Developmental dysplasia of the hip is an abnormal formation of the hip joint in which the ball at the top of the thighbone (femoral head) is not stable in the socket (acetabulum). The hip is a ball and socket joint, and dysplasia can refer to a hip that is subluxatable (unstable if stressed), dislocatable (can come out of socket under stress), and currently dislocated. The severity of instability or looseness varies in each patient. Newborns and infants with DDH may have the ball of his or her hip loosely in the socket, or the hip may be completely dislocated at birth. Developmental dysplasia of the hip may occur during fetal development, at delivery, or after birth.

What Causes Hip Dysplasia/ DDH?

The exact cause of DDH is unknown, but research has discovered several theories and risk factors for hip dysplasia. In the general population, the overall incidence of DDH is approximately 3-4 per 1,000 live births. There is often a genetic component, or familial tendency. Anything that causes cramping or crowding of the fetus inside the uterus (large birth weight, oligohydramnios: decreased amniotic fluid) is thought to cause an increased incidence of DDH. More significant risk factors for DDH include female gender, first born babies, and babies born in the breech position (especially with feet up by the shoulders). Hip dysplasia is approximately 5-9 times more common in females than males. In addition, DDH affects the left hip more often than the right hip (approximately 60% affect only left hip, 20%

only right hip, and 20% are bilateral.) Finally, there is felt to be a slightly higher incidence of DDH when other orthopaedic (torticollis, metatarsus adductus, clubfoot) or connective tissue disorders (Larsen syndrome) are present.

What are the Signs and Symptoms of DDH?

Neonatal Examination: Every newborn will be screened for signs of hip instability. Most commonly, DDH is diagnosed by physical examination in young infants. To test for hip instability, the pediatric orthopaedic surgeon will move the hip around to feel and palpate for a "clunk" as the femoral head slides out of the acetabulum (pelvis). In early infancy, instability is the most reliable sign for DDH. If DDH is suspected based on the physical examination, or if there are several risk factors (female, first born, breech position) a screening hip ultrasound can be performed.

The signs of DDH change will change as the infant grows. There will sometimes be asymmetrical thigh and buttock skin folds or creases. In addition, the legs may appear to be different lengths. The hip may also have a decreased amount of motion, and the toddler or child may walk with an abnormal gait or limp.

 

What is a Hip Ultrasound?

Hip ultrasounds are used to detect DDH in newborns and young infants. The ultrasound can accurately determine the stability of the hip joint, and can be useful in the diagnoses and management of DDH. By using high frequency sound waves, there is no risk of radiation to the baby. Because many of the bones making up the hip joint are made of soft cartilage, not hard bone, plain x-rays are generally not helpful until the baby is 5-6 months old. Ultrasound enables direct imaging of the cartilaginous portions (bones that are not yet ossified) of the hip that cannot be seen on plain radiographs.

 

What is a Pavlik Harness and when is it used in DDH?

Once the diagnosis if DDH has been made, the treatment will depend on the age of the child and the degree of instability. If the ultrasound shows that the hip is subluxating, dislocated, or that the acetabulum is shallow (decreased femoral head coverage), the initial treatment may consist of a Pavlik harness. The Pavlik harness is often used as the initial treatment of hip dysplasia in infants. It is a soft dynamic brace that maintains the hip in flexion (knee up towards the head) and abduction (knee away from the centerline). This position maintains the proper position of the femoral head and allows for "tightening up" of the ligamentous structures as well as for stimulation of normal formation and deepening of the hip socket.

What if the Pavlik Harness does not correct the hip dysplasia?

If there is no improvement in the hip dysplasia with the Pavlik harness, the baby will most likely require a closed reduction and spica casting in the operating room. Once the hips are placed in the correct position, a hard fiberglass body cast is applied. The spica cast will remain on for approximately total of three months. At approximately six weeks, we will remove the spica cast, a new ultrasound will be done to confirm improvement, and a new spica cast will be applied. You will be given instructions on caring for your child in the spica cast. You will also be given a Spelcast car seat that is tolerated well by infants currently in a spica cast. In addition, you will be given a Bradford frame to assist with sleeping, positioning and hygiene.