Overview
Pronation is a normal motion which occurs after heel strike during walking. As the foot moves towards toe off, the foot naturally should move from an outside path towards the midline of the body stopping at neutral in ideal conditions. Overpronation is the foot?s motion past neutral and moving excessively toward the bodies midline. Overpronation can be caused by a number of factors including internal rotation of the femur or thigh bone, internal torsion of the tibia or shin bone, being genu valgum or ?knock kneed?, as well as fixed deformities of the ankle and forefoot. The overpronating foot is often hypermobile meaning it has excessive range of motion in the foot joints. Causes Abnormal foot biomechanics usually causes over-use type injuries, occurring most frequently in runners. When a neutral foot pronates during walking or running, the lower leg, knee and thigh all rotate internally (medially). When an athlete with an overpronated foot runs, this rotation movement is exaggerated and becomes more marked. 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 If you cannot afford to get a proper gait analysis completed, having someone observe you on a treadmill from behind will give you an idea if you are an overpronator. It is possible to tell without observing directly whether you are likely to be an overpronator by looking at your foot arches. Check your foot arch height by standing in water and then on a wet floor or piece of paper which will show your footprint. If your footprints show little to no narrowing in the middle, then you have flat feet or fallen arches. This makes it highly likely that you will overpronate to some degree when running. If you have low or fallen arches, you should get your gait checked to see how much you overpronate, and whether you need to take steps to reduce the level to which you overpronate. Another good test is to have a look at the wear pattern on an old pair of trainers. Overpronators will wear out the outside of the heel and the inside of the toe more quickly than other parts of the shoe. If the wear is quite even, you are likely to have a neutral running gait. Wear primarily down the outside edge means that you are a supinator. When you replace your running shoes you may benefit from shoes for overpronation. Motion control or stability running shoes are usually the best bet to deal with overpronation. 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. Surgical Treatment Depending on the severity of your condition, your surgeon may recommend one or more treatment options. Ultimately, however, it's YOUR decision as to which makes the most sense to you. There are many resources available online and elsewhere for you to research the various options and make an informed decision. Overview
Sever's disease is an injury to a child's still developing foot structure, specifically an inflammation in the heel's growth plate due to muscle strain and repetitive stress. It is common in young athletes and children who have problems with pronation. Sever's Disease usually occurs in children age 8, 14 years of age when the child's bones are still in the growth stage and the growth plates have not become ossified. 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 Unilateral or bilateral heel pain. Heel pain during physical exercise, especially activities that require running or jumping. Increased pain level after exercise. A tender swelling or bulge on the heel that is painful on touch. Limping. Calf muscle stiffness first thing in the morning. Diagnosis Sever?s disease can be diagnosed based on your history and symptoms. Clinically, your physiotherapist will perform a "squeeze test" and some other tests to confirm the diagnosis. Some children suffer Sever?s disease even though they do less exercise than other. This indicates that it is not just training volume that is at play. Foot and leg biomechanics are a predisposing factor. The main factors thought to predispose a child to Sever?s disease include a decrease in ankle dorsiflexion, abnormal hind foot motion eg overpronation or supination, tight calf muscles, excessive weight-bearing activities eg running. Non Surgical Treatment Treatment includes modifying activities and resting to reduce pain and inflammation and take pressure off the growth center. Ice can also be very helpful in relieving symptoms, as well as anti-inflammatory medication. A physical therapy program should be initiated to stretch tight calf muscles and strengthen the ankle muscles to relieve tension on the growth center. Shoes with padded heel surfaces and good arch support can decrease pain. Cleats may need to be avoided for some time to help reduce symptoms. The doctor may also recommend gel heel cups or supportive shoe inserts. Exercise For children with Sever's disease, it is important to habitually perform exercises to stretch the hamstrings, calf muscles, and the tendons on the back of the leg. Stretching should be performed 2-3 times a day. Each stretch should be performed for 20 seconds, and both legs should be stretched, even if the pain is only in one heel. Heel cups or an inner shoe heel lifts are often recommended for patient suffering from Sever's disease. Wearing running shoes with built in heel cups can also decrease the symptoms because they can help soften the impact on the heel when walking, running, or standing. Overview
