What Might Cause Arch Pain ? Overview
Pain across the bottom of the foot at any point between the heel and the ball of the foot is often referred to as "arch pain." Although this description is non-specific, most arch pain is due to strain or inflammation of the plantar fascia (a long ligament on the bottom of the foot). This condition is known as plantar fasciitis and is sometimes associated with a heel spur. In most cases, arch pain develops from overuse, unsupportive shoes, weight gain, or acute injury. If arch pain persists beyond a few days, see a foot and ankle surgeon for treatment to prevent this condition from becoming worse.
The normal arch is made up of bones and joints, which are held tightly together, in a precise relationship. When this relationship is subjected to repeated abnormal weight, or the normal weight of a lifetime, the force breaks up this normal relationship, causing bones to shift and joints to buckle. This allows the arch to collapse, and produces pain. The ability of the arch to absorb the shock of each step is reduced, so that continued walking will eventually produce pain in the knee, hip, and lower back. All four of the above categories will eventually cause this to happen. Arch pain can also be a manifestation of heel spur or nerve injury in the heel area. There are also certain types of benign growths that can cause arch pain i.e. Plantar fibromatosis.
Flat feet can exhibit a variety of symptoms, from mild to severe. The extent of the flat foto does not always correlate with the extent of symptoms. Patients may complain of arch pain and heel pain. Commonly there is pain on the outside of the foot, where the foot meets the ankle as the collapse foot abuts against the ankle. Muscle cramps within the foot, and onto the leg (shin splints) may occur. In general, patients have pain with activity, such as walking or running. The pain may be deep and focal to a generalized widespread achy feeling. Irritation from shoe gear can cause redness and swelling. Common reasons patients seek treatment are pain, interference with walking or activities, difficulty fitting shoes, swelling, and notice a change in appearance of the foot and/or unsightly appearance.
The doctor will examine your feet for foot flexibility and range of motion and feel for any tenderness or bony abnormalities. Depending on the results of this physical examination, foot X-rays may be recommended. X-rays are always performed in a young child with rigid flatfeet and in an adult with acquired flatfeet due to trauma.
Non Surgical Treatment
A new ankle foot orthosis known as the Richie Brace, offered by PAL Health Systems, has proven to show significant success in treating Stage II posterior tibial dysfunction and the adult acquired flatfoot. This is a sport-style brace connected to a custom corrected foot orthotic device that fits well into most forms of lace-up footwear, including athletic shoes. The brace is light weight and far more cosmetically appealing than the traditional ankle foot orthosis previously prescribed.
A procedure that involves placing a metallic implant (most commonly) at the junction where the foot meets the ankle. This device causes the physical blockade that prevent the collapse. It is a procedure that is only indicated for mobile feet, and should not be used with rigid flat feet. Dr. Blitz finds this procedure better for younger patients with flexible flat feet where the bone alignment is still developing so that the foot can adapt to function in a better aligned position.
Gastroc stretch. Stand on the edge of a step. Rise slowly on your toes. Lower yourself slowly as far as you can until you feel a stretch in your calf. Don?t roll your foot inward or outward. Hold for 1-2 seconds. Reps:10-20 (stop before you fatigue). Soleus stretch. Same as above, but start with your knee bent so that you feel a slight stretch in your calf or achilles. Maintain the angle of your knee throughout the stretch. Bicycle stretch. Lie on your side. Keeping your top leg straight, bring your knee toward your nose until you feel a slight stretch in the hamstring. Maintaining this angle at your hip, start pretending you are pedalling a bicycle with the top leg. Make sure you feel a slight stretch each time your knee is straight. Reps: 10-30 for each leg. If you feel any pops or clicks in your hip or back, try raising the top leg a little (making the thighs further apart) to eliminate the popping. Foot Intrinsic Exercises. Assisted metatarsal head raising. Sit in a chair. Find the bumps at the ball of your foot just before your big toe and just before the little toe. These are the first (big toe) and fifth (little toe) metatarsal heads. Place your second and third fingers from one hand under the first metatarsal head, and the second and third fingers from the other hand under the fifth metatarsal head. Now lay the thumbs from each hand in a diagonal across your toes so that they form a right angle meeting at the nail of the second toe. Your hands are now in position to assist your toes. Keep your toes straight, with the toe pads on the floor. Use your fingers to help raise all the metatarsal heads (the ball of your foot). Do not let your toes curl under keep them long. Now relax. Reps 7-10 for each foot. As this exercise gets easier, let your fingers do less of the work until your toes can How do you strengthen your Achilles tendon? the exercise unassisted. This can take up to three weeks. When your strength has improved to this point, you can progress to the following three exercises, which are best done in stocking feet on a slippery floor. Active metatarsal head raising. Stand with your weight on both feet. Raise your metatarsal heads (the ball of your foot) while keeping your toes from curling under and maintaining your heel on the ground. Relax. Reps 6-7. Do one foot at a time. If you do more reps than you are ready for, you may well develop cramping in your foot. I once had a client who thought if seven reps were good, 10 were better. For good measure, she did the 10 reps 10 times in a day, and then she was unable to walk the next day from having used a set of muscles she had never exercised before. Don?t overdo it.
Functional Leg Length Discrepancy Pelvic Obliquity Overview
Leg length discrepancy (LLD) or Lower limb discrepancy is a condition of unequal lengths of the lower limbs. The discrepancy may be in the femur, or tibia, or both. In some conditions, the whole side is affected, including the upper limbs. However, it is the discrepancy of the lower limbs that causes problems with ambulation, and the focus of this discussion will be about lower limb discrepancy.
Leg length discrepancies can be caused by: hip and knee replacements, lower limb injuries, bone diseases, neuromuscular issues and congenital problems. Although discrepancies of 2 cm or less are most common, discrepancies can be greater than 6 cm. People who have LLD tend to make up for the difference by over bending their longer leg or standing on the toes of their shorter leg. This compensation leads to an inefficient, up and down gait, which is quite tiring and over time can result in posture problems as well as pain in the back, hips, knees and ankles.
The symptoms of limb deformity can range from a mild difference in the appearance of a leg or arm to major loss of function of the use of an extremity. For instance, you may notice that your child has a significant limp. If there is deformity in the extremity, the patient may develop arthritis as he or she gets older, especially if the lower extremities are involved. Patients often present due to the appearance of the extremity (it looks different from the other side).
The only way to decipher between anatomical and functional leg length inequalities (How do you treat Achilles tendonitis? can have both) is by a physical measurement and series of biomechanical tests. It is actually a simple process and gets to the true cause of some runner?s chronic foot, knee, hip and back pain. After the muscles are tested and the legs are measured it may be necessary to get a special X-ray that measures both of your thighs (Femurs) and legs (Tibias). The X-ray is read by a medical radiologist who provides a report of the actual difference down to the micrometer leaving zero room for error. Once the difference in leg length is known, the solution becomes clear.
Non Surgical Treatment
Heel lifts Raise the heel on the shorter leg. It is applied either to the heel of the custom orthotic or to the inside of the shoe under the insole at the heel. Generally if the discrepancy is greater than 3/8 of an inch, the modification is applied externally on the footwear. Custom made orthotics help to provide proper support and alignment to the foot, controlling conditions such as over pronation. Orthopedic Footwear, properly fitted, to which a lift might be applied inside or out.
For discrepancies over five centimeters, more aggressive surgical procedures-specifically leg lengthening procedures-are typically required. The specifics of this operative procedure are beyond the scope of this informational page, but your child's physician will be able to discuss the details in reference to your child's specific problems when considered appropriate.