Jesus Pfoutz

Foot Pain In Bones On Top Of Foot

Bursitis Of The Foot Bursal Cyst

Overview

Heel bursitis is specifically the inflammation of the retrocalcaneal bursa, located at the back of the heel, under the Achilles tendon. There are a handful of factors that put you at risk for developing heel bursitis. Long distance runners are prone to heel bursitis, due to repeated stress and pounding upon the heel joint. Engaging in activities such as running, bicycling, walking, jumping, and stair climbing for extended periods of time can overwork the heel joints and start to irritate the bursae. Suddenly changing to a high-intensity workout regime puts a lot of stress on the heel, making it vulnerable to injury. Hard blows/bumps to the heel can immediately damage the bursae, leading to swelling and inflammation. Training at high intensities without stretching and warming up can also contribute to the development of heel bursitis. Even improper footwear can be a big factor. Some other conditions can put you at risk as well, such as: tarsal tunnel syndrome, rheumatoid arthritis, plantar fasciitis, muscle weakness, joint stiffness, and heel spurs. It is very important to get a professional diagnosis if you are having heel pain because heel bursitis is often confused for Achilles tendonitis, and the proper treatments are very different. The pain could also be plantar fasciitis or general heel pain syndrome.

Causes

Inflammation of the bursa causes synovial cells to multiply and thereby increases collagen formation and fluid production. A more permeable capillary membrane allows entrance of high protein fluid. The bursal lining may be replaced by granulation tissue followed by fibrous tissue. The bursa becomes filled with fluid, which is often rich in fibrin, and the fluid can become hemorrhagic. One study suggests that this process may be mediated by cytokines, metalloproteases, and cyclooxygenases.

Symptoms

Nagging ache and swelling in or around a joint. Painful and restricted movement in the affected joint. Pain radiating into the neck or arms when bursitis strikes the shoulder (the most common site). Fever, when associated with an infection.

Diagnosis

In addition to a complete medical history and physical examination, diagnostic procedures for bursitis may include the following. X-ray. A diagnostic test that uses invisible electromagnetic energy beams to produce images of internal tissues, bones, and organs onto film. Magnetic resonance imaging (MRI). A diagnostic procedure that uses a combination of large magnets, radiofrequencies, and a computer to produce detailed images of organs and structures within the body. Ultrasound. A diagnostic technique that uses high-frequency sound waves to create an image of the internal organs. Aspiration. A procedure that involves removal of fluid from the swollen bursa to exclude infection or gout as causes of bursitis. Blood tests. Lab tests that are done to confirm or eliminate other conditions.

Non Surgical Treatment

Treatment for soft tissue conditions focuses on reducing pain and inflammation, and on preserving mobility and preventing disability and recurrence. The treatment for many soft tissue conditions is similar. A doctor's recommendations may include a combination of rest, splints, heat and cold application, medications, physical therapy, or occupational therapy. A person with a soft tissue condition may try several treatments before he or she finds the best one for his or her specific condition.

Surgical Treatment

Surgery to remove the damaged bursa may be performed in extreme cases. If the bursitis is caused by an infection, then additional treatment is needed. Septic bursitis is caused by the presence of a pus-forming organism, usually staphylococcus aureus. This is confirmed by examining a sample of the fluid in the bursa and requires treatment with antibiotics taken by mouth, injected into a muscle or into a vein (intravenously). The bursa will also need to be drained by needle two or three times over the first week of treatment. When a patient has such a serious infection, there may be underlying causes. There could be undiscovered diabetes, or an inefficient immune system caused by human immunodeficiency virus infection (HIV).

Hammer Toes Surgery Options

HammertoeOverview

hammertoes is the general term used to describe an abnormal contraction or "buckling" of the toe because of a partial or complete dislocation of one of the joints of the toe or the joint where the toe joins with the rest of the foot. As the toe becomes deformed, it rubs against the shoe and the irritation causes the body to build up more and thicker skin to help protect the area. The common name for the thicker skin is a corn.

Causes

Shoes that narrow toward the toe may make your forefoot look smaller. But they also push the smaller toes into a flexed (bent) position. The toes rub against the shoe, leading to the formation of corns and calluses, which further aggravate the condition. A higher heel forces the foot down and squishes the toes against the shoe, increasing the pressure and the bend in the toe. Eventually, the toe muscles become unable to straighten the toe, even when there is no confining shoe.

