Overview
When sitting, an over-pronating foot appears quite normal, i.e. showing a normal arch with room under the underside of the foot. The moment you get up and put weight on your feet the situation changes: the arches lower and the ankle slightly turns inwards. When you walk or run more weight is placed on the feet compared to standing and over-pronation will become more evident. When walking barefoot on tiles or timber floors over-pronation is more visible, compared to walking on carpet or grass. Causes Just as there are many different causes of flat feet, there are also many different treatment options. The most important aspect of treatment is determining the exact type or underlying cause of flat feet that you have. Foot and ankle specialists can determine this through thorough clinical examination and special imaging studies (e.g., x-rays, computed tomography, and/or magnetic resonance imaging). Conservative treatment is effective in the vast majority of flat foot cases, and consists of things such as insoles, splints, manipulation, or casting. Surgery is required much less frequently, and is reserved only for some of the severe types of flat foot that do not respond to conservative therapy. You may have noticed that one common element in the conservative treatment of all types of flat feet is orthoses. Many companies now manufacture semi-custom orthotic devices that not only improve comfort, but also seek to control abnormal motion of the foot. These over-the-counter inserts, in the $25 to $50 range, are an economical treatment that may help a majority of people. Unfortunately, these semi-custom devices will not fit everyone perfectly, and those of us who differ too much from the average may respond better to custom orthotic devices. Custom inserts are prescribed by your foot and ankle specialist and are made individually from either a physical or computerized impression of your feet. The only drawback of custom orthoses is their cost, ranging anywhere from $300 to $500. Many physicians recommend trying over-the-counter inserts first (and even keep them in stock) as they may save their patients large sums of money. Symptoms Pain and stiffness of the medial arch or anywhere along the mid-portion of the foot. Associated discomfort within and near the ankle joint. The knees, hips, and lower back may be the primary source of discomfort. Feet may often feel tired and achy. Painful shin splints may develop with activity. Gait may be awkward. Diagnosis Podiatrists are trained in expertly assessing flat feet and identifying different risk factors and the causes for it. Initial assessment will begin with a detailed history attempting to find out if any underlying illness has resulted in this. A detailed clinical examination normally follows. The patient may be asked to perform certain movements such as walking or standing on their toes to assess the function of the foot. Footwear will also be analysed to see if there has been excessive wear or if they are contributing to the pronation of the foot. To assess the structure of the foot further, the podiatrist may perform certain x-rays to get a detailed idea of the way the bones are arranged and how the muscle tissues may be affecting them. It also helps assess any potential birth defects in a bit more detail. deelsonheels Non Surgical Treatment What we want to do is support the arch and maintain it in that curved position. So what you want is to bring the foot into a position where you hold and support the arch so you can get that correct heel-midfoot-big toe contact. You would achieve that with a level of arch support. People will take different levels of support, if you?re somebody who has movement in your arch, a strong level of support will hold and maintain you whereas if you?re someone whose arch has collapsed it could need more support and a level of correction built into the support to realign you. If you think of it, when your arch drops, it affects your foot but it also has a biomechanical effect on the rest of the body. But nothing that can?t be solved. Surgical Treatment Surgery is typically offered as a last resort in people with significant pain that is resistant to other therapies. The treatment of a rigid flatfoot depends on its cause. Congenital vertical talus. Your doctor may suggest a trial of serial casting. The foot is placed in a cast and the cast is changed frequently to reposition the foot gradually. However, this generally has a low success rate. Most people ultimately need surgery to correct the problem. Tarsal coalition. Treatment depends on your age, extent of bone fusion and severity of symptoms. For milder cases, your doctor may recommend nonsurgical treatment with shoe inserts, wrapping of the foot with supportive straps or temporarily immobilizing the foot in a cast. For more severe cases, surgery is necessary to relieve pain and improve the flexibility of the foot. Lateral subtalar dislocation. The goal is to move the dislocated bone back into place as soon as possible. If there is no open wound, the doctor may push the bone back into proper alignment without making an incision. Anesthesia is usually given before this treatment. Once this is accomplished, a short leg cast must be worn for about four weeks to help stabilize the joint permanently. About 15% to 20% of people with lateral subtalar dislocation must be treated with surgery to reposition the dislocated bone. After Care Time off work depends on the type of work as well as the surgical procedures performed. . A patient will be required to be non-weight bearing in a cast or splint and use crutches for four to twelve weeks. Usually a patient can return to work in one to two weeks if they are able to work while seated. If a person's job requires standing and walking, return to work may take several weeks. Complete recovery may take six months to a full year. Complications can occur as with all surgeries, but are minimized by strictly following your surgeon's post-operative instructions. The main complications include infection, bone that is slow to heal or does not heal, progression or reoccurrence of deformity, a stiff foot, and the need for further surgery. Many of the above complications can be avoided by only putting weight on the operative foot when allowed by your surgeon. Overview
