Hip: Traumatic and Overuse Injuries

 

 Buy Article(opens in new window) Permissions and Reprints(opens in new window)

Abstract

The hip is a complex load-bearing joint susceptible to both acute traumatic and chronic overuse injuries. Traumatic injuries, such as acute fractures, dislocations, apophyseal avulsions, and muscle tears, typically follow high-energy events. In contrast, overuse injuries, for example, femoroacetabular impingement, stress fractures, labral degeneration, and greater trochanteric pain syndrome, arise gradually from repetitive mechanical overload. Early and accurate diagnosis requires a multimodal imaging approach: radiographs for baseline assessment, computed tomography for detailed osseous injury and alignment, magnetic resonance imaging and magnetic resonance arthrography for chondrolabral and soft tissue pathology, and ultrasound for dynamic evaluation of tendinous disorders. Understanding the mechanism, location, and severity of hip injuries is essential to guide prognosis, management, and prevention. This review provides a structured overview of traumatic and overuse hip injuries, highlighting imaging features that enable timely detection, precise characterization, and tailored interventions to optimize functional outcomes.

Publication History

Received: 02 September 2025

Accepted: 04 November 2025

Article published online:
30 January 2026

© 2025. Thieme. All rights reserved.

Thieme Medical Publishers, Inc.
333 Seventh Avenue, 18th Floor, New York, NY 10001, USA

