Overview
Excessive pronation is a common fault that occurs with the dynamic structure of the foot. Some degree of pronation is necessary for shock absorption. Excessive pronation, or collapsing of the arch, limits the foot?s ability to efficiently support the weight of the body. The altered position of the foot and ankle complex that occurs with high degrees of pronation also forces the rest of the lower body out of alignment. This can cause mechanical problems in muscles and joints traveling all the way up to the back. Arch strengthening is a vital part of maintaining healthy feet. Causes There are many biomechanical issues that can contribute to excessive pronation, including weak foot intrinsic muscles, limited ankle dorsiflexion mobility and calf flexibility, weak ankle invertor muscles (e.g. posterior tibialis), weak forefoot evertor muscles (peroneus longus), poor hip strength and control, Anterior pelvic tilting, heel InversionIn a person who overpronates, the heel bone goes into an everted position meaning that it turns out away from the midline of the body. The opposite motion of eversion is inversion. Inversion is a motion that needs to be controlled to prevent the foot from excessively pronating. Symptoms When standing, your heels lean inward. When standing, one or both of your knee caps turn inward. Conditions such as a flat feet or bunions may occur. You develop knee pain when you are active or involved in athletics. The knee pain slowly goes away when you rest. You abnormally wear out the soles and heels of your shoes very quickly. Diagnosis You can test for pronation by looking at the leg and foot from the back. Normally you can see the Achilles Tendon run straight down the leg into the heel. If the foot is pronated, the tendon will run straight down the leg, but when it lies on the heel it will twist outward. This makes the inner ankle bone much more prominent than the outer ankle bone. Non Surgical Treatment If a young child is diagnosed with overpronation braces and custom orthotics can be, conjunction with strengthening and stretching exercises, to realign the bones of the foot. These treatments may have to continue until the child has stopped growing, and orthotics may need to be worn for life in order to prevent the foot reverting to an overpronated state. Wearing shoes that properly support the foot, particularly the arch, is one of the most effective treatments for overpronation. Custom-made orthotic inserts can also be very beneficial. They too support the arch and distribute body weight correctly throughout the foot. Motion-control shoes that prohibit pronation can be worn, so may be useful for those with severe overpronation. One good treatment is to walk barefoot as often as possible. Not relying on shoes to support the arch will encourage proper muscle use. Practicing yoga can help to correct poor posture and teach you how to stand with your weight balanced evenly across the whole foot. Prevention Wearing the proper footwear plays a key role as a natural way to help pronation. Pronated feet need shoes that fit well, provide stability, contain supportive cushioning, are comfortable and allow enough room for your foot to move without causing pain or discomfort. Putting special inner heel wedges, known as orthotics, into your shoes can support a flatfoot while lowering risks of developing tendinitis, according to the American Academy of Orthopaedic Surgeons. More extensive cases may require specially fitted orthopaedic shoes that support the arches. Overview
Sever's disease is a condition characterized by pain in one or both heels with walking. The pain is caused by shortening of the heel-cord. It usually affects children between the ages of 10 and 13 years old. During this phase of life, growth of the bone is taking place at a faster rate than the tendons. Sever's disease is also called calcaneal apophysitis. Causes Sever?s disease is common, and typically occurs during a child?s growth spurt, which can occur between the ages of 10 and 15 in boys and between the ages of 8 and 13 in girls. Feet tend to grow more quickly than other parts of the body, and in most kids the heel has finished growing by the age of 15. Being active in sports or participating in an activity that requires standing for long periods can increase the risk of developing Sever?s disease. In some cases, Sever?s disease first becomes apparent after a child begins a new sport, or when a new sports season starts. Sports that are commonly associated with Sever?s disease include track, basketball, soccer, and gymnastics. Children who are overweight or obese