Simonne Henegar

Handy Information About Foot Treatment

Is Overpronation

Overview

Simply put, over-pronation is an excessive or poorly timed pronation which is part of the regular stride. Pronation is when the foot rolls inwards and the arch compresses as part of your normal walking motion. Pronation is necessary for shock absorption to transmit forces up and down our legs. When someone over-pronates, the foot rolls inwards to a greater degree and the arch flattens: this causes the knee and hip to come out of alignment and reduces the function of all the bones in the feet.Over Pronation

Causes

There are many possible causes for overpronation, but researchers have not yet determined one underlying cause. Hintermann states, Compensatory overpronation may occur for anatomical reasons, such as a tibia vara of 10 degrees or more, forefoot varus, leg length discrepancy, ligamentous laxity, or because of muscular weakness or tightness in the gastrocnemius and soleus muscles. Pronation can be influenced by sources outside of the body as well. Shoes have been shown to significantly influence pronation. Hintermann states that the same person can have different amounts of pronation just by using different running shoes. It is easily possible that the maximal ankle joint eversion movement is 31 degrees for one and 12 degrees for another running shoe.

Symptoms

Overpronation can lead to injuries and pain in the foot, ankle, knee, or hip. Overpronation puts extra stress on all the bones in the feet. The repeated stress on the knees, shins, thighs, and pelvis puts additional stress on the muscles, tendons, and ligaments of the lower leg. This can put the knee, hip, and back out of alignment, and it can become very painful.

Diagnosis

If you have flat feet or low arches, chances are you overpronate. Although not always the case, the lower your arches the greater the overpronate. Stand on a hard surface (in front of a mirror if you need to) and look at your feet, flat feet or low arches are easy to spot. If your feet look flatter than a pancake, have a look at your ankles and see if they seem collapsed or straight. If they are, you're overpronating.Over-Pronation

Non Surgical Treatment

Heel counters that make the heel of the shoe stronger to help resist/reduce excessive rearfoot motions. The heel counter is the hard piece in the back of the shoe that controls the foot?s motion from side-to-side. You can quickly test the effectiveness of a shoe?s heel counter by placing the shoe in the palm of your hand and putting your thumb in the mid-portion of the heel, trying to bend the back of the shoe. A heel counter that does not bend very much will provide superior motion control. Appropriate midsole density, the firmer the density, the more it will resist motion (important for a foot that overpronates or is pes planus), and the softer the density, the more it will shock absorb (important for a cavus foot with poor shock absorption) Wide base of support through the midfoot, to provide more support under a foot that is overpronated or the middle of the foot is collapsed inward.

Prevention

Firstly, a thorough and correct warm up will help to prepare the muscles and tendons for any activity or sport. Without a proper warm up the muscles and tendons around your feet, ankles and lower legs will be tight and stiff. There will be limited blood flow to the lower legs, which will result in a lack of oxygen and nutrients for those muscles. Click here for a detailed explanation of how, why and when to perform your warm up. Secondly, flexible muscles are extremely important in the prevention of most ankle and lower leg injuries. When muscles and tendons are flexible and supple, they are able to move and perform without being over stretched. If however, your muscles and tendons are tight and stiff, it is quite easy for those muscles and tendons to be pushed beyond their natural range of motion. To keep your muscles and tendons flexible and supple, it is important to undertake a structured stretching routine.

Will Calcaneal Apophysitis Often Need Surgery?

Overview

Heel pain in children and adolescence: is the most common osteochondrosis (disease that affects the bone growth). Osteochondrosis is seen only in children and teens whose bones are still growing of the foot. Sever's disease or Apophysitis is a common condition that afflicts children usually between the ages of 8 to 15 years old. Often this is confused with plantar fasciitis which is rare in children. This is a condition of inflammation of the heel's growth plates.

Causes

There are many contributing factors that cause strain across the growth plate, making your child prone to developing Sever?s disease. These include repeated minor trauma to the growth plate from running or jumping sports, tight calf or hamstring muscles, rapid growth spurts can lead to the leg muscles becoming tight, increasing tension on the growth plate, tight Achilles tendon, the Achilles tendon attaches to the back of the heel adjacent to the growth plate, poor foot posture, may increase the strain on the growth plate, footwear with a very low heel pitch (eg soccer boots), unsupportive or unstable footwear with poor shock absorption at the heel, running or playing sport on hard surfaces.

