Sophisticated custom orthoses to more rigidly support compromised joints, weak muscles, and other medical conditions are often provided by orthotists. Plastic vs metal and leather fitting, complex mechanical hinges, and fasteners to keep the orthosis affixed well to the portion of the body that the orthosis supports are a part of the process in delivering orthotic support.

Benefits

It is important for patients to follow a doctor's instructions on when to wear them to obtain the greatest benefit.

For instance if a Helmet has been prescribed for a deformational plagiocephalic cranium, the helmet is used to provide relief of external pressures that have encouraged the skull to grow with a flat spot, the helmet can only provide the environment to the skull to grow rounded if it is being worn. In addition to providing relief for painful foot problems or an injury, those who may benefit from orthotics include people who must walk or stand excessively on the job. For those who are active in sports, orthotics will often increase endurance, performance and strength. For overweight individuals, orthotics can help to counteract the extra stress on the feet, as minor problems are often magnified due to the increased weight. Orthotics are particularly effective in relieving foot fatigue and discomfort experienced by older adults, who may have developed arthritis in their feet. Orthotics may also be prescribed for children who have a foot deformity.

In athletic individuals, sports activities result in a great deal of movement and pressure on the foot. Slight imbalances in the foot that are not harmful or even detectable under usual circumstances may make one more vulnerable to injury with the extra stress of sports activity. By eliminating the need for one's muscles to compensate for imperceptible imbalances, orthotics can reduce fatigue and promote efficient muscle function to enhance performance.

Structure and Function

Orthotics take various forms and are constructed of various materials. All have the goal of improving foot function and minimizing stress forces that could ultimately cause foot deformity and pain. There are three broad categories of orthotics: those that primarily attempt to change foot function, those that are mainly protective in nature, and those that combine functional control and protection. While orthotics can be made by several different processes, most podiatrists make a plaster mold of the patient's foot and send it to a laboratory with a prescription. At the lab, technicians pour plaster into the mold, and when it hardens; it exactly reproduces the bottom of the individual's foot. Once a reproduction of the individual’s foot is made, the technician’s then use the doctor’s prescription to custom-make a device to meet the patient's specific needs.

Rigid orthotic devices are designed to control foot function, and may be made from a firm material such as plastic or carbon fiber. These types of orthotics are mainly designed to control motion in two major foot joints, which lie directly below the ankle joint. This type of orthotic is often used to improve or eliminate pain in the legs, thighs and lower back due to abnormal function of the foot.

Soft orthotic devices help to absorb shock, improve balance and take pressure off uncomfortable or sore spots. They are usually made of soft, compressible materials. This type of orthotic is effective for arthritis or deformities where there is a loss of protective fatty tissue on the side of the foot. They are also helpful for people with diabetes.

Semirigid orthotic devices are often used to treat athletes. It allows for dynmaic balance of the foot while running or participating in sports. By guiding the foot through proper functions, it allows the muscles and tendons to perform more efficiently. It is constructed of layers of soft materials, reinforced with more rigid materials.

Foot Orthotics

Since feet are the major weight-bearing part of the body, foot pain is common; half of the Americans polled by the American Podiatric Medical Association had missed a day of work because of foot problems . The foot contains 26 bones and many small structures which support and balance the weight of the entire body. Walking puts up to 1.5 times one's body weight on the foot, and humans walk an average of 1,000 miles per year .

Foot pain is not normal and should not be ignored; problems can affect the functioning of other parts of the body, including the hips, knees, and back. Foot-related problems such as an irregular walking pattern are often treated with orthotic shoe inserts. They are prescribed to:

Reduce pain
Provide support
Prevent or halt the development of foot deformity
Provide better positioning
Relieve pressure on a certain area of the foot
Improve the overall biomechanical function of the foot and lower extremity

Reference

Positano, Dr. Rock DPM,MSc,MPH Director of the Non-Surgical Foot and Ankle Service 2006, Hospital For Special Surgery, "Prescription Orthotics Can Help You Put Your Best Foot Forward" ^*

External links

http://www.hss.edu/Conditions/Orthotics/Prescription-Foot-Orthotics
http://www.hss.edu/Conditions/Foot-Injuries-and-Conditions/Cosmetic-Foot-Surgery
http://www.hss.edu/Departments/Specialties/Physiatry/Affiliated-Centers-and-Services/Non-operative-Foot-and-Ankle-Service/
http://www.hss.edu/newsroom/avoiding-problematic-orthotics

אורתוטיקה | Palmilha biomecânica