Feet are supposed to roll inward as a part of every step you take. This helps them to mold to the various terrain that they step on (sand, rocks, various obstacles) without injury. This is called pronation. But, when your feet roll inward excessively, problems often arise. Excessive inward rolling of the feet and ankles is called over-pronation. Sometimes, people who over-pronate are told they have ?flat feet?. The term ?flat feet? can be misleading. When standing, body weight causes the arch of most feet to flatten out somewhat. This does not mean they become flat like pancakes (though some feet do). Instead, the arch shape gets longer and flatter and the arch height gets lower.
Unless there is a severe, acute injury, overpronation develops as a gradual biomechanical distortion. Several factors contribute to developing overpronation, including tibialis posterior weakness, ligament weakness, excess weight, pes planus (flat foot), genu valgum (knock knees), subtalar eversion, or other biomechanical distortions in the foot or ankle. Tibialis posterior weakness is one of the primary factors leading to overpronation. Pronation primarily is controlled by the architecture of the foot and eccentric activation of the tibialis posterior. If the tibialis posterior is weak, the muscle cannot adequately slow the natural pronation cycle.
People with overpronation may suffer from pain in the knees, hips, and low back. Overpronation itself does not necessarily cause any other symptoms but is a contributing factor of many foot conditions such as Plantar Facsiitis, Heel Spur Syndrome, Posterior Tibialis Tendon Rupture or Tendonitis, Hallux Valgus, Bunion Deformities, Metatarsalgia, Hallux Limitus or Hallux Rigidus, Hammer Toes, and Morton?s Neuroma.
A quick way to see if you over-pronate is to look for these signs. While standing straight with bare feet on the floor, look so see if the inside of your arch or sole touches the floor. Take a look at your hiking or running shoes; look for wear on the inside of the sole. Wet your feet and walk on a surface that will show the foot mark. If you have a neutral foot you should see your heel connected to the ball of your foot by a mark roughly half of width of your sole. If you over-pronate you will see greater than half and up to the full width of your sole.
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.
The MBA implant is small titanium device that is inserted surgically into a small opening between the bones in the hind-mid foot: the talus (ankle bone) and the calcaneus (heel bone). The implant was developed to help restore the arch by acting as a mechanical block that prevents the foot from rolling-in (pronation). In the medical literature, the success rate for relief of pain is about 65-70%. Unfortunately, about 40% of people require surgical removal of the implant due to pain.
Sever?s disease is the most common cause of heel pain in children aged 9 to 14. Sever?s disease results from stress placed on the growth plate of the heel bone. An excessive amount of running or other activities can cause inflammation around the growth plate, which results in pain. Rest, ice and orthotics and proper shoes are usually prescribed.
The usual cause is directly related to overuse of the bone and tendons in the heel. This can come from playing sports or anything that involves a lot of heel movement. It can be associated with starting a new sport, or the start of a new season, or too much weight bearing on the heel. Also, excessive traction could cause this, since the bones and tendons are still developing. Many children who over pronate their feet exhibit symptoms and in most patients, it usually involves both heels.
The most common symptoms of Sever?s involves pain or tenderness in one or both heels. This pain usually occurs at the back of the heel, but can also extend to the sides and bottom of the heel. A child with Sever?s may also have these common problems. Heel pain with limping, especially after running. Difficulty walking. Discomfort or stiffness in the feet upon awaking. Swelling and redness in the heel. Symptoms are usually worse during or after activity and get better with rest.
All medical diagnosis should be made by taking a full history, examining the patient then performing investigations. The problem usually occurs in boys who are going through or have just gone through a growth spurt; one or both heels may be affected. Initially the pain may be intermittent occurring only during or after exercise. As the problem gets worse, pain may be present most of the time. There may be swelling over the back of the heel and this area is painful if touched or knocked. On examination the patient often has flat feet, very tight legs muscles especially the gastrocnemius.
Non Surgical Treatment
Sever?s disease treatment should be based on eliminating pain and restoring normal foot and leg biomechanics. As with most soft tissue injuries the initial treatment is Rest, Ice, and Protect. In the early phase you?ll most likely be unable to walk pain-free. Our first aim is to provide you with some active rest from pain-provoking activities. "No Pain. No Gain." does not apply in Sever's disease. If it hurts your child is doing too much exercise. Your child should reduce or cease any activity that causes heel pain. Ice is a simple and effective modality to reduce your pain and swelling. Please apply for 20-30 minutes each 2 to 4 hours during the initial phase or when you notice that your injury is warm or hot. Most children can tolerate paracetamol as a pain reducing medication. Check with your doctor. To support and protect your heels, you may need to be wear shock absorbing heel cups or a soft orthotic. Kinesio foot taping may help to provide pain relief. Your physiotherapist will guide you and utilise a range of pain relieving techniques including joint mobilisations for stiff ankle or subtalar joints, massage or electrotherapy to assist you during this pain-full phase.
