Cam morphology refers to an abnormal morphology of the femoral head-neck junction interlinked with an osseous asphericity. It is one possible causes for femoroacetabular impingement.
Cam morphology is also commonly referred to as 'cam deformity', 'cam lesion' or 'cam abnormality', though according to the Warwick agreement ‘cam morphology’ is the preferred term 1.
There is a significantly higher prevalence of cam morphology in athletes compared to non-athletes. Cam morphology is more common in males than in females.
A higher incidence of cam-deformity has been found in high-impact sports 1-6:
- football (soccer)
- american football, rugby
- femoroacetabular impingement
- osteoarthritis of the hip: risk is 3-8 times higher than in non-athletes 2
Cam morphology itself can be and remain asymptomatic or can cause clinical signs and symptoms as typical motion or position-dependent hip or groin pain and is then referred to as femoroacetabular impingement 1,2. A painfully decreased range of motion during hip flexion, internal rotation and adduction, locking and stiffness are also described.
Cam deformity causes increased shear forces at the chondrolabral junction, possibly leading to the following 1-3:
The deformity usually involves the anterosuperior aspect of the proximal femur more precisely the head-neck junction and is characterized by a loss of sphericity of the femoral head 4 and a flat or convex in cases even ‘bumpy‘ head neck-junction 1-6.
This leads to a restriction in range of motion especially during hip flexion, internal rotation and adduction with associated shear at the chondrolabral junction 3,6.
Not yet completely understood, a combination of several factors seems to cause cam morphology 2-6:
- high mechanical loading forces at the time of physeal closure
- genetic predisposition (increased risk in siblings)
- hormonal effect
- epiphyseal growth plate shape
- slipped capital femoral epiphysis
- Perthes disease
- coxa vara
- posttraumatic e.g. malunited femoral neck fractures
The cam morphology is usually most prominent in the anterosuperior position of the femoral head-neck junction 7 usually between 0:30 and 2:30 on the clockface of the hip ref.
The predilection site for possible injury in cam deformity is the chondrolabral junction of the anterosuperior acetabulum 6.
For initial identification of cam morphology, AP view of the pelvis and a lateral femoral neck view is recommended 1. Cross-sectional imaging is advised for better characterization, the detection of chondral and labral lesions and preoperative planning 1,6.
Bone morphology and abnormalities in particular of the proximal femur can be nicely depicted 1:
- loss of sphericity, flattening or a bump at the femoral head-neck junction, often found in the anterosuperior location
- associated findings e.g. cysts or degenerative changes
- alpha angle
- femoral head-neck offset
The following morphological features can be assessed 1- 6:
- loss of sphericity or a bump at the femoral head-neck junction especially in the anterosuperior location
- associated findings e.g. cysts, bone marrow edema
- >55° considered a risk factor in the anterior position
- >60° in the anterosuperior position* is a recommended threshold 7
- chondrolabral separation or avulsion
- anterosuperior cartilage lesions e.g. carpet lesion
- improved detection of acetabular chondral defects 5,6
- better sensitivity for the detection of labral tears 5,6
A report for preoperative should include the following 6:
- description of abnormalities in the femoral head-neck junction: bump, cysts
- possible co-existing pincer morphology
- associated findings e.g. bone marrow edema
- chondrolabral detachment and other labral pathology
- chondral lesions e.g. carpet lesion
- alpha angle including the plane and position
- femoral anteversion
- signs of early osteoarthritis: subchondral sclerosis, cysts, osteophytes
- associated soft tissue injuries: musculotendinous injury
Treatment and prognosis
Cam morphology itself can be managed with preventive measures in high-risk population e.g. athletes but should not be treated surgically if asymptomatic.
Symptomatic femoroacetabular-impingement with cam morphology can be treated conservatively or surgically. Conservative treatment approaches include activity and /or lifestyle modifications, physiotherapy, watchful waiting. Surgical treatment aims at restoring hip morphology and repair or reconstruction of chondral and labral damage with arthroscopic and open surgical approaches 1,8. The indication for surgery warrants not only morphological changes but also typical clinical signs and symptoms indicative of femoroacetabular impingement 1,9.
