DOI:10.2214/AJR.04.1649
AJR 2006; 186:119-121
© American Roentgen Ray Society
Colonic Perforation at CT Colonography in a Patient Without Known Colonic Disease
Brett M. Young1,
Joel G. Fletcher2,
Frank Earnest2,
Jeff L. Fidler2,
Robert L. MacCarty2,
C. Daniel Johnson2,
James E. Huprich2 and
David Hough2
1 Mayo Clinic College of Medicine, Rochester, MN 55905.
2 Department of Radiology, Mayo Clinic Rochester, Mayo East 2-B, 200 First St.
SW, Rochester, MN 55905.
Received October 24, 2004;
accepted after revision December 21, 2004.
Joel G. Fletcher and C. Daniel Johnson have received funding from E-Z-EM to
teach a CME course on CT colonography.
Address correspondence to J. G. Fletcher.
Keywords: CT • colonography • safety • screening
Introduction
CT colonography, or virtual colonoscopy, is now routinely used as a full
structural examination of the colorectum following incomplete endoscopy
[1] and in patients with
elevated risk for complications during endoscopy or with aversion to
endoscopy. CT colonography has demonstrated performance on par with optical
colonoscopy in the screening of asymptomatic patients for adenomatous polyps
in some hands [2] and has
performed superiorly compared with nonendoscopic alternatives
[3].
Optimal colonic inflation is essential to a high-quality CT colonography
examination. Given the speed of image acquisition and reconstruction of MDCT
scanners, patients must tolerate maximum inflation for only a few seconds, as
opposed to endoscopy and barium enema, in which the colon remains inflated for
much longer periods of time. Nevertheless, colonic insufflation is known to
result in perforation, ranging from approximately 0.004-0.01% of cases for
double contrast barium enema
[4,
5] to 0.07-0.19% of cases for
colonoscopy [6,
7].
To date, thousands of patients have undergone CT colonography without
complications. Two cases of colonic perforation at CT have recently been
reported in patients with known colonic disease
[8,
9]. We report a case of
perforation following CT colonography in a patient without known colonic
disease.
Case Report
An 87-year-old man with a history of pulmonary emboli and unexplained
weight loss underwent CT colonography for suspected malignancy. CT
colonography was chosen over colonoscopy to maintain the patient on
anticoagulation. CT colonography inflation began after 1 mg of glucagon was
given subcutaneously followed by the insertion of a Flexi-Tip (E-Z-EM) enema
tip with a nonlatex retention cuff. The patient complained of minimal
discomfort related to the rectal tube insertion. Initially, an attempt at
adequate colonic inflation was made using a PROTOCO2L Colon
Insufflator (E-Z-EM) set at 25 mm Hg threshold cutoff value, using carbon
dioxide. A CT scout demonstrated inadequate colonic inflation, so the colonic
insufflator was disconnected, and a nurse experienced in CT colonography
inflated the patient manually, using carbon dioxide. Supine CT images with
adequate inflation then were obtained. The patient was rolled into the
decubitus position, and more carbon dioxide was insufflated manually before
prone scanning. A repeat scout confirmed adequate colonic inflation and prone
CT colonography images were acquired. While the patient complained of mild
procedure-related discomfort during insufflation, he did not complain of any
procedure-related discomfort after the CT colonography procedure. A staff
radiologist reviewed the CT colonography data sets following scanning. Supine
CT colonography images demonstrated a cecal lipoma but otherwise
normal-appearing cecum and periappendiceal tissues
(Fig. 1A). The prone images
showed colonic perforation with resulting retroperitoneal and intraperitoneal
free air (Figs. 1A,
1B,
1C, and
1D). The patient was admitted
to the hospital for observation. At admission, the patient was in no distress,
experiencing only vague lower abdominal pain, nonprogressive and nonradiating
in nature. Physical examination revealed an afebrile patient with diffuse
lower abdominal tenderness on palpation but without palpable masses. Bowel
sounds were present. The patient was placed on IV antibiotics. Subsequent
bowel movements were absent of blood and his abdominal pain abated. He was
discharged 4 days after admission following an uneventful hospital course.
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Fig. 1A —87-year-old man on anticoagulation medication for pulmonary
emboli but without known colonic disease underwent CT colonography with
automatic followed by manual insufflation. Supine axial CT colonography image
shows normal-appearing cecum and periappendiceal tissues without evidence of
perforation following conversion to manual insufflation.
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Fig. 1B —87-year-old man on anticoagulation medication for pulmonary
emboli but without known colonic disease underwent CT colonography with
automatic followed by manual insufflation. Subsequent prone axial CT
colonography image shows free intraperitoneal air ventral to liver surface and
retroperitoneally, posterior to hepatic flexure, indicating bowel
perforation.
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Fig. 1C —87-year-old man on anticoagulation medication for pulmonary
emboli but without known colonic disease underwent CT colonography with
automatic followed by manual insufflation. Prone axial CT colonography image
shows large amount of air dissecting along pericecal tissues, implicating
cecum as likely site of perforation.
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Fig. 1D —87-year-old man on anticoagulation medication for pulmonary
emboli but without known colonic disease underwent CT colonography with
automatic followed by manual insufflation. Prone axial CT colonography image
shows normal-appearing rectum and no evidence of rectal trauma.
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Discussion
This case shows that colonic perforation can occur during CT colonography,
even in patients without known colonic disease. We have performed more than
4,600 colonography examinations without previous complication. Following
prompt recognition, observation, and antibiotics, our patient recovered
uneventfully.
Perforation as a complication of colonoscopy can be due to direct trauma by
the endoscope, deep biopsy, or overinflation of the bowel. As a complication
of barium enema, perforation is thought most often to result from trauma
caused by insertion of the rectal tube, with overinflation during insufflation
occurring less often [5].
Kozarek and Sanowski [10]
studied manual versus automatic insufflation in explanted human colonic
segments from 12 cadavers and found that the cecum perforated at lower
pressures (mean, 120 mm Hg) compared to the sigmoid colon (mean, 202 mm Hg).
The U.S. Food and Drug Administration (FDA) guidance for laparoscopic
insufflators and related devices limits intraabdominal pressure to 30 mm Hg
[11]. Our automatic
insufflator (a PROTOCO2L Colon Insufflator) device employs a limit
of 25 mm Hg during colonic inflation and vents colonic air to the outside room
when pressures exceed 50 mm Hg for 5 sec. In our case, we switched to manual
insufflation because of difficulty inflating the colon. An industrial study,
which recorded intracolonic pressures during manual inflation in 17 patients
undergoing colonography, found that transient peak pressures during manual
inflation ranged on a per-subject basis from 41 mm Hg to 148 mm Hg
[12].
In our case, pericolonic air was observed in the lateral conal fascia about
the cecum, indicating the cecum as the likely site of perforation. Rupture at
this location may have occurred due to rupture of a diverticulum (although no
right-sided diverticula were seen in this patient), or increased wall stress
due to the large diameter of the colon at this location (according to
Laplace's law). While mild discomfort usually is associated with uncomplicated
colon inflation, our experience suggests CT colonography images should be
reviewed before patient dismissal.
As CT can detect very small amounts of retroperitoneal and intraperitoneal
free air, colonic perforation resulting from CT colonography examinations may
result in only mild symptomatology, as observed in our case. Patients
complaining of pain during or immediately following CT colonography
examination for any reason should have CT images reviewed before dismissal, so
that colonic perforations can be detected in a timely fashion to reduce
morbidity.
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Introduction
Case Report
