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Splenic Injury After Colonoscopy: Conservative Management Using CT

¹ Department of Radiology, Columbia University Medical Center, 177 Fort Washington Ave., MHB 3-244, New York, NY 10032.
² Department of Radiology, Doylestown Hospital, Doylestown, PA 18901.
³ Department of Radiology, Thomas Jefferson University Hospital, Philadelphia, PA 19107.

Received July 29, 2004; accepted after revision September 27, 2004.

 
Address correspondence to J. C. Prowda (jcp2005{at}columbia.edu).

Introduction

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As the use of colonoscopy has increased greatly in recent years, awareness of its complications has become more important. Hemorrhage is the most common complication, with an incidence of 1-2% [1]. Perforation is the next most common complication, with an incidence of 0.1-0.2% [1]. Unusual complications of colonoscopy include pneumothorax, septicemia, mesenteric tears, and colonic volvulus. Splenic trauma is a rare complication of colonoscopy and was first reported by Wherry and Zehner in 1974 [2]. Two early studies that included nearly 13,000 patients reported no cases of splenic rupture [3, 4]. Since then, at least 26 cases of splenic rupture after colonoscopy have been reported in the English-language surgical and medical literature [5, 6]. To our knowledge, there is only one such report in the English-language radiology literature [7]. Given the increasing use of colonoscopy, it is important that radiologists are aware of this rare but potentially fatal complication of colonoscopy. We present two cases of splenic injury secondary to colonoscopy that were diagnosed by sonography and CT and managed conservatively by clinical observation and follow-up CT scans.

Case Reports

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Case 1
An 85-year-old woman with a remote history of peptic ulcer disease and no history of abdominal surgery presented with rectal bleeding, a hemoglobin of 11.9 g/dL, and a hematocrit of 35.8%. She used nonsteroidal anti-inflammatory medications occasionally. Colonoscopy was performed with mild difficulty intubating the left colon and splenic flexure. The mucosa was noted to be hyperemic; biopsies revealed proctitis. After the procedure, the patient developed abdominal pain that was intermittent, sharp, and radiated to the left shoulder (Kehr's sign). This pain worsened with movement, breathing, and coughing. An obstruction series performed that evening in the emergency department revealed no free air and the patient was discharged. At the time, the patient's hemoglobin was 9.6 g/dL with a hematocrit of 29.6%.

Five days after the colonoscopy, the patient complained of persistent abdominal pain. Abdominal sonography performed as an outpatient revealed a 10 x 5 x 10 cm complex collection adjacent to the spleen and a moderate amount of free fluid in the pelvis. The patient was admitted to the hospital and a CT scan with oral and IV contrast media was performed. This revealed a low attenuation collection inseparable from the posteromedial aspect of the spleen (Fig. 1A) and a 4.5-cm fluid collection inferior in relation to the spleen (Fig. 1B), consistent with a subcapsular and perisplenic hematoma. A moderate amount of high density fluid was present in the pelvis, indicating hemoperitoneum (Fig. 1C). The patient's hemoglobin was 8.8 g/dL and hematocrit was 27.3%. Since the patient was hemodynamically stable, she was treated conservatively. The pain decreased in severity and her hemoglobin and hematocrit stabilized at 8.9 g/dL and 26.4%; she was discharged the following day. Follow-up CT weeks later revealed a decrease in the size of the splenic hematoma (Fig. 1D) and resolution of fluid collection inferior to the spleen (Fig. 1E).

View larger version (133K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1A —85-year-old woman with splenic hematoma and hemoperitoneum presenting 5 days after colonoscopy, treated conservatively with clinical and CT follow-up. Initial CT through inferior part of spleen shows hypodense hematoma in posteromedial aspect.

View larger version (127K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1B —85-year-old woman with splenic hematoma and hemoperitoneum presenting 5 days after colonoscopy, treated conservatively with clinical and CT follow-up. Initial CT several centimeters caudal to A shows 4.5-cm fluid collection inferior in relation to spleen.

View larger version (115K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1C —85-year-old woman with splenic hematoma and hemoperitoneum presenting 5 days after colonoscopy, treated conservatively with clinical and CT follow-up. Initial CT through lower pelvis shows moderate amount of high density fluid in cul-de-sac.

View larger version (125K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1D —85-year-old woman with splenic hematoma and hemoperitoneum presenting 5 days after colonoscopy, treated conservatively with clinical and CT follow-up. Follow-up CT weeks later shows interval decrease in size of splenic hematoma.

View larger version (120K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 1E —85-year-old woman with splenic hematoma and hemoperitoneum presenting 5 days after colonoscopy, treated conservatively with clinical and CT follow-up. Follow-up CT shows resolution of fluid collection inferior in relation to spleen.

