Blunt and Penetrating Chest Trauma

1. Blunt and PenetratingChest Trauma Adam Oster R4 Arun Abbi, MD FRCP Core Rounds September 9, 2004.

2. Topics • Blunt • Aortic Injuries • Myocardial Contusion • Occult Pneumothorax • ED Thoracotomy • Hemothorax • Pulmonary Contusion • Penetrating • Pneumothorax • Tamponade

3. Case 1 • 23M unrestrained driver struck a light pole at highway speeds. Ejected. Found 20meters from his car. • GCS 9 • Hemodynamics normal • Facial trauma

4. Case 1

5. Blunt Aortic Injury • MC mechanism is… • Rapid deceleration • Why? • Aortic arch is mobile and descending arch is immobile d/t ligamentum arteriosum • Rapid deceleration  places aortic isthmus under tension  shearing stress can result in tearing opposite to fixation site. • 90% die on scene • Remaining 50% within 24hrs without prompt definitive treatment

7. Blunt Aortic Injury • Clinical presentation… • Sensitivity of screening DI (CXR) • Imaging controversies; • CXR vs CT • CT vs angiography • CT vs TEE

8. Blunt Aortic Injury • Sensitivity of the CXR • What are the high risk findings? • Mediastinal widening (>8cms?? – 1970s Marsh and Sturm) • Apical cap • Loss of AP window • Loss of aortic knob • Rightward deviation of NG (of the T3/4 SP) • Rightward deviation of the trachea • Downward displacement of lt mainstem • Thickening of right paratracheal stripe (>5mm) NB isolated # 1st/2nd ribs are not predictive of injury

9. Blunt Aortic Injury:Sensitivity of the CXR • Sensitivity of CXR approx 90% • Loss of aortic knob (sens= 53-100%, spec 21-55%) • Mediastinal widening (sens= 81-100, spec. 10-60%) • Def’n of widening is ambiguous in the literature • >8cm at origin lt subclavian or • Ratio of mediastinal width to width of thorax at aortic knob

10. Sensitivity of the CXR • Approx 90-98% • NPV of a normal CXR is 96% • CXR can be normal in up to 5% with TAI • Cannot completely r/o the injury • Take into account pre-test probability • PPV low 5-20%

11. Blunt Aortic Injury and the CXR • Radiology 1987. vol. 163 (abstract only) • N=205 retrospective review with BCT • 41 with angiographically-proven BAI • Analyzed 16 distinct CXR features • most discriminating signs were • loss of the AP window, • abnormality of the aortic arch • rightward tracheal shift • widening of the left paraspinal line • No single or combination of radiographic signs demonstrated sufficient sensitivity to indicate all cases of traumatic aortic rupture on plain chest radiographs • The bedside anteroposterior upright view of the chest proved far more valuable than the supine view in detecting true-negative studies. • significant reader variability

12. Blunt Aortic Injury • Journal of Trauma. July, 2004 • Mediastinal width (MW), left mediastinal width (LMW) and the ratio (MWR) measured on resusc CXR • GS = either surgery or angio • 51 had CT, 45 had aortogrpahy, 6 thoracotomy after CT

13. Results • 21/51 TAI • Surgically-proved in 20 • Successful repair in 18 • 19/20 pathology at isthmus

14. Results • Best combination predictor is LMW >6.0 and MWR >0.60 • LR = 3.0

15. Blunt Aortic Injury

16. Blunt Aortic Injury

17. Blunt Aortic Injury • Journal of Trauma. December, 2001. • Prospective, n=93 • MVC >10MPH (76%) • Fall >5ft (24%) • Excluded hemodynamically unstable and severe HI • All had CXR and CT

18. Sensitivity of CXR for Chest Injuries • Sensitivity 82% • Specificity 57% • CXR missed 2/3 BAI

19. Blunt Aortic Injury • 7.3% with confirmed TAI had normal mediastinum on CXR.

20. Blunt Aortic Injury: The CXR • Retrospective review of white peoples CT chest to determine normal AP width • Excluded abnormal mediastinums • Mean width 6.1cms on CT • Modern trauma rooms 7.3-7.92 cms • Historic upper limit of normal does not apply

