Spontaneous bacterial empyema in cirrhosis:A systematic review and meta-analysis

William Reiche,Smit Deliwala,Saurabh Chandan,Babu P Mohan,Banreet Dhindsa,Daryl Ramai,Abhilash Perisetti,Rajani Rangray,Sandeep Mukherjee

William Reiche,Department of Internal Medicine,CHI Creighton University Medical Center,Omaha,NE 68124,United States

Smit Deliwala,Department of Internal Medicine,Michigan State University at Hurley Medical Center,Flint,MI 48503,United States

Saurabh Chandan,Rajani Rangray,Sandeep Mukherjee,Division of Gastroenterology and Hepatology,CHI Creighton University Medical Center,Omaha,NE 68124,United States

Babu P Mohan,Daryl Ramai,Department of Gastroenterology,University of Utah,Salt Lake City,UT 84132,United States

Banreet Dhindsa,Division of Gastroenterology and Hepatology,University of Nebraska Medical Center,Omaha,NE 68198,United States

Abhilash Perisetti,Division of Gastroenterology,Parkview Health,Fort Wayne,IN 46845,United States

Abstract BACKGROUND Spontaneous bacterial empyema(SBE)occurs when a hepatic hydrothorax becomes infected and runs a course similar to spontaneous bacterial peritonitis(SBP).It remains underdiagnosed as patients with cirrhosis do not routinely undergo diagnostic thoracentesis.Current understanding is limited by small cohorts,while studies reporting its association with ascites/SBP are conflicting.AIM To explore the incidence of SBE,to determine its association with ascites,and to summarize what is known regarding treatment and outcomes for patients with SBE.METHODS Major databases were searched until June 2021.Outcomes include the incidence of SBE in pleural effusions,SBP in peritoneal fluid,and SBE in patients without ascites within our cohort of patients with cirrhosis.We performed a meta-analysis using a randomeffects model with pooled proportions and 95% confidence intervals(CI).We assessed heterogeneity using I2 and classic fail-safe to determine bias.RESULTS Eight studies with 8899 cirrhosis patients were included.The median age ranged between 41.2 to 69.7 years.The majority of the patients were Child-Pugh B and C.Mean MELD score was 18.6 ± 8.09.A total of 1334 patients had pleural effusions and the pooled incidence of SBE was 15.6%(CI 12.6-19;I2 50).Amongst patients diagnosed with SBE,the most common locations included right(202),left(64),and bilateral(8).Amongst our cohort,a total of 2636 patients had ascites with a pooled incidence of SBP of 22.2%(CI 9.9-42.7;I2 97.8).The pooled incidence of SBE in patients with cirrhosis but without concomitant ascites was 9.5%(CI 3.6-22.8;I2 82.5).CONCLUSION SBE frequently occurs with concurrent ascites/SBP;our results suggest high incidence rates of SBE even in the absence of ascites.The pleura can be an unrecognized nidus and our findings support the use of diagnostic thoracentesis in patients with decompensated cirrhosis after exclusion of other causes of pleural effusion.Thoracentesis should be considered particularly in patients without ascites and when there is a high suspicion of infection.The need for diagnostic thoracentesis will continue to be important as rates of multi-drug resistant bacterial infections increase and antibiotic susceptibility information is required for adequate treatment.

Key Words: Spontaneous bacterial peritonitis;Spontaneous bacterial peritonitis;Postparacentesis circulatory dysfunction;Refractory ascites;Hepatic hydrothorax

INTRODUCTION

Hepatic hydrothorax(HH)is one of the pulmonary complications observed in cirrhotic patients and attributed to portal hypertension which leads to a transudative effusion.The true prevalence of HH in cirrhotic patients is unclear but estimated to be at 10%.Infection of the HH(pleura and pleural fluid)is termed spontaneous bacterial empyema(SBE)and represents a distinct and underdiagnosed infectious etiology in patients with decompensated cirrhosis.This entity’s existence has frequently been debated;the true nature is uncertain[1-4].Knowledge regarding this complication has been limited due to a lack of clinical studies.At the same time,several studies suggest SBE is not spontaneous but occurs due to ruptured pleuroperitoneal blebs,which cause diaphragm defects.The negative pressure created in the pleural cavity creates unidirectional flow into the pleural space where low protein ascitic fluid can accumulate and propagate infection[5].Conversely,other studies have found that SBE can develop without spontaneous bacterial peritonitis(SBP)and can even be diagnosed in patients without ascitic fluid,representing an overlooked infection nidus[5-8].More robust data is needed within SBE to guide efficient clinical decision-making due to the significant burden on patients and healthcare resources[9,10].Patients inflicted by pleural pathology can have prolonged stay with increased mortality[7,11,12].

