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Measurement of serum procalcitonin levels for the early diagnosis of spontaneous bacterial peritonitis in patients with decompensated liver cirrhosis
- Zhao-Hua Cai†1, 2,
- Chun-Lei Fan†1,
- Jun-Fu Zheng1,
- Xin Zhang1,
- Wen-Min Zhao1,
- Bing Li1,
- Lei Li1,
- Pei-Ling Dong1 and
- Hui-Guo Ding1Email author
© Cai et al.; licensee BioMed Central. 2015
Received: 19 June 2014
Accepted: 21 January 2015
Published: 13 February 2015
It is difficult to diagnose spontaneous bacterial peritonitis (SBP) early in decompensated liver cirrhotic ascites patients (DCPs). The aim of the study was to measure serum procalcitonin (PCT) levels and peripheral blood leukocyte/platelet (WBC/PLT) ratios to obtain an early diagnostic indication of SBP in DCPs.
Our cohort of 129 patients included 112 DCPs (94 of whom had infections) and 17 cases with compensated cirrhosis as controls. Bacterial cultures, ascitic fluid (AF) leukocyte and peripheral WBC/PLT counts, and serum PCT measurements at admission were carried out prior to the use of antibiotics. Receiver operating characteristic (ROC) curves were generated to test the accuracies and cut-off values for different inflammatory markers.
Among the 94 infected patients, 66 tested positive by bacterial culture, for which the positivity of blood, ascites and other secretions were 25.8%, 30.3% and 43.9%, respectively. Lung infection, SBP and unknown sites of infection accounted for 8.5%, 64.9% and 26.6% of the cases, respectively. Serum PCT levels (3.02 ± 3.30 ng/mL) in DCPs with infections were significantly higher than those in control patients (0.15 ± 0.08 ng/mL); p < 0.05. We used PCT ≥0.5 ng/mL as a cut-off value to diagnose infections, for which the sensitivity and specificity was 92.5% and 77.1%. The area under the curve (AUC) was 0.89 (95% confidence interval: 0.84–0.91). The sensitivity and specificity were 62.8% and 94.2% for the diagnosis of infections, and were 68.8% and 94.2% for the diagnosis of SBP in DCPs when PCT ≥2 ng/mL was used as a cut-off value. For the combined PCT and WBC/PLT measurements, the sensitivity was 76.8% and 83.6% for the diagnosis of infections or SBP in DCPs, respectively.
Serum PCT levels alone or in combination with WBC/PLT measurements seem to provide a satisfactory early diagnostic biomarker in DCPs with infections, especially for patients with SBP.
One of the most common and serious complications in decompensated cirrhotic patients (DCPs) is bacterial infection [1-3]. Bacterial infections are known to be important causes of high mortality and morbidity in such patients, although antibiotics have been developed in recent decades . Therefore, it has been suggested that the occurrence of bacterial infections should be considered as a further prognostic stage to define critical cirrhosis, which is associated with >40% increased mortality and longer hospital stays [2,5]. The most common infections in DCPs are cases of spontaneous bacterial peritonitis (SBP), which account for 40%–70% of cases, followed by urinary tract infections, pneumonia and cellulitis [3,6]. The early diagnosis of infections can improve the prognoses of patients . However, it is difficult to diagnose SBP early in DCPs with ascites because the clinical manifestations and ascitic biochemical characteristics are often inconsistent [3-6]. Current guidelines state that culture positivity for a pathogen in ascitic fluid (AF) is the gold standard for the diagnosis of SBP. However, ascites culture has been negative in about 60% of patients with clinical manifestations suggestive of SBP and increased ascites neutrophil count [8,9]. Therefore, new studies of early diagnosis, prevention and treatment are needed to improve clinical outcomes. Many studies have shown that serum procalcitonin (PCT) is a sensitive biomarker that can be used to monitor bacterial infections, and measurements of PCT levels may guide the clinical use of antibiotics . However, the diagnostic value of serum PCT levels in DCPs with infections , especially SBP, remains unclear, several studies provide conflicting results [12-16]. Therefore, this study aimed to determine the diagnostic value of serum PCT levels alone, or in combination with the peripheral blood leukocyte and platelet count (WBC/PLT) measurements in DCPs with bacterial infections and/or SBP.
