Overview
A Hammer toes is a deformity that causes your toe to bend or curl downward instead of pointing forward. This deformity can affect any toe on your foot; however, it most often affects the second toe or third toe. Although a hammertoe may be present at birth, it usually develops over time due to wearing ill-fitting shoes or arthritis. In most cases, a hammertoe is treatable. Causes It is possible to be born with a hammer toe, however many people develop the deformity later in life. Common causes Hammer toe include tightened tendons that cause the toe to curl downward. Nerve injuries or problems with the spinal cord. Stubbing, jamming or breaking a toe. Having a stroke. Being a diabetic. Having a second toe that is longer than the big toe. Wearing high heels or tight shoes that crowd the toes and don?t allow them to lie flat. Aging. Symptoms Hammertoe and mallet toe feature an abnormal bend in the joints of one or more of your toes. Moving the affected toe may be difficult or painful. Corns and calluses can result from the toe rubbing against the inside of your shoes. See your doctor if you have persistent foot pain that affects your ability to walk properly. Diagnosis The exam may reveal a toe in which the near bone of the toe (proximal phalanx) is angled upward and the middle bone of the toe points in the opposite direction (plantar flexed). Toes may appear crooked or rotated. The involved joint may be painful when moved, or stiff. There may be areas of thickened skin (corns or calluses) on top of or between the toes, a callus may also be observed at the tip of the affected toe beneath the toenail. An attempt to passively correct the deformity will help elucidate the best treatment option as the examiner determines whether the toe is still flexible or not. It is advisable to assess palpable pulses, since their presence is associated with a good prognosis for healing after surgery. X-rays will demonstrate the contractures of the involved joints, as well as possible arthritic changes and bone enlargements (exostoses, spurs). X-rays of the involved foot are usually performed in a weight-bearing position. Non Surgical Treatment Wear sensible shoes. If you don?t want to have surgery to fix your hammertoe, use non-medicated padding along with proper shoes made with a wider and deeper toe box to accommodate your foot?s shape. Ensuring your shoes have a good arch support can slow the progression of the condition as well. Use a pumice stone. The corn or callus that forms on top of the hammertoe can cause discomfort when you wear shoes. Treat the corn by using a file or pumice stone to reduce its size after a warm bath, then apply emollients to keep the area softened and pliable. Use silicone or moleskin padding on top of the area when wearing shoes. Do foot exercises. Theoretically, exercises like extending, then curling the toes, splaying the toes, and moving the toes individually may help prevent the digital contracture that causes hammertoe. Try these suggestions and see what works best for you. Surgical Treatment In some cases, usually when the hammertoe has become more rigid and painful, or when an open sore has developed, surgery is needed. Often patients with hammertoe have bunions or other foot deformities corrected at the same time. 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, the number of toes involved, your age, your activity level, and other factors. The length of the recovery period will vary, depending on the procedure or procedures performed. Prevention To help prevent hammertoe, wear roomy, low-heeled shoes that allow plenty of width and length for the toes. The Mayo Clinic recommends wearing shoes that have at least 1/2 inch of space between the shoe and the longest toe. Overview
What Is A Hammer toes? A hammer toe, or claw toe, describes a condition where the toe(s) become buckled, contracted or crooked. The toe could even cross over an adjacent toe, which is called a cross over toe. Any of the toes may be affected, but the 2nd and 5th toe are most commonly involved. Causes While ill-fitting shoes may contribute to a hammertoe, shoes don't actually cause it, Hammertoes occur by the pull and stretch of the tendon. One tendon gets a more mechanical advantage over the other and allows the deformity to occur. Not surprisingly, wearing shoes that are too tight can make a hammertoe worse. If you're fond of narrow, pointy-toed shoes or high-heeled pumps, keep in mind you're squeezing those toes and tendons, which may aggravate hammertoes. Symptoms The middle joint of the toe is bent. The end part of the toe bends down into a claw-like deformity. At first, you may be able to move and straighten the toe. Over time, you will no longer be able to move the toe. It will be painful. A corn often forms on the top of the toe. A callus is found on the sole of the foot. Walking or wearing shoes can be painful. Diagnosis Some questions your doctor may ask of you include, when did you first begin having foot problems? How much pain are your feet or toes causing you? Where is the pain located? What, if anything, seems to improve your symptoms? What, if anything, appears to worsen your symptoms? What kind of shoes do you normally wear? Your doctor can diagnose hammertoe or mallet toe by examining your foot. Your doctor may also order X-rays to further evaluate the bones and joints of your feet and toes. Non Surgical Treatment Try to find shoes that are soft, roomy, and comfortable and avoid tight shoes or shoes with high heels. A shoe repair shop may be able to stretch a small pocket in regular shoes to make room for the hammertoe. Have a professional pedicure. Sometimes a skilled manicurist can file down a painful corn. Follow your healthcare provider's instructions. Ask your provider what activities you should avoid and when you can return to your normal activities, how to take care of yourself at home, what symptoms or problems you should watch for and what to do if you have them. Make sure you know when you should come back for a checkup. Surgical Treatment Surgery is used when other types of treatment fail to relieve symptoms or for advanced cases of hammertoe. There are several types of surgeries to treat hammertoe. A small piece of bone may be removed from the joint (arthroplasty). The toe joint may be fused to straighten it (arthrodesis). Surgical hardware, such as a pin, may be used to hold the bones in place while they heal. Other types of surgery involve removing hammertoes skin (wedging) or correcting muscles and tendons to balance the joint.
