Overview
During a growth spurt, your child?s heel bone grows faster than the muscles, tendons, and ligaments in her leg. In fact, the heel is one of your child?s first body parts to reach full adult size. When the muscles and tendons can?t grow fast enough to keep up, they are stretched too tight. If your child is very active, especially if she plays a sport that involves a lot of running and jumping on hard surfaces (such as soccer, basketball, or gymnastics), it can put extra strain on her already overstretched tendons. This leads to swelling and pain at the point where the tendons attach to the growing part of her heel. Causes 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. Symptoms Unilateral or bilateral heel pain. Heel pain during physical exercise, especially activities that require running or jumping or are high impact. Pain is often worse 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 A doctor can usually tell that a child has Sever's disease based on the symptoms reported. To confirm the diagnosis, the doctor will probably examine the heels and ask about the child's activity level and participation in sports. The doctor might also use the squeeze test, squeezing the back part of the heel from both sides at the same time to see if doing so causes pain. The doctor might also ask the child to stand on tiptoes to see if that position causes pain. Although imaging tests such as X-rays generally are not that helpful in diagnosing Sever's disease, some doctors order them to rule out other problems, such as fractures. Sever's disease cannot be seen on an X-ray. Non Surgical Treatment Treatment depends on the severity of the condition, but may include relative rest and modified activity, a physiotherapist can help work out what, and how much, activity to undertake. Cold packs, apply ice or cold packs to the back of the heels for around 15 minutes after any physical activity, including walking. Shoe inserts, small heel inserts worn inside the shoes can take some of the traction pressure off the Achilles tendons. This will only be required in the short term. Medication, pain-relieving medication may help in extreme cases, but should always be combined with other treatment and following consultation with your doctor). Anti-inflammatory creams are also an effective management tool. Splinting or casting, in severe cases, it may be necessary to immobilise the lower leg using a splint or cast, but this is rare. Time, generally the pain will ease in one to two weeks, although there may be flare-ups from time to time. Correction of any biomechanical issues, a physiotherapist can identify and discuss any biomechanical issues that may cause or worsen the condition. Education on how to self-manage the symptoms and flare-ups of Sever?s disease is an essential part of the treatment. 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 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. Causes There are many different factors that can cause arch pain. A structural imbalance or an injury to the foot can often be the direct cause. However, most frequently the cause is a common condition called plantar fasciitis. The plantar fascia is a broad band of fibrous tissue located along the bottom surface of the foot that runs from the heel to the forefoot. Excessive stretching of the plantar fascia, usually due to over-pronation (flat feet), causes plantar fasciitis. The inflammation caused by the plantar fascia being stretched away from the heel often leads to pain in the heel and arch areas. The pain is often extreme in the morning when an individual first gets out of bed or after a prolonged period of rest. If this condition is left untreated and strain on the longitudinal arch continues, a bony protrusion may develop, known as a heel spur. It is important to treat the condition promptly before it worsens. Symptoms 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. Diagnosis Diagnosis of a plantar plate tear can often be challenging due to the complex nature of the anatomy of the foot. Careful history taking and an examination of the area of pain is required to determine the extent and cause of the tear. If necessary, further investigations such as x-rays or diagnostic ultrasound may be ordered by your podiatrist to help evaluate the severity of the problem. Non Surgical Treatment If you have arch pain, you need proper arch support. You can get arch support by purchasing custom shoe inserts that are made to support your feet. If you have flat feet or high arches, you can certainly benefit from arch support inserts. Take a look at your wet footprint; if you notice that your footprint is completely filled in, then you have flat feet. On the other hand, if there is a large crescent shape missing from your footprint, then you have high arches. Both of these conditions require proper support from a shoe insert. Foot Solutions You can also take care of your feet by avoiding high heels and flip-flops. If you must wear high heels, choose a heel that is two inches or less, and try to wear them only for short periods of time. Flip-flops provide very little support, so wear them only if you won?t be doing very much walking. Surgical Treatment Fallen arches may occur with deformities of the foot bones. Tarsal coalition is a congenital condition in which the bones of the foot do not separate from one another during development in the womb. A child with tarsal coalition exhibits a rigid flat foot, which can be painful, notes the patient information website eOrthopod. Surgery may prove necessary to separate the bones. Other foot and ankle conditions that cause fallen arches may also require surgery if noninvasive treatments fail to alleviate pain and restore normal function. Prevention Early in the treatment of arch pain, consideration needs to be given to the cause and strategies put in place to prevent it happening again. Advice should be sought on the adequacy of footwear. Stretching exercises should be continued long after the symptoms are gone. Foot orthoses should be used if structural imbalances are present. Activity levels and types of activities (occupational and sporting) need to be considered and modified accordingly. Overview