This was a retrospective cross-sectional case-controlled study to determine the early diagnostic value of serum PCT levels alone, or in combination with WBC/PLT measurements in DCPs with SBP.
Clinical characteristics of the enrolled patients
DCPs with infections N = 94
DCPs without infections N = 18
Control N = 17
Age (M ± SD)
59.84 ± 11.68
56.44 ± 12.4
54.05 ± 10.24
Etiology of cirrhosis (%)
Child–Pugh classification (%)
Number of complications (%)*
The etiology of cirrhosis was determined in cirrhotic patients by assessing hepatitis B and C status, alcoholism, cryptogenic disease and autoimmune cirrhosis from the medical record of each patient. The severity of cirrhosis was classified based on the Child–Pugh criteria, while all of the cirrhotic patients were evaluated for the presence of hepatocellular carcinoma using B ultrasonography and CT.
The study was approved by the Clinical Research and Ethics Committee of Capital Medical University, Beijing You’an Hospital.
Paracentesis and AF culture
Diagnostic paracentesis was carried out at the bedside using a sterile method with a 22-G needle attached to a 20-cc syringe after local anesthesia with lidocaine. AF was immediately drawn from the peritoneal fluid after the sterile needle was attached to a syringe for paracentesis. Then, aspirated AF was collected into ethylenediaminetetraacetic acid tubes and analyzed for biochemistry and leukocyte counts within 3 h. We collected 10 mL AF from patients and cultured it in aerobic blood culture bottles (Becton Dickinson, Franklin Lakes, NJ, USA). These bottles were then placed into an automated Bactec 9120 3D culture system (Becton Dickinson) for 48–72 h. Bacterial identification and antimicrobial susceptibility testing were carried out using standard procedures with a Phoenix100 automated bacterial identification system.
Bacterial culture of other samples
We inoculated 10 mL venous blood, urine or respiratory secretion samples taken from patients before the administration of antibiotics in blood culture bottles using the same methods as described above for the ascites bacterial culture.
Diagnostic criteria of infections
Bacterial infections in DCPs met sepsis and/or SBP criteria. Sepsis was determined by the following criteria: (1) fever (T >38°C); (2) peripheral WBC >10 × 109/L; and (3) unexplained circulatory or renal failure and systolic blood pressure <90 mmHg after fluid resuscitation. Pneumonia was confirmed by lung X-ray and CT examination. Urinary tract infections were confirmed by positive urine bacterial cultures.
Diagnostic criteria of SBP
SBP was determined based on one of the following criteria, as revised from available guidelines [8,9]: (1) abdominal pain and/or fever (T >37.5°C), and/or abdominal and rebound tenderness (excluding secondary peritonitis); and (2) AF leukocytes counts ≥250/mm3 and/or bacterial culture positivity.
Serum PCT measurements
Serum PCT levels were measured using enzyme-linked fluorescence analysis (ELFA) with a detection limit of 0.1 ng/mL using an automated enzyme-linked fluorescence quantitative analyzer (VIDAS, Merieux, France).
Assessments of blood biochemistry
Data from blood biochemistry tests were obtained from the medical records of each patient. These data included peripheral WBC/PLT counts (determined using a MEK 6318 K automatic blood cell analyzer, Nihon Kokden, Tokyo, Japan) and parameters from liver and renal biochemical profiles, such as alanine aminotransferase, aspartate aminotransferase, total bilirubin, albumin, blood urea nitrogen, and creatinine levels (as measured using an automatic biochemical analyzer, Olympus AU640, Tokyo, Japan).