are also at a greater risk of developing this condition. Certain foot problems can also increase the risk, including. Over pronating. Kids who over pronate (roll the foot inward) when walking may develop Sever?s disease. Flat foot or high arch. An arch that is too high or too low can put more stress on the foot and the heel, and increase the risk of Sever?s disease. Short leg. Children who have one leg that is shorter than the other may experience Sever?s disease in the foot of the shorter leg because that foot is under more stress when walking. Symptoms The most prominent symptom of Sever's disease is heel pain which is usually aggravated by physical activity such as walking, running or jumping. The pain is localized to the posterior and plantar side of the heel over the calcaneal apophysis. Sometimes, the pain may be so severe that it may cause limping and interfere with physical performance in sports. External appearance of the heel is almost always normal, and signs of local disease such as edema, erythema (redness) is absent. The main diagnostic tool is pain on medial- lateral compression of the calcaneus in the area of growth plate, so called squeeze test. Foot radiographs are usually normal. Therefore the diagnosis of Sever's disease is primarily clinical. Diagnosis A Podiatrist can easily evaluate your child?s foot, lower limbs and muscular flexibility, to identify if a problem exists. If a problem is identified, a simple treatment plan is put in place. Initial treatment may involve using temporary padding and strapping to control motion or to cushion the painful area and based on the success of this treatment, a long-term treatment plan will be put in place. This long-term treatment plan may or may not involve Foot Supports, Heel Raises, muscle stretching and or strengthening. Non Surgical Treatment Orthotics, The orthotics prescribed are made to align the foot in its correct foot posture. This will reduce stress and force at the site of the growth plate of the heel bone. Rest and Ice the heel 20 minutes before and after sporting activity. Calf muscle stretching exercises.
Overview
Collapsed arches occur in five percent of adults 40 years and older, especially those who are overweight or maintain sedentary lifestyles. At the onset of the condition, adult acquired flatfoot can be controlled with anti-inflammatory medications, physical therapy, taping, bracing, and orthotics. While most cases of adult-onset flatfoot require surgery, congenital flatfoot is an entirely different condition that is best treated with orthotics in children. Ninety percent of children born with flat feet will be fine with conservative treatment. Causes Adult acquired flatfoot is caused by inflammation and progressive weakening of the major tendon that it is responsible for supporting the arch of the foot. This condition will commonly be accompanied by swelling and pain on the inner portion of the foot and ankle. Adult acquired flatfoot is more common in women and overweight individuals. It can also be seen after an injury to the foot and ankle. If left untreated the problem may result in a vicious cycle, as the foot becomes flatter the tendon supporting the arch structure becomes weaker and more and more stretched out. As the tendon becomes weaker, the foot structure becomes progressively flatter. Early detection and treatment is key, as this condition can lead to chronic swelling and pain. Symptoms The symptoms of PTTD may include pain, swelling, a flattening of the arch, and inward rolling of the ankle. As the condition progresses, the symptoms will change. For example, 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. Symptoms, which may occur in some persons with flexible flatfoot, include. Pain in the heel, arch, ankle, or along the outside of the foot. ?Turned-in? ankle. Pain associated with a shin splint. General weakness / fatigue in the foot or leg. Diagnosis The adult acquired flatfoot, secondary to posterior tibial tendon dysfunction, is diagnosed in a number of ways with no single test proven to be totally reliable. The most accurate diagnosis is made by a skilled clinician utilizing observation and hands on evaluation of the foot and ankle. Observation of the foot in a walking examination is most reliable. The affected foot appears more pronated and deformed compared to the unaffected foot. Muscle testing will show a strength deficit. An easy test to perform in the office is the single foot raise. A patient is asked to step with full body weight on the symptomatic foot, keeping the unaffected foot off the ground. The patient is then instructed