Overview

Heel bursitis is also known as retrocalcaneal bursitis. The heel bone is called calcaneus, and the bursa associated with the heel bone is located in the area between the Achilles tendon and calf muscles. When this particular bursa gets aggravated due to constant pressure in the ankle, the posterior end of the heel or the area behind the heel gets inflamed and hence the result is retrocalcaneal bursitis. Strain to the ankles could be caused due to various reasons like extraneous jogging, skipping, or such physical activities that increase the pressure on the ankles.

Causes

Age. Bursitis is more common during middle age due to repetitive activities that put wear and tear on the body over time. Certain activities or occupations. If your job or hobby involves repetitive motion or puts pressure on bursae, you have a higher likelihood of developing bursitis. Reaching overhead, leaning elbows on arm rests, crossing your legs, laying carpet, setting tile, gardening, biking, playing baseball and ice skating are some activities that, when repeated very often, can put you at increased risk of developing bursitis. Sports in which you may get hit in the knee or fall to the knees, such as football, can also increase the risk. Some medical or health conditions. Rheumatoid arthritis, osteoarthritis, gout, thyroid disease, diabetes, alcoholism and some immunosuppressive disorders can increase the risk of bursitis. The reasons can vary, from cartilage breakdown around joints (arthritis) to crystals in the bursa that cause inflammation (gout). Wearing high heels. Posterior Achilles tendon bursitis occurs when the bursa located between the skin and the Achilles tendon (the band of tissue that attaches the calf muscle to the heel bone) becomes inflamed. High heels are often to blame for this, the stiff heel can put direct pressure on the bursa between the skin and the Achilles tendon.

Symptoms

Bursitis involving the heel causes pain in the middle of the undersurface of the heel that worsens with prolonged standing and pain at the back of the heel that worsens if you bend your foot up or down.

Diagnosis

During the physical examination of a patient with calcaneal bursitis, the physician should keep the following considerations in mind. Swelling and redness of the posterior heel (the pump bump) may be clearly apparent. The inflamed area, which may be slightly warm to the touch, is generally tender to palpation. Careful examination can help the clinician to distinguish whether the inflammation is posterior to the Achilles tendon (within the subcutaneous calcaneal bursa) or anterior to the tendon (within the subtendinous calcaneal bursa). Differentiating Achilles tendinitis/tendinosis from bursitis may be impossible. At times, the 2 conditions co-exist. Isolated subtendinous calcaneal bursitis is characterized by tenderness that is best isolated by palpating just anterior to the medial and lateral edges of the distal Achilles tendon. Conversely, insertional Achilles tendinitis is notable for tenderness that is located slightly more distally, where the Achilles tendon inserts on the posterior calcaneus. A patient with plantar fasciitis has tenderness along the posterior aspect of the sole, but he/she should not have tenderness with palpation of the posterior heel or ankle. A patient with a complete avulsion or rupture of the Achilles tendon demonstrates a palpable defect in the tendon, weakness in plantarflexion, and a positive Thompson test on physical examination. During the Thompson test, the examiner squeezes the calf. The test is negative if this maneuver results in passive plantarflexion of the ankle, which would indicate that the Achilles tendon is at least partially intact.

Non Surgical Treatment

Specific treatment for bursitis will be determined by your doctor based on your age, overall health, and medical history. Extent of the condition. Your tolerance for specific medications, procedures, or therapies. Expectations for the course of the condition. Your opinion or preference. The treatment of any bursitis depends on whether or not it involves infection. Aseptic bursitis. A noninfectious condition caused by inflammation resulting from local soft-tissue trauma or strain injury. Treatment may include R.I.C.E. Rest, Ice, Compression, and Elevation. Anti-inflammatory and pain medications, such as ibuprofen or aspirin. Aspiration of the bursa fluid for evaluation in the laboratory. Injection of cortisone into the affected area. Rest. Splints.

Prevention

Maintain proper form when exercising, as well as good flexibility and strength around the ankle to help prevent this condition. Proper stretching of the Achilles tendon helps prevent injury.

Overview

The foot and ankle complex needs to pronate to make the muscles of the hips and legs work correctly. Many muscles that originate from the pelvis attach to both the upper and lower leg. For example, the gluteus maximus and tensor fascia latae (TFL) attach to the outside of the lower leg via the iliotibial band, while the abductors attach to the outside of the femur. When the foot pronates, the whole leg rotates inward toward the center line of the body. This inward rotation pulls the attachment of the glutes, TFL and abductors away from the origin of these muscles up on the pelvis which creates tension. Similarly, the muscles of the lower leg such as the peroneals, tibialis anterior and tibialis posterior originate on the lower leg and attach to the underside of the foot. When the foot flattens out, as it does in pronation, this pulls the insertion of these muscles away from their origin on the tibia. This action also creates tension in the muscles.

Causes

There are many biomechanical issues that can contribute to excessive pronation, including weak foot intrinsic muscles, limited ankle dorsiflexion mobility and calf flexibility, weak ankle invertor muscles (e.g. posterior tibialis), weak forefoot evertor muscles (peroneus longus), poor hip strength and control, Anterior pelvic tilting, heel InversionIn a person who overpronates, the heel bone goes into an everted position meaning that it turns out away from the midline of the body. The opposite motion of eversion is inversion. Inversion is a motion that needs to be controlled to prevent the foot from excessively pronating.