Small or mild length leg discrepancies (LLD), i.e., below 3.0 cm, have been considered as enough to cause orthopaedic changes such as lumbar pain, stress fractures and osteoarthritis on lower limbs (LLLL) joints. In addition to the classification by its magnitude, discrepancies can also be categorized according to etiology, being structural when a difference is noted between bone structures' length or functional as a result of mechanical changes on the lower limb, and are found in 65% - 70% of the healthy population. Causes Leg length discrepancies can be caused by poor alignment of the pelvis or simply because one leg is structurally longer than the other. Regardless of the reason, your body wants to be symmetrical and will do its best to compensate for the length difference. The greater the leg length difference, the earlier the symptoms will present themselves to the patient. Specific diagnoses that coincide with leg length discrepancy include: scoliosis, lumbar herniated discs, sacroiliitis, pelvic obiliquity, greater trochanteric bursitis, hip arthritis, piriformis syndrome, patellofemoral syndrome and foot pronation. Other potential causes could be due to an injury (such as a fracture), bone disease, bone tumors, congenital problems (present at birth) or from a neuromuscular problem. Symptoms In addition to the distinctive walk of a person with leg length discrepancy, over time, other deformities may be noted, which help compensate for the condition. Toe walking on the short side to decrease the swaying during gait. The foot will supinate (high arch) on the shorter side. The foot will pronate (flattening of the arch) on the longer side. Excessive pronation leads to hypermobility and instability, resulting in metatarsus primus varus and associated unilateral juvenile hallux valgus (bunion) deformity. Diagnosis A doctor will generally take a detailed medical history of both the patient and family, including asking about recent injuries or illnesses. He or she will carefully examine the patient, observing how he or she moves and stands. If necessary, an orthopedic surgeon will order X-ray, bone age determinations and computed tomography (CT) scans or magnetic resonance imaging (MRI). Non Surgical Treatment Whether or not treatment should be pursued depends on the amount of discrepancy. In general, no treatment (other than a heel life, if desired) should be considered for discrepancies under two centimeters. If the discrepancy measures between two and five centimeters, one might consider a procedure to equalize leg length. Usually, this would involve closure of the growth plate on the long side, thereby allowing the short side to catch up; shortening the long leg; or possibly lengthening the short leg. leg length discrepancy treatment adults Surgical Treatment Shortening techniques can be used after skeletal maturity to achieve leg length equality. Shortening can be done in the proximal femur using a blade plate or hip screw, in the mid-diaphysis of the femur using a closed intramedullary (IM) technique, or in the tibia. Shortening is an accurate technique and involves a much shorter convalescence than lengthening techniques. Quadriceps weakness may occur with femoral shortenings, especially if a mid-diaphyseal shortening of greater than 10% is done. If the femoral shortening is done proximally, no significant weakness should result. Tibial shortening can be done, but there may be a residual bulkiness to the leg, and risks of nonunion and compartment syndrome are higher. If a tibial shortening is done, shortening over an IM nail and prophylactic compartment release are recommended. We limit the use of shortenings to 4 to 5 cm leg length inequality in patients who are skeletally mature. Overview
Heel pain is generally the result of faulty biomechanics (walking gait abnormalities) that place too much stress on the heel bone and the soft tissues that attach to it. The stress may also result from injury, or a bruise incurred while walking, running, or jumping on hard surfaces; wearing poorly constructed footwear; or being overweight. The heel bone is the largest of the 26 bones in the human foot, which also has 33 joints and a network of more than 100 tendons, muscles, and ligaments. Like all bones, it is subject to outside influences that can affect its integrity and its ability to keep us on our feet. Heel pain, sometimes disabling, can occur in the front, back, or bottom of the heel. Causes The plantar fascia spans the long arch of the foot from the heel to the base of the toes, where it blends with the soft tissues, then anchoring to the base of the toes. Plantar Fascia. The plantar fascia is a common cause of heel pain. As the bony attachment at the heel is considered the plantar fascia?s ?weak spot?, the patient will present with pain at the heel, mainly on the inside. The most common predisposing factor to this condition is the pronating (flattening feet) - 52% - whilst there is also some evidence that a very high arch, in a rigid foot (pes cavus), also was reasonably common - 42%. Symptoms The primary symptom is pain in the heel area that varies in severity and location. The pain is commonly intense when getting out of bed or a chair. The pain often lessens when walking. Diagnosis A podiatrist (doctor who specializes in the evaluation and treatment of foot diseases) will carry out a physical examination, and ask pertinent questions about the pain. The doctor will also ask the