When the body is under stress or constent inflammation it will deposit calcium to our bones. This added 'bone growth' is designed to relieve the added stress/pressure to our connective tissue. In the
case of a heel spur, added calcium to the heel bone (calcaneus). It usually forms at the bottom underside of the heel bone where the plantar fascia attaches. This calcium deposit forms over a period
of many months. Heel bones can very in shape and size from person to person. An irregular shape heel (calcaneus) can cause the tissue to twist (plantar ligament and Achilles tendon) or a smaller heel
bone will put additional stress on tendons and ligaments.
A major cause of heel spur pain comes from the development of new fibrous tissue around the bony spur, which acts as a cushion over the area of stress. As this tissue grows, a callus forms and takes
up even more space than the heel spur, leading to less space for the thick surrounding network of tendons, nerves, ligaments and supporting tissue. These important structures in the foot have limited
space because of calcium or tissue buildup, which leads to swelling and redness of the foot, and a deep throbbing pain worsened with exercise.
You may or may not experience any symptoms with your heel spurs. It is normally the irritation and inflammation felt in the tissues around your heel spur that cause discomfort. Heel pain is one of
the first things you may notice, especially when pushing off the ball of your foot (stretches the plantar fascia). The pain can get worse over time and tends to be stronger in the morning, subsiding
throughout the day; although it does return with increased activity. A sharp, poking pain in your heel that feels like you're stepping on a stone can often be felt while standing or walking. You will
sometimes be able to feel a bump on the bottom of your heel, and occasionally bruising may appear.
The proper diagnosis of a heel spur often requires an X-ray. To make this process as convenient for his patients as possible, most clinics have an on-site digital X-ray and diagnostic ultrasound
machines. This can make it unnecessary for patients to visit diagnostic imaging centers, allowing patients to receive more expedient treatment.
Non Surgical Treatment
Since heel spurs are not an indication of pain themselves unless fractured, treatment is usually aimed at the cause of the pain which in many cases is plantar fasciosis. Treatment of plantar
fasciiosis includes; rest until the pain subsides, special stretching exercises and if required orthotics may be prescribed.
Though conservative treatments for heel spurs work most of the time, there are some cases where we need to take your treatment to the next level. Luckily, with today?s technologies, you can still
often avoid surgery. Some of the advanced technologies to treat a Heel Spur are Platelet Rich Plasma Therapy. Platelet Rich Plasma Therapy (also known as PRP) is one of several regenerative medicine
techniques that University Foot and Ankle Institute has helped bring to foot and ankle care. This amazing in-office procedure allows the growth factors in the blood to be used to actually begin the
healing process again long after your body has given up on healing the area. Heel Pain Shockwave Therapy. Shockwave therapy is a non-invasive procedure done in the office that allows for new blood to
get to the region of fascia damage and help with healing. Results have been excellent with more than 70 percent of patients getting relief with only one treatment. Topaz for Heal Spurs and pain.
Another minimally invasive technology technique is called Coblation Surgery using a Topaz probe. This minimally invasive procedure involves controlled heating of multiple tiny needles that are
inserted through the skin and into the plantar fascia. This process, like PRP and Shockwave therapy, irritates the fascia enough to turn a chronic problem back into an acute problem, greatly
increasing the chances of healing. Heel Spur Surgery. Endoscopic Plantar Fasciotomy is one surgical procedure that we consider to release the tight fascia. University Foot and Ankle Institute has
perfected an endoscopic (camera guided) approach for fascia release to allow rapid healing and limited downtime with minimal pain.