to "raise up on the tip toes" of the affected foot. If the posterior tibial tendon has been attenuated or ruptured, the patient will be unable to lift the heel off the floor and rise onto the toes. In less severe cases, the patient will be able to rise on the toes, but the heel will not be noted to invert as it normally does when we rise onto the toes. X-rays can be helpful but are not diagnostic of the adult acquired flatfoot. Both feet - the symptomatic and asymptomatic - will demonstrate a flatfoot deformity on x-ray. Careful observation may show a greater severity of deformity on the affected side. Non surgical Treatment Conservative treatment is indicated for nearly all patients initially before surgical management is considered. The key factors in determining appropriate treatment are whether acute inflammation and whether the foot deformity is flexible or fixed. However, the ultimate treatment is often determined by the patients, most of whom are women aged 40 or older. Compliance can be a problem, especially in stages I and II. It helps to emphasise to the patients that tibialis posterior dysfunction is a progressive and chronic condition and that several fittings and a trial of several different orthoses or treatments are often needed before a tolerable treatment is found. Surgical Treatment Surgical treatment should be considered when all other conservative treatment has failed. Surgery options for flatfoot reconstruction depend on the severity of the flatfoot. Surgery for a flexible flatfoot deformity (flatfoot without arthritis to the foot joints) involves advancing the posterior tibial tendon under the arch to provide more support and decrease elongation of the tendon as well as addressing the hindfoot eversion with a osteotomy to the calcaneus (surgical cut in the heel bone). Additionally, the Achilles tendon may need to be lengthened because of the compensatory contracture of the Achilles tendon with flatfoot deformity. Flatfoot deformity with arthritic changes to the foot is considered a rigid flatfoot. Correction of a rigid flatfoot deformity usually involves surgical fusion of the hindfoot joints. This is a reconstructive procedure which allows the surgeon to re-position the foot into a normal position. Although the procedure should be considered for advanced PTTD, it has many complications and should be discussed at length with your doctor. Overview
Plantar fasciitis is a common and often persistent kind of repetitive strain injury afflicting runners, walkers and hikers, and nearly anyone who stands for a living, cashiers, for instance. It causes mainly foot arch pain and/or heel pain. Morning foot pain is a signature symptom. Plantar fasciitis is not the same thing as heel spurs and flat feet, but they are related and often confused. Most people recover from plantar fasciitis with a little rest, arch support (regular shoe inserts or just comfy shoes), and stretching, but not everyone. Severe cases can stop you in your tracks, undermine your fitness and general health, and drag on for years. Causes The most common acquired flat foot in adults is due to Posterior Tibial Tendon Dysfunction. This develops with repetitive stress on the main supporting tendon of the arch over a long period of time. As the body ages, ligaments and muscles can weaken, leaving the job of supporting the arch all to this tendon. The tendon cannot hold all the weight for long, and it gradually gives out, leading to a progressively lower arch. This form of flat foot is often accompanied by pain radiating behind the ankle, consistent with the course of the posterior tibial tendon. Compounding matters is the fact that the human foot was not originally designed to withstand the types of terrain and forces it is subjected to today. Nowhere in nature do you see the flat hard surfaces that we so commonly walk on in present times. Walking on this type of surface continuously puts unnatural stress on the arch. The fact that the average American is overweight does not help the arch much either-obesity is a leading cause of flat feet as the arch collapses under the excessive bodyweight. Furthermore, the average life span has increased dramatically in the last century, meaning that not only does the arch deal with heavy weight on hard flat ground, but also must now do so for longer periods of time. These are all reasons to take extra care of our feet now in order to prevent problems later. Symptoms Pain in arch of foot is really the only symptom of this condition. It is unlikely to see any swelling or bruising and instead there will be a deep tender spot near the