patient how much walking and standing the patient does, what type of footwear is worn, and details of the his/her medical history. Often this is enough to make a diagnosis. Sometimes further diagnostic tests are needed, such as blood tests and imaging scans. Non Surgical Treatment Depending on the underlying cause, treatment can include. Rest from activities that stress the heel (such as running and jumping). Ice packs. Regular foot massage, concentrating on the arch of the foot. Professional strapping. A splint worn at night. Flexibility exercises. Ultrasound therapy. Anti-inflammatory medicine (topical or oral). Checking your posture and walking style, to correct imbalances and gait abnormalities that may contribute to the pain. Shoe inserts (orthoses) to help support the foot. In some cases, surgery may be recommended to treat conditions including neuroma, bursitis and heel spurs. Surgical Treatment At most 95% of heel pain can be treated without surgery. A very low percentage of people really need to have surgery on the heel. It is a biomechanical problem and it?s very imperative that you not only get evaluated, but receive care immediately. Having heel pain is like having a problem with your eyes; as you would get glasses to correct your eyes, you should look into orthotics to correct your foot. Orthotics are sort of like glasses for the feet. They correct and realign the foot to put them into neutral or normal position to really prevent heel pain, and many other foot issues. Whether it be bunions, hammertoes, neuromas, or even ankle instability, a custom orthotic is something worth considering. deelsonheels Prevention Being overweight can place excess pressure and strain on your feet, particularly on your heels. Losing weight, and maintaining a healthy weight by combining regular exercise with a healthy, balanced diet, can be beneficial for your feet. Wearing appropriate footwear is also important. Ideally, you should wear shoes with a low to moderate heel that supports and cushions your arches and heels. Avoid wearing shoes with no heels. Overview
A neuroma is an often painful enlargement of one of your body?s nerves. Morton?s neuroma is the name used to describe nerve enlargement in your foot, particularly enlargement of one of the nerves traveling to your toes in your forefoot. Morton?s neuromas most commonly develop in one of your intermetatarsal nerves, one of many nerve branches within your foot that originated in your spine. Morton?s neuroma is more likely to affect women than men. Causes Experts are not sure what exactly causes Morton's neuroma. It seems to develop as a result of irritation, pressure or injury to one of the digital nerves that lead to the toes, which triggers a body response, resulting in thickened nerve tissue (neuroma). Feet conditions/situations that can cause the bones to rub against a nerve include high-heeled shoes, especially those over 2 inches (5cm), or a pointed or tight toe box which squash the toes together. This is probably why the condition is much more common in females than in males. High-arched foot, people whose feet have high arches are much more likely to suffer from Morton's neuroma than others. Flat feet, the arch of the foot collapses. The entire sole of the foot comes into complete or near-complete contact with the ground. A bunion, a localized painful swelling at the base of the big toe, which enlarges the joint. Hammer toe, a deformity of the proximal interphalangeal joint of the second, third, or fourth toe causing it to be permanently bent. Some high-impact sporting activities including running, karate, and court sports. Any sport that places undue pressure on the feet. Injuries, an injury or other type of trauma to the foot may lead to a neuroma. Symptoms While the condition may at first only appear during heavy repetitive stress or when wearing particular shoes which aggravate the foot, the Neuroma can become increasingly inflamed and produce more constant discomfort, lasting days or weeks. Runners may experience pain pushing off from starting blocks. Tight or narrow shoes as well as high heels likewise aggravate the Neuroma. A checklist of symptoms includes burning pain, occasionally numbness in the ball of the foot. Radiating pain from the ball of the foot to the toes. Intensifying pain during activity and when wearing shoes. Occasional numbness, discomfort, tingling or ?electrical shock sensation? in the toes. Pain between the third and fourth toes, often occurring from the outer side of one toe to the inner side of the adjoining toe. Pain upon leaving the starting blocks in running sports. Diagnosis Patients with classic Morton?s neuroma symptoms will have pain with pressure at the base of the involved toes (either between the 2nd and 3rd toes, or between the 3rd and 4th toes). In addition, squeezing the front of the foot together can exacerbate symptoms. As well, they may have numbness on the sides of one toe and the adjacent toe as this corresponds with the distribution of the involved nerve. Non Surgical Treatment Nonsurgical treatment is tried first. Your doctor may recommend any of the following. Padding and taping the toe area, shoe inserts, changes to footwear, for example wearing shoes with wider toe boxes or flat heels, Anti-inflammatory medicines taken by mouth or injected into the toe area, nerve blocking medicines injected into the toe area, other painkillers, physical therapy. Anti-inflammatories and painkillers are not recommended for long-term treatment. In some cases, surgery is needed to remove the thickened tissue and inflammed nerve. This helps relieve pain and improve foot function. Numbness after surgery is permanent. Surgical Treatment Patients are commonly offered surgery known as neurectomy, which involves removing the affected piece of nerve tissue. Postoperative scar tissue formation (known as stump neuroma) can occur