Overview
Bunions, referred to in the medical community as Hallux Valgus, are one of the most common forefoot problems. A bunion is a prominent bump on the inside of the foot around the big toe joint. This bump is actually a bone protruding towards the inside of the foot. With the continued movement of the big toe towards the smaller toes, it is common to find the big toe resting under or over the second toe. This causes a common forefoot condition called overlapping toes. Some of the symptoms of bunions include inflammation, swelling, and soreness on the side surface of the big toe. The discomfort commonly causes a patient to walk improperly. Another type of bunion which some individuals experience is called a Tailor's Bunion, also known as a Bunionette. This forms on the outside of the foot towards the joint at the little toe. It is a smaller bump that forms due to the little toe moving inwards, towards the big toe. Causes Bunions are a common problem experienced mostly by women. The deformity can develop from an abnormality in foot function, or arthritis, but is more commonly caused by wearing improper fitting footwear. Tight, narrow dress shoes with a constrictive toe box (toe area) can cause the foot to begin to take the shape of the shoe, leading to the formation of a bunion. Women who have bunions normally wear dress shoes that are too small for their feet. Their toes are squeezed together in their shoes causing the first metatarsal bone to protrude on the side of the foot. It is important for men and women to realize that wearing dress shoes and boots, which are tapered in the toe area, can cause the bunion to worsen to the point where surgery is necessary. Symptoms Pain in the toe joint and surrounding area. Painful to touch or press, and when walking. Growth of a bony lump (exostosis) at the side of the big toe joint. Irritated skin around the bunion. Redness. Thickening of overlying skin. Blisters may form more easily. Deformed bones, joints and ligaments as the big toe shifts towards the other toes. As the big toe shifts, its base becomes more prominent, forming the bunion. Eventually the big toe is forced to lie over, or more commonly under, the second toe. The second toe of patients who have bunions commonly forms a hammer toe. Trouble with shoes. It is difficult to find shoes that fit properly. Bunions may force you to buy a larger size shoe to accommodate the width the bunion creates. Eventually it hurts to wear any shoe, or even walk barefoot. Diagnosis The doctor considers a bunion as a possible diagnosis when noting the symptoms described above. The anatomy of the foot, including joint and foot function, is assessed during the examination. Radiographs (X-ray films) of the foot can be helpful to determine the integrity of the joints of the foot and to screen for underlying conditions, such as arthritis or gout. X-ray films are an excellent method of calculating the alignment of the toes when taken in a standing position. Non Surgical Treatment This is probably the most important step. Wearing the right footwear can help reduce stress on a minor deformity and reduce the likelihood of it progressing. Recommendations are that the forefoot easily fits within the width of the shoe and there is adequate cushioning and arch support. Soft materials such as smooth leather, suede or fabric will also help to reduce irritation to the area. The podiatrist plays an invaluable role in managing patients with bunions. This is because they can offer a number of options to the patient that can help relieve pain and reduce the severity of the deformity. They can also reduce pressure on skin lesions that develop as a result of the biomechanical changes. Podiatrists can prescribe customised orthotic devices that help reduce the stress on a bunion and control biomechanical factors which cause them. These may be used in conjunction with bunion splints or cushions to further offload the area. Evidence has shown a significant reduction in pain with the use of customized orthotic devices. Surgical Treatment When deciding whether to have bunion surgery, there are several things to consider including your age, in children, bunion surgery is often delayed because of the risk of the bunion returning, your medical history and general health, problems with wound healing and infections are more likely in certain conditions such as diabetes, you?re also more likely to develop problems if your bunion is caused by a condition such as rheumatoid arthritis, your occupation and lifestyle, bunion surgery can make your toes less flexible, and you may be unable to return to the same level of physical activity, your expectations of surgery, bunion surgery has about an 85% success rate, but there's no guarantee that your foot will be perfectly straight or pain-free; the success of surgery depends on the type of procedure, the experience of the surgeon and your ability to rest after the operation, the severity of your symptoms, surgery will usually only be recommended if your bunions are causing considerable pain and non-surgical treatments haven't been unsuccessful (because of the associated risks and complications). Overview