Achilles tendinitis is an overuse injury of the Achilles (uh-KIL-eez) tendon, the band of tissue that connects calf muscles at the back of the lower leg to your heel bone. Under too much stress, the tendon tightens and is forced to work too hard. This causes it to become inflamed (that?s Achilles tendinitis), and, over time, can produce a covering of scar tissue, which is less flexible than the tendon. If the inflamed Achilles continues to be stressed, it can tear or rupture. Achilles tendinitis most commonly occurs in runners who have suddenly increased the intensity or duration of their runs. It?s also common in middle-aged people who play sports, such as tennis or basketball, only on the weekends. Most cases of Achilles tendinitis can be treated with relatively simple, at-home care under your doctor?s supervision. Self-care strategies are usually necessary to prevent recurring episodes. More-serious cases of Achilles tendinitis can lead to tendon tears (ruptures) that may require surgical repair. Causes Achilles tendonitis is an overuse injury that is common especially to joggers and jumpers, due to the repetitive action and so may occur in other activities that requires the same repetitive action. Most tendon injuries are the result of gradual wear and tear to the tendon from overuse or ageing. Anyone can have a tendon injury, but people who make the same motions over and over in their jobs, sports, or daily activities are more likely to damage a tendon. A tendon injury can happen suddenly or little by little. You are more likely to have a sudden injury if the tendon has been weakened over time. Common causes of Achilles tendonitis include, over-training or unaccustomed use,?too much too soon?. Sudden change in training surface e.g. grass to bitumen. Flat (over-pronated) feet, High foot arch with tight Achilles tendon. tight hamstring (back of thigh) and calf muscles, toe walking (or constantly wearing high heels). Poorly supportive footwear, hill running. Poor eccentric strength. Symptoms If you have Achilles tendinitis or Achilles enthesopathy, you are likely to experience the following symptoms. Pain. You may notice aching, burning, or tearing pains at the back of your heel or above the ankle. The pain can range from mild to very severe and disabling. It is most noticeable in the following circumstances. After resting. Many people report that pain increases when they first get out of bed in the morning or after sitting for a period of time. After exercise. Pain may increase if you exercise or stand for a period of time. A lump. In some cases, a tender lump can develop at the site of the injured tendon (tendinosis). Bone spurs. When the injury occurs at the point where the tendon attaches to the foot, a bone spur may develop on the heel. Diagnosis Laboratory studies usually are not necessary in evaluating and diagnosing an Achilles tendon rupture or injury, although evaluation may help to rule out some of the other possibilities in the differential diagnosis. Imaging studies. Plain radiography: Radiographs are more useful for ruling out other injuries than for ruling in Achilles tendon ruptures. Ultrasonography: Ultrasonography of the leg and thigh can help to evaluate the possibility of deep venous thrombosis and also can be used to rule out a Baker cyst; in experienced hands, ultrasonography can identify a ruptured Achilles tendon or the signs of tendinosis. Magnetic resonance imaging (MRI): MRI can facilitate definitive diagnosis of a disrupted tendon and can be used to distinguish between paratenonitis, tendinosis, and bursitis. Nonsurgical Treatment Most cases of Achilles tendonitis can be treated at home. Here's what to do. Stop doing the activity that led to the injury. Avoid putting stress on your legs and feet, and give your tendon plenty of time to fully recover. Use the RICE formula. Don't exercise for a few days, or try an exercise that doesn't stress your feet, such as swimming. If necessary, your doctor may recommend that you use crutches or wear a walking boot to keep weight off your foot. Apply an ice pack wrapped in a towel or a cold compress to your tendon for 15 minutes or more after you exercise or if you feel pain in the tendon. Use tape or an athletic wrap to keep swelling down and help support and immobilize the tendon. Lie down and raise your foot above the level of your heart, and if possible, try to sleep with your foot elevated. This will help keep the swelling to a minimum. Take anti-inflammatory medications. Pain relievers like ibuprofen can help ease pain and reduce swelling in the affected area. Stretch and exercise your ankles and calf muscles while you recover. Keeping your muscles, tendons, and ligaments strong and flexible will aid in your recovery and help you keep from reinjuring