• References

• 1 Jawetz ST, Fox MG, Blankenbaker DG. et al; Expert Panel on Musculoskeletal Imaging. ACR Appropriateness Criteria® Chronic Hip Pain: 2022 Update. J Am Coll Radiol 2023; 20 (5S): S33-S48
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 2 Griffin DR, Dickenson EJ, O'Donnell J. et al. The Warwick Agreement on femoroacetabular impingement syndrome (FAI syndrome): an international consensus statement. Br J Sports Med 2016; 50 (19) 1169-1176
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 3 Mascarenhas VV, Castro MO, Rego PA. et al. The Lisbon Agreement on Femoroacetabular Impingement Imaging-part 1: overview. Eur Radiol 2020; 30 (10) 5281-5297
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 4 Garbuz DS, Masri BA, Haddad F, Duncan CP. Clinical and radiographic assessment of the young adult with symptomatic hip dysplasia. Clin Orthop Relat Res 2004; (418) 18-22
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 5 Marques Luís N, Varatojo R. Radiological assessment of lower limb alignment. EFORT Open Rev 2021; 6 (06) 487-494
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 6 Ivanova S, Rosenstock P, Leibold CS. et al. The “gull sign” in acetabular fractures revisited - is the dome impacted or elevated?. Injury 2025; 56 (08) 112459
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 7 Christie-Large M, Tapp MJF, Theivendran K, James SLJ. The role of multidetector CT arthrography in the investigation of suspected intra-articular hip pathology. Br J Radiol 2010; 83 (994) 861-867
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 8 Henak CR, Abraham CL, Peters CL, Sanders RK, Weiss JA, Anderson AE. Computed tomography arthrography with traction in the human hip for three-dimensional reconstruction of cartilage and the acetabular labrum. Clin Radiol 2014; 69 (10) e381-e391
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 9 Hallinan JTPD, Tan CH, Pua U. Emergency computed tomography for acute pelvic trauma: where is the bleeder?. Clin Radiol 2014; 69 (05) 529-537
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 10 Schmaranzer F, Lerch TD, Siebenrock KA, Tannast M, Steppacher SD. Differences in femoral torsion among various measurement methods increase in hips with excessive femoral torsion. Clin Orthop Relat Res 2019; 477 (05) 1073-1083
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 11 Toomayan GA, Holman WR, Major NM, Kozlowicz SM, Vail TP. Sensitivity of MR arthrography in the evaluation of acetabular labral tears. AJR Am J Roentgenol 2006; 186 (02) 449-453
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 12 Sutter R, Zubler V, Hoffmann A. et al. Hip MRI: how useful is intraarticular contrast material for evaluating surgically proven lesions of the labrum and articular cartilage?. AJR Am J Roentgenol 2014; 202 (01) 160-169
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 13 Meier MK, Wagner M, Brunner A. et al. Can gadolinium contrast agents be replaced with saline for direct MR arthrography of the hip? A pilot study with arthroscopic comparison. Eur Radiol 2023; 33 (09) 6369-6380
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 14 Schmaranzer F, Klauser A, Kogler M. et al. Diagnostic performance of direct traction MR arthrography of the hip: detection of chondral and labral lesions with arthroscopic comparison. Eur Radiol 2015; 25 (06) 1721-1730
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 15 Chopra A, Grainger AJ, Dube B. et al. Comparative reliability and diagnostic performance of conventional 3T magnetic resonance imaging and 1.5T magnetic resonance arthrography for the evaluation of internal derangement of the hip. Eur Radiol 2018; 28 (03) 963-971
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 16 Markhardt BK, Hund S, Rosas HG. et al. Comparison of MRI and arthroscopy findings for transitional zone cartilage damage in the acetabulum of the hip joint. Skeletal Radiol 2024; 53 (07) 1303-1312
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 17 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?. Radiology 2012; 264 (02) 514-521
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 18 Schmaranzer F, Kallini JR, Miller PE, Kim YJ, Bixby SD, Novais EN. The Effect of modality and landmark selection on MRI and CT femoral torsion angles. Radiology 2020; 296 (02) 381-390
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 19 Marka AW, Meurer F, Twardy V. et al. Deep learning and conventional hip MRI for the detection of labral and cartilage abnormalities using arthroscopy as standard of reference. Eur Radiol 2025; 35 (10) 6065-6078
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 20 Getzmann JM, Deininger-Czermak E, Melissanidis S. et al. Deep learning-based pseudo-CT synthesis from zero echo time MR sequences of the pelvis. Insights Imaging 2024; 15 (01) 202
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 21 Lerch TD, Zeng G, Boschung A. et al. Magnetic resonance imaging-based 3-dimensional models of the pelvis and hip using machine learning for automatic bone segmentation in a dynamic hip impingement simulation. Orthop J Sports Med 2025;13(9):23259671251334138
  Download RIS citation
• 22 Le J. Snapping hip syndrome: imaging diagnosis. Magn Reson Imaging Clin N Am 2025; 33 (01) 75-82
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 23 Smallcomb M, Khandare S, Vidt ME, Simon JC. Therapeutic ultrasound and shockwave therapy for tendinopathy: a narrative review. Am J Phys Med Rehabil 2022; 101 (08) 801-807
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 24 Benedick A, Lopas L, Daley E, Jang Y. Traumatic hip dislocation: pediatric and adult evaluation and management. J Am Acad Orthop Surg 2024; 32 (14) 637-646
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 25 Mandell JC, Marshall RA, Weaver MJ, Harris MB, Sodickson AD, Khurana B. Traumatic hip dislocation: what the orthopedic surgeon wants to know. Radiographics 2017; 37 (07) 2181-2201
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 26 Mandell JC, Marshall RA, Banffy MB, Khurana B, Weaver MJ. Arthroscopy after traumatic hip dislocation: a systematic review of intra-articular findings, correlation with magnetic resonance imaging and computed tomography, treatments, and outcomes. Arthroscopy 2018; 34 (03) 917-927
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 27 Kellam P, Ostrum RF. Systematic review and meta-analysis of avascular necrosis and posttraumatic arthritis after traumatic hip dislocation. J Orthop Trauma 2016; 30 (01) 10-16
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 28 Grissom LE, Harty MP, Guo GW, Kecskemethy HH. Maturation of pelvic ossification centers on computed tomography in normal children. Pediatr Radiol 2018; 48 (13) 1902-1914
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 29 Calderazzi F, Nosenzo A, Galavotti C, Menozzi M, Pogliacomi F, Ceccarelli F. Apophyseal avulsion fractures of the pelvis. A review. Acta Biomed 2018; 89 (04) 470-476
  PubMedSearch in Google Scholar

