Blount's disease

Blount's disease is a growth disorder of the tibia (shin bone) that causes the lower leg to angle inward, resembling a bowleg.

Causes
Blount's disease occurs in young children and adolescents. The cause is unknown but is thought to be due to the effects of weight on the growth plate. The inner part of the tibia, just below the knee, fails to develop normally, causing angulation of the bone.

Unlike bowlegs, which tend to straighten as the child develops, Blount's disease is progressive and the condition worsens. It can cause severe bowing of the legs and can affect one or both legs.

This condition is more common among African-American children. It is also associated with obesity and early walking. There does not appear to be an obvious genetic factor.

Symptoms
Bowing of one or both legs that may:
 * Be rapidly progressive
 * Appear asymmetric
 * Primarily occur just below the knee

Signs and Tests
Physical examination shows that the lower legs angle inward. An x-ray of the knee and the lower leg confirms the diagnosis.

Treatment
Children who develop severe bowing before the age of 3 may be treated with bracing. If bracing fails, or if bowing is not detected until the child is older, surgery is usually required. Surgery may involve cutting the shin bone (tibia) to realign it, and sometimes lengthen it as well.

Other times, the growth of just the outer half of the tibia can be surgically restricted to allow the child’s natural growth to reverse the bowing process. This second, much smaller surgery is most effective in children with less severe bowing and significant growth remaining.

Prognosis
Return to normal function and cosmetic appearance is expected if the knee can be properly aligned.

Complications
Failure to treat Blount's disease may lead to progressive deformity.

Blount's disease may come back after surgery, especially in younger children. Because of the bowing, a leg-length discrepancy may result. This may result in disability if the discrepancy is significant (greater than 1 inch) and is not treated.