A heel spur is a calcium deposit causing a bony protrusion on the underside of the heel bone. On an X-ray, a heel spur can extend forward by as much as a half-inch. Without visible X-ray evidence, the condition is sometimes known as "heel spur syndrome." Although heel spurs are often painless, they can cause heel pain. They are frequently associated with plantar fasciitis, a painful inflammation of the fibrous band of connective tissue (plantar fascia) that runs along the bottom of the foot and connects the heel bone to the ball of the foot. Treatments for heel spurs and associated conditions include exercise, custom-made orthotics, anti-inflammatory medications, and cortisone injections. If conservative treatments fail, surgery may be necessary.
There exists a membrane that covers most of the bone along the heel. When this membrane gets torn repeatedly due to straining of the muscles in the foot, the calcium deposits that lead to heel spurs are more likely to occur.
Heel spurs often do not show any symptoms. If you have intermittent or chronic pain when you walk, run or jog, it may be heel spur. There will be inflammation the point where spur formation happens. The pain is caused by soft tissue injury in the heel. Patients often describe the pain as a pin or knife sticking to the heel. The pain is more specially in the morning when the patient stands up for the first time.
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
Ice and use arch support . If you can localize the spur, cut a hole in a pad of felt and lay the hole over the spur. This supports the area around the spur and reduces pressure on it. Massage the spur. Start gently with your thumb and gradually increase the pressure until you?re pushing hard directly on the spur with your knuckle or another firm object. Even it if hurts, it should help. Arch support. Build up an arch support system in your shoes. Try to equalize the pressure of your body weight throughout your arch and away from the plantar area. Use a ?cobra pad? or other device that supports the arch but releases pressure on the painful area. If homemade supports do not work, see a podiatrist about custom orthotics.
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.
In 2002, researchers attempted to compare the effects of various running techniques on pronation and resulting injuries like stress fractures and heel spurs. They suggested that it is possible to teach runners to stride in such a way as to minimize impact forces. One way is to lower running speed. Another is to take longer rest periods following a run.