The rolling of the foot is a natural process and the degree to which pronation occurs will depend on an individual?s gait. It has been suggested that up to 70 percent of runners may overpronate to some degree, although it is not always bad for the body even though pronation may not be at optimum levels. Slight overpronation may be perfectly acceptable and may not place an individual at an increased risk of injury; however determining whether this is the case can only come from a doctor, podiatrist or sports therapist. While specialist running shoe stores may be able to spot whether you are an overpronator after observing you on a treadmill and suggest the best running shoes to suit your gait, it is still wise if you are an overpronator to get your gait checked professionally. Causes There may be several possible causes of over pronation. The condition may begin as early as birth. However, there are several more common explanations for the condition. First, wear and tear on the muscles throughout the foot, either from aging or repetitive strain, causes the muscles to weaken, thereby causing the foot to turn excessively inward. Also, standing or walking on high heels for an extended period of time also places strain and pressure on the foot which can weaken the tissue. Lastly, shoes play a very common factor in the development of over pronation. Shoes that fail to provide adequate support through the arch commonly lead to over pronation. Symptoms Overpronation may have secondary effects on the lower legs, such as increased rotation of the tibia, which may result in lower leg or knee problems. Overpronation is usually associated with many overuse injuries in running including medial tibial stress syndrome, or shin splints, and knee pain Individuals with injuries typically have pronation movement that is about two to four degrees greater than that of those with no injuries. Between 40% and 50% of runners who overpronate do not have overuse injuries. This suggests that although pronation may have an effect on certain injuries, it is not the only factor influencing their development. 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 Over-Pronation can be treated conservatively (non-surgical treatments) with over-the-counter orthotics. These orthotics should be designed with appropriate arch support and medial rearfoot posting to prevent the over-pronation. Footwear should also be examined to ensure there is a proper fit. Footwear with a firm heel counter is often recommended for extra support and stability. Improper fitting footwear can lead to additional problems of the foot. Surgical Treatment HyProCure implant. A stent is placed into a naturally occurring space between the ankle bone and the heel bone/midfoot bone. The stent realigns the surfaces of the bones, allowing normal joint function. Generally tolerated in both pediatric and adult patients, with or without adjunct soft tissue procedures. Reported removal rates, published in scientific journals vary from 1%-6%. Overview
Sever?s disease is the most common cause of heel pain in the growing athlete and is due to overuse and repetitive microtrauma of growth plates in the heel. It occurs in children ages 7 to 15, with the majority of patients presenting between 10 and 14 years of age. Sever?s disease will go away on its own when it is used less or when the bone is through growing, but it can recur (for example, at the start of a new sports season). Traditionally, the only known cure was for children to outgrow the condition, with recurrences happening an average of 18 months before this occurs. Causes Mechanically, the heel takes a beating. And the apophyseal bone is located near the point of impact for the heel bone at heel strike and with most weight bearing activities. This includes running, jumping and walking. Heavy impact activities like soccer, football and gymnastics are commonly associated with this problem. In addition to this, there is traction on this apophyseal bone and the associated physeal line of growth cartilage. This traction on the apopysis (island of bone) along with the impact of weight bearing activities can lead to inflammation and pain. Tight Achilles and calf muscles also can contribute to this problem, and why stretching is discussed later. Symptoms The most obvious sign of Sever's disease is pain or tenderness in one or both heels, usually at the back. The pain also might extend to the sides and bottom of the heel, ending near the arch of the foot. A child also may have these related problems, swelling and redness in the heel, difficulty walking, discomfort or stiffness in the feet upon awaking, discomfort when the heel is squeezed on both sides, an unusual walk, such as walking with a limp or on tiptoes to avoid putting pressure on the heel. Symptoms are usually worse during or after activity and get better with rest. Diagnosis To diagnose the cause of the child?s heel pain and rule out other more serious conditions, the foot and ankle surgeon obtains a thorough medical history and asks questions about recent activities. The surgeon will also examine the child?s foot and leg. X-rays are often used to evaluate the