HammertoeSymptoms

A hammertoe may be present but not always painful unless irritated by shoes. One may have enlarged toe joints with some thickened skin and no redness or swelling. However, if shoes create pressure on the joint, the pain will usually range from pinching and squeezing to sharp and burning. In long standing conditions, the dislocated joints can cause the pain of arthritis.

Diagnosis

Hammertoes are progressive, they don?t go away by themselves and usually they will get worse over time. However, not all cases are alike, some hammertoes progress more rapidly than others. Once your foot and ankle surgeon has evaluated your hammertoes, a treatment plan can be developed that is suited to hammertoe your needs.

Non Surgical Treatment

Your podiatrist may recommend conservative treatment techniques for your hammertoes based on your foot structure, which will likely involve removing any thick, painful skin, padding your painful area, and recommending for you shoes that give your curled toes adequate room. Conservative care strategies for this health purpose may also involve the use of Correct Toes, our toe straightening and toe spacing device.

Surgical Treatment

Bone-mending procedures realign the contracted toe by removing the entire deviated small joints of the toe (again, not at the ball of the foot). This allows for the buckled joint to be positioned flat and the bone ends to mend together. Often surgical hardware (fixation) is necessary to keep the bones steady during healing. Hardware options can involve a buried implant inside the toe, or a temporary wire that is removed at a later date. Medical terminology for this procedure is called a proximal interphalangeal joint arthrodesis (fusion), or a distal interphalangeal joint arthrodesis (fusion), with the former being performed in a high majority of cases.

What Is A Tailor'S Bunion?

Overview
Bunion Pain The term hallux valgus actually describes what happens to the big toe. Hallux is the medical term for big toe, and valgus is an anatomic term that means the deformity goes in a direction away from the midline of the body. So in hallux valgus the big toe begins to point towards the outside of the foot. As this condition worsens, other changes occur in the foot that increase the problem. One of those changes is that the bone just above the big toe, the first metatarsal, usually develops too much of an angle in the other direction. This condition is called metatarsus primus varus. Metatarsus primus means first metatarsal, and varus is the medical term that means the deformity goes in a direction towards the midline of the body. This creates a situation where the first metatarsal and the big toe now form an angle with the point sticking out at the inside edge of the ball of the foot. The bunion that develops is actually a response to the pressure from the shoe on the point of this angle. At first the bump is made up of irritated, swollen tissue that is constantly caught between the shoe and the bone beneath the skin. As time goes on, the constant pressure may cause the bone to thicken as well, creating an even larger lump to rub against the shoe.

Causes
A true bunion or hallux valgus results from a drifting inwards of the big toe metatarsal from its normal position closer to the second metatarsal. The bunion is the head of this first metatarsal which produces the prominence on the inner side of the now wider foot. Tendons run circumferentially around the metatarsal and toe. They both move and stabilise the toe under normal circumstances. In a bunion or hallux valgus, with the shift/displacement of the first metatarsal these tendons no longer lie in the correct axis and in fact act as a deforming force, contributing to the bunion condition.

Symptoms
The dominant symptom of a bunion is a big bulging bump on the inside of the base of the big toe. Other symptoms include swelling, soreness and redness around the big toe joint, a tough callus at the bottom of the big toe and persistent or intermittent pain.

Diagnosis
X-rays are the best way to determine the amount of deformity of the MTP joint. Blood work may be required to rule out other diseases that may be associated with bunions such as rheumatoid arthritis. Other tests such as bone scans or MRI's are not usually required.

Non Surgical Treatment
Treatment of hallux valgus nearly always starts with adapting shoe wear to fit the foot. In the early stages of hallux valgus, converting from a shoe with a pointed toe to a shoe with a wide forefoot (or toe box) may arrest the progression of the deformity. Since the pain that arises from the bunion is due to pressure from the shoe, treatment focuses on removing the pressure that the shoe exerts on the deformity. Wider shoes reduce the pressure on the bunion. Bunion pads may reduce pressure and rubbing from the shoe. There are also numerous devices, such as toe spacers, that attempt to splint the big toe and reverse the deforming forces. Bunions Hard Skin

Surgical Treatment
The operation involves removing the enlarged portion of bone. Ligaments and tendons that are too tight around the joint are released. The metatarsal bone in the big toe is then cut and shifted to a normal alignment that also makes the forefoot narrower. The cut bone is held in place with a screw or wire, which is not removed unless it causes problems. The loose, stretched out joint capsule is then tightened completing the soft tissue balance required for your deformity. Both feet can be operated on at the same time, but this does further limit mobility after surgery.