The exudative nature of SBE is well established;however,risk factors for developing this condition are less clearly elucidated.Several studies have found that patients who develop HH or SBE are more likely to have lower levels of pleural fluid protein and a higher Child-Pugh or MELD score to support the diagnosis[13,14].Additionally,the concurrence of hydrothorax and ascites remains unknown.We aim to fill the current understanding by performing a systematic review and incidence meta-analysis exploring the incidence of SBE and its association with ascites.

MATERIALS AND METHODS

Protocol

This review has been in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses Statement(PRISMA)and Meta-analyses of Observational Studies in Epidemiology reporting standards(Supplementary Tables 1 and 2)[15].

Eligibility criteria,literature search,and search strategy

An expert librarian conducted a systematic literature search using a priori protocol to identify studies reporting the incidence,associations,and outcomes of SBE in patients with cirrhosis.The search strategies included “spontaneous bacterial empyema,” “SBE,” and “SBEM.” The search was run in June 2021 across multiple databases,including Ovid EBM Reviews,Ovid Embase(1974+),Ovid Medline(1946+ including epub ahead of print,in-process,and other non-indexed citations),Scopus(1970+),Web of Science(1975+),and PubMed.The search was restricted to articles in English and identified searches were exported to a reference manager(EndNote).We cross-checked reference lists of identified sources for additional relevant studies.Any discrepancy was resolved by a third reviewer(SC).Detailed search strategy presented as Supplementary material.

Study selection

This meta-analysis included studies that evaluated patients with SBE.SBE was defined as positive pleural fluid culture and polymorphonuclear leukocytes(PMN)count >250 cells/mm3or negative pleural fluid culture and PMN count >500 cells/mm3,without evidence of pneumonia/parapneumonic effusion on imaging[5-7].Studies reporting performance in pediatric age groups(<18 years),conference abstracts,case reports,and non-English studies were excluded.Studies were restricted to full-text.Two authors decided on the final selection(WR,SC).Details presented in PRISMA flow diagram,Figure 1.

Data extraction and quality assessment

Two reviewers(WR,SD)independently extracted eligible information into an a priori designed Google excel spreadsheet.The Qumseya scale for quality assessment of cohort studies for systematic reviews and meta-analyses consisted of nine questions(Supplementary Figure 1).We assessed each study for its design,measurements,outcomes,and patient characteristics.Each risk of bias had a maximum score of 10.Studies with less than six were considered low,6-7 were moderate,and >8 were deemed to be high quality[16].

Figure 1 Preferred reporting items for systematic reviews and meta-analyses statement flow diagram.

Outcomes assessed

(1)Incidence of SBE in patients with cirrhosis;(2)Incidence of SBP in patients with cirrhosis;(3)Incidence of SBE in patients without concomitant ascites.

Statistical analysis

Statistical analysis was performed using Comprehensive Meta-Analysis(CMA 3.0)software(Biostat,Englewood,NJ).Pooled estimates and corresponding 95% confidence intervals(CI)for dichotomous variables were calculated using the random-effects inverse variance method[17].Heterogeneity was measured by Cochrane Q andI2statistics,with values of <30%,31%-60%,61%-75%,and >75% suggesting low,moderate,substantial,and considerable heterogeneity,respectively[18,19].A funnel plot combined with Egger’s tests was performed to assess publication bias.A p-value of 0.05 or less combined with asymmetry in the funnel plots was used to measure significant publication bias.If <0.05,the trim-and-fill computation was used to evaluate the effect of publication bias on the interpretation of the results.Three levels of impact were reported based on the concordance between the reported results and the actual estimate if there was no bias.The impact was reported as minimal if both versions were estimated to be the same,modest if the effect size changed substantially.Still,the final finding would remain the same and severe if the bias threatens the conclusion of the analysis[20].To evaluate an individual study's effect on the collective outcome,sensitivity analysis was completed.

RESULTS

Study characteristics

An initial search identified 155 publications after removing duplicates.After screening full-text articles,eight studies were eligible for qualitative and quantitative synthesis,as shown in Supplementary Figure 1.Study locations included Spain,Taiwan,Egypt,and Pakistan between 1988-2017.Among eight studies,8899 patients(270 males and 110 females;not all studies reported sex);were included,with the median age between 41.2 to 69.7 years.Most of the patients were Child-Turcott Pugh B and C,while the average MELD score was 18.6 ± 8.09.202 cases were seen in the right pleural space,while 64 cases were seen in the left pleural space,eight cases of bilateral pleural effusions were reported.Study and baseline clinical characteristics have been summarized in Tables 1 and 2.