in approximately 20%-30% of cases, causing a return of neuroma symptoms. Neurectomy can be performed using one of two general methods. Making the incision from the dorsal side (the top of the foot) is the more common method but requires cutting the deep transverse metatarsal ligament that connects the 3rd and 4th metatarsals in order to access the nerve beneath it. This results in exaggerated postoperative splaying of the 3rd and 4th digits (toes) due to the loss of the supporting ligamentous structure. This has aesthetic concerns for some patients and possible though unquantified long-term implications for foot structure and health. Alternatively, making the incision from the ventral side (the sole of the foot) allows more direct access to the affected nerve without cutting other structures. However, this approach requires a greater post-operative recovery time where the patient must avoid weight bearing on the affected foot because the ventral aspect of the foot is more highly enervated and impacted by pressure when standing. It also has an increased risk that scar tissue will form in a location that causes ongoing pain.
Overview
A bunion is a firm, painful bump that forms over a bony bulge at the base of the big toe. In most cases, the big toe joint also is enlarged and has degenerative arthritis. The toe also may be pushed toward the second toe (hallux valgus). Bunions tend to be inherited, but they also are common in the following groups. Women who wear high heels. People who wear shoes that are too narrow or too pointed. People with flatfeet. All of these situations force the big toe to drift toward the little toes, and this can cause bunions to form. Causes The most common cause of bunions is poor footwear. Poorly fitted shoes, high heeled shoes or shoes with a narrow toe area can all cause bunions or make bunions worse. Bunions can be hereditary and they can be associated with poor foot biomechanics such as overpronation or flat feet. Rheumatoid arthritis or some diseases of the nervous system can also cause bunions. Symptoms Patients with bunions will often display pain over the prominent bump on the inside of their forefoot (the medial eminence?). However, they may also have pain under the ball of the foot (under the area near the base of the second toe). Symptoms can vary in severity from none at all to severe discomfort aggravated by standing and walking. There is no direct correlation between the size of the bunion and the patient?s symptoms. Some patients with severe bunion deformities have minimal symptoms, while patients with mild bunion deformities may have significant symptoms. Symptoms are often exacerbated by restrictive shoe wear, particularly shoes with a narrow toe box or an uncomfortable, stiff, restraining upper. Diagnosis Physical examination typically reveals a prominence on the inside (medial) aspect of the forefoot. This represents the bony prominence associated with the great toe joint ( the medial aspect of the first metatarsal head). The great toe is deviated to the outside (laterally) and often rotated slightly. This produces uncovering of the joint at the base of the big toe (first metatarsophalangeal joint subluxation). In mild and moderate bunions, this joint may be repositioned back to a neutral position (reduced) on physical examination. With increased deformity or arthritic changes in the first MTP joint, this joint cannot be fully reduced. Patients may also have a callus at the base of their second toe under their second metatarsal head in the sole of the forefoot. Bunions are often associated with a long second toe. Non Surgical Treatment There is no way to eliminate existing bunions except to have them surgically removed. There are nonsurgical measures you can take to alleviate the pain and prevent your bunions from increasing in severity, and for that reason it's important to see your doctor before they become a serious problem. The more extensive your bunions are, the less effective nonsurgical treatments are. On the other hand, most bunions can be dealt with without surgery through wearing roomier, low-heel shoes, padding and taping your feet, using medications for pain control, going to physical therapy to relieve inflammation and wearing orthotics in your shoes to correct mechanical problems. Bunions that are not causing pain generally aren't appropriate for surgery. Roomier shoes. You should seek out shoes that conform to the shape of your feet as much as possible and provide plenty of room in the toe box, ensuring that your toes are not pinched or squeezed. You should make sure that, while standing, there is a half inch of space for your longest toe at the end of each shoe. Make sure the ball of your foot fits comfortably in the widest part of the shoe. Feet normally swell during the course of the day, so shop for shoes at the end of the day, when your feet are at their largest. Don't be vain about your shoe size, sizes vary by brand, so concentrate on making certain your shoes are comfortable. Remember that your two feet are very likely to be different sizes and fit your shoe size to the larger foot. Low-heel shoes. High heels shift all your body weight onto your toes, increasing the pressure on your toes and their joints tremendously. Instead, wear shoes with low (less than two inches) or flat heels that fit your foot comfortably. Padding and Taping. Padding the bunion can minimize pain and allow you to walk more normally. Specially designed pads for this are available at most drugstores. Taping your foot can reduce stress and pain in it by helping it stay in a more normal position. Medication. Anti-inflammatory drugs such as aspirin and ibuprofen can help deal with pain and inflammation caused by your bunion. Cortisone injections may be prescribed for the same purpose. If your bunion is a consequence of arthritis in the MTP joint, your physician may