Femoroacetabular Impingement: Difference between revisions

Clinically Relevant Anatomy:
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The hip (acetabulofemoral joint) is a synovial joint formed by articulation between the femur and acetabulum of the pelvis. The head of the femur is cover by type II collagen (Hyaline cartilage) and proteoglycan. The acetabulum is the concaved portion of the ball and socket joint. The acetabulum has a ring of fibrocartilage called the labrum that deepens the acetabulum and improves stability of the hip joint. The hip joint is very stability because of the congruence of the femoral head and acetabular labrum as well as the five ligaments that surround the joint. The four extracapsular ligaments are the iliofemoral, ischiofemoral, and pubofemoral ligament attached to the bones of the pelvis. The ligamentum teres (intracapsular ligament) is attached to the acetabular notch and the femoral head.
There are a variety of pathoanatomical lesions that may be the cause of hip and groin pain in athletes. Recently femoroacetabular impingement has been recognizes as a possible cause of hip pain. Femoroacetabular impingement can be subdivided into CAM or pincher impingement, although both typically occur together. CAM impingement is characterized by morphological abnormality of the superior-anterior aspect of the femoral head-neck junction. This increase in bone results in impingement of the superior-anterior aspect of the femur with the superior-anterior aspect of the acetabulum. Pincher impingement is characterized by excessive bone growth of the superior-anterior aspect of the acetabulum which results in impingement in the same area as the CAM lesion. Both CAM and pincher impingement typically result in cartilage delamination and labral lesions. Either Cam or pincher impingement can cause significant disability with athletic activities and/or ADL’s.

Mechanism of Injury / Pathological Process
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Pathological Process CAM Type FAI[edit | edit source]

• Abnormal morphology of the anterior femoral head–neck junction.
• Prominence of the femoral head-neck junction in the anterior/anterosuperior portion of the proximal femur is known as the “pistol grip deformity"
• Younger males. 
• Prominence femoral head-neck junctions produces intermittent and consistent stress (the cam effect) on the associated articular cartilage.
• The shear forces cause damage to both the acetabular labrum and the articular cartilage of the femoral head and acetabulum.

Pathological Process PINCER Type FAI
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• Abnormal acetabulum contacting a normal femur.
• Usually presents in elderly women.
• This can be due to increased acetabular anteversion or coxa profunda.
• Acquired causes can be acetabular protrusio or postsurgical prominent anterosuperior acetabulum.
• Acetabular retroversion: may be seen as a result of trauma or as part of acetabular dysplasia (either in isolation or part of a complex). 
• The acetabular labrum is the first structure to be effected.
• The repetitive impact results in degeneration of the labrum with intrasubstance ganglion formation or ossification of the acetabular rim.
• Ossification can lead to further deepening of the acetabulum and therefore more overcoverage of the femoral head by the acetabulum.
• When cartilage lesions do occur with pincer impingement they are typically focal and involve small areas of the acetabular rim

Clinical Presentation[edit | edit source]

Clinical Findings:[edit | edit source]

• Estimated prevalence: 10-15%
• Onset of hip pain usually in the young 20-40 y/o, usually unilateral
• CAM type: Male:Female 14:1 (avg age: 32).
• Pincer type: Male:Female 1:3 and usually middle age women (avg age: 40)
• Present with groin pain with hip rotation, in sitting position, or during/after sports
• Typically aware of limited hip mobility long before sx.
  

Clinical exam:[edit | edit source]

• Loss of internal rotation out of proportion to the loss of range of movement at other positional extremes.
• Osteoarthosis will usually produce a universal limited range of motion.
• A grinding and popping sensation can be felt when the femur is externally rotated when the hip is maximally abducted
• Restricted range of motion, particularly flexion and internal rotation
• Positive impingement test: for anterior femoroacetabular impingement if forced internal
• rotation/adduction in 90 degreea of flexion reproduces pain.
• For posterior impingement: painful forced external rotation in full extension with legs hanging off the end of table and uninvolved leg flexed.
• Drehmann’s sign: unavoidable passive external rotation while performing hip flexion.
  

Diagnostic Procedures[edit | edit source]

The contour of the femoral head-neck junction as a predictor for the risk of anterior impingement. http://www.jbjs.org.uk/cgi/reprint/84-B/4/556 

Outcome Measures[edit | edit source]

add links to outcome measures here (see Outcome Measures Database)

Management / Interventions
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Surgical management for Femoroacetabular Impingment. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1888771/pdf/IowaOrthopJ-25-164.pdf

Differential Diagnosis
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Key Evidence[edit | edit source]

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Resources
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http://blog.evidenceinmotion.com/evidence/files/Tanzer-ClinOrthopRelRes-2004-HipPainLabralTearOA.pdf

http://www.hss.edu/conditions_Hip-Mobility-Arthroscopy-Patient's-Guide-Femoro-Acetabular-Impingement.asp

Case Studies[edit | edit source]

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Recent Related Research (from Pubmed)[edit | edit source]

References[edit | edit source]

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