- 1. Griffin DR, Dickenson EJ, O'Donnell J, Agricola R, Awan T, Beck M, Clohisy JC, Dijkstra HP, Falvey E, Gimpel M, Hinman RS, Hölmich P, Kassarjian A, Martin HD, Martin R, Mather RC, Philippon MJ, Reiman MP, Takla A, Thorborg K, Walker S, Weir A, Bennell KL. The Warwick Agreement on femoroacetabular impingement syndrome (FAI syndrome): an international consensus statement. (2016) British journal of sports medicine. 50 (19): 1169-76. doi:10.1136/bjsports-2016-096743 - Pubmed
- 2. Knapik DM, Gaudiani MA, Camilleri BE, Nho SJ, Voos JE, Salata MJ. Reported Prevalence of Radiographic Cam Deformity Based on Sport: A Systematic Review of the Current Literature. (2019) Orthopaedic journal of sports medicine. 7 (3): 2325967119830873. doi:10.1177/2325967119830873 - Pubmed
- 3. Anwander H, Beck M, Büchler L. Influence of evolution on cam deformity and its impact on biomechanics of the human hip joint. (2018) Journal of orthopaedic research : official publication of the Orthopaedic Research Society. doi:10.1002/jor.23863 - Pubmed
- 4. Palmer W, Bancroft L, Bonar F, Choi JA, Cotten A, Griffith JF, Robinson P, Pfirrmann CWA. Glossary of terms for musculoskeletal radiology. (2020) Skeletal radiology. doi:10.1007/s00256-020-03465-1 - Pubmed
- 5. Agten CA, Sutter R, Buck FM, Pfirrmann CW. Hip Imaging in Athletes: Sports Imaging Series. (2016) Radiology. 280 (2): 351-69. doi:10.1148/radiol.2016151348 - Pubmed
- 6. Li AE, Jawetz ST, Greditzer HG, Burge AJ, Nawabi DH, Potter HG. MRI for the preoperative evaluation of femoroacetabular impingement. (2016) Insights into imaging. 7 (2): 187-98. doi:10.1007/s13244-015-0459-0 - Pubmed
- 7. Sutter R, Dietrich TJ, Zingg PO, Pfirrmann CW. How useful is the alpha angle for discriminating between symptomatic patients with cam-type femoroacetabular impingement and asymptomatic volunteers?. (2012) Radiology. 264 (2): 514-21. doi:10.1148/radiol.12112479 - Pubmed
- 8. Larson CM, Stone RM. Current concepts and trends for operative treatment of FAI: hip arthroscopy. (2013) Current reviews in musculoskeletal medicine. 6 (3): 242-9. doi:10.1007/s12178-013-9170-2 - Pubmed
- 9. Peters S, Laing A, Emerson C, Mutchler K, Joyce T, Thorborg K, Hölmich P, Reiman M. Surgical criteria for femoroacetabular impingement syndrome: a scoping review. (2017) British journal of sports medicine. 51 (22): 1605-1610. doi:10.1136/bjsports-2016-096936 - Pubmed
- 10. Pierannunzii L. Femoroacetabular impingement: question-driven review of hip joint pathophysiology from asymptomatic skeletal deformity to end-stage osteoarthritis. (2019) Journal of orthopaedics and traumatology : official journal of the Italian Society of Orthopaedics and Traumatology. 20 (1): 32. doi:10.1186/s10195-019-0539-x - Pubmed
- 11. Clohisy JC, Beaulé PE, O'Malley A, Safran MR, Schoenecker P. AOA symposium. Hip disease in the young adult: current concepts of etiology and surgical treatment. (2008) The Journal of bone and joint surgery. American volume. 90 (10): 2267-81. doi:10.2106/JBJS.G.01267 - Pubmed