Acute perforated acalculous cholecystitis

By Parekh S, Andrawes S, Giordano C, Sharma R

CASE SUMMARY

A 68-year-old male presented to the emergency department with worsening abdominal pain, which started four days prior. The pain was diffuse but more pronounced on the right side. Patient also complained of periodic non-bloody, non-bilious emesis for the past two days as well as subjective fever. On physical examination, he was afebrile with normal vital signs, had a soft, non-distended abdomen with tenderness to palpation in the right upper quadrant. There was no rebound or guarding. His labs revealed leukocytosis with a WBC of 16.3 and elevated total and direct bilirubin, 3.2 and 0.7 respectively. Alkaline phosphatase was within normal limits. Initial radiologic evaluation included a CT scan of the abdomen/pelvis and abdominal ultrasound.

On the following day, the patient was sent to Interventional Radiology for percutaneous cholecystostomy. Since his symptoms did not improve, the patient ultimately underwent open cholecystectomy where the gallbladder was noted to be distended with patches of necrosis and free purulent fluid. Gross pathology of the specimen demonstrated an enlarged gallbladder with diffusely hemorrhagic mucosa and areas of full thickness necrosis consistent with acute perforated gangrenous cholecystitis. Due to subsequent findings of post-operative bile leak, patient received an ERCP with CBD stent placement. Outpatient follow-up two months later showed no residual bile leak and clinically the patient’s symptoms have resolved.

IMAGING FINDINGS

Contrast-enhanced computed axial tomography was performed of the abdomen and pelvis with coronal and sagittal reformats. Axial and coronal representative images (Figure 1A and 1B, respectively) demonstrate a distended gallbladder with wall enhancement. Surrounding the gallbladder and extending into the hepatic flexure and right para-colic gutter is extensive inflammatory changes within the mesenteric fat. There is a defect/discontinuity within the gallbladder wall with leakage of bile.

Ultrasound performed of the right upper quadrant of the abdomen (Figure 2) shows layering of the gallbladder wall. Additional sonographic findings included gallbladder sludge, wall thickening and pericholecystic fluid. No echogenic gallstones were seen.

Magnetic resonance imaging was performed of the abdomen without the administration of gadolinium contrast on the day after admission. Imaging findings were consistent across different sequences and planes. Representative axial single-shot fast spin-echo (SSFSE) T2-weighted image (Figure 3) demonstrates gallbladder wall disruption with bile leakage, consistent with the prior CT findings. Gallbladder wall thickening and edema, sludge and pericholecystic fluid and inflammatory changes were again seen. There was no MRI evidence of cholelithiasis or choledocholithiasis.

Subsequently the patient underwent an image-guided percutaneous cholangiogram and cholecystostomy drain placement by interventional radiology. During the cholangiogram, contrast is seen accumulating outside of the gallbladder and after placement of the drain (Figure 4), a contained collection is seen just lateral to the gallbladder lumen.

After the patient underwent an open cholecystectomy, the following day he had a nuclear medicine HIDA scan (Figure 5) which demonstrated a contained bile leak within the gallbladder fossa which was being drained by a Jackson-Pratt drainage tube.

Due to the above HIDA scan findings, an Endoscopic Retrograde Cholangiopancreatography (ERCP) was done (Figure 6A) which demonstrated the presence of a bile leak in the region of the cystic duct. A common bile duct stent was placed covering the cystic duct remnant. Two months later, at a follow-up ERCP (Figure 6B), the stent was removed and no residual bile leak was identified.

DIAGNOSIS

Acute perforated acalculous cholecystitis

DISCUSSION

Acute cholecystitis is a common diagnosis made in emergency departments throughout the world. While a majority of cases are caused by mechanical obstruction of the cystic duct by a calculous, a much smaller percentage are of the acalculous variety, typically 10% to 15% of all cases.1 While there is still not much known about the pathophysiology of acute acalculous cholecystitis, it is generally thought of as a disease which effects patients with prolonged hospitalizations who are critically ill.1,2 The generally accepted hypothesis is prolonged stasis of bile which leads to increase in its viscosity and a resulting functional obstruction of the cystic duct.2 Regardless of the mechanism (functional or mechanical), it is thought that prolonged obstruction of the cystic duct leads to rise in the intraluminal pressure which prevents venous drainage. This in turn disrupts vascular flow leading to gangrenous changes and eventually necrosis and perforation of the gallbladder wall.2,3

Gangrenous cholecystitis was typically a disease entity identified at autopsy as patients usually did not survive. The first reported successful removal of a gangrenous gallbladder occurred in 1895.4 In the era of modern medicine, with increasing ease of access to emergency care and advanced imaging and diagnostic technology, patients get diagnosed and treated with acute cholecystitis early on in its course with perforation being an uncommon scenario. In a study of 332 patients over the course of nine years with acute cholecystitis, only 4.8 percent were found to have perforated gallbladders.5 However, when looking specifically at acalculous cholecystitis, rates of gangrene approach 60 percent and perforation 15 percent.1,6 In 1934, Dr. Niemeier classified gallbladder perforations intro three types and the Niemeier classification is still used today.7 Type I is an acute perforation with generalized biliary peritonitis, Type II is subacute perforation with localized peritonitis and pericholecystic abscess or walled-off fluid collection and Type III is a chronic process with cholecystoenteric fistula formation.3,5,7 For type I and II, the fundus is the most common site of perforation due to its poor blood supply; while type III is extremely rare, the most common site is the infundibulum.3,5

The initial diagnostic imaging of choice in patients with suspected acute cholecystitis is gallbladder ultrasound, with HIDA scan being used if the former has equivocal findings. Ultrasound findings of a thickened gallbladder wall and cholelithiasis with a positive sonographic Murphy’s sign has a 95 percent positive predictive value for acute cholecystitis.8 While CT is far inferior for this diagnosis compared to ultrasound, its value comes in cases of atypical presentations such as acalculous, gangrenous, emphysematous or perforated cholecystitis where it is far superior.8-10 The ultrasound finding which is unique to a perforated gallbladder includes layering of the gallbladder wall; the other findings of thickened gallbladder wall and pericholecystic fluid are nonspecific.10 The benefit of CT in this scenario is its ability to directly visualize a defect in the gallbladder wall, to characterize the type of perforation present, as well as look for potential complications of perforated cholecystitis.3,10 Some of the more common complications include bile peritonitis, hepatic/subhepatic abscess, pancreatitis and fistula formation.3,5,10 Additionally, due to the extensive pericholecystic inflammation which results from the perforation, it is not uncommon to get post-surgical complications such as biliary leaks, as was the case with our patient.3,5

CONCLUSION

While acute cholecystitis is not an uncommon entity for which the diagnosis is usually made promptly, gallbladder perforation resulting from prolonged obstruction of the cystic duct is rarely seen. It is, however, more commonly seen (although still relatively rare) in cases of acute acalculous cholecystitis. It is critical to recognize the radiographic signs, such as a discontinuous gallbladder wall, which would suggest a perforated gallbladder so that patient care can be expedited. This is especially important as the morbidity and mortality associated with perforated gangrenous cholecystitis is much higher than its non-perforated precursor.

REFERENCES

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Parekh S, Andrawes S, Giordano C, Sharma R. (Feb 05, 2018). Acute perforated acalculous cholecystitis. Appl Radiol. 2018; 47(2):20-23.

Prepared by Dr. Parekh while a PGY-3 Radiology Resident; Dr. Andrawes while Attending Gastroenterologist; Dr. Giordano while Attending Interventional Radiologist; and Dr. Sharma while Attending Radiologist at Staten Island University Hospital, Staten Island, NY.

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