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. Author manuscript; available in PMC: 2009 Oct 7.
Published in final edited form as: J Appl Res. 2006 Jan 1;6(1):43–50.

Cryptococcal Peritonitis Complicating Hepatic Failure: Case Report and Review of the Literature

Muhammad Wasif Saif *, Mohan Raj
PMCID: PMC2758792  NIHMSID: NIHMS145081  PMID: 19816551

Abstract

Background

Cryptococcus neoformans is an encapsulated yeast that is an important cause of infection in patients with human immunodeficiency virus (HIV), lymphoid malignancies, and in those receiving corticosteroid therapy. The spectrum of diseases caused by C neoformans ranges from pulmonary infection to disseminated disease frequently involving the central nervous system, and occasionally skin and bone. Other extrapulmonary and extraneural sites of infection are less common. Cryptococcal peritonitis is an unusual entity, which is most often encountered in patients with end-stage renal disease undergoing ambulatory dialysis.

Case Report

We present a case of cryptococcal peritonitis which developed in a patient with hepatitis C-related cirrhosis. As little is know about the relationship between cirrhosis and cryptococcosis, we further reviewed the literature of this unusual but life-threatening relationship.

Discussion

Severe liver disease has not been fully recognized as a predisposing factor in the development of cryptococcal infection, particularly cryptococcal peritonitis, but the scattered case reports in the medical literature and our case report augment the association between the advanced liver disease and cryptococcal peritonitis. Therefore, cryptococcal infection should be considered in the evaluation of these patients with possible peritonitis.

Keywords: cryptococcal peritonitis, hepatic failure, Cryptococcus neoformans, ascites, disseminated cryptococcosis

INTRODUCTION

Spontaneous bacterial peritonitis (SBP) is a common complication in cirrhotic patients with ascites. Clinically, it manifests as fever, abdominal pain, and abdominal tenderness. The diagnosis is confirmed by presence of >250 neutrophils/mm3 in the ascitic fluid and by demonstration of bacteria on Gram stained smear or peritoneal fluid culture.1 Cryptococcus neoformans is an encapsulated yeast that is an important cause of infection in patients with human immunodeficiency virus (HIV) infection, lymphoid malignancies, and in those receiving corticosteroid therapy. The spectrum of diseases caused by C neoformans ranges from pulmonary infection to disseminated disease frequently involving the central nervous system, and occasionally skin and bone. Other extrapulmonary and extraneural sites of infection are less common. However, spontaneous peritonitis caused by C neoformans is rarely reported. Delayed diagnosis of cryptococcus peritonitis due to its rarity and the fact that its presentation is indistinguishable from SBP often results in fatal outcome. We present a case of cryptococcal peritonitis which developed in a patient with hepatitis C-related cirrhosis. We also reviewed the literature of this unusual association.

CASE REPORT

A 45-year-old male was admitted to the hospital complaining of progressive weakness, fatigue, increased abdominal distension, and dyspnea. The patient was hospitalized 1 month prior to this admission for variceal bleeding and spontaneous bacterial peritonitis. During that hospitalization, he underwent diagnostic and therapeutic abdominal paracentesis, blood transfusion, and treatment with cefotaxime.

His past medical history was significant for end-stage liver disease secondary to hepatitis C–induced cirrhosis confirmed on biopsy and repeated interventions with abdominal paracentesis for his recurrent ascites during the previous 2 years. Review of systems revealed a history of mild confusion. His HIV status was known to be negative.

On physical examination, the patient, a hispanic male, was icteric and afebrile with normal vital signs. Further examination demonstrated spider angiomas, mild nuchal rigidity, and scleral icterus. Abdominal examination revealed ascites with splenomegaly but no signs of guarding or rebound tenderness. Neurological examination showed only mild confusion, but no motor or sensory deficits. Chest radiograph showed no pulmonary infiltrates.

Abdominal paracentesis revealed ascitic fluid containing leukocytes 220/µL with 78% lymphocytes and 22% polymorphonuclear neutrophils; total protein was 2.1 g/dL. Gram stain and acid-fast bacilli stains were negative. Three days later, the patient’s ascetic fluid culture grew C neoformans. Subsequent search for disseminated disease included microbiological studies of cerebrospinal fluid (CSF), blood, and urine. Blood and spinal fluid cultures also grew C neoformans. Serum cryptococcal antigen measured by indirect enzyme immunoassay (EIA) was 1:32 and CSF antigen was 1:640. Cryptococcal antigen titer by latex agglutination of the ascites fluid was 1:4. Abdominal ultrasound showed cholelithiasis. This was followed by a radionucleide scan which revealed cystic duct obstruction. Percutaneous drainage of the gall bladder under sonographic guidance was considered but not performed at that time.