Table 1 Study details

Table 2 Spontaneous bacterial empyema diagnostic criteria

Quality assessment

Scores for methodological quality assessment are shown in Supplementary Figure 2.Amongst eight studies,one was prospective,[8]five retrospective,[6,7,21-23]and two were cross-sectional[5,24].All studies were performed in single-centers.

Meta-analysis outcomes

Incidence of SBE in patients with cirrhosis:All eight studies reported the incidence of SBE in patients with cirrhosis[5-8,21-24].A total of 1334 patients had pleural effusions,and the pooled incidence of SBE was 15.6%(CI,12.6-19;P <0.001,I250%).The true effect size in 95% of all comparable populations falls in the interval 0.12-0.21(Figure 2).

Incidence of SBP in patients with cirrhosis:Seven studies reported ascites and incidence of SBP[5-7,21-24].After pooling the results of 2636 patients,the incidence of SBP was 22.2%(CI,9.9-42.7;P <0.001,I297.8%).The true effect size in 95% of all comparable populations falls in the interval 0.01-0.90(Figure 3).

Incidence of SBE in patients without concomitant ascites:Six studies reported SBE without concomitant ascites[5-8,21,22].The pooled incidence of SBE in patients without concomitant ascites was 9.5%(CI,3.6-22.8;P <0.001,I282.5 %).The true effect size in 95% of all comparable populations falls in the interval 0-0.76(Figure 4).

Figure 2 Incidence of spontaneous bacterial empyema in patients with cirrhosis.

Figure 3 Incidence of spontaneous bacterial peritonitis in patients with cirrhosis.

Figure 4 Incidence of spontaneous bacterial empyema in patients without concomitant ascites.

Validation of meta-analysis results

Sensitivity analysis: We completed a one-study removal sensitivity analysis to assess if one study had a dominant effect on the meta-analysis.Statistical significance and direction of findings for all outcomes remained unchanged.

Heterogeneity: TheI2was consistently between 50%-75% across most outcomes suggesting considerable heterogeneity of our sample.

Publication bias: A publication bias analysis and estimated symmetry could not be completed because fewer than ten studies were included.

DISCUSSION

To our knowledge,this is the first systematic review and meta-analysis exploring the incidence of SBE in patients with cirrhosis.The pleural space is a potential pocket for infection and often can be overlooked in cases of septic decompensation.SBE is recommended to be managed without a chest tube and requires the delivery of appropriate antibiotics and exclusion of pneumonia,placing importance on timely diagnostic thoracentesis.Our study includes one prospective,five retrospective,and two crosssectional studies amongst four countries with 8899 patients and 1334 cases of pleural effusions.The criteria for diagnosis of SBE were consistent throughout most of the studies and the parameters for cell count and culture results were identical to widely accepted definitions of SBE[25].Our results support the current understanding that SBE most commonly occurs in patients with ascites or concomitant SBP.Studies have been conflicting on its association with ascites/SBP.Our results uncovered SBE at 9.5%,which was previously unknown and demonstrates the high incidence.In our cohort,roughly 22% had ascites and SBP,suggesting that the high SBE rates near SBP incidence-indicating that the pleural space is a potential space for infection and should be considered to complete a thorough evaluation.

Just as the peritoneal fluid is susceptible to translocation and infection leading to SBP,the development of HH in the pleura is a risk factor for SBE.SBE without HH occurs at less than 3%,but it increases up to 30% with underlying HH.Although HH prevalence is 10%,this is likely underestimated,as patients with HH do not routinely undergo thoracentesis[8,26].Indications for thoracentesis include patients with HH who develop fever,pleuritic pain,encephalopathy,or a sharp drop in renal function[5].Pleural fluid characteristics to diagnose HH include a total cell count of PMN <250/uL,total protein <2.5 g/dL,albumin gradient >1.1g/dL,protein quotient <0.5,or LDH gradient <0.6.A PMN count >250/uL with a positive pathogen detected or >500/uL and a negative pathogen confirm SBE.Computed tomography(CT)can often be helpful in the setting of SBE to detect pleural abscesses that may require more immediate drainage.SBE development often occurs spontaneously or due to the flow of infected ascites from the peritoneal to pleural space.Infected ascites develops from a variety of mechanisms predominantly related to portal hypertension including(but not limited to)bacterial translocation from increased gastrointestinal permeability and bacterial overgrowth from intestinal dysmotility.SBE must be suspected in every patient with HH,as its symptomatology varies greatly.In our study,cohorts from Egypt and Spain mainly exhibited fever and dyspnea,while the remaining cohorts had cough,dyspnea,pleuritic pain,or tachypnea[5,8,22-24].

