In a normal foot, the tendons in your foot and lower leg work together to form the arch. When the tendons all pull properly, your foot forms a moderate, normal arch. When the tendons do not pull together properly, there is little or no arch, called flat foot or fallen arch. Children are born with flat feet. In infants and toddlers, prior to walking, the longitudinal arch is not developed and flat feet are normal. As children begin standing on their toes, the muscles start to develop and an arch appears. The arch continues to develop throughout childhood, and by adulthood most people have developed normal arches. But in some cases the arch doesn?t form completely.
Having low or no arches is normal for some people. In these cases, flat feet are usually inherited and the feet are fairly flexible. Occasionally, flat feet can be caused by an abnormality that develops in the womb, such as a problem with a joint or where two or more bones are fused together. This is known as tarsal coalition and results in the feet being flat and stiff. Flat feet that develop in later life can be caused by a condition that affects the joints, such as arthritis, or an injury to a muscle, tendon or joint in the foot. Conditions that affect the nervous system (brain and spinal cord) can also cause the arches to fall. Over time, the muscles gradually become stiffer and weaker and lose their flexibility. Conditions where this can occur include cerebral palsy, spina bifida and muscular dystrophy. Adult-acquired flat feet often affect women over 40 years of age. It often goes undiagnosed and develops when the tendon that supports the foot arch gradually stretches over time. It's not fully understood what causes the tendon to become stretched, but some experts believe that wearing high heels and standing or walking for long periods may play a part. Obesity, high blood pressure (hypertension) and diabetes are all risk factors. Recent research has found a link with changes to the tendon in the foot and an increase in a type of protein called proteolytic enzyme. These enzymes can break down some areas of the tendon, weakening it and causing the foot arch to fall. Similar changes are also seen in other conditions, such as Achilles tendonitis. This could have important implications for treating flat feet because medication that specifically targets these enzymes could provide an alternative to surgery. However, further research is needed and this type of treatment is thought to be about 10 to 15 years away.
Flat feet may not cause any symptoms at all. Rigid flat feet may cause pain, calluses, blisters, or skin redness on the inner side of the foot. A stiff foot, weakness or numbness of the foot, Rapid wearing out of shoes-worn shoes lean in toward each other. Difficulty or pain with activities like running-in the foot, knee or hip.
Many medical professionals can diagnose a flat foot by examining the patient standing or just looking at them. On going up onto tip toe the deformity will correct when this is a flexible flat foot in a child with lax joints. Such correction is not seen in the adult with a rigid flat foot. An easy and traditional home diagnosis is the "wet footprint" test, performed by wetting the feet in water and then standing on a smooth, level surface such as smooth concrete or thin cardboard or heavy paper. Usually, the more the sole of the foot that makes contact (leaves a footprint), the flatter the foot. In more extreme cases, known as a kinked flatfoot, the entire inner edge of the footprint may actually bulge outward, where in a normal to high arch this part of the sole of the foot does not make contact with the ground at all.
Non Surgical Treatment
The type of treatment will depend on the stage of PTTD present. There are four stages of posterior tibial tendon dysfunction. Stage I. The posterior tibial tendon is inflamed but has normal strength. There is little to no change in the arch of the foot. The patient can still perform a single-limb heel rise and has a flexible hindfoot. Orthotic treatment options include modified off the shelf inserts and custom molded orthotics. Stage 2. The tendon is partially torn or shows degenerative changes and as a result loses strength.There is considerable flattening of the arch without arthritic changes in the foot. The patient cannot perform single-limb heel rise. Pain is now present on the lateral aspect of the ankle. Orthotic treatment is similar as that in stage I, with the addition of more rigid arch supports and wedging. Stage 3. Results when the posterior tibial tendon is torn and not functioning. As a result the arch is completely collapsed with arthritic changes in the foot. A solid ankle AFO is suggested in conjunction with a modified orthopedic shoe. Stage 4. Is identical to stage three except that the ankle joint also becomes arthritic. A rigid AFO and modified orthopedic shoe is required.
A better approach is to strengthen the weakened ligaments with Prolotherapy, supplemented by an arch support if the condition has existed for several years. Chronic pain is most commonly due to tendon and ligament weakness, or cartilage deterioration. The safest and most effective natural medicine treatment for repairing tendon, ligament and cartilage damage is Prolotherapy. In simple terms, Prolotherapy stimulates the body to repair painful areas. It does so by inducing a mild inflammatory reaction in the weakened ligaments and cartilage. Since the body heals by inflammation, Prolotherapy stimulates healing. Prolotherapy offers the most curative results in treating chronic pain. It effectively eliminates pain because it attacks the source: the fibro-osseous junction, an area rich in sensory nerves. What?s more, the tissue strengthening and pain relief stimulated by Prolotherapy is permanent.
Patients may go home the day of surgery or they may require an overnight hospital stay. The leg will be placed in a splint or cast and should be kept elevated for the first two weeks. At that point, sutures are removed. A new cast or a removable boot is then placed. It is important that patients do not put any weight on the corrected foot for six to eight weeks following the operation. Patients may begin bearing weight at eight weeks and usually progress to full weightbearing by 10 to 12 weeks. For some patients, weightbearing requires additional time. After 12 weeks, patients commonly can transition to wearing a shoe. Inserts and ankle braces are often used. Physical therapy may be recommended. There are complications that relate to surgery in general. These include the risks associated with anesthesia, infection, damage to nerves and blood vessels, and bleeding or blood clots. Complications following flatfoot surgery may include wound breakdown or nonunion (incomplete healing of the bones). These complications often can be prevented with proper wound care and rehabilitation. Occasionally, patients may notice some discomfort due to prominent hardware. Removal of hardware can be done at a later time if this is an issue. The overall complication rates for flatfoot surgery are low.