The patient was initially treated with fluconazole 6 mg/kg intravenously (IV) and 3 days later was switched to amphotericin B 0.75 mg/kg IV for 9 days due to lack of change in the clinical picture. His condition improved and the repeated ascitic, blood, and CSF cultures were sterile 12 days later. He was discharged to home on oral fluconazole. Patient was alive at the follow up of 6 months.

DISCUSSION AND LITERATURE REVIEW

Cryptococcal peritonitis is an uncommon infection. The respiratory tract is considered to be the usual port of entry of C neoformans. However, the gastrointestinal (GI) tract has been proposed as a potential site either following ingestion or possible direct inoculation of C neoformans into the blood stream following upper GI bleeding or overgrowth of fungus after antibiotic use.2,3

Review of our case and of previously reported cases (Table 1) reveals a striking association between hepatic disease and cryptococcal peritonitis.212,2125 The spectrum of hepatobiliary and pancreatic diseases found in these cases include hepatocellular carcinoma, liver cirrhosis either due to alcohol abuse or hepatitis B or C fulminant hepatitis, polyarteritis nodosa, gall bladder cancer, and cystadenocarcinoma of the pancreas.13,14

Table 1.

Case reports of patients with liver disease and crypotococcal peritonitis

Age/Sex/Race Underlying disease Risk/predisposing
factors		 Ascites fluid
profile
WBC/µ
and
protein g/L		 Other
culture
specimens
showing C
neoformans 		Therapy Outcome Reference
60/F/C Cirrhosis
(hepatitis C)		 Antibiotics WBC: 150
P: 7		 CSF, blood,
BAL		 Amphotericin,
flucytosine		 Death Mabee and Mabee2
63/M/C Cirrhosis
(hepatitis B)		 Upper GI bleeding,
antibiotics		 WBC: 220
P: 25		 CSF
blood		 Amphotericin,
flucytosine		 Death Poblete3
54/M/C Fulminant
hepatic failure		 Corticosteroids,
antibiotics		 ND Blood None Death Sabesin and Tallen4
63/M/C Cirrhosis
(hepatitis C)		 Corticosteroids,
antibiotics		 WBC: 480
P: ND		 Amphotericin,
flucytosine		 Death Daly and Porter5
56/M/C Chronic
active hepatitis		 Corticosteroids ND CSF
blood, urine		 Amphotericin Death Perfect and Durack6
NA Ventriculoper
intoneal shunt		 ND CSF Amphotericin Death Crum and Feldman7
NA Lupus nephritis Upper GI bleeding,
antibiotics, steroids		 ND ND Amphotericin Death Watson and Johnson8
57/M/C Cirrhosis
(hepatitis B)		 Upper GI bleeding,
antibiotics		 WBC: 160
P:6		 NA Amphotericin Death Clift and Bradsher9
45/M/C Cirrhosis (hepatitis C) Upper GI
bleeding, antibiotics		 WBC: 220
P: 21		 CSF,
blood		 Amphotericin,
fluconazole
(Discharged
home on fluconazole)		 Improved Present Case
43/M Cirrhosis; Hepatitis C
AIDS		 Upper GI
bleeding,
ascites		 WBC: 0
P: 15.2		 Blood,
feces,
sputum		 Amphotericin B Death Stiefel et al 10
39/M Hepatitis B
and
alcoholic
cirrhosis		 Ascites WBC: 300
P: 2.4		 Blood Amphotericin B
and
fluconazole		 Death Cleophas et al11
42/F Alcoholic
cirrhosis;
AIDS		 Ascites,
upper GI bleeding		 WBC: 200
P: 1.7		 Blood - - Death Sungkanuparph et al12
34/M Alcoholic
cirrhosis,
lymphoma		 Chemotherapy,
upper GI bleeding		 WBC: 450
P: 1.6		 Urine -- Death Sungkanuparph et al12
64/F Cirrhosis,
hepatitis B,
breast cancer		 Chemotherapy,
ascites, jaundice		 WBC: 340
P: 1.3		 Blood Amphotericin B Death Sungkanuparph et al12
53/F Cirrhosis,
hepatitis C		 Ascites WBC: 470
P: ND		 Blood,
muscle biopsy		 Amphotericin B,
fluconazole		 Alive Flagg et al21
57/F Hepatitis C Corticosteroids ND Blood Amphotericin,
flucytosine		 Death Singh et al22
39/M Alcoholic cirrhosis Ascites, esophageal
varices		 WBC: 50
P: 4		 ND -- Death Albert-Braun et al23
50/M Hepatitis B,
subacute hepatic
failure		 Ascites, jaundice WBC: 3600
P: 3		 ND -- Death Cleophas et al11
44/F Alcoholic cirrhosis Ascites WBC:60
P: 7		 ND -- Death Hoche-Delche et al24
NA Cirrhosis Portal hypertension ND Blood -- Death Jean et al25
NA Cirrhosis Portal hypertension ND Blood -- Death Jean et al25
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F=female, M=Male, C=Caucasian, WBC=white blood cells, D=differential, P=protein, CSF=cerebrospinal fluid, BAL=broncho-aveolar lavage, GI=gastrointestinal, ND=not done, NA=not available.