your Achilles tendon. A doctor or a physical therapist can help you come up with a good exercise program. Try a pair of prescription orthotic inserts for your shoes if your doctor thinks it will help. Sometimes orthotics can be helpful. Talk to your doctor or someone trained in fitting orthotics to find out if they might work for you. Achilles tendon surgery is rarely needed. It's usually only done if the tendon breaks, and then only as a last resort after other methods of therapy have been tried. Most cases of Achilles tendonitis will get better on their own with rest and minor treatment. Surgical Treatment Mini-Open Achilles Tendon Repair. During a mini-open Achilles tendon repair surgery, 2 to 8 small stab incisions are made to pull the edges of the tendon tear together and suture the torn edges to repair the damage. During this procedure the surgeon will make one 3 to 4 cm long incision on the back of your ankle and 2 to 4 smaller vertical incisions around the long incision. These smaller veritical incisions are made with a pair of surgical scissors and are commonly referred to as "stab incisions". Once the incisions are opened up, the surgeon will place precise sutures with non-absorbable stitches to strengthen the damaged Achilles tendon tissue. This suturing technique reduces the amount of scar tissue on the tendon after surgery and provides better surface healing of the skin. Unlike the traditional method of an open surgery, this procedure has less risks and complications involved. To learn about all risks you may face be sure to speak to your doctor. Prevention There are several things you can do to reduce the risk of Achilles tendinitis, warm up every time before you exercise or play a sport. Switch up your exercises. Slowly increase the length and intensity of your workouts. Keep your muscles active and stay in shape all year-round. When you see symptoms of Achilles tendinitis, stop whatever activity you are doing and rest.
Overview
The Achilles tendon is the largest tendon in the body. It connects your calf muscles to your heel bone and is used when you walk, run, and jump. Although the Achilles tendon can withstand great stresses from running and jumping, it is vulnerable to injury. A rupture of the tendon is a tearing and separation of the tendon fibers so that the tendon can no longer perform its normal function. Causes Ruptured Achilles tendons may result from falling from a height or down a hole. Increasing training intensity abruptly, boosting distance, frequency or duration by more than 10% a week. Failing to stretch before and after exercise. Repetitive training, especially uphill running. Deyhydration, which causes cramping and tightness in the calves. Taking antibiotics. Improper footwear. Explosive movements in competitive sports like basketball, soccer or track & field. Symptoms The most common symptom of Achilles tendonitis is a sudden surge of pain in the heel and back of the ankle at the point of injury which is often described as a snapping sensation in the heel. After the injury has occurred, patients then struggle or find it near impossible to bear any weight on the affected leg. Pain can often be most prominent first thing in the morning after the injury has been rested. Swelling and tenderness is also likely to appear in the area. Diagnosis Laboratory studies usually are not necessary in evaluating and diagnosing an Achilles tendon rupture or injury, although evaluation may help to rule out some of the other possibilities in the differential diagnosis. Plain radiography. Radiographs are more useful for ruling out other injuries than for ruling in Achilles tendon ruptures. Ultrasonography of the leg and thigh can help to evaluate the possibility of deep venous thrombosis and also can be used to rule out a Baker cyst, in experienced hands, ultrasonography can identify a ruptured Achilles tendon or the signs of tendinosis. Magnetic resonance imaging (MRI). MRI can facilitate definitive diagnosis of a disrupted tendon and can be used to distinguish between paratenonitis, tendinosis, and bursitis. Non Surgical Treatment You may need to wear a plaster cast, brace or boot on your lower leg for six to eight weeks to help the tendon heal. During this time, your doctor will change the cast a number of times to make sure your tendon heals in the right way. If your tendon is partially ruptured, your doctor will probably advise you to have this treatment instead of surgery. Its also suitable for people who aren't very physically active. However, there is a greater risk that your tendon will rupture again, compared with surgery. Your doctor will advise you which treatment is best for you. Surgical Treatment Unlike other diseases of the Achilles tendon such as tendonitis or bursitis, Achilles tendon rupture is usually treated with surgical repair. The surgery consists of making a small incision in the back part of the leg, and using sutures to re-attach the two ends of the ruptured tendon. Depending on the condition of the ends of the ruptured tendon and the amount of separation, the surgeon may use other tendons to reinforce the repair. After the surgery, the leg will be immobilized for 6-8 weeks in a walking boot, cast, brace, or splint. Following this time period, patients work with a physical therapist to gradually regain their range of motion and strength. Return to full activity can take quite a long time, usually between 6 months and 1 year. |
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