HEMIMELIA FIBULAR PDF
Also known as congenital absence of the fibula, congenital fibular deficiency, paraxial fibular hemimelia and aplasia/hypoplasia of the fibula, fibular hemimelia . Fibular hemimelia. Disease definition. Fibular hemimelia is a congenital longitudinal limb deficiency characterized by complete or partial absence of the fibula. consists of shortening or entire absence of the fibula; previously known as fibular hemimelia; the most common congenital long bone deficiency.
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Fibular hemimelia is a birth defect where part or all of the fibular bone is missing, as well as associated limb length discrepancy, foot deformities, and knee deformities. Fibular hemimelia FH is a very rare disorder, occurring in only 1 in 40, births.
Bilateral fibular hemimelia affecting both legs is even rarer. It is currently unknown why fibular hemimelia occurs. Research has demonstrated that if the genes guiding the formation of the limb are activated in an abnormal order, fibular hemimelia can occur.
Other studies have demonstrated that isolated mutations of genes in the forming limb bud can lead to fibular hemimelia. Although genetic abnormalities are linked to FH, the condition is not heritable. The gene mutations and abnormalities are occurring only in the forming limb and not anywhere else, and thus cannot be transmitted to the next generation. Furthermore, the vast majority of children born with this condition have no family history of other birth defects.
Neither the parents of the child with FH nor the child themselves have any increased risk of producing additional children with this or other birth defects. For more information on the etiology and treatment of fibular hemimelia, please see our Fibular Hemimelia FAQ.
Fibular hemimelia leads to limb length discrepancy because the tibia on the affected side grows at a slower rate than the tibia on the opposite side. In addition, many patients with FH have a slower growing femur as well.
This combination of slower tibia and femur growth leads to a limb length discrepancy. Furthermore, children with FH have associated foot deformities that result in a shorter foot which also contributes to the limb length discrepancy.
Fbular foot deformity is one of the hemimelka issues with fibular hemimelia. The foot deformity is related to the abnormal ankle joint as well as missing parts of the foot. The extent of ankle joint deficiency may range from a relatively normal ankle to a very unstable, abnormally-shaped ankle with limited mobility. In normal anatomy, the fibula contributes to the stability of the ankle.
The end of the fibula can be felt as a large bump on the lateral fibluar of our ankles, called the lateral malleolus. Children with fibular hemimelia are missing part or all of their fibula and this bump may be completely missing. When the lateral malleolus is present, it buttresses the talus ankle bone and prevents it from coming out of the joint.
Fibular Hemimelia | Paley Orthopedic & Spine Institute
When it is missing, this stabilizing effect is absent. The ankle joint is primarily made up of yemimelia lower end of the tibia, which is often severely deformed as well in patients with fibular hemimelia. The deformity comes from a bend in the main shaft of the tibia and forms a knuckle-like appearance of the bone often with a skin dimple over the knuckle.
A more subtle deformity of the ankle is one that is often not visible on the x-ray: This malorientation points the foot towards the outside lateral and down posteriorcreating what is called an equinovalgus deformity. This deformity was thought to be due to tight soft tissues such as the Achilles tendon as well as the presence of a fibrous remnant of the fibular bone, known as an anlage.
Paley was the first to identify that the equinovalgus deformity was not caused by tight muscles or the anlage, but rather, fibulr is due to malorientation of fibuular joint itself, which is invisible to fibulxr since the joint is mostly made of cartilage at a young age.
His findings have since been confirmed by both MRI and open surgical examination. In addition to ankle deformities, the foot in patients with FH may also have a deformity between the talus ankle and calcaneus heel bone.
Normally, these two bones hemimmelia connected through the subtalar joint. The ankle joint moves the foot up and down and the subtalar joint moves the foot side-to-side, which is important for walking on uneven ground. The subtalar joint in fibular hemimelia is usually absent because the two bones are fused.
Despite fusion of the bones, side-to-side motion is present in FH due to an abnormal, ball-and-socket shaping of the ankle joint. Therefore, the ankle joint functions for both the ankle he,imelia subtalar joints. This fusion of function is called a subtalar coalition.
If the subtalar coalition connects fiibular talus and calcaneus in a normal position such that the heel is in line with the ankle bone, then it does not contribute to additional deformity of the yemimelia. If, however, this coalition is joined in an abnormal fashion, so that it is tilted outwards valgus or inwards varus then it leads to additional deformity of the foot and ankle.
Paley was one of the first surgeons to recognize the contribution of subtalar coalition deformities to fibular hemimelia which helped form the basis of the SUPERankle procedure, which aims to correct these deformities. The third element of the foot deformity hemmelia the absence of some of the toes, including the foot metatarsal bones the long bones that lead down to the toes.
Normally, there are five metatarsals and five toes, but in fibular hemimelia there may be more or less. Some of the toes may be joined together syndactyly or separated. The big toe may also be pointing inwards, away from the rest of the foot. This particular deformity is called a delta metatarsal and requires a specialized operation to correct.
In fiibular with fibular hemimelia, the knee joint frequently has a valgus deformity knocked knee. This alignment can be related to the lower end of the femur or the upper end of the tibia, or both. Jemimelia is important to realign the knee during treatment of fibular hemimelia. Most patients with FH will also have absent or deformed knee ligaments.
In particular, the anterior cruciate ligament ACL is often under-developed hypoplastic or absent. No initial treatment for this is hemimeliia but ligament reconstruction should be considered if the patient begins to develop problems of knee instability. Children with deficient or absent cruciate ligaments often do very well and can engage actively in various sports that other children their age can participate in.
Skip to content Content Area Fibular hemimelia is heimmelia birth defect where part or all of the fibular bone is missing, as well as associated limb length discrepancy, foot deformities, and knee deformities.
Children with fibular hemimelia present with three major complaints: Limb hemiimelia discrepancy Foot and ankle deformities Knee deformity For more information on the etiology and treatment of fibular hemimelia, please see our Fibular Hemimelia FAQ. Limb Length Discrepancy Fibular hemimelia leads to limb length discrepancy because the tibia on the affected side grows at a slower rate than the tibia on the opposite side.
For more information, see Lengthening for Fibular Hemimelia. Foot Deformity Patient with FH during treatment The foot deformity is one of the biggest issues with fibular hemimelia. Fun in physical therapy In addition to ankle deformities, the foot in patients with FH may also have a deformity between the talus ankle and calcaneus heel bone.
For more information, see Toe Reconstruction. Knee Deformity In patients with fibular hemimelia, the knee joint frequently has a valgus deformity knocked knee.
For more information, see Knee Reconstruction.