Prevention
The best way to reduce your chances of developing bunions is to wear shoes that fit properly. Shoes that are too tight or have high heels can force your toes together. Bunions are rare in populations that don?t wear shoes. Make sure your shoes are the correct size and that there's enough room to move your toes freely. It's best to avoid wearing shoes with high heels or pointed toes.

Which Are The Main Reasons For Overpronation Of The Feet

Overview

The way your foot rolls when it hits the ground is known as pronation, and if you're a runner, it's essential to know what type of pronator you are. There are three types, normal pronation, overpronation, and underpronation (supination). Figuring out your running pattern will help you buy the right running shoe. Not only will this make running more comfortable, but it can also help prevent future injury.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

Common conditions seen with overpronation include heel pain or plantar fasciitis. Achilles tendonopathy. Hallus Valgus and/or bunions. Patellofemoral pain syndrome. Iliotibial band pain syndrome. Low back pain. Shin splints. Stress fractures in the foot or lower leg.

Diagnosis

The best way to discover whether you have a normal gait, or if you overpronate, is to visit a specialty run shop, an exercise physiologist, a podiatrist or a physical therapist who specializes in working with athletes. A professional can analyze your gait, by watching you either walk or run, preferably on a treadmill. Some facilities can videotape your gait, then analyze the movement of your feet in slow-motion. Another (and less costly) way is to look at the bottom of an older pair of run shoes. Check the wear pattern. A person with a normal gait will generally see wear evenly across the heel and front of the shoe. A person who overpronates will likely see more wear on the OUTside of the heel and more wear on the INside of the forefoot (at the ball). A person who supinates will see wear all along the outer edges of the shoe. You can also learn about your gait by looking at your arches. Look at the shape your wet feet leave on a piece of paper or a flat walking surface.Over-Pronation

Non Surgical Treatment

Podiatrists are trained to effectively detect and management over-pronation. You can get a referral to a podiatrist from your GP if you are presenting with the pain typical of over-pronation, or you can seek private podiatric care in anyone of several registered and accredited practices across the country. Your podiatrist will examine your foot and its shape to determine whether or not over-pronation is the cause of your pain. If your podiatrist determines that it is a problem with arch support that is giving you trouble, then they can effectively remedy that lack of support with orthotics.

Prevention

Exercises to strengthen and stretch supporting muscles will help to keep the bones in proper alignment. Duck stance: Stand with your heels together and feet turned out. Tighten the buttock muscles, slightly tilt your pelvis forwards and try to rotate your legs outwards. You should feel your arches rising while you do this exercise. Calf stretch: Stand facing a wall and place hands on it for support. Lean forwards until stretch is felt in the calves. Hold for 30 seconds. Bend at knees and hold for a further 30 seconds. Repeat 5 times. Golf ball: While drawing your toes upwards towards your shins, roll a golf ball under the foot between 30 and 60 seconds. If you find a painful point, keep rolling the ball on that spot for 10 seconds. Big toe push:

Stand with your ankles in a neutral position (without rolling the foot inwards). Push down with your big toe but do not let the ankle roll inwards or the arch collapse. Hold for 5 seconds. Repeat 10 times. Build up to longer times and fewer repetitions. Ankle strengthener: Place a ball between your foot and a wall. Sitting down and keeping your toes pointed upwards, press the outside of the foot against the ball, as though pushing it into the wall. Hold for 5 seconds and repeat 10 times. Arch strengthener: Stand on one foot on the floor. The movements needed to remain balanced will strengthen the arch. When you are able to balance for 30 seconds, start doing this exercise using a wobble board.

What Are The Chief Causes Of Severs Disease?

Overview

A syndrome of heel pain in skeletally immature individuals. The formal name is: calcaneal apophysitis. The pain is thought to arise from the growth plate (apophysis) and epiphysis. It is thought to be an overuse phenomena. Overloading of the apophysis by both traction (due to Achilles tendon) and compression (sue to weightbearing) have been implicated. Reversible pathologic alterations occur in the apophysis, which cause secondary pain. It is the growth plate and its bone, at the back of the heel bone (calcaneus), whose presence allows for longitudinal growth of calcaneus.

