1. The PELVIS Trauma MI Zucker, MD

2. A dr Z Lecture on injuries of the pelvis (but not the hip this time)

3. PELVIS: TRAUMA Fractures Hemodynamic consequences Associated urinary tract injuries

4. ANATOMY Rami Symphysis pubis Sacrum Sacroiliac joints Ilium Ischium Hip & Femur Lumbar spine Soft tissues

5. The Adult Pelvis

6. Adult Pelvis: Mid-posterior

7. The Pediatric Pelvis

8. CT More sensitive, more specific, more accurate Pelvis is part of CT Abdomen protocol More detailed CT examination can be performed if needed for orthopedic planning

9. TRAUMA Minor force injuries Major force injuries

10. Minor Injuries Ground level falls Avulsions

11. Minor Injuries: Ground Level Falls Rami fractures Sacrum and coccyx fractures

12. Rami Fractures Osteoporosis is the most common predisposing condition. Stable, if isolated. Treatment is symptomatic

13. Sacrum Fractures Fall directly on the buttocks or repetitive microtrauma Common in osteoporosis Acute and stress types

14. Sacrum Fractures: Acute Can be subtle on plain films. Stable. Treatment is symptomatic. May occasionally damage sacral plexus nerve roots.

15. Sacrum Fractures: Stress Insidious onset of pain. Osteoporosis, new THR, post-radiation, steroid therapy all predispose. Initially occult on films. Become visible 2-4 weeks after pain onset, often as a sclerotic broad”H” pattern.

16. Sacrum Fractures: Stress MRI and Bone Scans are diagnostic early: both have the characteristic “H” pattern. Major differential diagnostic consideration is malignancy, which does not have the “H” pattern.

17. Coccyx Fractures Fall on buttocks. Radiologic diagnosis is difficult due to marked normal variation. Clinical diagnosis is more accurate: local tenderness. Stable. Symptomatic treatment.

18. Avulsion fractures Apophyseal avulsions from abnormal tension by tendons: physis injuries. Anterior-superior and anterior-inferior iliac spines, and ischial tuberosity are most common sites. Athletic older adolescents and young adults. Nonoperative injuries.

19. Anterior-inferior Iliac Spine Rectus femoris muscle attaches to and avulses the spine when marked tension is applied to the tendon.

20. Major Force Injuries Mechanically challenging Hemodynamically threatening

21. Major Pelvis Injuries: Classification

22. Classification of Burgess-Young Based on THREE distinct mechanisms of injury, and TWO combined mechanisms. Each of the three has its own anterior ring signature key, which is the clue to the mechanism and to the important posterior ring injury.

23. Mechanisms Lateral Compression (LC) Anterior-Posterior Compression (APC) Vertical Shear (VS) Combined Mechanical: LC + APC or LC+VS

24. Lateral Compression Types I, II, III Force applied to side of pelvis: MVA, fall from a height, pedestrian vs auto All types have horizontal or oblique fracture of a ramus: the anterior key

25. Lateral Compression: posterior injuries Type I: Sacrum arcade fracture(s), ipsilateral Type II: Crescent fracture of ilium, ipislateral Type III: Anterior disruption of contralateral sacroiliac joint (“open book”)

26. LATERAL COMPRESSION Anterior ring key, common to all LC’s: Horizontal or oblique ramus fracture.

27. LC Type I Most common major force pelvis fracture: 70% of total Sacral arcade fracture Hemodynamic instability: Low Treatment: Nonoperative, bed rest

28. LC Type I Arcade fractures can be subtle: look for any asymmetry, irregularity, overlap, discontinuity, or angulation.

29. LC Type II Crescent fracture of ipsilateral ilium Hemodynamic instability: moderate Treatment: ORIF

30. LC Type III Contralateral disruption of anterior sacroiliac joint, “open book”. Hemodynamic instability: high Treatment: ORIF

31. Anterior-Posterior Compression: APC A large force applied to the anterior pelvis: MVA, pedestrian vs auto, fall from a height

32. Anterior-Posterior Compression: APC Anterior ring key: vertical rami fractures or diastasis of symphysis pubis

33. APC Type II (There is no Type I) Disruption of anterior sacroiliac joint(s) (“open book”) or vertical sacrum fractures Hemodynamic instability: high Treatment: ORIF