Qualitative data were expressed as n (%) and quantitative variables were expressed as the mean ± standard deviation (M ± SD). The Mann–Whitney U test was used to compare non-normally distributed quantitative data, and Pearson’s χ2 test was used to evaluate qualitative data. Statistical tests were performed using computer software (SPSS16.0, SPSS Inc. Chicago, IL, USA). The receiver operating characteristic (ROC) curves were generated to test the accuracies and cut-off values for different inflammatory markers. The optimal cutoff value of WBC/PLT was determined by calculating the point on the ROC curve with the maximum Youden index (sensitivity-[1-specificity]). While the cutoff values of WBC and PCT were determined according to the standard widely accepted in clinic [12-18]. The area under the curve (AUC) and 95% confidence interval (CI) were assessed where appropriate. A level for statistical significance was set at p < 0.05.
A total 94 of 112 DCPs had confirmed bacterial infections. These patients included 8 cases with lung infection (8.5%), 61 cases with SBP (64.9%) and 25 cases with an unknown site of infection (26.6%). A total of 66 of 94 infection cases showed bacterial culture positivity. The bacterial culture positivity rate of blood, AF and other secretion samples was 25.8% (17/66), 30.3% (20/66) and 43.9% (29/66), respectively. Among 61 DCPs with SBP, the bacterial culture positivity rate of AF was 32.8%. 70.2 percent (66/94) of DCPs with infections had at least two kinds of complications, including ascites, esophageal variceal bleeding, hepatic encephalopathy or hepatorenal syndrome.
The diagnostic value of serum PCT levels and WBC/PLT ratios for detecting infections
Serum PCT levels, peripheral blood WBC and WBC/PLT ratios in the enrolled subjects
SBP (n = 61)
3.55 ± 3.53*
8.8 ± 1.1
0.23 ± 0.03*
Lung infection (n = 8)
3.2 ± 3.46*
6.7 ± 2.3
0.17 ± 0.06*
Unknown infections (n = 25)
2.24 ± 2.73*
5.1 ± 1.1
0.35 ± 0.07*
Control (n = 17)
0.15 ± 0.08
5.14 ± 1.04
0.05 ± 0.2
The diagnostic efficacy of serum PCT levels combined with WBC/PLT ratios for infections in cirrhotic patients
PCT + WBC/PLT
Infected (n = 94)
Non-infected (n = 35)
Positive predictive value (PPV, %)
Negative predictive value (NPV, %)
The diagnostic value of serum PCT levels and WBC/PLT ratios for SBP
The diagnostic efficacy of serum PCT levels combined with WBC/PLT ratios for SBP in cirrhotic ascites patients
PCT + WBC/PLT
SBP (n = 61)
Non-infected (n = 35)
Positive predictive value (PPV, %)
Negative predictive value (NPV, %)
Liver cirrhosis patients are very susceptible to bacterial infections because of acquired immune defects of both humoral and cell-mediated immunity and bacterial translocation [3,19]. Liver dysfunction is strongly associated with impaired defenses against bacteria, and with structural and functional alterations in the intestinal mucosa that lead to an increase in the permeability to bacteria and bacteria-derived products, which worsens over time and with disease progression. In end-stage liver disease patients, these events favor the translocation of bacteria, which increases susceptibility to infections, particularly SBP. The release of inflammatory mediators during infections leads to systemic, renal and hepatic hemodynamic impairment, which dramatically affects the prognosis, even after infections resolve [1,3]. More than 70% mortality in cirrhotic patients with drug-resistant infections was also reported [7,20]. It has been suggested that the early diagnosis of SBP, along with the prompt initiation of empirically based antibiotic therapy, have been considered to be crucial for the survival of a patient. Liver cirrhosis patients with sepsis caused by lung, urinary tract or skin infections were easy to diagnose clinically. To date, it remains a challenge for clinicians to arrive at an early diagnosis of SBP in cirrhotic patients with ascites because the early symptoms and signs are not obvious . Biomarkers with high sensitivity and specificity for the diagnosis of SBP are lacking.