Causes

At birth, most of our foot bones are still made of cartilage, which ossifies (becomes bony) over the first few years of life. At the back of the heel, there is a growth plate that is attached to the main body of the heel bone by a cartilaginous join. At about the age of 14-15 years, this area of cartilage between the growth plate and the heel bone ossifies, fusing the area to the heel. Sever?s disease occurs when there is too much motion or strain across the growth plate, resulting in this area becoming inflamed and painful.

Symptoms

Sever?s disease is more common in boys. They tend to have later growth spurts and typically get the condition between the ages of 10 and 15. In girls, it usually happens between 8 and 13. Symptoms can include pain, swelling, or redness in one or both heels, tenderness and tightness in the back of the heel that feels worse when the area is squeezed. Heel pain that gets worse after running or jumping, and feels better after rest. The pain may be especially bad at the beginning of a sports season or when wearing hard, stiff shoes like soccer cleats. Trouble walking. Walking or running with a limp or on tip toes.

Diagnosis

X-rays are normal in Sever's disease, but your doctor will probably get X-rays to rule out other problems. Treatment consists of non-steroidal anti-inflammatory medications and use of a heel lift to relieve tension on the calcaneal apophysis. In more severe cases, phycical therapy consisting of modalities to relieve the pain, and stretching exercises may be helpful. In extreme cases, castings have been used.

Non Surgical Treatment

First, your child should cut down or stop any activity that causes heel pain. Apply ice to the injured heel for 20 minutes 3 times a day. If your child has a high arch, flat feet or bowed legs, your doctor may recommend orthotics, arch supports or heel cups. Your child should never go barefoot. If your child has severe heel pain, medicines such as acetaminophen (one brand name: Tylenol) or ibuprofen (some brand names: Advil, Motrin, Nuprin) may help.

Exercise

Stretching exercises can help. It is important that your child performs exercises to stretch the hamstring and calf muscles, and the tendons on the back of the leg. The child should do these stretches 2 or 3 times a day. Each stretch should be held for about 20 seconds. Both legs should be stretched, even if the pain is only in 1 heel. Your child also needs to do exercises to strengthen the muscles on the front of the shin. To do this, your child should sit on the floor, keeping his or her hurt leg straight. One end of a bungee cord or piece of rubber tubing is hooked around a table leg. The other end is hitched around the child's toes. The child then scoots back just far enough to stretch the cord. Next, the child slowly bends the foot toward his or her body. When the child cannot bend the foot any closer, he or she slowly points the foot in the opposite direction (toward the table). This exercise (15 repetitions of "foot curling") should be done about 3 times. The child should do this exercise routine a few times daily.

Achilles Tendon Repair Cast Metal

Overview
Achilles Tendon The Achilles tendon forms a thick band joining your calf muscles to your heel. This tendon can be ruptured with rapid movements such as sprinting, lunging and jumping. There are two ways to treat patients who have ruptured their Achilles tendon, non-operative management in a splint or cast, and surgery. Multiple research studies have shown that both approaches have similar outcomes at one year when rehabilitation is started early. After this injury, dedicated rehabilitation of your core muscles, leg strength, balance and agility are essential for you to return to doing all of your regular activities.

Causes
Ruptured Achilles tendons may result from falling from a height or down a hole. Increasing training intensity abruptly, boosting distance, frequency or duration by more than 10% a week. Failing to stretch before and after exercise. Repetitive training, especially uphill running. Deyhydration, which causes cramping and tightness in the calves. Taking antibiotics. Improper footwear. Explosive movements in competitive sports like basketball, soccer or track & field.

Symptoms
Although it's possible to have no signs or symptoms with an Achilles tendon rupture, most people experience pain, possibly severe, and swelling near your heel. An inability to bend your foot downward or "push off" the injured leg when you walk. An inability to stand up on your toes on the injured leg. A popping or snapping sound when the injury occurs. Seek medical advice immediately if you feel a pop or snap in your heel, especially if you can't walk properly afterward.

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
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%. Achilles Tendinitis

Surgical Treatment
This injury is often treated surgically. Surgical care adds the risks of surgery, there are for you to view. After the surgery, the cast and aftercare is typically as follows. A below-knee cast (from just below the knee to the tips of the toes) is applied. The initial cast may be applied with your foot positioned in a downward direction to allow the ends of the tendon to lie closer together for initial healing. You may be brought back in 2-3 week intervals until the foot can be positioned at 90 degrees to the leg in the cast. The first 6 weeks in the cast are typically non-weight bearing with crutches or other suitable device to assist with the non-weight bearing requirement. After 6 weeks in the non-removable cast, a removable walking cast is started. The removable walking cast can be removed for therapy, sleeping and bathing. The period in the removable walking cast may need to last for an additional 2-6 weeks. Your doctor will review a home physical therapy program with you (more on this program later) that will typically start not long after your non-removable cast is removed. Your doctor may also refer you for formal physical therapy appointments. Typically, weight bearing exercise activities are kept restricted for at least 4 months or more. Swimming or stationary cycling activities may be allowed sooner. Complete healing may take 12 months or more.