Symptoms

Symptoms include Heel Pain. Pain at the back of the heels when walking or running. Possibly a lump at the back of the heel, although this might be minimal. Pain and tenderness at the back of the heels, especially if you press on it, or give it a squeeze from the sides. Tight calf muscles resulting in reduced ankle range of motion.

Diagnosis

A physical exam of the heel will show tenderness over the back of the heel but not in the Achilles tendon or plantar fascia. There may be tightness in the calf muscle, which contributes to tension on the heel. The tendons in the heel get stretched more in patients with flat feet. There is greater impact force on the heels of athletes with a high-arched, rigid foot. The doctor may order an x-ray because x-rays can confirm how mature the growth center is and if there are other sources of heel pain, such as a stress fracture or bone cyst. However, x-rays are not necessary to diagnose Sever?s disease, and it is not possible to make the diagnosis based on the x-ray alone.

Non Surgical Treatment

Primary treatment involves the use of heel cups or orthotics with a sturdy, supportive plastic shell. Treatment may also include cutting back on sports activities if pain interferes with performance, calf muscle stretching exercises, icing, and occasionally anti-inflammatory medications. Severe cases may require the short term use of a walking boot or cast.

Aggressive Achilles Tendon Rupture Rehabilitation

Overview
Achilles Tendon A torn or ruptured Achilles tendon is simply no fun at all. This essential cord of strong, fibrous material attaches the heel bone to the calf muscles and is used in just about every movement, from walking and running to jumping and standing on your tip-toes. It also helps bend the foot downwards at the ankle. As the strongest tendon in the body, the Achilles can withstand a force of about 1,000 pounds. About 7 out of every 100,000 people will suffer from a ruptured Achilles at some point in time, with over 80% of these injuries occurring during a recreational sports activity. Athletes have a 24% chance of tearing their Achilles, but competitive runners have a 40 to 50% chance of Achilles tendon rupture during their lifetime.

Causes
Causes of and contributors to Achilles tendon rupture include trauma (caused by injury, usually an acceleration injury such as pushing off or jumping up). Preceding tendon problems. Chronic Achilles tendonitis (can lead to small tears within the tendon, increasingly weakening it). Certain drug therapies/treatments. Drugs that have been linked to Achilles tendon rupture include. Fluoroquinolone antibiotics - after nearly 900 reports of tendon ruptures, tendonitis and other tendon disorders (most associated with the Achilles tendon) linked to Ciprofloxacin (Cipro) alone were collected in the U.S. Food and Drug Administration (FDA)?s database, at least one public-interest group petitioned the FDA to recommend that a "Black Box Warning" be added to Cipro's packaging. Some researchers speculate this class of antibiotics is toxic to tendon fibers, and that in some cases may reduce their blood supply. Patients should at least be more aware of the potential for ruptures so that they can be switched to other antibiotics at the onset of early warning signals such as tendon pain.

Symptoms
Symptoms usually come on gradually. Depending on the severity of the injury, they can include Achilles pain, which increases with specific activity, with local tenderness to touch. A sensation that the tendon is grating or cracking when moved. Swelling, heat or redness around the area. The affected tendon area may appear thicker in comparison to the unaffected side. There may be weakness when trying to push up on to the toes. The tendon can feel very stiff first thing in the morning (care should be taken when getting out of bed and when making the first few steps around the house). A distinct gap in the line of the tendon (partial tear).

Diagnosis
An Achilles' tendon injury can be diagnosed by applying the Thompson Test (or Calf Squeeze Test) this is where the person who has suffered the injury lies on their front with their legs bent. Whoever is performing the test, usually a doctor, will then squeeze the calf muscle. If the tendon has not ruptured then the foot should point briefly away from the leg.