  Download RIS citation
• 30 Delgado J, Jaramillo D, Chauvin NA. Imaging the injured pediatric athlete: upper extremity. Radiographics 2016; 36 (06) 1672-1687
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 31 Eberbach H, Hohloch L, Feucht MJ, Konstantinidis L, Südkamp NP, Zwingmann J. Operative versus conservative treatment of apophyseal avulsion fractures of the pelvis in the adolescents: a systematical review with meta-analysis of clinical outcome and return to sports. BMC Musculoskelet Disord 2017; 18 (01) 162
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 32 Zubler V, Mühlemann M, Sutter R. et al. Diagnostic utility of perilesional muscle edema in myositis ossificans. Skeletal Radiol 2020; 49 (06) 929-936
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 33 McSweeney SE, Naraghi A, Salonen D, Theodoropoulos J, White LM. Hip and groin pain in the professional athlete. Can Assoc Radiol J 2012; 63 (02) 87-99
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 34 Patel A, Chakraverty J, Pollock N, Chakraverty R, Suokas AK, James SL. British athletics muscle injury classification: a reliability study for a new grading system. Clin Radiol 2015; 70 (12) 1414-1420
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 35 Beattie CE, Barnett RJ, Williams J, Sim J, Pullinger SA. Are return-to-play times longer in lower-limb muscle injuries involving the intramuscular tendon? A systematic review. J Sci Med Sport 2023; 26 (11) 599-609
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 36 Hadjispyrou S, Hadjimichael AC, Kaspiris A, Leptos P, Georgoulis JD. Treatment and rehabilitation approaches for stress fractures in long-distance runners: a literature review. Cureus 2023; 15 (11) e49397
  PubMedSearch in Google Scholar

  Download RIS citation
• 37 Duarte A, Román Antonio A, Bencardino JT. Diagnostic evaluation of stress injuries of the hip using MR imaging. Magn Reson Imaging Clin N Am 2025; 33 (01) 135-142
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 38 Weinrich L, Dahne M, Lindner T, Stöckle U, Tsitsilonis S. Femoral neck stress fracture of a male, healthy marathon runner - case report and literature review. Z Orthop Unfall 2022; 160 (05) 564-571
  Thieme ConnectPubMedSearch in Google Scholar

  Download RIS citation
• 39 Wright AA, Hegedus EJ, Lenchik L, Kuhn KJ, Santiago L, Smoliga JM. Diagnostic accuracy of various imaging modalities for suspected lower extremity stress fractures: a systematic review with evidence-based recommendations for clinical practice. Am J Sports Med 2016; 44 (01) 255-263
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 40 Ganz R, Leunig M, Leunig-Ganz K, Harris WH. The etiology of osteoarthritis of the hip: an integrated mechanical concept. Clin Orthop Relat Res 2008; 466 (02) 264-272
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 41 Schmaranzer F, Kheterpal AB, Bredella MA. Best Practices: Hip femoroacetabular impingement. AJR Am J Roentgenol 2021; 216 (03) 585-598
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 42 Heimann AF, Todorski IAS, Schmaranzer F. et al. What is the influence of femoral version on size, tear location, and tear pattern of the acetabular labrum in patients with FAI?. Clin Orthop Relat Res 2024; 482 (09) 1582-1594
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 43 Clapp IM, Paul KM, Beck EC, Nho SJ. Hypermobile disorders and their effects on the hip joint. Front Surg 2021; 8: 596971
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 44 Blümel S, Leunig M, Manner H, Tannast M, Stetzelberger VM, Ganz R. Avascular femoral head necrosis in young gymnasts: a pursuit of aetiology and management. Bone Jt Open 2022; 3 (09) 666-673
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 45 Kraeutler MJ, Goodrich JA, Fioravanti MJ, Garabekyan T, Mei-Dan O. The “outside-in” lesion of hip impingement and the “inside-out” lesion of hip dysplasia: two distinct patterns of acetabular chondral injury. Am J Sports Med 2019; 47 (12) 2978-2984
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 46 Pfirrmann CW, Mengiardi B, Dora C, Kalberer F, Zanetti M, Hodler J. Cam and pincer femoroacetabular impingement: characteristic MR arthrographic findings in 50 patients. Radiology 2006; 240 (03) 778-785
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 47 Zurmühle C, Stetzelberger V, Hanauer M, Laurençon J, Marti D, Tannast M. New concepts in femoroacetabular impingement syndrome. In: Nho S, Bedi A, Salata M, Mather III R, Kelly B. eds. Hip Arthroscopy and Hip Joint Preservation Surgery. Berlin, Germany: Springer; 2022: 771-801
  Search in Google Scholar