prescribe medications for that. Physical Therapy. Ultrasound treatments and whirlpool baths can help reduce pain and inflammation in bunions and related tissues. Orthotics are shoe inserts that can help correct mechanical foot-motion problems to reduce pain and prevent worsening of your bunion. Other measures. Icing and elevating your foot when your bunion is painful may help. Having your shoes stretched at a shoe repair shop may help also. Surgical Treatment If non-surgical treatments fail to relieve bunion pain and when the pain of a bunion interferes with daily activities, it?s time to discuss surgical options with a foot and ankle surgeon. Together you can decide if surgery is best for you. A variety of surgical procedures is available to treat bunions. The procedures are designed to remove the ?bump? of bone, correct the changes in the bony structure of the foot, and correct soft tissue changes that may also have occurred. The goal of surgery is the reduction of pain. In selecting the procedure or combination of procedures for your particular case, the foot and ankle surgeon will take into consideration the extent of your deformity based on the x-ray findings, your age, your activity level, and other factors. The length of the recovery period will vary, depending on the procedure or procedures performed. Overview
Pronation or eversion is the inward roll of the foot while walking or running. Another way to look at pronation instead in terms of the degree of inward roll is in terms of where the foot pushes off at the end of each step, or at the end of the gait cycle. There are three main types of pronation in human gait: neutral pronation, overpronation, and underpronation or supination. While both overpronation and supination occur while walking and standing, they are usually more pronounced and the effects amplified while running. Those who overpronate tend to push off almost completely from the big toe and second toe. As a result, the shock from the foot?s impact doesn?t spread evenly throughout the foot and the ankle has trouble stabilizing the rest of the body. Additionally, an unnatural angle forms between the foot and ankle and the foot splays out abnormally. It is common even for people who pronate normally to have some angle between the foot and the ankle, but not to the extent seen in those who overpronate. In normal pronation the weight distributes evenly throughout the foot. Causes For those not familiar with the term pronation, you might be familiar with terms related to shoes and pronation such as ?motion control?, ?stability,? and ?neutral cushioned.? The terms motion control and stability are typically associated with the word ?over-pronation? or a foot that is supposedly pronating too much and needs correction. According to the running shoe industry, ?over-pronation? is a biomechanical affliction evident when the foot and or ankle rolls inward past the vertical line created by your leg when standing. Symptoms Symptoms can manifest in many different ways. Here is a list of some of the common conditions associated with over-pronation in children. Achilles Pain. Ankle pain. Arch Pain. Low back pain. Heel Pain. Knee Pain (Runner's knee and Chondromalecia of the patella) Osgood Schlatter Disease (pain below the knee) Shin Splints (pain in the front of the lower leg) Over-pronation does not necessarily mean your child has "flat feet." Even though children's arches may be relatively high when they lie down or sit, over-pronation may not be seen until your child is standing. A certain amount of pronation is normal. During normal walking or running ("gait cycle"), the heel strikes the ground and the foot rolls inward to absorb shock and adapt to the surface. This gait cycle is even more important if the running surface is uneven. Diagnosis People who overpronate have flat feet or collapsed arches. You can tell whether you overpronate by wetting your feet and standing on a dry, flat surface. If your footprint looks complete, you probably overpronate. Another way to determine whether you have this condition is to simply look at your feet when you stand. If there is no arch on the innermost part of your sole, and it touches the floor, you likely overpronate. The only way to truly know for sure, however, is to be properly diagnosed by a foot and ankle specialist. Non Surgical Treatment Anti-Pronation Insoles provide a unique foot support system that aligns the lower body. The major cause of foot and leg pain is over pronation (rolling over of the feet) which causes excessive pressure on the muscles, ligaments and bones of the lower body. Running insoles treat the underlying cause of over pronation and prevent future occurrences of the associated foot or leg condition. A project conducted at the NIKE Sport Research Laboratory studied the effects of orthotics on rear foot movement in running. Nine well-trained runners who wore orthotics were chosen as subjects. The results of the study indicated that orthotics reduced rear foot movement by roughly one degree or approximately nine percent of the amount found in runners not using orthotics. The average reduction of the maximum velocity of pronation was fifteen percent. Thus this study indicates that orthotics and insoles control over pronation which will treat and prevent many sporting injuries. Surgical Treatment Subtalar Arthroereisis. The ankle and hindfoot bones/midfoot bones around the joint are fused, locking the bones in place and preventing all joint motion. This may also be done in combination with fusion at other joints. This is a very aggressive option usually reserved for extreme cases where no joint flexibility is present and/or the patient has severe arthritic changes in the joint. Overview