Amongst the included studies,sterile effusions were most common,while positive cultures commonly reported enteric organisms-Escherichia coli,Klebsiella pneumonia,Pseudomonas aeruginosa,andenterococcuson pleural studies.The distinction between SBE and empyema secondary to pneumonia is important as treatment differs greatly.3rd generation cephalosporins such as cefotaxime and ceftriaxone were most used,followed by cefazolin,ampicillin/sulbactam,fluoroquinolones,and meropenem.Carbapenems should be used for possible extended-spectrum beta-lactamase-producing strains in high-risk patients.Aspiration and pigtail catheters were used in a minority of studies,often in cases of frank pus and were not associated[5,24].Repeat thoracentesis is not routinely performed and is only undertaken in non-responding cases.Albumin infusion at 1.5g/kg on day 1 and 1g/kg on day 3 has shown benefit in SBP and has been used in SBE;none in our included studies.Antibiotic duration based on SBP experience has been recommended;however,the evidence was based on a few cohorts and case-control studies[27].In our meta-analysis,two studies reported a duration of seven to ten days followed by a control thoracentesis[7,8].Antibiotic response varied;one included study found SBE resolved in 72% of patients;however,the need for aspiration and second-line antibiotic therapy is frequent.This same study found 43% of patients died before second line therapy could be initiated[7].A chest tube was only used in one of the patients and this patient had biochemical analysis suggestive of empyema[5,7].

Just as hepatic hydrothorax is known to decrease survival,SBE is known to impact mortality negatively[28].In our meta-analysis we found the mortality rate of SBE in patients receiving treatment ranged from 20%-38%[5,21].Compared to patients without SBE,patient with SBE have been shown to have a higher likelihood of death or liver transplantation at one year[26].First-line treatment failure,odds ratio(OR)7.56 followed by ICU admission(OR 5.53),and concomitant bacteremia(OR 4.32),concomitant SBP(OR 2.51),CPS(OR 1.59),and MELD-Na(OR 1.21)correlated to increased mortality[7].MELD-Na has been shown to most accurately predict SBE associated hospital mortality with an area under the curve of 0.793,followed by serum sodium-0.778 and CPS-0.744.INR,pleural total protein,sex,creatinine,followed by diabetes mellitus,MELD-Na,MELD,bilirubin have been identified as predictors of dual SBP and SBE infection[23].Five patients underwent an orthotopic liver transplant(OLT)a few months after SBE and all were alive at follow-up five years after OLT[8].HH management is based on therapeutic principles of treating ascites-diuretics,sodium restriction,and fluid removal in symptomatic cases.Transjugular intrahepatic portosystemic shunt(TIPS)has been beneficial in cases of recurrent HH by reducing portal hypertension pressures.Indwelling pleural catheters(IPCs)may be an option for patients who are not TIPS candidates.IPCs have been associated with fewer complications compared to chest tubes.[29]Chest tubes have been associated with increased mortality unless pus has been demonstrated in the pleural space[26,27].The development of SBE is significant for patients in the peritransplantation period,as a few studies have suggested that independent SBE be considered an indication for liver transplantation evaluation and MELD exception points due to its impact on outcomes[8,26,27].

A limitation for determining the incidence of SBE was the lack of studies and a small number of included patients[8,22].Despite this,we used a newer quality assessment scale to elicit the performance characteristics of the included studies.Follow-up data,including mortality,antibiotic duration,and the number of successfully treated patients,were only reported in two studies[7,8].Majority of included patients were Child-Pugh class B or C,while a majority lacked a MELD score.MELD and Child-Pugh scores were reported in two studies[22,23].There was considerable heterogeneity in the included studies attributed to study location,patient selection,and characteristics.To illustrate the range of true effects,we additionally provided prediction intervals to our outcomes[30].The lack of long-term results in our studies translates to our current limited understanding of this disease process and its impact on respiratory mechanisms and overall mortality.A publication bias was not provided due to fewer than ten studies.

CONCLUSION

This study highlights the importance of considering SBE and HH in the differential for patients with cirrhosis who have pleural effusion.HH in the setting of cirrhosis is not routinely evaluated.The pleura can be an unrecognized nidus and our findings support the use of diagnostic thoracentesis in patients with decompensated cirrhosis after exclusion of other causes of pleural effusion.Thoracentesis should be considered particularly in patients without ascites and when there is a high suspicion of infection.It helps rule out empyema due to pneumonia and allows for targeted antibiotic therapy against enteric organisms.Additionally,as rates of multi-drug resistant(MDR)organisms increase globally,the need for organism identification for targeted treatment will become even more crucial,making timely thoracentesis of key importance[31].Future observational and long-term studies will help elucidate further the mortality rates,optimal treatment route and duration,and risk factors for SBE.