Arch pain occurs with an inflammation of the plantar arch or fascia. It is the thick membrane that covers and supports all the muscles of the sole of the foot from the heel bone to the base of the toes that is called plantar arch. When this membrane pulls excessively (constant strain), pain developes in the arch of the foot or heel. Causes There are several reasons why arch pain develops. Sometimes it?s due to a condition known as plantar fasciitis, in which the plantar fascia (the band of tissue that runs along the bottom of your foot from your heel to your toes) becomes inflamed after excessive stress. Heel pain results from this inflammation. Sometimes the pain is due to extensive time spent on your feet. Many people feel pain on the arch of their feet after a long workday, while others overuse their feet exercising or playing sports. A foot deformity, such as hammertoe or clubfoot, can also cause this pain. Medical conditions such as diabetes or obesity can put additional stress on your feet, thereby causing arch pain. Your footwear is also important. Shoes should support all parts of your foot, especially the bottom. This is very important if you spend excessive time on your feet, if your obese, if your pregnant, or if you engage in sport-related activities. Injuries to any of the twenty-six bones, thirty-three joints and over 100 muscles, tendons and ligaments in the feet can also cause arch pain. Because the foot is such a complex structure, it?s important to see a podiatrist at the first sign of symptoms. Symptoms The foot of a newborn with congenital vertical talus typically has a convex rocker-bottom shape. This is sometimes combined with an actual fold in the middle of the foot. The rare person who is diagnosed at an older age often has a "peg-leg" gait, poor balance and heavy calluses on the soles where the arch would normally be. If a child with congenital vertical talus has a genetic disorder, additional symptoms often are seen in other parts of the body. Diagnosis In more difficult cases of plantar fasciitis you should see your foot health professional for a thorough examination. They will find out why your arch or heel pain occurred in the first place and devise a treatment plan to relieve your pain and prevent it from reoccurring. They will evaluate your feet, walking pattern (gait), shoes, activities, exercise methods, and other relevant information and then devise your treatment plan. Non Surgical Treatment In mild cases patients would benefit from custom made semi rigid full length custom made foot orthoses fitted into appropriate supportive footwear, preferably with laces or a velcro straps. In more severe cases patients may require a custom made Arizona lace up ankle brace or a posterior shell Ankle Foot Orthosis. These offer significantly more control and support than the foot orthoses. In severe cases surgery may be required to repair the tibialis posterior tendon and realign the foot and ankle, or fuse the subtalar joint. It is important to note there are many risks involved in having surgery and these must be considered prior to going ahead. Surgical Treatment If pain or foot damage is severe, your doctor may recommend surgery. Procedures may include the following. Fusing foot or ankle bones together (arthrodesis). Removing bones or bony growths also called spurs (excision). Cutting or changing the shape of the bone (osteotomy). Cleaning the tendons' protective coverings (synovectomy). Adding tendon from other parts of your body to tendons in your foot to help balance the "pull" of the tendons and form an arch (tendon transfer). Grafting bone to your foot to make the arch rise more naturally (lateral column lengthening). Prevention Drink plenty of water before, during and after your workout. Dehydration is a common cause of muscle cramps, according to MayoClinic.com. If your workouts are long and strenuous, drink a carbohydrate-based electrolyte beverage too. Warm up the muscles of your feet before you work out. A simple exercise is to write the letters of the alphabet with your toes. Perform the warm up with bare feet and exaggerate the movements to challenge your muscles. Wear properly fitted shoes. Visit a sporting goods store and get your feet and arches measured. Ask for help selecting a pair of shoes to fit your workout. For instance, if you play soccer, you need cleats, not running shoes. Take a break. Cramps can be your body's way of telling you you're exercising too much, according to MayoClinic.com. Rest for a few days, then resume exercise and see if you can complete a workout without arch cramps. Stretch. At the end of your workout, perform a few stretching exercises to keep your muscles from tightening and cramping. Sit down, lean over and grasp your toes. Pull the toes toward your body until you feel tension in the arch of your foot. Hold the stretch for 20 to 30 seconds, then repeat on the opposite side. Another easy way to stretch your arch is to put a towel on the floor, curl your toes around it and pull it toward your body. Stretching Exercises Flexibility is important in preventing injuries. With a simple stretching exercise, you can rehabilitate the muscles of your foot to relieve arch pain and prevent future injuries. This simple exercise by Tammy White and Phyllis Clapis for Relay Health is a good way to strengthen your foot muscles and stretch your plantar fascia. Sit in a chair and cross one foot over your other knee. Grab the base of your toes and pull them back toward your leg until you feel a comfortable stretch. Hold 15 seconds and repeat three times. When you can stand comfortably on your injured foot, you can begin standing to stretch the plantar fascia at the bottom of your foot. Overview