condition. Other advanced imaging studies and laboratory tests may also be ordered. Non Surgical Treatment Your podiatrist can help manage this condition by implementing a treatment program. This may incorporate one or all of the following. RI (Rest and Ice). Activity modification so child becomes pain free. Daily stretching routine. Heel raise within shoes to decrease pull on heel. Biomechanical abnormalities corrected (Orthotics). Strengthening of associated muscles. Footwear modification. Surgical Treatment The surgeon may select one or more of the following options to treat calcaneal apophysitis. Reduce activity. The child needs to reduce or stop any activity that causes pain. Support the heel. Temporary shoe inserts or custom orthotic devices may provide support for the heel. Medications. Nonsteroidal anti-inflammatory drugs (NSAIDs), such as ibuprofen, help reduce the pain and inflammation. Physical therapy. Stretching or physical therapy modalities are sometimes used to promote healing of the inflamed issue. Immobilization. In some severe cases of pediatric heel pain, a cast may be used to promote healing while keeping the foot and ankle totally immobile. Often heel pain in children returns after it has been treated because the heel bone is still growing. Recurrence of heel pain may be a sign of calcaneal apophysitis, or it may indicate a different problem. If your child has a repeat bout of heel pain, be sure to make an appointment with your foot and ankle surgeon.
Overview
The Achilles tendon is an important part of the leg. It is located just behind and above the heel. It joins the heel bone to the calf muscles. Its function is to help in bending the foot downwards at the ankle (this movement is called plantar flexion by doctors). If the Achilles tendon is torn, this is called an Achilles tendon rupture. The tear may be either partial or complete. In a partial tear, the tendon is partly torn but still joined to the calf muscle. With complete tears, the tendon is completely torn so that the connection between the calf muscles and the ankle bone is lost. Causes The causes of an Achilles tendon rupture are very similar to Achilles tendinitis. Causes include. Running uphill. Running on a hard surface. Quickly changing speeds from walking to running. Playing sports that cause you to quickly start and stop. Symptoms Symptoms of an Achilles tendon injury are as follows. Pain along the back of your foot and above your heel, especially when stretching your ankle or standing on your toes; with tendinitis, pain may be mild and worsen gradually. If you rupture the tendon, pain can be abrupt and severe. Tenderness. Swelling. Stiffness. Hearing a snapping or popping noise during the injury. Difficulty flexing your foot or pointing your toes (in complete tears of the tendon). Diagnosis If an Achilles tendon rupture is suspected, it is important to consult a doctor straight away so that an accurate diagnosis can be made and appropriate treatment recommended. Until a doctor can be consulted it is important to let the foot hang down with the toes pointed to the ground. This prevents the ends of the ruptured tendon pulling any farther apart. The doctor will take a full medical history, including any previous Achilles tendon injuries and what activity was being undertaken at the time the present injury occurred. The doctor will also conduct a physical examination and will check for swelling, tenderness and range of movement in the lower leg and foot. A noticeable gap may be able to be felt in the tendon at the site of the rupture. This is most obvious just after the rupture has occurred and swelling will eventually make this gap difficult to feel. One test commonly used to confirm an Achilles tendon rupture is the Thomson test. For this test the patient lies face down on an examination table. The doctor then squeezes the calf muscles; an action that would normally cause the foot to point like a ballerina (plantar flexion). When a partial rupture has occurred the foot's ability to point may be decreased. When a complete rupture has occurred, the foot may not point at all. Ultrasound scanning of the Achilles tendon may also be recommended in order to assist with the diagnosis. 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 Operative treatment of Achilles tendon ruptures involves opening the skin and identifying the torn tendon. This is then sutured together to create a stable construct. This can be performed through a standard Achilles tendon repair technique or through a mini-incision technique (to read about the different types of techniques, look under ?Procedure? in Achilles Tendon Repair). By suturing the torn tendon ends together, they maintain continuity and can be mobilized more quickly. However, it is critical to understand that the return to normal activities must wait until adequate healing of the tendon has occurred. The potential advantages of an open repair of the Achilles tendon include, faster recovery, this means that patients will lose less strength. Early Range of Motion. They are able to move the ankle earlier so it is easier to regain motion. Lower Re-rupture Rate. The re-rupture rate may be significantly lower in operatively treated patients (2-5%) compared to patients treated non-operatively (8-15%). The main disadvantage of an open repair of the Achilles tendon rupture is the potential for a wound-healing problem which could lead to a deep infection that is difficult to eradicate, or a painful scar. 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