ARTICLE HIGHLIGHTS

Research background

Spontaneous bacterial empyema(SBE)is analogous to spontaneous bacterial peritonitis(SBP);however,much less is understood regarding its incidence rate,treatment strategies,and management.

Research motivation

The current understanding of SBE is limited by small sample size and results regarding its association with ascites are conflicting.Previous studies have noted patients who have cirrhosis and SBE may have poorer outcomes therefore more information regarding its association with ascites/SBP,incidence,treatment,and effect on outcomes are needed.

Research objectives

To identify the incidence of SBE in patients with cirrhosis,the incidence of SBP in patients with cirrhosis,and the incidence of SBE in patients without concomitant ascites.Additionally,we performed a systematic review of the treatment and outcomes of SBE.

Research methods

We performed a meta-analysis using a random-effects model with pooled proportions and 95%confidence intervals(CI).We assessed heterogeneity using I2 and classic fail-safe to determine bias.

Research results

A total of 1334 patients had pleural effusions and the pooled incidence of SBE was 15.6%(CI 12.6-19;I2 50).Amongst patients diagnosed with SBE,the most common locations included right(202),left(64),and bilateral(8).Amongst our cohort,a total of 2636 patients had ascites with a pooled incidence of SBP of 22.2%(CI 9.9-42.7;I2 97.8).The pooled incidence of SBE in patients with cirrhosis but without concomitant ascites was 9.5%(CI 3.6-22.8;I2 82.5).

Research conclusions

SBE frequently occurs with concurrent ascites/SBP;our results suggest high incidence rates of SBE even in the absence of ascites.The pleura can be an unrecognized nidus and our findings support the use of diagnostic thoracentesis in patients with decompensated cirrhosis after exclusion of other causes of pleural effusion.Thoracentesis should be considered particularly in patients without ascites and when there is a high suspicion of infection.The need for diagnostic thoracentesis will continue to be important as rates of multi-drug resistant bacterial infections increase and antibiotic susceptibility information is required for adequate treatment.

Research perspectives

This study suggests the baseline incidence of SBE is high in patients with cirrhosis and diagnostic thoracentesis should be considered after underlying pulmonary and cardiac causes have been ruled out,especially when there is high concern for infection.High index of suspicion for SBE must be maintained especially in cirrhosis patients with pleural effusions and without underlying ascites.Timely treatment is warranted given high associated mortality of SBE.Future prospective studies are needed,as it remains unclear if long term prophylaxis against SBE is warranted in patients with decompensated cirrhosis.

FOOTNOTES

Author contributions:Reiche W acquisition of data,drafting the article,final approval;Deliwala S acquisition of data,analysis,interpretation of data,drafting the article;Chandan S conceptualization,study search,critical revision,final approval;Mohan B statistical analysis;Dhindsa B,Ramai D,Perisetti A data collection and study search;Rangray R and Mukherjee S critical revision,final approval

Conflict-of-interest statement:The authors deny any conflict of interest.

PRISMA 2009 Checklist statement:The PRISMA 2009 Checklist statement was utilized and is located in the supplementary material uploaded content.

Open-Access:This article is an open-access article that was selected by an in-house editor and fully peer-reviewed by external reviewers.It is distributed in accordance with the Creative Commons Attribution NonCommercial(CC BYNC 4.0)license,which permits others to distribute,remix,adapt,build upon this work non-commercially,and license their derivative works on different terms,provided the original work is properly cited and the use is noncommercial.See: https://creativecommons.org/Licenses/by-nc/4.0/

Country/Territory of origin:United States

ORCID number:William Reiche 0000-0001-8797-5764;Smit Deliwala 0000-0001-5239-9533;Saurabh Chandan 0000-0002-2661-6693;Babu P Mohan 0000-0002-9512-8693;Banreet Dhindsa 0000-0002-9858-0941;Daryl Ramai 0000-0002-2460-7806;Abhilash Perisetti 0000-0003-4074-6395;Rajani Rangray 0000-0002-8590-9277;Sandeep Mukherjee 0000-0002-0538-3253.

Corresponding Author's Membership in Professional Societies:American College of Gastroenterology,58606;American Association for the Study of Liver Diseases,259789.

S-Editor:Wang LL

L-Editor:A

P-Editor:Wang LL