1. The ACETABULUM, HIP JOINT and Proximal FEMUR TRAUMA MI Zucker, MD

2. A dr Z Lecture On injuries of the “Hip”.

3. First: The Acetabulum and the Hip Joint

4. The ACETABULUM and HIP JOINT Now, injuries of: ACETABULUM HIP JOINT (Later: injuries of the proximal femur, also called the” hip”).

5. Radiography Pelvis AP Judet views: 45 degree obliques CT (MRI: not often needed)

6. AP PELVIS: Adult

7. AP PELVIS: Kid

8. JUDET Views Obturator Judet Iliac Judet

9. Anatomy of the Acetabulum The SIX Lines: Iliopubic (iliopectineal) Ilioischial Tear drop (“U”) Dome (roof) Anterior wall Posterior wall

10. Anatomy: AP HIP Adult

11. Anatomy: AP HIP Kid

12. Anatomy: Obturator Judet

13. Anatomy: Iliac Judet

14. Acetabulum Fractures The classification of Letournel and Judet is standard. But rather than discussing it, we will just describe the major fractures.

15. Acetabulum Injuries: Mechanisms Major force: MVA, fall from a height. Force directed up one leg, or anteriorly or laterally to hip.

16. Acetabulum The posterior wall and column, and the roof are the major weight bearers, and so these injuries are more significant than anterior ones and usually require operative intervention.

17. Disrupted Iliopubic line: Anterior Injury

18. Anterior Wall Fracture

19. Disrupted Ilioischial Line: Posterior Injury

20. Posterior Wall Fracture

21. Acetabulum Dome Fracture

22. CT vs. Plain Films CT is far more sensitive in finding fractures. CT characterizes fractures much more accurately. CT is easier on the patient that Judets. Pelvis AP is a good, simple screen, however.

23. The Best Way to Image Screening Pelvis AP. If positive or equivocal, CT. Judet views also if orthopedic surgeon wants them.

24. CT All trauma CT Abdomen studies include the pelvis and acetabulum. Dedicated CT Pelvis for fine detail.

25. CT Anatomy: Dome

26. CT Anatomy: Columns

27. CT Pelvis: Column Fractures

28. CT Pelvis: Dome Fractures

29. Major Acetabulum Fractures: ORIF

30. Dislocations of the Hip Posterior Dislocations: 90% Anterior Dislocations: 10% “Central dislocations” are really displaced fractures of the medial acetabulum wall with medial displacement of the femur head.

31. Posterior Dislocations

32. Complications: Posterior Dislocation Posterior wall fracture Intra-articular fragment, which can prevent reduction Sciatic nerve injury Femur head fracture Avascular necrosis

33. Anterior Dislocations

34. Complications: Anterior Dislocations Avascular necrosis of femur head

35. Caveat: Anterior Dislocations A very small number of anterior dislocations look like posterior dislocations.

36. And now…. The PROXIMAL FEMUR Also called the “HIP”

37. The Proximal FEMUR Often called the “Hip” it includes the : Head of femur Neck of femur Intertrochanteric femur Greater and lesser trochanters Subtrochanteric femur shaft

38. Radiography: Hip Pelvis AP Hip AP

39. Radiography: Hip “Frog-leg lateral”, really an AP/oblique view True or Johnson lateral

40. Anatomy: AP and Frog Adult

41. Anatomy: AP and Frog Kid

42. Anatomy: True Lateral

43. Role of MRI, CT and Bone Scan CT: Not much of a role, as not sensitive enough for subtle fractures in axial projection, and reformats not good enough, but improving with MDCT. MRI: BIG role! We will discuss it later. Bone scan: Obsolete. Too many early false negatives in osteoporotic patients.

44. Hip Fractures Head: A complication of acetabulum fractures or dislocations NECK INTERTROCHANTERIC Isolated greater or lesser trochanter Subtrochanter shaft

45. Hip Fractures Femur neck and intertrochanteric fractures occur mainly in elderly people with osteoporosis who sustain a ground level fall. They can occur in normal people with major force. Femur neck stress fractures are also occasionally seen in athletic people.

46. Femur Neck Fractures Subcapital Transcervical Basicervical

47. Classification: Femur Neck Fractures GARDEN: I: Impacted or incomplete II: Complete, but nondisplaced III: Partially displaced IV: Completely displaced

48. Femur Neck Fractures: Management Garden I and II’s don’t disrupt blood supply to femur head, so need only mechanical stabilization. Garden III and IV’s disrupt blood supply in 30%-50%.

49. Femur Neck Fractures: Management Garden III and IV’s in an elderly or chronically ill patient: Hemiarthroplasty. You don’t want to operate again on these patients if AVN occurs. But in a younger healthy patient, might try pinning and do hemiathroplasty later if AVN occurs, because hip prostheses need replacement every 10-12 years.

50. Garden I

51. Garden II

52. Garden III

53. Garden IV

54. Less common mechanisms Stress fracture, marathon runner.

55. Treatment, Garden I-II: Pins

56. Treatment, Garden III-IV: Hemiarthroplasty

57. Total Hip Replacement THR is for severe osteoarthritis, primary or secondary. It is not for acute trauma.

58. Intertrochanteric Fractures Distal to blood supply to femur head, so need mechanical stabilization only. There are classifications, but all IT’s treated about the same anyway so why bother.

59. Intertrochanteric Fracture

60. Treatment: Dynamic Compression Screw

61. Isolated Trochanter Fractures: Greater Greater trochanter fractures: Fall directly on the GT. Stable. Symptomatic treatment. Caveat: Make sure it is not a subtle IT fracture

62. Isolated Trochanter Fractures: Lesser BEWARE: These are usually PATHOLOGIC FRACTURES, often from occult metastases.

63. MRI MRI has a critical role in hip fracture diagnosis. Bone scans are obsolete (used only if MRI contraindicated)

64. MRI Role: Neck Occult Garden I: Patient may be able to walk and will displace to Garden III or IV if fracture missed. If suspected fracture occult or subtle on plain films, do MRI

65. MRI: Obvious

66. MRI Role: IT area Occult intertrochanteric fractures, with or without isolated appearing trochanter fractures. Pathologic fractures.

67. MRI: Obvious IT Fracture

68. Subtrochanter Fractures Major force Treated by intramedullary rod

69. GOODBYE Copyright 2004 MI Zucker