Leg length discrepancy is the difference in lengths of an individual?s legs. This difference may be anatomical or may be due to scoliosis, trauma/injury, arthritis, overpronation (collapse) of one foot, bowing of one leg or unequal bowing, surgery (hip or knee replacement), pelvic tilting or ageing. The difference can also be functional caused by differing forces of the soft tissues, such as weakness in muscle tissue on one side, or a weakness/tightness in joint tissue. A difference in leg lengths also results when running on indoor banked tracks, beaches and banked streets and side walks (for drainage). Many people have a measurable difference in their leg lengths which is compensated for by their bodies. As we age this compensation does not work as well. An x-ray and physical measurements will define the discrepancy and the adjustment needed. Causes The causes of LLD may be divided into those that shorten a limb versus those that lengthen a limb, or they may be classified as affecting the length versus the rate of growth in a limb. For example, a fracture that heals poorly may shorten a leg slightly, but does not affect its growth rate. Radiation, on the other hand, can affect a leg's long-term ability to expand, but does not acutely affect its length. Causes that shorten the leg are more common than those that lengthen it and include congenital growth deficiencies (seen in hemiatrophy and skeletal dysplasias ), infections that infiltrate the epiphysis (e.g. osteomyelitis ), tumors, fractures that occur through the growth plate or have overriding ends, Legg-Calve-Perthes disease, slipped capital femoral epiphysis (SCFE), and radiation. Lengthening can result from unique conditions, such as hemihypertrophy , in which one or more structures on one side of the body become larger than the other side, vascular malformations or tumors (such as hemangioma ), which cause blood flow on one side to exceed that of the other, Wilm's tumor (of the kidney), septic arthritis, healed fractures, or orthopaedic surgery. Leg length discrepancy may arise from a problem in almost any portion of the femur or tibia. For example, fractures can occur at virtually all levels of the two bones. Fractures or other problems of the fibula do not lead to LLD, as long as the more central, weight-bearing tibia is unaffected. Because many cases of LLD are due to decreased rate of growth, the femoral or tibial epiphyses are commonly affected regions. Symptoms Children whose limbs vary in length often experience difficulty using their arms or legs. They might have difficulty walking or using both arms to engage in everyday activities. Diagnosis The only way to decipher between anatomical and functional leg length inequalities (you can have both) is by a physical measurement and series of biomechanical tests. It is actually a simple process and gets to the true cause of some runner?s chronic foot, knee, hip and back pain. After the muscles are tested and the legs are measured it may be necessary to get a special X-ray that measures both of your thighs (Femurs) and legs (Tibias). The X-ray is read by a medical radiologist who provides a report of the actual difference down to the micrometer leaving zero room for error. Once the difference in leg length is known, the solution becomes clear. Non Surgical Treatment Treatment of leg length inequality involves many different approaches, which vary among osteopaths, physiotherapist and chiropractor and whether the LLD is functional or structural. Thus is a combination of myofascial release (massage) & stretching of shortened muscles. Manipulation or mobilization of the spine, sacro-iliac joint (SIJ), hip, knee, foot. Orthotics, shoe lifts can be used to treat discrepancies from two to six cm (usually up to 1 cm can be inserted in the shoe. For larger leg length inequalities, the shoe must be built up. This needs to be done for every shoe worn, thus limiting the type of shoe that the patient can wear). Surgery (epiphysiodesis, epiphyseal stapling,bone resection). Surgical Treatment Surgeries to lengthen a leg are generally only performed when there is a difference in leg length of greater than four centimeters. These types of surgeries can be more difficult and have more complications, such as infections, delayed healing, dislocations, and high blood pressure. In a several step process, bone lengthening surgeries involve cutting a bone in two in order to allow new bone growth to occur. After the bone is cut, a special apparatus is worn with pins that will pull the bone apart at approximately one millimeter per day. This causes osteogenesis, or new bone growth, in between the cut bone segments. A cast or brace may be required for several months after surgery to allow the new bone growth to harden and provide extra support.