heel. Occasionally the pain may radiate further down the foot. With this condition, pain will usually be felt first thing in the morning or after periods of sitting. This is because the plantar fascia tightens and shortens slightly when there is no weight on it and by standing on it it suddenly stretches and becomes painful. After a few steps it starts to loosen off and the pain may subside. If this is the same pattern of pain you experience it is quite likely you have plantar fasciits. Pain may also be felt when walking up stairs or standing on tip-toes (anything that stretches the fascia). Diagnosis Your doctor may order imaging tests to help make sure your heel pain is caused by plantar fasciitis and not another problem. X-rays provide clear images of bones. They are useful in ruling out other causes of heel pain, such as fractures or arthritis. Heel spurs can be seen on an x-ray. Other imaging tests, such as magnetic resonance imaging (MRI) and ultrasound, are not routinely used to diagnose plantar fasciitis. They are rarely ordered. An MRI scan may be used if the heel pain is not relieved by initial treatment methods. Non Surgical Treatment Consult a doctor to diagnose the condition and determine the cause. If revealed to be plantar fasciitis, please refer to our article on that injury for further information. Generally arch pain is easy to treat, with the most effective method of treatment being the placement of arch supports in the shoes. This counteracts the strain placed on the arches by biomechanical errors, causing them to cease stretching excessively. A specialist can recommend the inserts suitable to your needs, which will depend on the shape of your arches. These supports should lessen your symptoms within days. If pain is severe you should refrain from running activities until it subsides to avoid risking an aggravation of the injury. To maintain fitness, alter your training program temporarily to be focused on low-impact sports like swimming. Applying ice to the affected area should assist in reducing pain and swelling. Surgical Treatment A procedure that involves placing a metallic implant (most commonly) at the junction where the foot meets the ankle. This device causes the physical blockade that prevent the collapse. It is a procedure that is only indicated for mobile feet, and should not be used with rigid flat feet. Dr. Blitz finds this procedure better for younger patients with flexible flat feet where the bone alignment is still developing so that the foot can adapt to function in a better aligned position. Prevention The best method for preventing plantar fasciitis is stretching. The plantar fascia can be stretched by grabbing the toes, pulling the foot upward and holding for 15 seconds. To stretch the calf muscles, place hands on a wall and drop affected leg back into a lunge step while keeping the heel of the back leg down. Keep the back knee straight for one stretch and then bend the knee slightly to stretch a deeper muscle in the calf. Hold stretch for 15 seconds and repeat three times. Stretching Exercises Calf Raises. Strengthens the tendons in your heels and calf muscles, which support your arch. Raise up on the balls of your feet as high as possible. Slowly lower down. Do three sets of 10 reps. Progress to doing the raises on stairs (with heels hanging off), and then to single-leg raises. Step Stretch. Improves flexibility in your Achilles tendon and calf-when these areas become tight, the arch gets painfully overloaded. Stand at the edge of a step, toes on step, heels hanging off. Lower your heels down, past the step, then raise back up to the start position. Do three sets of 10 reps. Doming. Works the arch muscles and the tibialis posterior (in the calf and foot) to control excess pronation. While standing, press your toes downward into the ground while keeping the heel planted, so that your foot forms an arch (or dome). Release, and do three sets of 10 reps on each foot. Toe Spread and Squeeze. Targets the interossei muscles of the foot, which support the arch. While sitting, loop a small resistance band around your toes. Spread toes; release. Then place a toe separator (used at nail salons) in between toes. Squeeze toes in; release. Do three sets of 10 reps of each exercise on both feet. Towel Curls. Works the toe-flexor muscles that run along your arch to increase overall foot strength. Lay a small hand towel on the floor, and place one foot on the towel. Using just your toes, scrunch the towel toward you, hold, then slowly push the towel away from you back to start position. Do three sets of 10 reps on each foot.