Sever?s disease is irritation of the growth plate in the heel. If rest is prescribed by your doctor, you should probably listen! But, there is usually an underlying cause of this irritation, and we need to address what?s causing it if we don?t want it to come back the first time an athlete jumps, runs, or kicks a ball. Causes Physically active children run the risk of developing Sever?s disease because they put the most strain on their growing bones. Sever?s usually occurs during the adolescent growth spurt, when young people grow most rapidly. (This growth spurt can begin any time between the ages of 8 and 13 for girls and 10 and 15 for boys.) By age 15 the back of the heel usually finished growing. As teens grow, the growth plates harden and the growing bones fuse together into mature bone. Young people engaged in physical activities and sports that involve jumping and running on hard surfaces-such as track, basketball, soccer, and gymnastics-are ata higher risk for developing Sever?s disease. Poor-fitting shoes can contribute by not providing enough support or padding for the feet or by rubbing against the back of the heel. Symptoms As a parent, you may notice your child limping while walking or running awkwardly. If you ask them to rise onto their tip toes, their heel pain usually increases. Heel pain can be felt in one or both heels in Sever's disease. Diagnosis The x-ray appearance usually shows the apophysis to be divided into multiple parts. Sometimes a series of small fragments is noted. Asymptomatic heels may also show x-ray findings of resporption, fragmentation and increased density. But they occur much less often in the normal foot. Pulling or ?traction? of the Achilles tendon on the unossified growth plate is a likely contributing factor to Sever?s disease. Excessive pronation and a tight Achilles and limited dorsiflexion may also contribute to the development of this condition. Non Surgical Treatment Occasionally, an orthotic may need to be prescribed for temporary or long-term correction of their foot biomechanics (eg flat feet or high arches). During the acute phase of Sever's disease a small heel rise or shock-absorbing heel cup placed under the heel pad of your child's foot may help to ease the symptoms. Your podiatrist or physiotherapist can assess your child's arch and guide you in the best management of your child's condition. We recommend that your child should never go barefooted during the painful stages of Sever's disease. Prevention Properly stretching to maintain flexibility is effective for preventing Sever's disease. Stretches should target the calves, heel cords, and hamstrings. Your child should do the appropriate stretches two or three times a day, holding the stretch for about 20 seconds each time. Ask your child's doctor for specific exercise instructions. Generally, doctors advise stretching both legs, even if the pain is confined to one heel. It's also helpful to strengthen the shin muscles by having your youngster pull his toes in with a rubber exercise band or a piece of tubing and then stretch them forward. Assist your child in doing 15 repetitions of this exercise, three times a day. Having your child wear shoes with good shock absorbers and avoid running on hard surfaces as much as possible should also help prevent the condition. Overview
Plantar fasciitis is a common, painful foot condition. Patients, and sometimes doctors often confuse the terms plantar fasciitis and heel spurs. Plantar fasciitis refers to the syndrome of inflammation of the band of tissue that runs from the heel along the arch of the foot; a heel spur is a hook of bone that can form on the heel bone (calcaneus). About 70% of patients with plantar fasciitis have been noted to have a heel spur that can be seen on x-ray. Causes Flat feet are a common condition. The condition is normal in infants and toddlers. Flat feet occur because the tissues holding the joints in the foot together (called tendons) are loose. The tissues tighten and form an arch as children grow older. This will take place by the time the child is 2 or 3 years old. Most people have normal arches by the time they are adults. However, the arch may never form in some people. Aging, injuries, or illness may harm the tendons and cause flat feet to develop in a person who has already formed arches. This type of flat foot may occur only on one side. Rarely, painful flat feet in children may be caused by a condition in which two or more of the bones in the foot grow or fuse together. This condition is called tarsal coalition. 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 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 Once the severity and cause of arch and foot pain is determined, a course of corrective and rehabilitative actions can be started. Therapists may use machines and manual therapies to reduce pain and increase circulation to the area to promote healing. Maintenance of fitness levels via modification of activity may be prescribed. Substitute activities that may aggravate the pain and soreness with other activities; for instance, running causes the body to have multiple impacts with the ground, but the use of bicycling, elliptical trainers, step machines, swimming, or ski machines eliminates impact and allows you to continue to maintain and improve your fitness levels. Take medications to help reduce pain and inflammation. Follow up with your doctor until you are better. Surgical Treatment Although most patients with plantar fasciitis respond to non- surgical treatment, a small percentage of patients may require surgery. If, after several months of non-surgical treatment, you continue to have heel pain, surgery will be considered. Your foot and ankle surgeon will discuss the surgical options with you and determine which approach would be most beneficial. No matter what kind of treatment you undergo for plantar fasciitis, the underlying causes that led to this condition may remain. Therefore, you will need to continue with preventive measures. Wearing supportive shoes, stretching, and using custom orthotic devices are the mainstays of long-term treatment for plantar fasciitis. Stretching Exercises Stretching your calf and Achilles tendon may also help as a tight Achilles can make your foot overpronate. To stretch your calf and Achilles tendon, step forwards with your left leg and bend it, with your right leg straight and both feet pointing forwards. Push your right heel into the ground while keeping your right leg straight; you should feel the stretch at the back of your right leg, below the knee. Hold the stretch for 15 to 30 seconds and repeat with the opposite leg. Repeat the stretch two to four times on each leg, and repeat the overall exercise three to four times a day.