Work Out Plans For Leg Length Discrepancy Following Hip Replacement

Overview

You may be surprised to learn that most people have one leg that's just a bit longer than the other, or one foot that may be slightly larger. But for children with significant limb length discrepancies, the size difference between limbs can be a serious problem. There are two types of limb length discrepancies. Congenital discrepancy is when babies are born with one leg longer than the other. In some cases both legs are normal, except that one is shorter than the other. In other cases one particular part of the leg is underdeveloped or is absent. Acquired discrepancy is when babies are normal at birth, but some kind of injury happens, such as a severe fracture. The bone growth in that limb slows, which results in a leg length discrepancy that worsens as the child continues to grow.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

As patients develop LLD, they will naturally and even unknowingly attempt to compensate for the difference between their two legs by either bending the longer leg excessively or standing on the toes of the short leg. When walking, they are forced to step down on one side and thrust upwards on the other side, which leads to a gait pattern with an abnormal up and down motion. For many patients, especially adolescents, the appearance of their gait may be more personally troublesome than any symptoms that arise or any true functional deficiency. Over time, standing on one's toes can create a contracture at the ankle, in which the calf muscle becomes abnormally contracted, a condition that can help an LLD patient with walking, but may later require surgical repair. If substantial enough, LLD left untreated can contribute to other serious orthopaedic problems, such as degenerative arthritis, scoliosis, or lower back pain. However, with proper treatment, children with leg length discrepancy generally do quite well, without lingering functional or cosmetic deficiencies.

Diagnosis

There are several orthopedic tests that are used, but they are rudimentary and have some degree of error. Even using a tape measure with specific anatomic landmarks has its errors. Most leg length differences can be seen with a well trained eye, but I always recommend what is called a scanagram, or a x-ray bone length study (see picture above). This test will give a precise measurement in millimeters of the length difference.

Non Surgical Treatment

In order to measure for correction, use a series of blocks or sheets of firm material (cork or neoprene) of varying thickness, e.g., 1/8", 1/4", and 1/2". Place them under the short limb, either under the heel or the entire foot, depending on the pathology, until the patient feels most balanced. Usually you will not be able to correct for the full amount of the imbalance at the outset. The longer a patient has had the LLD, the less likely he or she will be able to tolerate a full correction immediately. This is a process of incremental improvements. 2 inch External Platform Lift Bear in mind that the initial lift may need to be augmented as the patient's musculoskeletal system begins to adjust. It is often recommended that the initial buildup should be 50 percent of the total. After a suitable break-in period, one month say, another 25 percent can be added. If warranted, the final 25 percent can be added a month later. Once you determine how much lift the patient can handle, you then need to decide how to best apply it. There are certain advantages and disadvantages to using either internal or external heel lifts.

Leg Length

Surgical Treatment

Surgical lengthening of the shorter extremity (upper or lower) is another treatment option. The bone is lengthened by surgically applying an external fixator to the extremity in the operating room. The external fixator, a scaffold-like frame, is connected to the bone with wires, pins or both. A small crack is made in the bone and tension is created by the frame when it is "distracted" by the patient or family member who turns an affixed dial several times daily. The lengthening process begins approximately five to ten days after surgery. The bone may lengthen one millimeter per day, or approximately one inch per month. Lengthening may be slower in adults overall and in a bone that has been previously injured or undergone prior surgery. Bones in patients with potential blood vessel abnormalities (i.e., cigarette smokers) may also lengthen more slowly. The external fixator is worn until the bone is strong enough to support the patient safely, approximately three months per inch of lengthening. This may vary, however, due to factors such as age, health, smoking, participation in rehabilitation, etc. Risks of this procedure include infection at the site of wires and pins, stiffness of the adjacent joints and slight over or under correction of the bone?s length. Lengthening requires regular follow up visits to the physician?s office, meticulous hygiene of the pins and wires, diligent adjustment of the frame several times daily and rehabilitation as prescribed by your physician.