Achilles tendonitis (tendinitis), is a painful and often debilitating inflammation of the Achilles tendon than can progress into degeneration which we call Achilles Tendinosis. The Achilles tendon is the largest and strongest tendon in the body. It is located in the back of the lower leg, attaches to the heel bone (calcaneus), and connects the calf muscles to the heel bone. In most cases, Achilles tendonopathy's are overuse injuries are more common among athletes and people who train heavily, however it can also occur in people who are less active. Achilles Tendonitis can vary in severity from a mild pain in the tendon during a particular activity to more severe cases when any form of activity that puts strain on this ligament, even standing or walking, can cause pain. Causes Poorly conditioned athletes are at the highest risk for developing Achilles tendonitis, also sometimes called Achilles tendinitis. Participating in activities that involve sudden stops and starts and repetitive jumping (e.g., basketball, tennis, dancing) increases the risk for the condition. It often develops following sudden changes in activity level, training on poor surfaces, or wearing inappropriate footwear. Achilles tendonitis may be caused by a single incident of overstressing the tendon, or it may result from a series of stresses that produce small tears over time (overuse). Patients who develop arthritis in the heel have an increased risk for developing Achilles tendonitis. This occurs more often in people who middle aged and older. The condition also may develop in people who exercise infrequently and in those who are just beginning an exercise program, because inactive muscles and tendons have little flexibility because of inactivity. It is important for people who are just starting to exercise to stretch properly, start slowly, and increase gradually. In some cases, a congenital (i.e., present at birth) condition causes Achilles tendonitis. Typically, this is due to abnormal rotation of the foot and leg (pronation), which causes the arch of the foot to flatten and the leg to twist more than normal. Symptoms Pain in the back of the heel that can be a shooting pain, burning pain or even an intense piercing pain. Swelling, tenderness and warmth over the Achilles tendon especially at the insertion of the tendon to the calcaneous, which may even extend into the muscle of the calf. Difficulty walking, sometimes the pain makes walking impossible. Pain that is aggravated by activities that repeatedly stress the tendon, causing inflammation or pain that occurs in the first few steps of the morning or after sitting down for extended periods of time which gets better with mild activity. It is important to note though that achilles tendinosis can develop gradually without a history of trauma. Diagnosis The diagnosis is made via discussion with your doctor and physical examination. Typically, imaging studies are not needed to make the diagnosis. However, in some cases, an ultrasound is useful in looking for evidence of degenerative changes in the tendon and to rule out tendon rupture. An MRI can be used for similar purposes, as well. Your physician will determine whether or not further studies are necessary. Nonsurgical Treatment Massage therapy improves blood flow to the muscles and tissues of the affected area while increasing range of motion and can prevent recurring injury. The healing process can be quickened using ultrasound heat therapy to improve blood flow to the affected area. Wearing a night brace keeps the leg flexed, preventing stiffening of the tendon, which would impair healing. Stretching exercises increase flexibility and allow the tendon to heal without shortening, a deformity resulting in chronic pain. Persistent Achilles pain may warrant the use of a cast or walking boot to be worn for 4-6 weeks stabilizing the tendon so it can heal. After removal of the cast or boot, physical therapy will be ordered to increase functionality of the affected limb. To reduce chronic inflammation of the tendon, corticosteroid injections may be prescribed. It?s important to note that this corticosteroid treatment increases the risk of tendon rupture. Ultrasound imaging may be used by the physician administering the steroid injection, in order to help visualize the affected area. When all other therapies have failed to or tendon rupture occurs, surgical intervention and repair of the muscles and tendons is the last treatment option. Surgical Treatment Chronic Achilles tendon tears can be more complicated to repair. A tendon that has torn and retracted (pulled back) into the leg will scar in the shortened position over time. Restoring normal tendon length is usually not an issue when surgery is performed within a few weeks of the injury. However, when there has been a delay of months or longer, the treatment can be more complicated. Several procedures can be used to add length to a chronic Achilles tear. A turndown procedure uses tissue folded down from the top of the calf to add length to the Achilles tendon. Tendon transfers from other tendons of the ankle can also be performed to help restore function of the Achilles. The results of surgery in a chronic situation are seldom as good as an acute repair. However, in some patients, these procedures can help restore function of a chronically damaged Achilles. Prevention Stretching of the gastrocnemius (keep knee straight) and soleus (keep knee bent) muscles. Hold each stretch for 30 seconds, relax slowly. Repeat stretches 2 - 3 times per day. Remember to stretch well before running strengthening of foot and calf muscles (eg, heel raises) correct shoes, specifically motion-control shoes and orthotics to correct overpronation. Gradual progression of training programme. Avoid excessive hill training. Incorporate rest into training programme.
