To better understand how the muscles and tissue structures in the feet, ankles, legs and hips are adversely affected by overpronation, imagine a person on the end of a bungee cord jumping off a bridge. If the bungee cord gets the right amount of tension on it as the person nears the ground, then he or she will be saved from smashing into the earth. However, if the bungee cord does not pull tight because it is twisted or has no elasticity, then the person will impact the ground with dire consequences. The muscles, tendons, ligaments, and fascia of the legs and feet are the body’s bungee cords. If these bungee cords work together, they can protect the joints of the feet and ankles from excessive stress, and prevent muscle and tissue damage caused by overpronation. If they do not work properly, a person will be able to see evidence of this in the feet and ankles, particularly in the alignment of the joints.
There are many possible causes for overpronation, but researchers have not yet determined one underlying cause. Hintermann states, Compensatory overpronation may occur for anatomical reasons, such as a tibia vara of 10 degrees or more, forefoot varus, leg length discrepancy, ligamentous laxity, or because of muscular weakness or tightness in the gastrocnemius and soleus muscles. Pronation can be influenced by sources outside of the body as well. Shoes have been shown to significantly influence pronation. Hintermann states that the same person can have different amounts of pronation just by using different running shoes. It is easily possible that the maximal ankle joint eversion movement is 31 degrees for one and 12 degrees for another running shoe.
Over-Pronation may cause pain in the heel of the foot, the foot arch, under the ball of the foot, in the ankle, knee, hip or back. The symptoms may be localized to one particular area of the foot or may be experienced in any number of combinations. Standing for long periods of time, walking and running may become difficult due to the additional stress and/or discomfort accompanied with these activities. Upon Visual Inspection, when standing the heels of the foot lean inward and one or both of the knee caps may turn inward.
Firstly, look at your feet in standing, have you got a clear arch on the inside of the foot? If there is not an arch and the innermost part of the sole touches the floor, then your feet are over-pronated. Secondly, look at your running shoes. If they are worn on the inside of the sole in particular, then pronation may be a problem for you. Thirdly, try the wet foot test. Wet your feet and walk along a section of paving and look at the footprints you leave. A normal foot will leave a print of the heel, connected to the forefoot by a strip approximately half the width of the foot on the outside of the sole. If you?re feet are pronated there may be little distinction between the rear and forefoot, shown opposite. The best way to determine if you over pronate is to visit a podiatrist or similar who can do a full gait analysis on a treadmill or using forceplates measuring exactly the forces and angles of the foot whilst running. It is not only the amount of over pronation which is important but the timing of it during the gait cycle as well that needs to be assessed.
Non Surgical Treatment
Supportive orthotics in the shoe is a method commonly implemented to treat many common running injuries associated with pronation. An advantage of orthotics is that they often allow the sufferer to continue to participate in athletic activity and avoid other treatment options that could be potentially costly and time consuming. Seventy-five percent of injured runners are successfully treated with the prescription of orthoses. Orthotics are the most effective treatment for symptoms that develop from unusual biomechanics within the body such as overpronation, resulting in either great improvement or complete healing of the injury in about half the cases.
Pronation forces us to bear most of our weight on the inner border of our feet. Custom-made orthotics gently redistributes the weight so that the entire foot bears its normal share of weight with each step we take. The foot will not twist out at the ankle, but will strike the ground normally when the orthotics is used. This action of the custom-made orthotics will help to prevent shin splints, ankle sprains, knee and hip pain, lower back pain, nerve entrapments, tendonitis, muscle aches, bunions, generalized fatigue, hammer toes, and calluses.