How To Treat Hammer Toes At Home
Generally a hammertoe or mallet toe is caused by wearing high heels or shoes that are too small around the toe area, so it?s no surprise that it is mostly women who suffer from them. A Hammer toe has a bend in the middle joint of the toe whereas a mallet toe has a bend in the upper joint of the affected toe. The way someone walks (gait) can also lead to the formation of hammertoes and mallet toes as can overuse and injury. Sometimes a deep blister will form over the bent joint and often after some time calluses and corns will develop on the affected toe joint. People with arthritis, diabetes or neuromuscular conditions are also more likely to develop a hammer toe or mallet toe.
The incorrect position of the person's toes inside of their shoes also causes the formation of calluses or corns on the surfaces of their toes which are constantly bent as they are wearing inappropriate shoes because the surfaces are consistently rubbing against the hard materials of the interior of the shoes causing regular friction.
Symptoms of a hammertoe are usually first noticed as a corn on the top of the toe or at the tip which produces pain with walking or wearing tight shoes. Most people feel a corn is due to a skin problem on their toes, which in fact, it is protecting the underlying bone deformity. A corn on the toe is sometimes referred to as a heloma dura or heloma durum, meaning hard corn. This is most common at the level of the affected joint due to continuous friction of the deformity against your shoes.
Your doctor is very likely to be able to diagnose your hammertoe simply by examining your foot. Even before that, he or she will probably ask about your family and personal medical history and evaluate your gait as you walk and the types of shoes you wear. You'll be asked about your symptoms, when they started and when they occur. You may also be asked to flex your toe so that your doctor can get an idea of your range of motion. He or she may order x-rays in order to better define your deformity.
Non Surgical Treatment
If the toes are still mobile enough that they are able to stretch out and lay flat, the doctor will likely suggest a change of footwear. In addition, she may choose to treat the pain that may result from the condition. The doctor may prescribe pads to ease the pain of any corns and calluses, and medications ranging from ibuprofen to steroid injections for the inflammation and pain. Other options for non-surgical treatments include orthotic devices to help with the tendon and muscle imbalance or splinting to help realign the toe. Splinting devices come in a variety of shapes and sizes but the purpose of each is the same: to stretch the muscles and tendon and flatten the joint to remove the pain and pressure that comes from corns.
Ordinary hammertoe procedures often use exposed wires which extend outside the end of toes for 4-6 weeks. Common problems associated with wires include infection where the wires come out of the toe, breakage, pain from hitting the wire, and lack of rotational stability causing the toe to look crooked. In addition, wires require a second in-office procedure to remove them, which can cause a lot of anxiety for many patients. Once inserted, implants remain within the bone, correcting the pain and deformity of hammertoes while eliminating many of the complications specific traditional treatments.
Although these following preventative tips may be able to reverse a painful bunion or hammertoe deformity, they are more effective when applied to young people, and are less effective the longer a person has progressed with their bunion or hammertoe deformity. This is hammertoe because the joints in our bodies get used to the positions they are most frequently held in, and our feet are no different, with our 12 to 15 hours a day in restrictive footwear, with tapering toeboxes, heel elevation, and toespring.
Reasons Behind Functional Leg Length Discrepancy
Many people don?t realise it, but one of their legs is longer (or shorter) than the other one. Over time, this can lead to degenerative osteoarthritis (OA) in the hip joint requiring a hip replacement. But the surgeon can?t just take the old hip joint out and put the new implant in. Careful planning, special surgical techniques, and adjusting of the implant component parts are important in preventing continuation or even worsening of the leg length discrepancy.
Some limb-length differences are caused by actual anatomic differences from one side to the other (referred to as structural causes). The femur is longer (or shorter) or the cartilage between the femur and tibia is thicker (or thinner) on one side. There could be actual deformities in one femur or hip joint contributing to leg length differences from side to side. Even a small structural difference can amount to significant changes in the anatomy of the limb. A past history of leg fracture, developmental hip dysplasia, slipped capital femoral epiphysis (SCFE), short neck of the femur, or coxa vara can also lead to placement of the femoral head in the hip socket that is offset. The end-result can be a limb-length difference and early degenerative arthritis of the hip.
Patients with significant lower limb length discrepancies may walk with a limp, have the appearance of a curved spine (non-structural scoliosis), and experience back pain or fatigue. In addition, clothes may not fit right.
Infants, children or adolescents suspected of having a limb-length condition should receive an evaluation at the first sign of difficulty in using their arms or legs. In many cases, signs are subtle and only noticeable in certain situations, such as when buying clothing or playing sports. Proper initial assessments by qualified pediatric orthopedic providers can reduce the likelihood of long-term complications and increase the likelihood that less invasive management will be effective. In most cases, very mild limb length discrepancies require no formal treatment at all.
Non Surgical Treatment
A properly made foot orthotic can go a long way in substituting additional millimeters or centimeter on the deficient side. Additional full length inserts are added to the shorter side bringing the runner closer to symmetrical. Heel lifts do not work in runners because when you run you may land on your heel but the rest of the time you are on your forefoot then your toes pushing off. The right custom-made, biomechanical orthotic can address the underlying cause of your pain. Abnormal joint position, overpronation or foot rigidity can be addressed and the biomechanics normalized. San Diego Running Institute orthotics are custom molded to your foot and are designed with your specific body weight, leg length discrepancy, and activity in mind. The restoration of correct mechanical function takes the abnormal stress from the uneven side and allows the body to heal naturally.
Surgical operations to equalize leg lengths include the following. Shortening the longer leg. This is usually done if growth is already complete, and the patient is tall enough that losing an inch is not a problem. Slowing or stopping the growth of the longer leg. Growth of the lower limbs take place mainly in the epiphyseal plates (growth plates) of the lower femur and upper tibia and fibula. Stapling the growth plates in a child for a few years theoretically will stop growth for the period, and when the staples were removed, growth was supposed to resume. This procedure was quite popular till it was found that the amount of growth retarded was not certain, and when the staples where removed, the bone failed to resume its growth. Hence epiphyseal stapling has now been abandoned for the more reliable Epiphyseodesis. By use of modern fluoroscopic equipment, the surgeon can visualize the growth plate, and by making small incisions and using multiple drillings, the growth plate of the lower femur and/or upper tibia and fibula can be ablated. Since growth is stopped permanently by this procedure, the timing of the operation is crucial. This is probably the most commonly done procedure for correcting leg length discrepancy. But there is one limitation. The maximum amount of discrepancy that can be corrected by Epiphyseodesis is 5 cm. Lengthening the short leg. Various procedures have been done over the years to effect this result. External fixation devices are usually needed to hold the bone that is being lengthened. In the past, the bone to be lengthened was cut, and using the external fixation device, the leg was stretched out gradually over weeks. A gap in the bone was thus created, and a second operation was needed to place a bone block in the gap for stability and induce healing as a graft. More recently, a new technique called callotasis is being use. The bone to be lengthened is not cut completely, only partially and called a corticotomy. The bone is then distracted over an external device (usually an Ilizarov or Orthofix apparatus) very slowly so that bone healing is proceeding as the lengthening is being done. This avoids the need for a second procedure to insert bone graft. The procedure involved in leg lengthening is complicated, and fraught with risks. Theoretically, there is no limit to how much lengthening one can obtain, although the more ambitious one is, the higher the complication rate.