The diagnosis of SBP was based on AF polymorphonuclear (PMN) leukocyte counts >250/mm3 and positive bacterial cultures without any evidence of an external or intra-abdominal source of infection or malignancy according to all of the available guidelines [8,9]. However, on the one hand, despite the use of sensitive pathogen culture methods, ascites culture has been negative in as many as 60% of patients with clinical manifestations suggestive of SBP and with increased ascites neutrophil leukocyte counts [21,22]. On the other hand, performing an AF culture is time consuming and is not always an available option in an emergency. Therefore, the discovery of easy to use, rapid and reliable diagnostic biomarkers for SBP in DCPs was needed.
Levels of PCT, a propeptide of calcitonin with a long half-life of 25–30 h that is produced by peripheral blood mononuclear cells, significantly increases during the systemic response of an organism to an infection and has been hailed as a novel inflammatory biomarker for bacterial infections [23-25]. In more severe infections, higher serum PCT levels were observed. The specificity of PCT for the diagnosis of severe sepsis and septic shock is 100%, and was suggested to warn of the occurrence of multiple organ dysfunction [18,25]. Serum PCT measurements have been reported to be superior to C-reactive protein in discriminating infectious from other inflammatory diseases, such as acute pancreatitis, cardiogenic shock and acute transplant rejection [26,27]. Meanwhile, serum PCT can be rapidly and easily detected as early diagnostic biomarker for sepsis . However, the utility of PCT as a marker for the early diagnosis of SBP has been reported limitedly, with conflicting results [12-16].
In this study, we found that serum PCT levels in cirrhotic patients with infections at admission were significantly higher than in non-infected patients and showed no relationship with the site of infection. Based on a serum PCT cut-off value of 0.5 ng/mL for the diagnosis of infections, the sensitivity and specificity were 92.5% and 77.1%, respectively. Based on our findings, the serum PCT cut-off values with the greatest specificity should routinely be 2 ng/mL. However, for a PCT cut-off value >2 ng/mL, the lower sensitivity may miss some cirrhotic patients with infections who should undergo early empirically based antibiotic treatment. Peripheral WBC is the most convenient diagnostic biomarker of infections, but it is often complicated by splenomegaly and hypersplenism in cirrhotic patients, so the WBC count was normally significantly lower. The study also found that in peripheral blood, WBC ≥10 × 109/L and WBC/PLT ≥0.25 could be used for the diagnosis of cirrhotic patients with infections, for which the specificity was 100% but the sensitivity was lower (47.8% and 39.6%, respectively). Thus, based on our findings, the use of serum PCT levels combined with WBC/PLT ratios can significantly improve the sensitivity of the early diagnosis of liver cirrhosis with infections.
In this study, we also found that in DCP with SBP, serum PCT levels, WBC, and WBC/PLT ratios were not significantly different between ascites culture-positive and -negative patients. Serum PCT levels combined with WBC/PLT ratios was an early biomarker for the diagnosis of SBP, and the sensitivity and specificity were 83.6% and 94.2%, respectively. Based on rapid detection within 2 h, bedside availability and the non-invasiveness of the diagnostic examination, serum PCT levels appear to have many advantages over the traditional PMN count in AF for the early diagnosis of SBP, especially in the absence of another site of infection. It is strongly recommended for use in clinical practice for the early diagnosis of SBP in cirrhotic patients with ascites.
In conclusion, serum PCT levels along with WBC/PLT ratios can be used as diagnostic biomarkers of cirrhotic patients with infections. Serum PCT levels should be considered in combination with WBC/PLT ratios or AF leukocyte counts, which can significantly improve sensitivity for the early diagnosis of SBP. Without a doubt, a prospective, randomized multicenter studies are needed to confirm the early diagnostic value of serum PCT levels alone or in combination with WBC/PLT ratios or AF leukocyte counts and to guide empirically based antibiotic administration.