Non Surgical Treatment
Pain medicines can help decrease pain and swelling. A cast may be needed for 2 months or more. Your foot will be positioned in the cast with your toes pointing slightly down. Your caregiver will change your cast and your foot position several times while the tendon heals. Do not move or put weight on your foot until your caregiver tells you it is okay. A leg brace or splint may be needed to help keep your foot from moving while your tendon heals. Heel lifts are wedges put into your shoe or cast. Heel lifts help decrease pressure and keep your foot in the best position for your tendon to heal. Surgery may be needed if other treatments do not work. The edges of your tendon may need to be stitched back together. You may need a graft to patch the tear. A graft is a piece of another tendon or artificial material. Achilles Tendonitis

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.

Leg Length Discrepancy Symptoms

Overview

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.Leg Length Discrepancy

Causes

Limb-length conditions can result from congenital disorders of the bones, muscles or joints, disuse or overuse of the bones, muscles or joints caused by illness or disease, diseases, such as bone cancer, Issues of the spine, shoulder or hip, traumatic injuries, such as severe fractures that damage growth plates.

Symptoms

The patient/athlete may present with an altered gait (such as limping) and/or scoliosis and/or low back pain. Lower extremity disorders are possibly associated with LLD, some of these are increased hip pain and degeneration (especially involving the long leg). Increased risk of: knee injury, ITB syndrome, pronation and plantar fascitis, asymmetrical strength in lower extremity. Increased disc or vertebral degeneration. Symptoms vary between patients, some patients may complain of just headaches.

Diagnosis

Infants, children or adolescents suspected of having a limb-length condition should receive an evaluation at the first sign of difficulty in using their arms or legs. In many cases, signs are subtle and only noticeable in certain situations, such as when buying clothing or playing sports. Proper initial assessments by qualified pediatric orthopedic providers can reduce the likelihood of long-term complications and increase the likelihood that less invasive management will be effective. In most cases, very mild limb length discrepancies require no formal treatment at all.

Non Surgical Treatment

The object of treatment for leg length discrepancy is to level the pelvis and equalize the length of the two limbs. Inequalities of 2-2.5 centimeters can be handled with the following. Heel lifts/ adjustable heel lifts can be used inside a shoe where shoes have a full heel counter. Heel lifts may be added to the heel on the outside of the shoe along with an internal heel lift. Full platforms along the forefoot and rearfoot area of a shoe can be added. There are many different adjustable heel lifts available on the market. For treatment of a leg length discrepancy, consult your physician. They may refer you to a Physiotherapist or Chiropractor for determination of the type of LLD. A Certified Pedorthist (Canada) will treat a structural leg length discrepancy with a heel lift or in larger discrepancies a footwear modification.

LLL Shoe Insoles

Surgical Treatment

Surgical treatments vary in complexity. Sometimes the goal of surgery is to stop the growth of the longer limb. Other times, surgeons work to lengthen the shorter limb. Orthopedic surgeons may treat children who have limb-length conditions with one or a combination of these surgical techniques. Bone resection. An operation to remove a section of bone, evening out the limbs in teens or adults who are no longer growing. Epiphyseal stapling. An operation to slow the rate of growth of the longer limb by inserting staples into the growth plate, then removing them when the desired result is achieved. Epiphysiodesis. An operation to slow the rate of growth of the longer limb by creating a permanent bony ridge near the growth plate. Limb lengthening. A procedure (also called distraction osteogenesis or the Ilizarov procedure) that involves attaching an internal or external fixator to a limb and gradually pulling apart bone segments to grow new bone between them. There are several ways your doctor can predict the final LLD, and thus the timing of the surgery. The easiest way is the so-called Australian method, popularised by Dr. Malcolm Menelaus, an Australian orthopedic surgeon. According to this method, growth in girls is estimated to stop at age 14, and in boys at age 16 years. The femur grows at the rate of 10 mm. a year, and the upper tibia at the rate of 6 mm. a year. Using simple arithmetic, one can get a fairly good prediction of future growth. This of course, is an average, and the patient may be an average. To cut down the risk of this, the doctor usually measures leg length using special X-ray technique (called a Scanogram) on three occasions over at least one year duration to estimate growth per year. He may also do an X-ray of the left hand to estimate the bone age (which in some cases may differ from chronological age) by comparing it with an atlas of bone age. In most cases, however, the bone age and chronological age are quite close. Another method of predicting final LLD is by using Anderson and Green?s remaining growth charts. This is a very cumbersome method, but was till the 1970?s, the only method of predicting remaining growth. More recently, however, a much more convenient method of predicting LLD was discovered by Dr. Colin Moseley from Montreal. His technique of using straight line graphs to plot growth of leg lengths is now the most widely used method of predicting leg length discrepancy. Whatever method your doctor uses, over a period of one or two years, once he has a good idea of the final LLD, he can then formulate a plan to equalize leg lengths. Epiphyseodesis is usually done in the last 2 to 3 years of growth, giving a maximum correction of about 5 cm. Leg lengthening can be done at any age, and can give corrections of 5 to10 cm., or more.