Overview The Achilles tendon is the largest tendon in the human body. It connects the calf muscle to the heel bone. However, this tendon is also the most common site of rupture or tendonitis, an inflammation of the tendon due to overuse. Achilles tendon rupture is a partial or complete tear of the Achilles tendon. It comes on suddenly, sometimes with a popping sound, and can be debilitating. A full rupture is more severe, but less common, than a partial rupture. A full rupture splits the Achilles tendon so that it no longer connects the calf muscle to the heel: the calf muscle can no longer cause the foot to ?push off?, so normal walking is impossible. If it is a full rupture, then lightly pinching the Achilles tendon with the forefinger and thumb will reveal a gap in the Achilles tendon. Partial and full Achilles tendon ruptures are most likely to occur in sports requiring sudden stretching, such as sprinting and racquet sports. Partial Achilles tendon tears are also common among middle and long distance runners. Causes Factors that may increase your risk of Achilles tendon rupture include Age. The peak age for Achilles tendon rupture is 30 to 40. Your sex. Achilles tendon rupture is up to five times more likely to occur in men than in women. Playing recreational sports. Achilles tendon injuries occur more often in sports that involve running, jumping and sudden starts and stops - such as soccer, basketball and tennis. Steroid injections. Doctors sometimes inject steroids into an ankle joint to reduce pain and inflammation. However, this medication can weaken nearby tendons and has been associated with Achilles tendon ruptures. Certain antibiotics. Fluoroquinolone antibiotics, such as ciprofloxacin (Cipro) or levofloxacin (Levaquin), increase the risk of Achilles tendon rupture. Symptoms Tendon strain or tendon inflammation (tendonitis) can occur from tendon injury or overuse and can lead to a rupture. Call your doctor if you have signs of minor tendon problems. Minor tenderness and possible swelling increases with activity. There is usually no specific event causing sudden pain and no obvious gap in the tendon. You can still walk or stand on your toes. Acute calf pain and swelling can indicate a tear or partial tear of the Achilles tendon where it meets the calf muscle. You may still be able to use that foot to walk, but you will need to see a specialist such as an orthopedic surgeon. Surgery is not usually done for partial tears. Sometimes special heel pads or orthotics in your shoes may help. Follow up with your doctor to check for tendonitis or strain before resuming activity, because both can increase the risk of tendon rupture. Any acute injury causing pain, swelling, and difficulty with weight-bearing activities such as standing and walking may indicate you have a tear in your Achilles tendon. Seek prompt medical attention from your doctor or emergency department. Do not delay! Early treatment results in better outcome. If you have any question or uncertainty, get it checked. Diagnosis The doctor may look at your walking and observe whether you can stand on tiptoe. She/he may test the tendon using a method called Thompson?s test (also known as the calf squeeze test). In this test, you will be asked to lie face down on the examination bench and to bend your knee. The doctor will gently squeeze the calf muscles at the back of your leg, and observe how the ankle moves. If the Achilles tendon is OK, the calf squeeze will make the foot point briefly away from the leg (a movement called plantar flexion). This is quite an accurate test for Achilles tendon rupture. If the diagnosis is uncertain, an ultrasound or MRI scan may help. An Achilles tendon rupture is sometimes difficult to diagnose and can be missed on first assessment. It is important for both doctors and patients to be aware of this and to look carefully for an Achilles tendon rupture if it is suspected. Non Surgical Treatment Medical therapy for a patient with an Achilles tendon rupture consists of rest, pain control, serial casting, and rehabilitation to maximize function. Ongoing debate surrounds the issue of whether medical or surgical therapy is more appropriate for this injury. Conservative management of Achilles tendinosis and paratenonitis includes the following. Physical therapy. Eccentric exercises are the cornerstone of strengthening treatment, with most patients achieving 60-90% pain relief. Orthotic therapy in Achilles tendinosis consists of the use of heel lifts. Nonsteroidal anti-inflammatory drugs (NSAIDs). Tendinosis tends to be less responsive than paratenonitis to NSAIDs. Steroid injections. Although these provide short-term relief of painful symptoms, there is concern that they can weaken the tendon, leading to rupture. Vessel sclerosis. Platelet-rich plasma injections. Nitric oxide. Shock-wave therapy. Surgical Treatment Surgery offers important potential benefits. Besides decreasing the likelihood of re-rupturing the Achilles tendon, surgery often increases the patient?s push-off strength and improves muscle function and movement of the ankle. Various surgical techniques are available to repair the rupture. The surgeon will select the procedure best suited to the patient. Following surgery, the foot and ankle are initially immobilized in a cast or walking boot. The surgeon will determine when the patient can begin weight bearing. Complications such as incision-healing difficulties re-rupture of the tendon, or nerve pain can arise after surgery. Prevention To help reduce your chance of getting Achilles tendon rupture, take the following steps. Do warm-up exercises before an activity and cool down exercises after an activity. Wear proper footwear. Maintain a healthy weight. Rest if you feel pain during an activity. Change your routine. Switch between high-impact activities and low-impact activities. Strengthen your calf muscle with exercises.
