AssessmentsDevelopmental dysplasia of the hip
Developmental dysplasia of the hip
USMLE® Step 1 style questions USMLE
USMLE® Step 2 style questions USMLE
A 1-month-old infant is brought in by her parents for a newborn examination. She was delivered vaginally with no complications. This was her mother's first pregnancy. Physical examination is otherwise normal, but her left leg appears shorter than her right and a clunk is noted during the Ortolani technique. Which of the following is the most likely treatment for her diagnosis?
Content Reviewers:Rishi Desai, MD, MPH
Contributors:Evan Debevec-McKenney, Marisa Pedron, Evode Iradufasha, MD, Elizabeth Nixon-Shapiro, MSMI, CMI
Typically, the problem is present at birth, but sometimes it appears later as the bones develop over time.
The main job of the joint capsule is to hold articulating bones together and make sure the joint stays stable when the hip is moving.
At the bottom of the acetabulum known as the acetabular fossa, arises a ligament, called the ligamentum teres that attaches to the fovea capitis, which is a depression found on the tip of the femoral head.
This ligament helps with joint stability especially during hip flexion and abduction.
Now, the edge of the acetabulum has a thick bony circular rim covered by a ring of cartilage known as the acetabular labrum.
At its lower end, there’s a depression called the acetabular notch, which is covered by the transverse ligament which fills the gap within the circumference of the acetabulum.
Now, the normal development of a hip joint requires that the femoral head stays fitted within the acetabulum so that they both grow together keeping their sizes and shapes proportional.
In congenital hip dysplasia, the femoral head dislocates out of its acetabulum during development, and as a result, the ball and the socket grow out of proportion to one another, so that they’re unable to form a normal stable joint.
The cause of the dislocation isn’t always known. But one situation that can give rise to the problem is when too much mechanical force