  Download RIS citation
• 48 Sutter R, Dietrich TJ, Zingg PO, Pfirrmann CWA. Femoral antetorsion: comparing asymptomatic volunteers and patients with femoroacetabular impingement. Radiology 2012; 263 (02) 475-483
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 49 Heimann AF, Wagner M, Vavron P. et al. Ischiofemoral impingement in joint preserving hip surgery: prevalence and imaging predictors. Insights Imaging 2025; 16 (01) 78
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 50 Wiberg G. The anatomy and roentgenographic appearance of a normal hip joint. Acta Chir Scand 1939; (83) 7-38
  Search in Google Scholar

  Download RIS citation
• 51 Mascarenhas VV, Castro MO, Afonso PD. et al. The Lisbon Agreement on femoroacetabular impingement imaging-part 2: general issues, parameters, and reporting. Eur Radiol 2021; 31 (07) 4634-4651
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 52 Schmaranzer F, Becker TA, Heimann AF. et al. Femoral head decentration on hip MRI: comparison between imaging planes, methods of contrast administration, and hip deformities. Insights Imaging 2024; 15 (01) 184
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 53 Sutter R, Dietrich TJ, Zingg PO, Pfirrmann CWA. Assessment of femoral antetorsion with MRI: comparison of oblique measurements to standard transverse measurements. AJR Am J Roentgenol 2015; 205 (01) 130-135
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 54 Seldes RM, Tan V, Hunt J, Katz M, Winiarsky R, Fitzgerald Jr RH. Anatomy, histologic features, and vascularity of the adult acetabular labrum. Clin Orthop Relat Res 2001; (382) 232-240
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 55 Schmaranzer F, Todorski IAS, Lerch TD, Schwab J, Cullmann-Bastian J, Tannast M. Intra-articular lesions: imaging and surgical correlation. Semin Musculoskelet Radiol 2017; 21 (05) 487-506
  Thieme ConnectPubMedSearch in Google Scholar

  Download RIS citation
• 56 Studler U, Kalberer F, Leunig M. et al. MR arthrography of the hip: differentiation between an anterior sublabral recess as a normal variant and a labral tear. Radiology 2008; 249 (03) 947-954
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 57 Meier MK, Scheuber S, Hanke MS. et al. Does the dGEMRIC index recover 3 years after surgical FAI correction and an initial dGEMRIC decrease at 1-year follow-up? A controlled prospective study. Am J Sports Med 2023; 51 (07) 1808-1817
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 58 Stetzelberger VM, Segessenmann JT, Cek C. et al. Validation of a computerized model for a new biomechanical concept- the fossa-foveolar mismatch- the answer to lesions of the ligamentous fossa-foveolar complex in the hip?. Arch Orthop Trauma Surg 2024; 144 (09) 4207-4215
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 59 Hanke MS, Steppacher SD, Anwander H, Werlen S, Siebenrock KA, Tannast M. What MRI findings predict failure 10 years after surgery for femoroacetabular impingement?. Clin Orthop Relat Res 2017; 475 (04) 1192-1207
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 60 Lerch T, Nanavati A, Heimann A. et al. Are degenerative findings detected on traction MR arthrography of the hip associated with failure of arthroscopic femoroacetabular impingement surgery?. Eur Radiol 2024; 34 (06) 3555-3565
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 61 Rosa Mohana-Borges ÁV, Cheng KY, Chung CB. MR imaging diagnosis of greater trochanteric syndrome. Magn Reson Imaging Clin N Am 2025; 33 (01) 83-94
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 62 Chowdhury R, Naaseri S, Lee J, Rajeswaran G. Imaging and management of greater trochanteric pain syndrome. Postgrad Med J 2014; 90 (1068) 576-581
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation
• 63 Meyers WC, Yoo E, Devon ON. et al. Understanding “sports hernia” (athletic pubalgia): the anatomic and pathophysiologic basis for abdominal and groin pain in athletes. Oper Tech Sports Med 2012; 20 (01) 33-45
  CrossrefSearch in Google Scholar

  Download RIS citation
• 64 Holl N, Gerhardt JS, Tischer T. et al. Comparison between dedicated MRI and symphyseal fluoroscopic guided contrast agent injection in the diagnosis of cleft sign in athletic groin pain and association with pelvic ring instability. Eur Radiol 2023; 33 (10) 7321-7329
  CrossrefPubMedSearch in Google Scholar

  Download RIS citation