Overview The Achilles tendon is the large cord like structure on the back of the leg just above the heel. It is the largest tendon in the body and has a tremendous amount of force transmitted through it during walking, running and jumping activities. The Achilles tendon is prone to injury, including rupture during periods of increased stress and activity. Common activities causing injury include running, basketball, baseball, football, soccer, volleyball and tennis. These activities require jumping and pushing forces that are possible due to the strength of the calf musculature and the ability of the Achilles tendon to endure this stress. Men from the ages of 30-50 are the most commonly injured during weekend athletic activities. 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 Patients with an Achilles tendon rupture frequently present with complaints of a sudden snap in the lower calf associated with acute, severe pain. The patient reports feeling like he or she has been shot, kicked, or cut in the back of the leg, which may result in an inability to ambulate further. A patient with Achilles tendon rupture will be unable to stand on his or her toes on the affected side. Diagnosis The actual area of an Achilles tendon rupture cannot be seen on x-ray. Therefore, although x-rays are often done to rule out bony injuries in individuals with an Achilles tendon rupture these x-rays are usually normal. Diagnostic ultrasound of the tendon can be performed to assess the integrity of the tendon. Other diagnostic tests, such as MRI's, may also be required in difficult cases. Non Surgical Treatment Non-operative treatment consists of placing the foot in a downward position [equinus] and providing relative immobilization of the foot in this position until the Achilles has healed. This typically involves some type of stable bracing or relative immobilization for 6 weeks, often with limited or no weight bearing. The patient can then be transitioned to a boot with a heel lift and then gradually increase their activity level within the boot. It is very important that the status of the Achilles is monitored throughout non-operative treatment. This can be done by examination or via ultrasound. If there is evidence of gapping or non-healing, surgery may need to be considered. Formal protocols have been developed to help optimize non-operative treatments and excellent results have been reported with these protocols. The focus of these treatments is to ensure that the Achilles rupture is in continuity and is healing in a satisfactory manner. The primary advantage of non-operative treatment is that without an incision in this area, there are no problems with wound healing or infection. Wound infection following Achilles tendon surgery can be a devastating complication and therefore, for many patients, non-operative treatment should be contemplated. The main disadvantage of non-operative treatment is that the recovery is probably slower. On average, the main checkpoints of recovery occur 3-4 weeks quicker with operative treatment than with non-operative treatment. In addition, the re-rupture rate appears to be higher with some non-operative treatments. Re-rupture typically occurs 8-18 months after the original injury. Surgical Treatment Surgical correction of the ruptured tendon is almost always necessary. Surgery is performed in order to regain the maximum strength of the Achilles, as well as the normal pushing off strength of the foot. The strength of the muscle depends on the correct tension between the muscle and the tendon. The only way the correct tension on the tendon can set is by accurately repairing the tendon ends. When the tendon ruptures, the ends of the tendon separate and multiple little strands of the tendon are present like pieces of spaghetti. There are old fashioned techniques for repairing the tendon which require very long incisions (eight inches) on the back of the leg. These are complicated and associated with a high incidence of infection in the skin after surgery. This is an important consideration, since infection in the skin can lead to devastating problems with the skin and tendon. This problem of skin infection has, in the past, led surgeons away from surgical methods of treatment. Fortunately, now there is a new, unique method available for operating on and repairing the tendon. This new method requires only a tiny incision of one to two centimeters in length. This is far more accurate surgery. Recovery after this procedure is easier and the surgical complication rate is extremely low. Prevention The following can significantly reduce the risk of Achilles tendon rupture. Adequate stretching and warming up prior to exercising. If playing a seasonal sport, undertake preparatory exercises to build strength and endurance before the sporting season commences. Maintain a healthy body weight. This will reduce the load on the tendon and muscles. Use footwear appropriate for the sport or exercise being undertaken. Exercise within fitness limits and follow a sensible exercise programme. Increase exercise gradually and avoid unfamiliar strenuous exercise. Gradual ?warm down? after exercising.