Overview
Adult-Acquired Flat Foot Deformity (AAFFD) is most commonly caused by a progressive degeneration of the tendon (tibialis posterior) that supports the arch of the foot. As the tendon ages or is subjected to repetitive trauma, it stretches out over time, the natural arch of the foot becomes less pronounced and the foot gradually flattens out. Although it is uncertain why this occurs, the problem is seen equally among men and women - at an increasing frequency with age. Occasionally, a patient will experience a traumatic form of the condition as a result of a fall from a height or abnormal landing during aerial sports such as gymnastics or basketball. Causes Overuse of the posterior tibial tendon is often the cause of PTTD. In fact, the symptoms usually occur after activities that involve the tendon, such as running, walking, hiking, or climbing stairs. Symptoms PTTD begins with a gradual stretching and loss of strength of the posterior tibial tendon which is the most important tendon supporting the arch of the human foot. Left untreated, this tendon will continue to lengthen and eventually rupture, leading to a progressive visible collapse of the arch of the foot. In the early stages, patients with PTTD will notice a pain and swelling along the inner ankle and arch. Many times, they are diagnosed with ?tendonitis? of the inner ankle. If the foot and ankle are not properly supported during this early phase, the posterior tibial tendon can rupture and devastating consequences will occur to the foot and ankle structure. The progressive adult acquired flatfoot deformity will cause the heel to roll inward in a ?valgus? or pronated direction while the forefoot will rotate outward causing a ?duckfooted? walking pattern. Eventually, significant arthritis can occur in the joints of the foot, the ankle and even the knee. Early diagnosis and treatment is critical so if you have noticed that one, or both, of your feet has become flatter in recent times come in and have it checked out. Diagnosis Posterior Tibial Tendon Dysfunction is diagnosed with careful clinical observation of the patient?s gait (walking), range of motion testing for the foot and ankle joints, and diagnostic imaging. People with flatfoot deformity walk with the heel angled outward, also called over-pronation. Although it is normal for the arch to impact the ground for shock absorption, people with PTTD have an arch that fully collapses to the ground and does not reform an arch during the entire gait period. After evaluating the ambulation pattern, the foot and ankle range of motion should be tested. Usually the affected foot will have decreased motion to the ankle joint and the hindfoot. Muscle strength may also be weaker as well. An easy test to perform for PTTD is the single heel raise where the patient is asked to raise up on the ball of his or her effected foot. A normal foot type can lift up on the toes without pain and the heel will invert slightly once the person has fully raised the heel up during the test. In early phases of PTTD the patient may be able to lift up the heel but the heel will not invert. An elongated or torn posterior tibial tendon, which is a mid to late finding of PTTD, will prohibit the patient from fully rising up on the heel and will cause intense pain to the arch. Finally diagnostic imaging, although used alone cannot diagnose PTTD, can provide additional information for an accurate diagnosis of flatfoot deformity. Xrays of the foot can show the practitioner important angular relationships of the hindfoot and forefoot which help diagnose flatfoot deformity. Most of the time, an MRI is not needed to diagnose PTTD but is a tool that should be considered in advanced cases of flatfoot deformity. If a partial tear of the posterior tibial tendon is of concern, then an MRI can show the anatomic location of the tear and the extensiveness of the injury. Non surgical Treatment Nonoperative treatment of posterior tibial tendon dysfunction can be successful with the Arizona AFO brace, particularly when treatment is initiated in the early stages of the disease. This mandates that the orthopedist has a high index of suspicion when evaluating patients to make an accurate diagnosis. Although there is a role for surgical management of acquired flat feet, a well-fitted, custom-molded leather and polypropylene orthosis can be effective at relieving symptoms and either obviating or delaying any surgical intervention. In today's climate of patient satisfaction directed health care, a less invasive treatment modality that relieves pain may prove to be more valuable than similar pain relief that is obtained after surgery. Questions regarding the long-term results of bracing remain unanswered. Future studies are needed to determine if disease progression and arthrosis occur despite symptomatic relief with a brace. Furthermore, age- and disease stage-matched control groups who are randomized to undergo surgery or bracing are necessary to compare these different treatment modalities. Surgical Treatment If conservative treatment fails to provide relief of pain and disability then surgery is considered. Numerous factors determine whether a patient is a surgical candidate. They include age, obesity, diabetes, vascular status, and the ability to be compliant with post-operative care. Surgery usually requires a prolonged period of nonweightbearing immobilization. Total recovery ranges from 3 months to one year. Clinical, x-ray, and MRI examination are all used to select the appropriate surgical procedure. |
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