View larger version (125K): [in this window] [in a new window] [as a PowerPoint slide]   Fig. 2 —48-year-old woman presenting 7 days after colonoscopy with large subcapsular/perisplenic hematoma and small hemoperitoneum was treated conservatively with clinical and CT follow-up. Initial CT through spleen shows subcapsular hematoma of heterogeneous attenuation with mass effect on spleen.

Discussion

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There are three presumed mechanisms of splenic injury secondary to colonoscopy: First, splenic injury may be secondary to excessive traction on the splenocolic ligament, leading to tears in the splenic capsule or capsular avulsion. Second, preexisting adhesions between the spleen and colon can lead to excessive traction on the spleen during even easy intubation, because of decreased mobility between the spleen and colon. Situations predisposing to adhesions and decreased mobility include prior trauma or surgery, inflammatory bowel disease, and pancreatitis. Direct trauma to the spleen during difficult intubation is the final presumed mechanism [5, 6]. Patients with splenomegaly or other diseases involving the spleen are at higher risk for splenic injury during colonoscopy [4-7]. Neither of our patients had splenic abnormalities before the procedure or a history of gastrointestinal inflammatory disease or abdominal surgery.

Most patients with splenic rupture report symptoms within the first 24 hr, but symptoms can be delayed for up to 3 days. The most common signs and symptoms are abdominal pain without radiographic evidence of perforation, left shoulder pain (Kehr's sign), peritoneal irritation, and orthostatic changes.

An abdominal radiograph may be obtained to exclude free air, after which a CT scan of the abdomen and pelvis is the preferred examination to evaluate for other complications. Previous cases of splenic trauma secondary to colonoscopy have been diagnosed with CT scan, laparotomy, angiography, sonography, and autopsy [5]. Given the known accuracy of CT for splenic and other visceral injuries, the prompt use of CT in patients complaining of pain shortly after colonoscopy or with persistent pain days after colonoscopy is advisable. The decision to operate is aided by CT findings but ultimately depends on the clinical judgment of the referring physician. A nonoperative approach is usually taken with patients with no intraperitoneal blood, a closed subcapsular hematoma, and a stable hemodynamic status [1, 5]. In the cases presented, the patients had a small to moderate hemoperitoneum but showed no signs of active bleeding or vascular injury on the initial CT. On clinical examination, both patients were hemodynamically stable. Follow-up CT showed improvement in each case and, therefore, pathologic diagnosis was not obtained. CT promoted conservative management by defining the injury and excluding significant vascular or bowel injury; follow-up CT also provided reassurance of interval resolution.

With the increasing use of colonoscopy, radiologists are more likely to encounter the unusual complications of this procedure. Radiologists should be aware of this rare but potentially fatal complication of colonoscopy when patients are referred for abdominal pain. Since this complication may present shortly after colonoscopy or on a delayed basis, it is important to elicit the history of colonoscopy. If no clinical or plain radiographic evidence of colonic perforation or external bleeding is seen, CT of the abdomen and pelvis should be performed to evaluate for splenic injury and other rare injuries, including hepatic and mesenteric injuries. The pelvis should be included to assess the amount of hemoperitoneum. The use of IV contrast media is important to assess the extent of splenic injury and to evaluate for possible active bleeding. These factors, along with the patient's clinical status, help to triage patients to observation and follow-up or to more aggressive treatments such as embolization and surgery.

References

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1. Wexner SD, Garbus JE, Singh JJ. A prospective analysis of 13,580 colonoscopies: reevaluation of credentialing guidelines. Surg Endosc 2001;15:251 -261[CrossRef][Medline]
2. Wherry DC, Zehner H Jr. Colonoscopic fiberoptic-endoscopic approach to the colon and polypectomy. Med Ann Dist Columbia1974; 43:189 -192[Medline]
3. Macrae FA, Tan KG, Williams CB. Towards safer colonoscopy: a report of the complications of 5,000 diagnostic or therapeutic colonoscopies. Gut 1983;24:376 -383[Abstract/Free Full Text]
4. Smith LE, Nivatvongs S. Complications in colonoscopy. Dis Colon Rectum1975; 18:214 -220[Medline]
5. Olshaker JS, Deckleman C. Delayed presentation of splenic rupture after colonoscopy. J Emerg Med1999; 17:455 -457[CrossRef][Medline]
6. Moses RE, Leskowitz SC. Splenic rupture after colonoscopy. J Clin Gastroenterol1997; 24:256 -258
7. Levine E, Wetzel LH. Splenic trauma during colonoscopy. AJR 1987;149:939 -940[Free Full Text]

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This Article Figures Only Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via Google Scholar Google Scholar Articles by Prowda, J. C. Articles by Lev-Toaff, A. S. Search for Related Content PubMed PubMed Citation Articles by Prowda, J. C. Articles by Lev-Toaff, A. S. Social Bookmarking                      What's this?