Overview
A total rupture of the achilles tendon is a complete tear of the tendon and typically affects men over the age of 40 involved in recreational sport. A complete rupture of the achilles tendon is not always recognized at the time of injury, however it is very important it is treated properly as soon as possible to increase the chances of a good recovery. Causes Often an Achilles rupture can occur spontaneously without any prodromal symptoms. Unfortunately the first "pop" or "snap" that you experience is your Achilles tendon rupture. Achilles tendon rupture most commonly occurs in the middle-aged male athlete (the weekend warrior who is engaging in a pickup game of basketball, for example). Injury often occurs during recreational sports that require bursts of jumping, pivoting, and running. Most often these are tennis, racquetball, squash, basketball, soccer, softball and badminton. Achilles rupture can happen in the following situations. You make a forceful push-off with your foot while your knee is straightened by the powerful thigh muscles. One example might be starting a foot race or jumping. You suddenly trip or stumble, and your foot is thrust in front to break a fall, forcefully over stretching the tendon. You fall from a significant height. It does appear that previous history of Achilles tendonitis results in a degenerative tendon, which can grow weak and thin with age and lack of use. Then it becomes prone to injury or rupture. Certain illnesses (such as arthritis and diabetes) and medications (such as corticosteroids and some antibiotics) can also increase the risk of rupture. Symptoms A classic sign of an Achilles tendon rupture is the feeling of being hit in the Achilles are. There is often a "pop" sound. There may be little pain, but the person can not lift up onto his toes while weight bearing. Diagnosis During the physical exam, your doctor will inspect your lower leg for tenderness and swelling. In many cases, doctors can feel a gap in your tendon if it has ruptured completely. The doctor may also ask you to kneel on a chair or lie on your stomach with your feet hanging over the end of the exam table. He or she may then squeeze your calf muscle to see if your foot will automatically flex. If it doesn't, you probably have ruptured your Achilles tendon. If there's a question about the extent of your Achilles tendon injury, whether it's completely or only partially ruptured, your doctor may order an ultrasound or MRI scan. These painless procedures create images of the tissues of your body. Non Surgical Treatment Nonsurgical method is generally undertaken in individuals who are old, inactive, and at high-risk for surgery. Other individuals who should not undergo surgery are those who have a wound infection/ulcer around the heel area. A large group of patients who may not be candidates for surgery include those with diabetes, those with poor blood supply to the foot, patients with nerve problems in the foot, and those who may not comply with rehabilitation. Nonsurgical management involves application of a short leg cast to the affected leg, with the ankle in a slightly flexed position. Maintaining the ankle in this position helps appose the tendons and improves healing. The leg is placed in a cast for six to 10 weeks and no movement of the ankle is allowed. Walking is allowed on the cast after a period of four to six weeks. When the cast is removed, a small heel lift is inserted in the shoe to permit better support for the ankle for an additional two to four weeks. Following this, physical therapy is recommended. The advantages of a nonsurgical approach are no risk of a wound infection or breakdown of skin and no risk of nerve injury. The disadvantages of the nonsurgical approach includes a slightly higher risk of Achilles tendon rupture and the surgery is much more complex if indeed a repair is necessary in future. In addition, the recuperative period after the nonsurgical approach is more prolonged. Surgical Treatment Surgery could allow for a quicker healing time. 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 tissue, the repair may be reinforced with other tendons. As with any surgery, the main complication is the risk for infection, however, this risk is reduced by using smaller incisions. |
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