From this study, we can conclude that serum PCT levels alone or in combination with WBC/PLT measurements seem to provide a satisfactory early diagnostic biomarker in DCPs with infections, especially for patients with SBP.
This study was supported by the Program of Beijing Science & Technology Commission (No. D131100005313004), Capital Sceience and Technology Development Fund (2014-1-1821) and the Beijing High-Level Talent Academic Leader/Personnel Training Programs awarded to Ding HG (2011-2-19); Li B (2013-3-072); and Li L (2013-3-073).
- Ginès P, Fernández J, Durand F, Saliba F. Management of critically-ill cirrhotic patients. J Hepatol. 2012;56 Suppl 1:S13–24.View ArticlePubMedGoogle Scholar
- Galbois A, Aegerter P, Martel-Samb P, Housset C, Thabut D, Offenstadt G, et al. Improved prognosis of septic shock in patients with cirrhosis: a multicenter study. Crit Care Med. 2014;42:1666–75.View ArticlePubMedGoogle Scholar
- Jalan R, Fernandez J, Wiest R, Schnabl B, Moreau R, Angeli P, et al. Bacterial infections in cirrhosis: a position statement based on the EASL Special Conference 2013. J Hepatol. 2014;60:1310–24.View ArticlePubMedGoogle Scholar
- Fernández J, Acevedo J, Castro M, Garcia O, de Lope CR, Roca D, et al. Prevalence and risk factors of infections by multiresistant bacteria in cirrhosis: a prospective study. Hepatology. 2012;55:1551–61.View ArticlePubMedGoogle Scholar
- Kamani L, Mumtaz K, Ahmed US, Ali AW, Jafri W. Outcomes in culture positive, culture negative ascitic fluid infection in patients with viral cirrhosis: cohort study. BMC Gastroenterol. 2008;8:59.View ArticlePubMedPubMed CentralGoogle Scholar
- Shalimar, Acharya SK. Difficult to treat spontaneous bacterial peritonitis. Trop Gastroenterol. 2013;34:7–13.View ArticlePubMedGoogle Scholar
- Campillo B, Richardet JP, Kheo T, Dupeyron C. Nosocomial spontaneous bacterial peritonitis and bacteremia in cirrhotic patients: impact of isolate type on prognosis and characteristics of infection. Clin Infect Dis. 2002;35:1–10.View ArticlePubMedGoogle Scholar
- Runyon BA, AASLD. Introduction to the revised American Association for the Study of Liver Diseases Practice Guideline management of adult patients with ascites due to cirrhosis 2012. Hepatology. 2013;57:1651–3.View ArticlePubMedGoogle Scholar
- European Association for the Study of the Liver. EASL clinical practice guidelines on the management of ascites, spontaneous bacterial peritonitis, and hepatorenal syndrome in cirrhosis. J Hepatol. 2010;53:397–417.View ArticleGoogle Scholar
- Assink-de Jong E, de Lange DW, van Oers JA, Nijsten MW, Twisk JW, Beishuizen A. Stop Antibiotics on guidance of Procalcitonin Study (SAPS): a randomised prospective multicenter investigator-initiated trial to analyse whether daily measurements of procalcitonin versus a standard-of-care approach can safely shorten antibiotic duration in intensive care unit patients--calculated sample size: 1816 patient. BMC Infect Dis. 2013;13:178.View ArticlePubMedPubMed CentralGoogle Scholar
- Viallon A, Zeni F, Pouzet V, Lambert C, Quenet S, Aubert G, et al. Serum and ascitic procalcitonin levels in cirrhotic patients with spontaneous bacterial peritonitis: diagnostic value and relationship to pro-inflammatory cytokines. Intensive Care Med. 2000;26:1082–8.View ArticlePubMedGoogle Scholar