Sever?s disease is self-recovering, meaning that it will go away on its own when the foot is used less or when the bone is through growing. The condition is not expected to create any long-term disability, and expected to subside in 2-8 weeks. The disease may also take several years to stop, because it is often triggered by growing too fast. It is more common in boys, although occurs in girls as well. The average age of symptom onset is 9-11.
Adult acquired flatfoot is one of the most common problems affecting the foot and ankle. Treatment ranges from nonsurgical methods, such as orthotics and braces to surgery. Your doctor will create a treatment plan for you based on what is causing your AAFD.
Flat footedness, most people who develop the condition already have flat feet. With overuse or continuous loading, a change occurs where the arch begins to flatten more than before, with pain and swelling developing on the inside of the ankle. Inadequate support from footwear may occasionally be a contributing factor. Trauma or injury, occasionally this condition may be due to fracture, sprain or direct blow to the tendon. Age, the risk of developing Posterior Tibial Tendon Dysfunction increases with age and research has suggested that middle aged women are more commonly affected. Other possible contributing factors - being overweight and inflammatory arthritis.
The symptoms of PTTD may include pain, swelling, a flattening of the arch, and an inward rolling of the ankle. As the condition progresses, the symptoms will change. For example, when PTTD initially develops, there is pain on the inside of the foot and ankle (along the course of the tendon). In addition, the area may be red, warm, and swollen. Later, as the arch begins to flatten, there may still be pain on the inside of the foot and ankle. But at this point, the foot and toes begin to turn outward and the ankle rolls inward. As PTTD becomes more advanced, the arch flattens even more and the pain often shifts to the outside of the foot, below the ankle. The tendon has deteriorated considerably and arthritis often develops in the foot. In more severe cases, arthritis may also develop in the ankle.
In diagnosing flatfoot, the foot & Ankle surgeon examines the foot and observes how it looks when you stand and sit. Weight bearing x-rays are used to determine the severity of the disorder. Advanced imaging, such as magnetic resonance imaging (MRI) and computed tomography (CAT or CT) scans may be used to assess different ligaments, tendons and joint/cartilage damage. The foot & Ankle Institute has three extremity MRI?s on site at our Des Plaines, Highland Park, and Lincoln Park locations. These extremity MRI?s only take about 30 minutes for the study and only requires the patient put their foot into a painless machine avoiding the uncomfortable Claustrophobia that some MRI devices create.
Non surgical Treatment
Because of the progressive nature of PTTD, early treatment is advised. If treated early enough, your symptoms may resolve without the need for surgery and progression of your condition can be arrested. In contrast, untreated PTTD could leave you with an extremely flat foot, painful arthritis in the foot and ankle, and increasing limitations on walking, running, or other activities. In many cases of PTTD, treatment can begin with non-surgical approaches that may include orthotic devices or bracing. To give your arch the support it needs, your foot and ankle surgeon may provide you with an ankle brace or a custom orthotic device that fits into the shoe. Immobilization. Sometimes a short-leg cast or boot is worn to immobilize the foot and allow the tendon to heal, or you may need to completely avoid all weight-bearing for a while. Physical therapy. Ultrasound therapy and exercises may help rehabilitate the tendon and muscle following immobilization. Medications. Nonsteroidal anti-inflammatory drugs (NSAIDs), such as ibuprofen, help reduce the pain and inflammation. Shoe modifications. Your foot and ankle surgeon may advise changes to make with your shoes and may provide special inserts designed to improve arch support.
In cases of PTTD that have progressed substantially or have failed to improve with non-surgical treatment, surgery may be required. For some advanced cases, surgery may be the only option. Your foot and ankle surgeon will determine the best approach for you.
Arch pain typically is the term used to describe pain under the arch of the foot. Arch pain indicates inflammation of the tissues within the midfoot and is most commonly caused by plantar fasciitis. Plantar fasciitis is inflammation of the fibrous band of tissue that connects the heel to the toes. Arch pain is most commonly found early in the morning due to the plantar fascia becoming contracted and tight during sleep. Walking or standing for long periods of time can also aggravate the plantar fascia, causing it to become inflamed and irritated. Treatment options include orthotics, anti-inflammatory medications and stretching exercises.
