Developmental Dysplasia of the Hip (DDH) PDF

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SmilingAstrophysics

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Benha University

Pr.Dr Elsayed Mohamady M.

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pediatric problems developmental dysplasia of the hip orthopedic surgery medical presentations

Summary

This presentation provides an overview of common pediatric problems, particularly developmental dysplasia of the hip (DDH). It covers the anatomy of the hip joint, its stability, and various theories of etiology. The presentation also discusses clinical features, tests, investigations, and management strategies, including splintage and surgical procedures for different types and stages. Information on complications, such as avascular necrosis (AVN), is also included, along with treatment considerations for adults.

Full Transcript

# Common pediatric problumes ## Pr.Dr Elsayed Mohamady M. ## Prof. of orthopedic surgery ## Benha University # Developmental Dysplasia of the Hip (DDH) ## ANATOMY OF HIP JOINT - It is a multiaxial ball and socket joint designed for stability and weight bearing. - Movements at the joint include fl...

# Common pediatric problumes ## Pr.Dr Elsayed Mohamady M. ## Prof. of orthopedic surgery ## Benha University # Developmental Dysplasia of the Hip (DDH) ## ANATOMY OF HIP JOINT - It is a multiaxial ball and socket joint designed for stability and weight bearing. - Movements at the joint include flexion, extension, abduction, adduction, medial and lateral rotation, and circumduction. ## ARTICULAR SURFACES: - Head of femur articulates with acetabulum of hip bone to form hip joint. - Head of femur- more than 1½ a sphere, covered with hyaline cartilage. - Acetabulum- lunate shape -notch & fossa. - Except for the fovea, the head of the femur is also covered by hyaline cartilage. A diagram of the Hip Joint is shown, with the following parts labelled: - Synovial Fluid - Ligament and Joint Capsule - Articular Cartilage - Femoral Head - Synovial Membrane - Femur The same diagram is also shown with the following labels: - Acetabular labrum - Acetabular fossa - Lunate surface - Acetabular foramen - Obturator foramen - Transverse acetabular ligament - Pubis - Acetabular branch of obturator artery - Artery of ligament of head - Ligament of the femoral head - Obturator membrane - Ischial tuberosity - Synovial sleeve around ligament - Cut synovial membrane ## STABILITY OF HIP JOINT - Depth of acetabulum - Tension and strength of ligaments & surrounding muscles - Length & obliquity of the neck of femur - High degree of stability & mobility ## DDH - DDH is defined as partial or complete displacement of the femoral head from the acetabular cavity since birth. - It comprises a spectrum of disorders including acetabular dysplasia without displacement, subluxation and dislocation. - Incidence: Females affected 7 times more. - The left hip is more often affected than the right, B/L involvement in 1 in 5 cases. ## Theories of Etiology - GENETIC- hereditary predisposition- generalized joint laxity and shallow acetabula - HORMONAL – common in females, maternal relaxin, high E & P levels - aggravate laxity - INTRAUTERINE MALPOSITION: extended breech favour D/L- "packaging d/o" - POST NATAL FACTORS: uncommon in Asia and India ## CLINICAL FEATURES - Detected at birth or soon after when child starts walking. - Birth -Routine screening for suggestive signs in every newborns especially those at high risk. - Early childhood- Asymmetry of groin fold, click, limitation of movement. - Older child- peculiar gait, no pain. ## CLINICAL TESTS For infants: - Look for asymmerty of groin crease, limitation of movt or audible click. - Special tests include Barlow's and Ortolani's. <start_of_image> えい: - To assess DDH in neonate. - The Barlow maneuver identifes the unstable hip that is in a reduced position that the clinician can passively dislocate. - Here the hip is started reduced and the test will dislocate the hip. A diagram of the Barlow's Test is shown, with the following captions: - The examiner will flex the hip and knees to 90 degrees. - Mild pressure is then placed on the knee while directing the force posteriorly. - The maneuver is performed by bringing the thigh toward the midline (adducting the hip). - The femoral head will be pushed out of the socket. ## Ortolani Test - Ortolani maneuver is performed following Barlow's test to determine if the hip is actually dislocated. - Here the hip is started dislocated and the test will reduce the hip. A diagram of the Ortolani Test is shown, with the following captions: - The Ortolani test is performed by the examiner flexing the hips and knees to 90 degrees. - Pushing the thigh anterior. - Reduction is done by abduction of the hip and pushing the thigh anteriorly. - Reduction is done by abduction of the hip and pushing the thigh anterioly. - The test is positive if a palpable audible clunk is heard from the hip being reduced. ## For Older Child: - Limitation of hip abduction, limb short & ext rotated. - Higher buttock fold, asymmetrical thigh fold, lordosis of the lumbar spine. - Galeazzi's sign: Hips flexed to 70°,knees flexed-compare level -lowering on affected side. - Ortolani's may be +ve. - Trendelenberg's Test is +ve. - U/L D/L -trendelenberg gait. - B/L D/L- waddling gait. A diagram of a child with the following labels is shown: - Downward tilt of the pelvis on affected side - Positive Trendelenburg Gait - Apparent Short Femur - Unequal Knee Height - Positive Galeazzi Sign ## INVESTIGATIONS ### Radiological Imaging - Ultrasonography has replaced radiography for imaging hips in the newborn. Sequential assessment allows monitoring of the hip during a period of splintage. - Plain X-rays: X-ray examination is more useful after the first 6 months, and assessment is helped by drawing lines on the x-ray. ## X-ray findings: - Delayed appearance of ossification center of head of femur. - Retarded development of ossification center. - Sloping acetabulum. - Lateral and upward displacement of ossification centre of femoral head. - A break in Shenton's line. Several x-ray images are shown, with the following labels indicated: - Perkins Line - UO - UI - LO - LI - Hilginreiner's line - Perkins line - Shenton's line Another x-ray image is shown with the following labels: - Normal - CDH - Acetabular Index - Hilgenreiner Line - Shenton Line - rkins Line - Disrupted Shenton Line - Perkins Line The final two x-ray images are shown with the following labels: - 36уг - 11/04 - (a) - 43 Tr - 6/01 - (b) - 20° - 45° ## MANAGEMENT OF DDH - Aim is to achieve reduction of the head into the acetabulum and maintain it until the hip becomes clinically stable and a "round" acetabulum covers the head. - Most cases closed reduction possible, else open reduction done. ## Birth to 6m: Where facilities for ultrasound scanning are available, all newborn infants at risk are examined by USG. 1. If hip is reduced and has a normal cartilaginous outline, no treatment is required, observe for 3-6m. 2. If acetabular dysplasia or hip instability, the hip is splinted in a position of flexion and abduction and USG done at intervals. ## Splintage - Splintage The object of splintage is to hold the hips somewhat flexed and abducted maintainence of reduction). - Von Rosen's splint is an H-shaped splint. - The Pavlik harness is more difficult to apply but gives the child more freedom while still maintaining position. 3 golden rules of splintage are: - the hip must be properly reduced before it is splinted; - extreme positions must be avoided; - the hips should be able to move. Four images are shown: - Two images of babies in various splints. - Two x-ray images of a child in different positions after treatment. ## If ultrasound is not available: nurse them in double napkins or an abduction pillow for the first 6 weeks and observe for first 6m for devpt of acetabular roof. ## Persistent Dislocation : 6-18m - The hip must be reduced – preferably by closed methods but if necessary by operation – and held reduced until acetabular development is satisfactory. - Closed reduction : suitable after 3m and is performed under G/A with an arthrogram to confirm a concentric reduction. - Failure to achieve concentric reduction should lead to abandoning this method in favour of an operative approach at approximately 1 year of age. ## Splintage - Held in a plaster spica at 60 degrees of flexion, 40 degrees of abduction and 20 degrees of internal rotation. - After 6 weeks the spica is changed & stability assessed. - If satisfactory, spica retained for 6w, then abduction splint for 6m. - If concentric reduction is not achieved, open operation is done. ## The psoas tendon is divided; obstructing tissues are removed and the hip is reduced. - It is usually stable in 60 degrees of flexion, 40 degrees of abduction and 20 degrees of internal rotation. A spica is applied and the hip is splinted. ## Persistent Dislocation 18m to 4y: - In older children, arthrography and OR preffered over CR. - Traction: help to loosen the tissues and bring the femoral head down opposite the acetabulum. - Arthrography: anatomy of hip, degree of acetabular dysplasia. - Acetabular reconstruction procedures- If there is marked acetabular dysplasia, either a. - Pericapsular reconstruction of the acetabular roof (Pemberton's operation). - An innominate (Salter) osteotomy. ## Salter's osteotomy Osteotomy of iliac bone, so that acetabulum becomes more horizontal and covers the head. ## Chiari's Osteotomy: Iliac bone transversly divided avobe acetabulum & medially displaced for additional depth. ## Pemberton's osteotomy: The roof is deflected over the femoral head. A diagram of the three types of osteotomies is shown: - Salter's osteotomy - Chiari's osteotomy - Pemberton's osteotomy - Normal ## Splintage - After operation, the hip is held in a plaster spica for 3 months and then left unsupported. ## D/L in children >4yr: - U/L D/L in the child over 8 years often leaves the child with a mobile hip and little pain. This justifies non-intervention, though the child must accept the fact that gait is distinctly abnormal. - B/L D/L the deformity -waddling gait – is symmetrical and therefore not so noticeable; - Operation avoided unless the hip is painful or deformity unusually severe. ## COMPLICATIONS - Failed reduction: The acetabulum remains undeveloped, the femoral head may be deformed, the neck is usually anteverted and the capsule is thickened and adherent. - AVN: ischaemia of the immature femoral head. It may occur at any age and any stage of treatment and is probably due to vascular injury or obstruction d/t forceful reduction and hip splintage in abduction. ## To avoid AVN - Traction should be gentle and in the neutral position; - Soft-tissue release (adductor tenotomy) should precede closed reduction; - If difficulty is anticipated open reduction is preferable. ## Persistent D/L in Adults: - If disability is severe enough - total joint replacement. # THANK YOU

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