34. APC Type III Disruption of anterior and posterior sacroiliac ligaments: SI joint dissociation. Hemodynamic instability: very high Treatment: ORIF

35. Vertical Shear: VS Force up one leg, by fall from a height or MVA Anterior ring key: fractured rami or diastasis symphysis pubis, but with cephalad displacement of hemipelvis

36. Vertical Shear: VS Posterior injury is vertical sacrum/iliac fracture or diastasis of sacroiliac joint, with cephalad displacement. Hemodynamic instability: variable Treatment: ORIF

37. Ilium Fracture Isolated iliac wing fractures occur with direct force A major force fracture, but not part of previous classification High incidence of intra-abdominal injuries, so always get CT Abdomen

38. Hemodynamic Instability in Blunt Trauma Determine source: chest, peritoneal cavity, “on the floor”, retro- or extraperitoneum. Chest film, FAST/ DPL, pelvis film. If pelvis fractures are the source, the bleeding is into the extraperitoneum, and surgery is usually not effective.

39. Management of Hemodynamic Instability All causes: Fluid/blood replacement “Floor”: Rapid suture hemostasis Chest: Chest tube, OR Peritoneal cavity: OR, observation, (angiography and embolization) Extraperitoneum: External fixation, angiography and embolization, (OR)

40. Angiography and Embolization Localize the bleeding vessel, usually a branch of Internal Iliac Artery. Occlude it with Gelfoam, coil, etc. Complications: ischemia, incontinence, impotence.

41. Injuries of the Urinary Tract Posterior urethra and, rarely, anterior urethra in males. Female urethra injuries rare. Bladder. Ureters: very rare in blunt trauma.

42. Injuries of the Posterior Urethra Type I: Stretch or incomplete tear Type II: Complete tear above GU diaphragm Type III: Complete tear through GU diaphragm (This is by Colapinto-McCallum, but there is no universally accepted classification)

43. Evaluation: Retrograde Urethrogram Use 30% I.V. type contrast (e.g. Conray 30) Flush the Foley to remove air Use sterile saline not KY as lubricant Insert Foley until balloon disappears Inflate balloon Drip in 15-20cc contrast from bottle 2 ft above table top

44. Filming: RUG Place penis perpendicular to long axis of body. After 10cc contrast instilled, take AP view of pelvis. If extravasation or contrast in bladder: Stop! If not, instill another 10cc, repeat film. End point: Extravasation, contrast in bladder, or internal sphincter visible.

45. RUG: Normal Smooth urethra Normal caliber No extravasation Contrast reaches internal sphincter or bladder

46. Urethra Type I Injury Narrowing or false channel, but no extravasation Note the air bubbles: always clear the Foley catheter of air before insertion!

47. Urethra Type II and III Injuries Extravasation: Base of bladder, scrotum, upper medial thigh

48. Bladder Injuries Extraperitoneal Intraperitoneal Combined

49. Evaluation: Cystogram If RUG performed first and is normal, deflate balloon and advance Foley into bladder. Instill 50cc I.V. type 30% contrast (e.g. Conray 30) with bottle 2 ft above table top. Do AP pelvis film. If normal, fill bladder (250-300 cc). Repeat AP pelvis film. Drain bladder and repeat film to look for subtle leak.

50. Conventional Cystogram: Normal

51. CT Cystogram Can do CT cystogram, which is more sensitive. Technique is similar to conventional cystogram. Both conventional and CT cystograms must be done retrograde. Antegrade filling by I.V. contrast is not sensitive enough for small leaks.

52. CT Cystogram: Normal

53. Bladder Injuries: Minor Perivesical hematoma Mucosa and mural injuries without rupture

54. Extraperitoneal Rupture 2-3 X more common than intraperitoneal injury Anterior pelvis fractures Injury is at bladder base Exravasation around base of bladder Management: Divert with suprapubic catheter and debride

55. Intraperitoneal Rupture Often no pelvis fractures, usually blow to full bladder Dome is injury site Contrast in paracolic gutters and around bowel Management: emergency laparotomy to repair tear and prevent peritonitis

56. Priorities Hemodynamic instability always takes precedence: Angiography to control bleeding is done before GU evaluation

57. GOODBYE Copyright 2004 MI Zucker