Arch pain is most often caused by plantar fasciitis, which can affect the heel, arch, or both. Plantar fasciitis treatment is the same, regardless of the location of foot pain (see above). For persistent plantar fasciitis, an injection with a mixture of a steroid and local anesthetic can be helpful. Fallen arches or flat feet occur when the arches of the feet flatten out (often when standing or walking), causing foot pain and other problems. Flat feet can be treated with shoe inserts (orthotics), shoe adjustments, rest/ice, using a walking cane or brace, or physical therapy. Occasionally, surgery is necessary.
The majority of children and adults with flexible flatfeet never have symptoms. However, their toes may tend to point outward as they walk, a condition called out-toeing. A person who develops symptoms usually complains of tired, aching feet, especially after prolonged standing or walking. Symptoms of rigid flatfoot vary depending on the cause of the foot problem.
A professional therapist may use tinels test to diagnose tarsal tunnel syndrome. This involves tapping the nerve just behind the medial malleolus or bony bit of the ankle with a rubber hammer. Pain indicates a positive test. Sometimes it is initially mistaken for plantar fasciitis which also causes pain from the inside heel and throughout the arch of the foot. Neural symptoms (such as tingling or numbness) as well as the location of tenderness when touching the area should help to easily distinguish between the conditions.
Non Surgical Treatment
Relieving the pain caused by plantar fasciitis boils down to two basic needs. Reduce the inflammation. Support and stretch the plantar fascia. If you can accomplish those two goals, you should note pain relief more quickly. Doctors treating plantar fasciitis will recommend the following options for accomplishing this. Rest, Get off your feet as much as possible when the pain is at its worst. If you must walk or run, try to stay off hard, unforgiving surfaces and wear supporting footwear. Use ice on the arch several times a day to help reduce swelling if necessary. Take Tylenol, Advil, or other over-the-counter pain relievers that contain acetaminophen, ibuprofen, or naproxen to help lessen the inflammation and ease pain. Stretch your toes, calves, and foot repeatedly throughout the day to keep the plantar fasciia limber. Purchase insoles, inserts, or orthopedic shoes designed to support the arch of the foot and wear them at all times. Purchase splints that will stretch the Achilles tendon as you sleep, helping to lessen morning heel pain. If none of the above helps, your doctor may prescribe regular injections of cortisone to control the pain. As a last resort, your doctor may attempt surgery to repair the plantar fascia.
The main goal of surgery is to reduce pain and improve function. It may also reduce other injuries such as repeated ankle sprains and broken bones. Surgery may be considered if there is no relief with physical therapy, changes in shoewear and/or changes in activity. Some patients will also have tendon problems, ankle weakness and foot fractures. These patients may require other procedures to address related problems. If you have medical problems that make surgery unsafe, any infections or blood vessel disease, cavus foot surgery may not be appropriate. The surgical procedures involved with the correction of the cavus foot are varied. Theses may include correction of the bony deformity, ankle looseness and the muscle imbalances that cause the deformity. The goal is to provide a foot that evenly distributes weight along both inside and outside edges. A variety of incisions may be needed to perform the procedures related to the correction of the cavus foot.
Strap the arches into the anatomically correct positions with athletic tape and leave them like this for some time. If the fallen arches are an issue with the muscular structure, this may give the muscles an opportunity to strengthen. This is definitely not a fallen arches cure all the time but it can help prevent it more times than not. Ask a doctor or physical therapists to show you how to do this taping. Find shoes that fit. This may require that you get your foot measured and molded to ensure that the shoe will fit. Shoes that are too big, too tight or too short, may not directly cause the fallen arches, but they can assist with the damage to the area. These shoes should have thick cushioning inside and have plenty of room for your toes. Walk without shoes as much as possible. Shoes directly assist with weakening and distorting the arches of the feet so going without shoes can actually help strengthen your arches and prevent fallen arches. Walking on hard and bumpy surfaces barefooted makes the muscles in your feet strengthen in order to prevent injury. It is a coping mechanism by your body. Insert heel cups or insoles into the shoes that you wear the most. Many people wear uncomfortable shoes to work and these are the same shoes that cause their arches the most problems. Inserting the heel cups and insoles into these shoes can prevent fallen arches from occurring. Many people place these inserts into all their shoes to ensure support. Ask a medical professional, either your doctor or a physical therapist, about daily foot exercises that may keep the arches stronger than normal. Many times, you can find exercises and stretches on the Internet on various websites. Curling your toes tightly and rotating your feet will help strengthen your longitudinal arches. Relax your feet and shake them for a minute or so before you do any arch exercises. This will loosen the muscles in your feet that stay tight due to normal daily activities. Wear rigid soled sandals whenever possible to provide a strong support for your arches. Wooden soled sandals are the best ones if available. Walk or jog on concrete as much as you can. This will create a sturdy support for your arches. Running or walking in sandy areas or even on a treadmill, does not give rigid support. Instead, these surfaces absorb the step, offering no support for arches.