Surgery For Flat Feet In Adults

Overview
Adult acquired is a very serious condition that can lead to many secondary deformities, not only within the foot but also in the knees, hips and back. This presentation discusses a new scientifically proven procedure that may be able to help realign and fix this problem at its root. Adult Acquired Flat Feet

Causes
Women are affected by Adult Acquired Flatfoot four times more frequently than men. Adult Flatfoot generally occurs in middle to older age people. Most people who acquire the condition already have flat feet. One arch begins to flatten more, then pain and swelling develop on the inside of the ankle. This condition generally affects only one foot. It is unclear why women are affected more often than men. But factors that may increase your risk of Adult Flatfoot include diabetes, hypertension, and obesity.

Symptoms
Some symptoms of adult acquired flat foot are pain along the inside of the foot and ankle, pain that increases with activity, and difficulty walking for long periods of time. You may experience difficulty standing, pain on the outside of the ankle, and bony bumps on the top of the foot and inside the foot. You may also have numbness and tingling of the feet and toes (may result from large bone spurs putting pressure on nerves), swelling, a large bump on the sole of the foot and/or an ulcer (in diabetic patients). Diabetic patients should wear a properly fitting diabetic shoe wear to prevent these complications from happening.

Diagnosis
Clinicians need to recognize the early stage of this syndrome which includes pain, swelling, tendonitis and disability. The musculoskeletal portion of the clinical exam can help determine the stage of the disease. It is important to palpate the posterior tibial tendon and test its muscle strength. This is tested by asking patient to plantarflex and invert the foot. Joint range of motion is should be assessed as well. Stiffness of the joints may indicate longstanding disease causing a rigid deformity. A weightbearing examination should be performed as well. A complete absence of the medial longitudinal arch is often seen. In later stages the head of the talus bone projects outward to the point of a large "lump" in the arch. Observing the patient's feet from behind shows a significant valgus rotation of the heel. From behind, the "too many toes" sign may be seen as well. This is when there is abducution of the forefoot in the transverse plane allowing the toes to be seen from behind. Dysfunction of the posterior tibial tendon can be assessed by asking the patient to stand on his/her toes on the affected foot. If they are unable to, this indicates the disease is in a more advanced stage with the tendon possibly completely ruptured.

Non surgical Treatment
Because of the progressive nature of PTTD, early treatment is critical. If treated soon enough, symptoms may resolve without the need for surgery and progression of the condition can be stopped. If left untreated, PTTD may create an extremely flat foot, painful arthritis in the foot and ankle, and will limit your ability to walk, run, and other activities. Your podiatrist may recommend one or more of these non-surgical treatments to manage your PTTD. Orthotic devices or bracing. To give your arch the support it needs, your foot and ankle surgeon may recommend an ankle brace or a custom orthotic device that fits into your shoe to support the arch. Immobilization. A short-leg cast or boot may be worn to immobilize the foot and allow the tendon to heal. Physical therapy. Ultrasound therapy and stretching exercises may help rehabilitate the tendon and muscle following immobilization. Medications. Nonsteroidal anti-inflammatory drugs (NSAIDs), such as ibuprofen, help reduce the pain and inflammation. Shoe modifications. Your foot and ankle surgeon may recommend changes in your footwear. Adult Acquired Flat Foot

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.