The heel spur (or calcaneal spur) is a nail-like growth of calcium around the ligaments and tendons of the foot where they attach to the heel bone. The spur grows from the bone and into the flesh of the foot. A heel spur results from an anatomical change of the calcaneus (heel bone). This involves the area of the heel and occasionally, another disability, such as arthritis. The heel bone forms one end of the two longitudinal arches of the foot. These arches are held together by ligaments and are activated by the muscles of the foot (some of which are attached beneath the arches and run from the front to the back of the foot). These muscles and ligaments, like the other supporting tissues of the body, are attached in two places. Many are attached at the heel bone. The body reacts to the stress at the heel bone by calcifying the soft tissue attachments and creating a spur.
When a bone is subjected to pressure, rubbing, or other stress over long periods, it tries to repair itself by building extra bone. This extra bone is what is referred to as a ?spur?. Many form as part of the aging process when cartilage breaks down in the joints.
The Heel Spur itself is not thought to be painful. Patients who experience pain with Plantar Fasciitis are suffering from inflammation and irritation of the plantar fascia. This the primary cause of pain and not the Heel Spur. Heel Spurs form in some patients who have plantar fasciitis, and tend to occur in patients who have had the problem for a prolonged period of time. While about 70 % of patients with plantar fasciitis have a heel spur, X-rays also show about 50 % of patients with no symptoms of plantar fasciitis also have a heel spur.
A heel spur is often seen on X-ray as a bony protrusion, which can vary in size. However, because a Heel Spur only indicates increased load on the plantar fascia, and not pain, an ultra sound may be required to assess other actual cause of the heel pain such and may include checking to see if the plantar fascia is inflamed or degenerated.
Non Surgical Treatment
In extreme cases, a doctor may recommend surgery for the removal of heel spurs. Fortunately, this is the exception rather than the rule. Most cases can be resolved with a combination of icing, rest, foot stretches and supporting the foot with an orthodic shoe insert specifically designed for this condition. We recommend that you continue on to our article on Heel Spur Treatment to discover the best, speediest and most affordable methods of resolving this ailment without invasive medical procedures.
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.
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.
Diseases such as arthritis may lead to chronic inflammation in the tissue surrounding the heel and over time this can lead to the accumulation of calcium deposits. Ankylosing spondylitis, for example, is one particular form of arthritis that frequently develops along with heel spurs. This condition can damage bones all over the body and even lead to the fusion of spinal vertebrae.
Pain and discomfort associated with heel spurs does not occur from the spur itself. The bone growth itself has no feeling. However, as you move, this growth digs into sensitive nerves and tissue along the heel of the foot, resulting in severe pain. Pain can also be generated when pushing off with the toes while walking. Swelling along the heel is also common.
Your doctor, when diagnosing and treating this condition will need an x-ray and sometimes a gait analysis to ascertain the exact cause of this condition. If you have pain in the bottom of your foot and you do not have diabetes or a vascular problem, some of the over-the-counter anti-inflammatory products such as Advil or Ibuprofin are helpful in eradicating the pain. Pain creams, such as Neuro-eze, BioFreeze & Boswella Cream can help to relieve pain and help increase circulation.
Non Surgical Treatment
The heel pain associated with heel spurs and plantar fasciitis may not respond well to rest. If you walk after a night's sleep, the pain may feel worse as the plantar fascia suddenly elongates, which stretches and pulls on the heel. The pain often decreases the more you walk. But you may feel a recurrence of pain after either prolonged rest or extensive walking. If you have heel pain that persists for more than one month, consult a health care provider. He or she may recommend conservative treatments such as stretching exercises, shoe recommendations, taping or strapping to rest stressed muscles and tendons, shoe inserts or orthotic devices, physical therapy. Heel pain may respond to treatment with over-the-counter medications such as acetaminophen (Tylenol), ibuprofen (Advil), or naproxen (Aleve). In many cases, a functional orthotic device can correct the causes of heel and arch pain such as biomechanical imbalances. In some cases, injection with a corticosteroid may be done to relieve inflammation in the area.
Approximately 2% of people with painful heel spurs need surgery, meaning that 98 out of 100 people do well with the non-surgical treatments previously described. However, these treatments can sometimes be rather long and drawn out, and may become considerably expensive. Surgery should be considered when conservative treatment is unable to control and prevent the pain. If the pain goes away for a while, and continues to come back off and on, despite conservative treatments, surgery should be considered. If the pain really never goes away, but reaches a plateau, beyond which it does not improve despite conservative treatments, surgery should be considered. If the pain requires three or more injections of "cortisone" into the heel within a twelve month period, surgery should be considered.