Start in an L-Sit position. (If you?re hips and hamstrings are tight sit up on a box or phone book to be able to achieve a tall back position. You can even sit on a box with your back supported against a wall!) Keeping the legs straight, but not locked, reach both heels out away from your body to ?Flex? the ankles. Try to avoid pulling back with the toes to flex. Keep the toes relaxed and lead from the heel to hinge the foot into the flexed position. Hold the flexed foot and breathe. Take 3-5 breaths and see if you can reach farther through the heel to deepen the flex on each exhale. To transition to the pointed position, begin by pointing the foot to move the ankles as far as possible in the other direction. Once the ankles have reached their endpoint, use the muscles along the sole of the foot to point the toes. Inhale to continue lengthening out through the top of the foot, exhale to deepen the contraction under the sole of the foot to point the toes. Take 3-5 breaths. Then release the toes, and begin reaching out through the heel to hinge the ankle into the flexed position to repeat the exercise. Continue to flex and the point for 5-10 repetitions.
Overview The Achilles tendon is the largest and most vulnerable tendon in the body. It joins the gastrocnemius (calf) and the soleus muscles of the lower leg to heel of the foot. The gastrocnemius muscle crosses the knee, the ankle, and the subtalar joints and can create stress and tension in the Achilles tendon . Tendons are strong, but not very flexible so they can only so far before they get inflammed and tear or rupture. Causes Causes of and contributors to Achilles tendon rupture include trauma (caused by injury, usually an acceleration injury such as pushing off or jumping up). Preceding tendon problems. Chronic Achilles tendonitis (can lead to small tears within the tendon, increasingly weakening it). Certain drug therapies/treatments. Drugs that have been linked to Achilles tendon rupture include. Fluoroquinolone antibiotics - after nearly 900 reports of tendon ruptures, tendonitis and other tendon disorders (most associated with the Achilles tendon) linked to Ciprofloxacin (Cipro) alone were collected in the U.S. Food and Drug Administration (FDA)?s database, at least one public-interest group petitioned the FDA to recommend that a "Black Box Warning" be added to Cipro's packaging. Some researchers speculate this class of antibiotics is toxic to tendon fibers, and that in some cases may reduce their blood supply. Patients should at least be more aware of the potential for ruptures so that they can be switched to other antibiotics at the onset of early warning signals such as tendon pain. Symptoms Symptoms of an Achilles tendon rupture usually directly follow a traumatic event where the foot is forced in an upward position at the ankle, causing a sudden tight stretch of the Achilles tendon. There can also be a direct blow to the tendon causing a rupture. There is typically a popping feeling or even a popping sound described during the occurance of the rupture. Typically there is pain with swelling in the region. Often the patient is unable to put weight on this foot as there is too much pain. Diagnosis When Achilles tendon injury is suspected, the entire lower lag is examined for swelling, bruising, and tenderness. If there is a full rupture, a gap in the tendon may be noted. Patients will not be able to stand on the toes if there is a complete Achilles tendon rupture. Several tests can be performed to look for Achilles tendon rupture. One of the most widely used tests is called the Thompson test. The patient is asked to lie down on the stomach and the examiner squeezes the calf area. In normal people, this leads to flexion of the foot. With Achilles tendon injury, this movement is not seen. Non Surgical Treatment Once the Achilles tendon is partially damaged, one should exercise great care. The risk of rupture is high and if pain is associated with walking, one should consult with an orthopedic surgeon or a sports physician. A complete rupture of the Achilles tendon is never treated at home. It is important to understand that there are no minerals, nutrients, or herbs to treat Achilles tendon injury and any delay just worsens the recovery. Surgical Treatment Surgery is a common treatment for a complete rupture of the Achilles tendon. The procedure generally involves making an incision in the back of your lower leg and stitching the torn tendon together. Depending on the condition of the torn tissue, the repair may be reinforced with other tendons. Surgical complications can include infection and nerve damage. Infection rates are reduced in surgeries that employ smaller incisions. After treatment, whether surgical or nonsurgical, you'll go through a rehabilitation program involving physical therapy exercises to strengthen your leg muscles and Achilles tendon. Most people return to their former level of activity within four to six months.