Overview
Achilles tendon rupture is an injury that affects the back of your lower leg. It most commonly occurs in people playing recreational sports. The Achilles tendon is a strong fibrous cord that connects the muscles in the back of your calf to your heel bone. If you overstretch your Achilles tendon, it can tear (rupture). The tendon can rupture completely or just partially. If you have an Achilles tendon rupture, you might feel a pop or snap, followed by an immediate sharp pain in the back of your ankle and lower leg that usually affects your ability to walk properly. Surgery is often the best treatment option to repair an Achilles tendon rupture. For many people, however, nonsurgical treatment works just as well. Causes As with any muscle or tendon in the body, the Achilles tendon can be torn if there is a high force or stress on it. This can happen with activities which involve a forceful push off with the foot, for example, in football, running, basketball, diving, and tennis. The push off movement uses a strong contraction of the calf muscles which can stress the Achilles tendon too much. The Achilles tendon can also be damaged by injuries such as falls, if the foot is suddenly forced into an upward-pointing position, this movement stretches the tendon. Another possible injury is a deep cut at the back of the ankle, which might go into the tendon. Sometimes the Achilles tendon is weak, making it more prone to rupture. Factors that weaken the Achilles tendon are as follows. Corticosteroid medication (such as prednisolone) - mainly if it is used as long-term treatment rather than a short course. Corticosteroid injection near the Achilles tendon. Certain rare medical conditions, such as Cushing's syndrome, where the body makes too much of its own corticosteroid hormones. Increasing age. Tendonitis (inflammation) of the Achilles tendon. Other medical conditions which can make the tendon more prone to rupture; for example, rheumatoid arthritis, gout and systemic lupus erythematosus (SLE), lupus. Certain antibiotic medicines may slightly increase the risk of having an Achilles tendon rupture. These are the quinolone antibiotics such as ciprofloxacin and ofloxacin. The risk of having an Achilles tendon rupture with these antibiotics is actually very low, and mainly applies if you are also taking corticosteroid medication or are over the age of about 60. Symptoms Symptoms include a sudden sharp pain in the achilles tendon which is often described as if being physically struck by an object or implement. A loud snapping noise or bang may also be heard at the time. A gap of 4 to 5 cm in the tendon can be felt which may be less obvious later as swelling increases. After a short while the athlete may be able to walk again but without the power to push off with the foot. There will be a significant loss of strength in the injured leg and the patient will be unable to stand on tip toes. There may be considerable swelling around the achilles tendon and a positive result for Thompson's test can help confirm the diagnosis. Diagnosis Your caregiver will ask what you were doing at the time of your injury. You may need any of the following. A calf-squeeze test is used to check for movement. You will lie on your stomach on a table or bed with your feet hanging over the edge. Your caregiver will squeeze the lower part of each calf. If your foot or ankle do not move, the tendon is torn. An x-ray will show swelling or any broken bones. An ultrasound uses sound waves to show pictures of your tendon on a monitor. An ultrasound may show a tear in the tendon. An MRI takes pictures of your tendon to show damage. You may be given dye to help the tendon show up better. Tell the caregiver if you have ever had an allergic reaction to contrast dye. Do not enter the MRI room with anything metal. Metal can cause serious injury. Tell the caregiver if you have any metal in or on your body. Non Surgical Treatment There are two treatment options available which are non-operative and operative. Non-operative treatment involves the use initially of a below-knee plaster with the foot held fully bent downwards. This usually stays in place for 2 weeks then is changed for a brace(this is a boot from the knee down to the toes with Velcro straps) which should be worn day and night. The brace will be regularly altered to allow the foot to come up to a more neutral position. The brace will be on for a further 6 weeks. After the 8 weeks you will be referred for physiotherapy to regain movement and calf strength but will probably need to wear the brace during the day for a further 4 weeks. Non-operative treatment avoids the risks of surgery but the risk of the tendon re-rupturing, which normally occurs within 3 months of discarding the brace, is 10%. Surgical Treatment Surgery to repair an Achilles tendon rupture is performed under a spinal or general anaesthetic. During surgery the surgeon makes an incision in the skin over the ruptured portion of the tendon. The tendon ends are located and joined together with strong sutures (stitches), allowing the tendon to closely approximate its previous length. The skin is then closed with sutures and the foot is immobilised in a cast or splint, again in the toes-pointed position. Seven to ten days after surgery the cast or splint is removed in order for the sutures in the skin to be removed. Another cast or splint will be applied and will stay in place a further 5 - 7 weeks. Prevention To help prevent an Achilles tendon injury, it is a good practice to perform stretching and warm-up exercises before any participating in any activities. Gradually increase the intensity and length of time of activity. Muscle conditioning may help to strengthen the muscles in the body. |
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