Although Candida spp. and Aspergillus spp. are also known causes of proven fungal peritonitis, cases due to cryptococcal peritonitis appear to be more highly associated with hepatobiliary diseases.

Patients with liver disease have an increased predisposition to infections, often secondary to impaired phagocytic function, reduced complement levels, dysimmunoregulation, corticosteroids, the need for invasive procedures, use of antibacterial agents, and, possibly, GI bleeding associated with liver disease which may result in translocation of organisms from the GI tract to the blood.1,2,15 Such qualitative or quantitative impairment of humoral immunity may also increase the risk of cryptococcosis.10

Proposed mechanisms underlying the pathogenesis of cryptococcal peritonitis include direct percutaneous inoculation of contaminating organisms during repeated paracentesis for management of ascites, hematogenous spread from a pulmonary site, and hematogenous spread from the alimentary tract facilitated by upper GI bleeding. In our patient, previous paracentesis, antibiotic exposure, and recent upper GI bleeding occurred within a relatively short period of time before development of cryptococcal peritonitis. These events raise the possibility of direct percutaneous inoculation or the possibility of translocation of the cryptococci from the GI site into the blood stream. Casadaval and Perfect previously suggested the GI tract as a portal of entry in HIV-infected patients.16

In patients who have responded to an initial course of amphotericin, the use of oral fluconazole improves quality of life in the ambulatory setting. While careful monitoring of aspartate aminotransferase, alanine aminotransferase, and bilirubin in patients with liver impairment is warranted for this azole, the frequency of truly attributable hepatotoxicity due to fluconazole remains acceptably small. Moreover, as only approximately 15% of fluconazole is hepatically metabolized, no dosage adjustment is necessary in patients with liver disease.17

If not diagnosed and treated promptly, progressive disseminated cryptococcosis and ultimately death may ensue. The possible reasons for a delay in diagnosis and therapy include low degree of suspicion; lack of classic signs and symptoms of peritonitis (as in our case) or even other signs of infection (lack of fever, absence of signs of meningismus); absence of characteristic ascitic fluid examination findings—as seen in our case where the ascitic fluid total protein was <2.5 g/dL suggesting a transudative rather than an exudative process2; and longer time period for fungal culture to grow. Similarly, the microscopic evaluations and culture techniques are also sub-optimal. Clift and Bradsher demonstrated that india ink preparations may be beneficial.9 Runyon suggested that inoculation of blood culture bottles containing fungal media with ascitic fluid at the bedside may provide an increased yield of ascitic fluid cultures for microorganisms.18 Diagnostic sensitivity is further enhanced by performing serum cryptococcal antigen testing by latex agglutination or EIA of serum and CSF. The positivity of the test in our case supports the diagnostic utility for early detection of C neoformans in high-risk patients. A similar diagnostic suspicion also maybe warranted in patients receiving peritoneal dialysis, where cryptococcal peritonitis has been reported.19

Mortality rate in cirrhotic patients developing spontaneous cryptococcal peritonitis is high.10,20 The advanced hepatic decomposition (cirrhosis), disseminated fungal infection, and delayed diagnosis may contribute to such high fatality rates. Clinical suspicion of this disease may lead to an earlier diagnosis and a better therapy and outcome.

Severe liver disease has not been fully recognized as a predisposing factor in the development of cryptococcal infection, particularly cryptococcal peritonitis, but the scattered case reports in the medical literature and our case report augment the association between the advanced disease and cryptococcal peritonitis. Therefore, cryptococcal infection should be considered in the evaluation of these patients with possible peritonitis. Abdominal paracentesis with bedside inoculation of culture medium, india ink preparations, and serum (CSF, ascitic fluid) cryptococcal antigen testing should be included in the evaluation of infected ascitic fluid in this group of patients. If discovered from ascitic fluid, prompt search for disseminated cryptococcal infection should be performed. Amphotericin B followed by oral fluconazole may result in successful therapy.

ACKNOWLEDGMENT

The authors wish to acknowledge Meagan Johanson for assistance in publication editing and preparation.

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