Overview
The Achilles tendon is the soft tissue located in the heel which connects calf muscle to the heel bone allowing the body to perform certain activities such as rising on the tip toes and pushing off when running or walking. Achilles tendon tears occur when the tendon becomes torn through excessive pressure put on the area which the tendon is unable to withstand. Tears are most commonly found when suddenly accelerating from a standing position and therefore is often seen in runners and athletes involved in racquet sports. A tear can also occur when a continuous force is being put on the heel through prolonged levels of activity and overuse however this can also occur as a result of sudden impact or force to the area common in contact sports such as rugby and hockey. Although Achilles tendon tears can range in their severity, a rupture is the most serious form of tear and involves a completely torn tendon. This injury is more common in patients in their 30s and 40s. Causes Achilles tendon ruptures are most likely to occur in sports requiring sudden stretching, such as sprinting and racquet sports. Achilles tendon ruptures can happen to anyone, but are most likely to occur to middle age athletes who have not been training or who have been doing relatively little training. Common sporting activities related to Achilles tendon rupture include, badminton, tennis, squash. Less common sporting activities that can lead to Achilles tendon rupture include: TKD, soccer etc. Occasionally the sufferer may have a history of having had pain in the Achilles tendon in the past and was treated with steroid injection to around the tendon by a doctor. This can lead to weakening of the tendon predisposing it to complete rupture. Certain antibiotics taken by mouth or by intravenous route can weaken the Achilles tendon predisposing it to rupture. An example would be the quinolone group of antibiotics. An common example is Ciprofloxacin (or Ciprobay). Symptoms Patients often describe a feeling of being kicked or hit with a baseball bat in the back of the heel during athletic activity. They are unable to continue the activity and have an extreme loss of strength with the inability to effectively walk. On physical examination there is often a defect that can be felt in the tendon just above the heel. A diagnosis of an Achilles tendon rupture is commonly made on physical exam. An MRI may be ordered to confirm the suspicion of a tear or to determine the extent of the tear. Diagnosis A typical history as detailed above together with positive clinical examination usually will clinch the diagnosis. In an acute rupture, one can usually feel the gap in the tendon from the rupture. There may be swelling or bruising around the ankle and foot of the injured leg. With the patient lying on the tummy (prone position) with the knee flexed, the examiner should see the ankle and foot flex downwards (plantarward) when squeezing the calf muscles. If there is no movement in the ankle and foot on squeezing the calf muscle, this implies that the calf muscle is no longer attached to the heel bone due to a complete Achilles tendon rupture. Non Surgical Treatment The best treatment for a ruptured Achilles tendon often depends on your age, activity level and the severity of your injury. In general, younger and more active people often choose surgery to repair a completely ruptured Achilles tendon while older people are more likely to opt for nonsurgical treatment. Recent studies, however, have shown fairly equal effectiveness of both operative and nonoperative management. Nonsurgical treatment. This approach typically involves wearing a cast or walking boot with wedges to elevate your heel; this allows the ends of your torn tendon to heal. This method can be effective, and it avoids the risks, such as infection, associated with surgery. However, the likelihood of re-rupture may be higher with a nonsurgical approach, and recovery can take longer. If re-rupture occurs, surgical repair may be more difficult. Surgical Treatment An Achilles tendon rupture is a complete tear of the fibrous tissue that connects the heel to the calf muscle. This is often caused by a sudden movement that overextends the tendon and usually occurs while running or playing sports such as basketball or racquetball. Achilles tendon rupture can affect anyone, but occurs most often in middle-aged men. Prevention Good flexibility of the calf muscles plays an essential role in the prevention of Achilles tendon injuries. It is also important to include balance and stability work as part of the training programme. This should include work for the deep-seated abdominal muscles and for the muscles that control the hip. This might at first appear odd, given the fact that the Achilles are a good distance from these areas, but developing strength and control in this area (core stability) can boost control at the knee and ankle joints. Training errors should be avoided. The volume, intensity and frequency of training should be monitored carefully, and gradually progressed, particularly when introducing new modes of training to the programme. Abrupt changes in training load are the primary cause of Achilles tendinopathy. |
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