- Schuetz P, Müller B, Christ-Crain M, Stolz D, Tamm M, Bouadma L, et al. Procalcitonin to initiate or discontinue antibiotics in acute respiratory tract infections. Cochrane Database Syst Rev. 2012;12:9.Google Scholar
- Su DH, Zhuo C, Liao K, Cheng WB, Cheng H, Zhao XF. Value of serum procalcitonin levels in predicting spontaneous bacterial peritonitis. Hepato-gastroenterol. 2013;60:641–6.Google Scholar
- Connert S, Stremmel W, Elsing C. Procalcitonin is a valid marker of infection in decompensated cirrhosis. Z Gastroenterol. 2003;41:165–70.View ArticlePubMedGoogle Scholar
- Li CH, Yang RB, Pang JH, Chang SS, Lin CC, Chen CH, et al. Procalcitonin as a biomarker for bacterial infections in patients with liver cirrhosis in the emergency department. Acad Emerg Med. 2011;18:121–6.PubMedGoogle Scholar
- Spahr L, Morard I, Hadengue A, Vadas L, Pugin J. Procalcitonin is not an accurate marker of spontaneous bacterial peritonitis in patients with cirrhosis. Hepatogastroenterol. 2001;48:502–5.Google Scholar
- Gürol G, Cıftcı IH, Terzi HA, Atasoy AR, Ozbek A, Köroğlu M: Are there standardized cutoff values for neutrophil-lymphocyte ratios in bacteremia or sepsis? J Microbiol Biotechnol 2014, Oct 23. [Epub ahead of print]18. Pleguezuelo M, Benitez JM, Jurado J,Google Scholar
- Sung-Yeon C, Jung-Hyun C. Biomarkers of sepsis. Infect Chemother. 2014;46:1–12.View ArticleGoogle Scholar
- Montero JL, De la Mata M. Diagnosis and management of bacterial infections in decompensated cirrhosis. World J Hepatol. 2013;5:16–25.View ArticlePubMedPubMed CentralGoogle Scholar
- Lerschmacher O, Koch A, Streetz K, Trautwein C, Tacke F. Management of decompensated liver cirrhosis in the intensive care unit. Med Klin Intensivmed Notfmed. 2013;108:646–56.View ArticlePubMedGoogle Scholar
- Fernandez J, Gustot T. Management of bacterial infections in cirrhosis. J Hepatol. 2012;56:S1–S12.View ArticlePubMedGoogle Scholar
- Gustot T, Durand F, Lebrec D, Vincent JL, Moreau R. Severe sepsis in cirrhosis. Hepatology. 2009;50:2022–33.View ArticlePubMedGoogle Scholar
- Bloos F, Reinhart K. Rapid diagnosis of sepsis. Virulence. 2014;5:154–60.View ArticlePubMedGoogle Scholar
- Russwurm S, Wiederhold M, Oberhofer M, Stonans I, Zipfel FP, Reinhart K. Molecular aspects and natural source of procalcitonin. J Clin Chem Lab Med. 1999;37:789–97.Google Scholar
- Mehanic S, Baljic R. The importance of serum procalcitonin in diagnosis and treatment of serious bacterial infections and sepsis. Mater Sociomed. 2013;25:277–81.View ArticlePubMedPubMed CentralGoogle Scholar
- Cekin Y, Cekin AH, Duman A, Yilmaz U, Yesil B, Yolcular BO. The role of serum procalcitonin levels in predicting ascitic fluid infection in hospitalized cirrhotic and non-cirrhotic patients. Int J Med Sci. 2013;10:1367–74.View ArticlePubMedPubMed CentralGoogle Scholar
- Lazzarotto C, Ronsoni MF, Fayad L, Nogueira CL, Bazzo ML, Narciso-Schiavon JL, et al. Acute phase proteins for the diagnosis of bacterial infection and prediction of mortality in acute complications of cirrhosis. Ann Hepatol. 2013;12:599–607.PubMedGoogle Scholar
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