21. FFD and OFD

22. The CXR in BAI • Emergency Medicine Clinics of North America. February, 1999. Meta-analysis. • Most specific findings • Lt tracheal deviation (80-95%) • NG deviation (90-94%) • Depressed lt mainstem bronchus (80-100%) • No association with sternal # or thorasic rib#

23. Blunt Aortic Injury: Identification by Mechanism • Journal Of Trauma. June 1, 2001.

24. Blunt Aortic Injury: Identification by Mechanism • Retrospective review of crash site data • GS was radiographic or autopsy • N=34 (12%) • Head-on crash = 5% • Side impact = 59% (20/34) • 74% in compact cars • 65% vehicle-vehicle • 35% vehicle-pole/wall ##Presence of delta V>20mph or near-side impact was present in All TAI. Either had NPV =100%

25. Mechanics

26. Blunt Aortic Injury: Identification by Mechanism • Journal of Trauma. April, 2003. • Cohort design. NASS database.

29. Independent positive predictors for BAI Age > 60 Front-seated Frontal and near-side impacts Delta V>40mph Crush >40cms Intrusion >15cms Negative predictors Seat-belt use Occupant of large vehicle

30. Blunt Aortic Injury: Identification by Mechanism • Journal of Trauma. Jan, 2001. • Retrospective autopsy review of all BAI.

31. N=242 (12% all trauma deaths) • MC mechanism • Head-on>side-impact

33. CXR Abnormal • How to diagnose BAI • CT • Angio • TTE • TEE • OR

34. CT vs Angiography • Parallel CT and angiography for n=142 with suspected BAI • All had “unclearable” CXR • Blinded Radiologists

35. CT vs Angio • CT neg = 121 (kappa 0.7) • CT pos = 7 (kappa 0.9!) • Sens = 100% • NPV = 100% • Spec = 87% • $500 cost savings/pt

36. CT vs Angiography • Journal of Trauma. Feb, 2004.

37. CT vs Angiography • Retrospective registry data • All pts had aortography • Most had CT • Findings confirmed surgically • NB CXR normal in 7% • Non-specifically abnormal in 53% (BAI not suspected)

38. CT vs Angiography • CT performance • 1 miss • 5 FP • Agreed in 93 cases • Sens = 87% • Spec = 98%

39. Chest, 1997. • Prospective review of TAI patients (n=28) confirmed by angio/surgery/MRI • All had TEE • Control group of 30 with chest trauma and wide mediastinum but no TAI • Describe the echo findings associated with TAI

41. MC findings • Thick stripe • Intimal lesions • False aneurysms • Aortic wall hematoma

42. TEE for Detection of Mediastinal Lesions • Journal of Trauma, 1995. • Prospective, n=70. • All intubated • TEE within 48hrs

43. TEE for Detection of Mediastinal Lesions. Journal of Trauma, 1995. • But… • Only 1 lesion • Unclear GS • ?blinded to other investigations

44. TEE • Smith et al. NEJM, 1995. • Prospective, n=93 • TEE followed by angio • GS = angio/surgery/autopsy • Mean time to TEE 29mins • Sens = 100% • Spec 98%

45. TEE • Chrillo et al., Heart. 1996. • Prospective, consecutive, n=134. • Clinical evidence chest trauma or mechanism • Sens = 93% • Spec = 98% • Time to surgery shorter (30 vs 71mins)

46. Blunt Aortic Injury • Journal of Trauma. Jan, 2004. • Retrospective registry data • Early repair = <16hrs from injury • Case controlled comparisons

47. Delayed vs Early Repair

48. Delayed vs Early Repair

49. Delayed vs Early Repair • Delayed repair does not appear to be associated with increased mortality • BAI should be triaged and given appropriate priority but should not take precedent over other co-existing injuries • May lead to increased morbidity • LOS especially • …medical management of blood pressure

50. BAI and Anti-Hypertensives • Annals of Surgery 1998. • Prospective use of labetolol or esmolol +/-nitroprusside • To SBP= 100, HR<100 • Nitroprusside added if unable to optimally control BP • Outcomes • Rupture prior to repair • Allowing delayed repair if co-existing injuries necessitated • N=71 with BAI