1. Department of Surgery Ruijin Clinical Medical College Shanghai Jiao Tong University

3. Open vs. Closed Injuries Open injuries are caused by sharp or high velocity objects that create an opening between the peritoneal cavity and the outside of the body

4. Open vs. Closed Injuries Closed injuries are caused by compression trauma associated with deceleration forces and include: Contusions Ruptures Lacerations shear injuries

5. Hollow and Solid Organs Hollow organs include: stomach intestines gallbladder bladder Solid organs include: liver spleen kidneys

6. Hollow Organ Injuries When hollow organs rupture, their highly irritating and infectious contents spill into the peritoneal cavity, producing a painful inflammatory reaction called peritonitis

7. Solid Organ Injuries Damage to solid organs such as the liver can cause severe internal bleeding Blood in the peritoneal cavity causes peritonitis When patients injure solid organs, the symptoms of shock may overshadow those from peritonitis

8. ED Ultrasound Not an echocardiogram Learning curve and operator-dependent Four quadrant evaluation for fluid In common use Useful in conjunction with CT and to triage unstable patient

9. CT Scan Hemodynamically stable patients Visualizes retroperitoneum Duodenum, pancreas, kidneys Cystogram Poor sensitivity for bowel injury Seat belt injury associated with bowel injury L-2 to L-4 fracture Peri-umbilical abdominal contusion

10. Diagnostic Peritoneal Lavage Sensitivities of 98% Specificity of 80% Does not discriminate well Does not evaluate retroperitoneum

12. Criteria for Interpretation of Lavage Positive Aspiration > 10 ml non-clotting blood Lavage fluid comes out Foley catheter or chest tube Grossly bloody lavage return RBC > 100,000/mm 3 WBC > 500/mm3 Amylase > 175 K.U./dl Presence of bile, bacteria and/or particulate matter

13. Criteria for Interpretation of Lavage Indeterminate Aspiration < 10 ml of non-clotting blood RBC 50,000 to 100,000/mm3 WBC 100 to 500 mm3 Amylase 75 to 175 K.U./dl

14. Criteria for Interpretation of Lavage Negative No blood aspirated RBC < 50,000/mm3 WBC < 100/mm3 Amylase < 75 K.U./dl

15. Laparoscopy Advantages Visualize left hemidiaphragm Evaluate for other intra-abdominal trauma Disadvantages Retroperitoneal injury Repair

16. Splenic Salvage Initial experience with children Concern over OPSI Single system injury Hemodynamically stable No anticoagulation Compliant patient

17. Blunt Hepatic Trauma Many liver injuries stop bleeding spontaneously Non-therapeutic laparotomies frequent CT grade does not predict need for surgery Mortality less in non-operative group Few failures with non-operative approach

18. Hepatic Injury Associated injuries affect mortality Hemorrhage: Packing with re-look laparotomy in 24-48 hours Wide drainage with closure Bile Leak Interval closure may be required Vigilance for Abdominal Compartment Syndrome

19. Delayed Colonic Perforation Colon injury occurs in 2% to 15% of patients having blunt abdominal trauma. noted that a severe direct force is usually required to produce colon injuries. Most of these injuries are due to motor vehicle collisions (74%), and the incorrect placement of safety belts has been implicated as an additional risk factor. Regardless of restraint usage, associated injuries are common

20. Mechanisms Possible mechanisms of hollow organ injury from blunt trauma include crush injury between the vertebrae and anterior abdominal wall tangential tears at relatively fixed points along the bowel and a sudden increase in intraluminal pressure.

21. Although not consistent among reported series, colonic injury from blunt trauma appears evenly distributed. Bugis et al, in their study of 16 patients with blunt colon injury, found primarily left-sided injuries yet, Howell et al reviewed 19 cases and found that the transverse colon was most frequently injured

22. Hemorrhagic contusion is the most frequent type of injury to the colon. followed by serosal tears, which occur most commonly in the transverse colon. Severe injuries occur more commonly in the sigmoid, right colon, and cecum, where frank rupture or devitalization from vascular compromise may result Because of the force required to injure the colon, other intra- and extraabdominal injuries often coexist. Injury to the transverse colon appears to have more associated injuries than other sites of colon injury

23. the most frequently encountered intra- abdominal injuries involved the liver 64%, spleen 52% small bowel mesentery 48%. Involvement of the transverse colon also increased the likelihood of pancreaticoduodenal injuries.

24. The importance of physical examination in the diagnosis of colonic perforation cannot be overstated. In 1984, Maull and Reath described 20 patients with hollow visceral injury. All patients who were conscious at the time of admission complained of abdominal pain and/or had signs of peritoneal irritation. The pitfall, of course, is that many injured patients are unresponsive when first encountered, may be affected by alcohol or other drugs, or have sustained a closed head injury, compromising the reliability of their clinical assessment. In such circumstances, further investigation is warranted.

25. The seat belt sign Presence of which increases the likelihood of intraabdominal injuries, however the absence does not exclude it ! Seat belt-induced trauma to the small bowel World Journal of Surgery Issue: Volume 9, Number 5 October 1985, 794 - 797

26. Diagnostic peritoneal lavage done soon after blunt abdominal trauma may also miss a perforated hollow viscus. Presumably, this is related to an initial absence of an inflammatory response. The presence of excessive leukocytes (>500/mm[3]) in the effluent is highly suggestive of bowel injury. The presence of vegetable matter is also suggestive.

27. In a report on the utility of DPL, Fang et al described the importance of the cell count ratio. The cell count ratio was defined as the ratio between white blood cell count and red blood cell count in the lavage fluid, divided by the ratio of the same parameters in the peripheral blood. A cell count ratio >/=1 predicted hollow organ perforation with aspecificity of 97% and a sensitivity of 100%. Ultrasonography and laparoscopy are additional diagnostic techniques available to the clinician, but both lack the sensitivity to aid in early diagnosis.

28. CT Vs DPL CT and diagnostic peritoneal lavage (DPL) may be helpful in confirming blunt intestinal injury, but both have limitations. The role of CT in diagnosing hollow viscus injury after blunt abdominal trauma remains controversial, with previous studies reporting both high accuracy and poor results. Helical CT scanning is very accurate in detecting bowel and mesenteric injuries, as well as in determining the need forsurgical exploration in bowel injuries.

29. CT findings of intestinal rupture include pneumoperitoneum (without an intrathoracic source or previous peritoneal lavage) -gas in the mesentery, bowel wall, or retroperitoneum; and extraluminal extravasation of contrast material. Other findings suggestive of bowel rupture include -thickening of the bowel wall, -anterior pararenal fluid, or -free intraperitoneal fluid without a known source.

30. Lung windows to r/o free air Free air as seen on CT scan

31. CT Scan finding Jejunal thickening Suggestive of duodenal /jejunal injury (arrows) Ascending colonlaceration CT abdominal scan demonstrates thickening of the lower ascending colon (arrows).

32. Thank you