Symptoms

Over-pronation is a condition where the arch flattens out which makes the feet roll inward while walking. This condition is also known as flat feet. It imposes extreme additional stresses on the plantar fascia, a fibrous band of tissue which connects the heel to the forefoot. Over-pronation makes walking a painful experience because of the additional strain on the calves, heel and/or back. Treatment for over-pronation involves the use of specially-made orthotics which offers arch support and medial rear foot posting as corrective measures.

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.

Non Surgical Treatment

The way a foot orthotic works is by altering the weight-bearing surface of the foot. The simulated foot improvement is only possible when standing still with full weight applied. Orthotics are of little help through most of the actual walking cycle. observationPatients may experience some symptom relief, but the orthotic cannot correct the internal osseous misalignment. Over-the-counter foot orthotics are usually of little help and wear out quickly. Custom-made foot orthotics, obtained through your doctor's office, are generally expensive. Though they last longer and have less chance of ill-effects than OTC brands, they still need to be replaced often. Over a lifetime, an individual can spend several thousands of dollars in total costs associated with orthotics and see little or no results. This is because orthotics only work when you are wearing them and do not treat the cause of the problem. In many cases, the external pressure points created by orthotics can cause more problems than solutions. Blisters, sore feet, sore joints and many other long-term complications can arise as a consequence of wearing orthotics.

Prevention

Pronation forces us to bear most of our weight on the inner border of our feet. Custom-made orthotics gently redistributes the weight so that the entire foot bears its normal share of weight with each step we take. The foot will not twist out at the ankle, but will strike the ground normally when the orthotics is used. This action of the custom-made orthotics will help to prevent shin splints, ankle sprains, knee and hip pain, lower back pain, nerve entrapments, tendonitis, muscle aches, bunions, generalized fatigue, hammer toes, and calluses.

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
People who commonly fall victim to Achilles rupture or tear include recreational athletes, people of old age, individuals with previous Achilles tendon tears or ruptures, previous tendon injections or quinolone use, extreme changes in training intensity or activity level, and participation in a new activity. Most cases of Achilles tendon rupture are traumatic sports injuries. The average age of patients is 29-40 years with a male-to-female ratio of nearly 20:1. Fluoroquinolone antibiotics, such as ciprofloxacin, and glucocorticoids have been linked with an increased risk of Achilles tendon rupture. Direct steroid injections into the tendon have also been linked to rupture. Quinolone has been associated with Achilles tendinitis and Achilles tendon ruptures for some time. Quinolones are antibacterial agents that act at the level of DNA by inhibiting DNA Gyrase. DNA Gyrase is an enzyme used to unwind double stranded DNA which is essential to DNA Replication. Quinolone is specialized in the fact that it can attack bacterial DNA and prevent them from replicating by this process, and are frequently prescribed to the elderly. Approximately 2% to 6% of all elderly people over the age of 60 who have had Achilles ruptures can be attributed to the use of quinolones.

Symptoms
Patients with an Achilles tendon rupture will often complain of a sudden snap in the back of the leg. The pain is often intense. With a complete rupture, the individual will only be ambulate with a limp. Most people will not be able to climb stairs, run, or stand on their toes. Swelling around the calf may occur. Patients may often have had a sudden increase in exercise or intensity of activity. Some patients may have had recent corticosteroid injections or use of fluoroquinolone antibiotics. Some athletes may have had a prior injury to the tendon.

Diagnosis
Laboratory studies usually are not necessary in evaluating and diagnosing an Achilles tendon rupture or injury, although evaluation may help to rule out some of the other possibilities in the differential diagnosis. Plain radiography. Radiographs are more useful for ruling out other injuries than for ruling in Achilles tendon ruptures. Ultrasonography of the leg and thigh can help to evaluate the possibility of deep venous thrombosis and also can be used to rule out a Baker cyst, in experienced hands, ultrasonography can identify a ruptured Achilles tendon or the signs of tendinosis. Magnetic resonance imaging (MRI). MRI can facilitate definitive diagnosis of a disrupted tendon and can be used to distinguish between paratenonitis, tendinosis, and bursitis.

Non Surgical Treatment
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
In general, for complete tear of the tendon, surgery is recommended. For partial tears, nonsurgical treatment is recommended. However, the selection of treatment depends on the patient, age, level of activity, and other risk factors. Surgery for Achilles tendon rupture is now routine and well established. Surgery is generally suggested for the young, healthy and active individuals. For athletes, surgery is often the first choice of treatment. The Achilles tendon can be repaired surgically by either a closed or open technique. With the open technique, an incision is made to allow for better visualization and approximation of the tendon. With the closed technique, the surgeon makes several small skin incisions through which the tendon is repaired. Irrespective of type of treatment, a short leg cast (plaster) is applied on the operated ankle after completion of the procedure. The advantages of a surgical approach includes a decreased risk of re-rupture rate (0%-5%) the majority of individuals can return to their original sporting activities (within a short time), and most regain their strength and endurance. Disadvantages of a surgical approach include hospital admission, wound complications (for example, skin sloughing, infection, sinus tract formation, sural nerve injury), higher costs, and hospital admission.