ISPD peritonitis guideline recommendations: 2022 update on prevention and treatment

Peritoneal dialysis (PD)-associated peritonitis is a serious complication of PD and prevention and treatment of such is important in reducing patient morbidity and mortality. The ISPD 2022 updated recommendations have revised and clarified definitions for refractory peritonitis, relapsing peritonitis, peritonitis-associated catheter removal, PD-associated haemodialysis transfer, peritonitis-associated death and peritonitis-associated hospitalisation. New peritonitis categories and outcomes including pre-PD peritonitis, enteric peritonitis, catheter-related peritonitis and medical cure are defined. The new targets recommended for overall peritonitis rate should be no more than 0.40 episodes per year at risk and the percentage of patients free of peritonitis per unit time should be targeted at >80% per year. Revised recommendations regarding management of contamination of PD systems, antibiotic prophylaxis for invasive procedures and PD training and reassessment are included. New recommendations regarding management of modifiable peritonitis risk factors like domestic pets, hypokalaemia and histamine-2 receptor antagonists are highlighted. Updated recommendations regarding empirical antibiotic selection and dosage of antibiotics and also treatment of peritonitis due to specific microorganisms are made with new recommendation regarding adjunctive oral N-acetylcysteine therapy for mitigating aminoglycoside ototoxicity. Areas for future research in prevention and treatment of PD-related peritonitis are suggested.

Fungal peritonitis in peritoneal dialysis: a 34-year single centre evaluation

Backgound

Fungal peritonitis (FP) is one of the most important causes of peritoneal dialysis (PD) failure, often burdened by increased morbility and mortality. This study evaluates the clinical course of FP cases that arose between 1983 and 2016 in a single PD unit.

Methods

We conducted a retrospective observational analysis of FP episodes recorded in the Baxter POET (Peritonitis Organism Exit sites Tunnel infections) registry and clinical records. FP incidence rate, PD and patients’ survival and clinical characteristics of the study population were analysed, taking into account the evolution of clinical practice during the study period as a result of technical innovation, scientific evidence and guideline history.

Results

Fourteen FP cases (2.8%) were detected. The overall incidence of PD peritonitis was one episode/27 patient-months. Candida parapsilosis was the most frequently (50%) detected yeast. Seventy-five per cent of cases were considered secondary FP. This group experienced 2.6±1.7 bacterial peritonitis before FP, most frequently due to Staphylococcus and Enterococcus species. Most patients were treated with fluconazole for ≥8 days. All subjects were hospitalized for a median time of 25 days. Tenckhoff catheter removal occurred in all cases of FP and all patients were transferred to haemodialysis. Two patients died. From December 2010 to December 2016, no FP episodes were recorded.

Conclusions

FP is confirmed as a significant cause of PD drop out and increases patients’ mortality risk. Prompt diagnosis of FP, targeted antifugal therapy and rapid PD catheter removal are essential strategies for improved patient and PD survival.

Fungal peritonitis in the Standardizing Care to Improve Outcomes in Pediatric End Stage Renal Disease (SCOPE) Collaborative

BACKGROUND

Fungal peritonitis is a serious complication among peritoneal dialysis (PD) patients. The Standardizing Care to Improve Outcomes in Pediatric End Stage Renal Disease (SCOPE) Collaborative is a North American multicenter quality improvement initiative with the primary aim to reduce catheter-related infections in children on chronic dialysis.

OBJECTIVE

To describe the epidemiology of fungal peritonitis and outcomes of affected patients among pediatric subjects receiving chronic PD and enrolled in SCOPE.

METHODS

Data pertaining to PD characteristics, peritonitis episodes and patient outcome were collected between October 2011 and September 2015 from 30 pediatric dialysis centers participating in the SCOPE collaborative. Peritonitis-related data were stratified by etiology, fungal versus bacterial/culture-negative peritonitis. Differences among groups were assessed by Chi-square analysis.

RESULTS

Of 994 patients enrolled in the registry, there were 511 peritonitis episodes of which 41 (8.0%) were fungal. Thirty-six individual patients with 39 unique catheters accounted for the fungal peritonitis episodes. Twenty-three (59%) of the episodes occurred in patients aged < 2 years (p = 0.03). Fungal peritonitis was the initial episode of peritonitis in 48.8% of affected patients, and only 17.1% of these patients had had a previous peritonitis episode within 30 days of the fungal infection. Insertion of the PD catheter at < 2 years of age was associated with an adjusted odds ratio of 2.8 (95% confidence interval 1.24, 6.31) for development of fungal peritonitis compared to older children (p = 0.01). Fungal peritonitis was associated with an increased rate of hospitalization (80.5 vs. 63.4%; p = 0.03), increased length of hospitalization (median of 8 vs. 5 days; p < 0.001) and increased rates of catheter removal (84.6 vs 26.9%; p = 0.001) and technique failure (68.3 vs. 8%; p = 0.001) compared to other causes of peritonitis.

CONCLUSION

Fungal infections were responsible for 8.0% of peritonitis episodes in the SCOPE collaborative, with the majority of fungal peritonitis episodes occurring in children aged < 2 years. Although no risk factors for infection other than young age were identified, fungal peritonitis was associated with an increased risk of hospitalization, longer hospital stay and an increased frequency of technique failure.

Fungal peritonitis in peritoneal dialysis patients: successful prophylaxis with fluconazole, as demonstrated by prospective randomized control trial

OBJECTIVES

To determine whether oral administration of the antifungal fluconazole during the entire period of treatment of bacterial peritonitis (BP), exit-site infection (ESI), or tunnel infection (TI) prevents later appearance of fungal peritonitis (called secondary) in patients with chronic kidney disease stage 5 in a peritoneal dialysis (PD) program. ♢

PATIENTS AND METHODS

All patients treated in the PD program in RTS Ltda Sucursal Caldas, during the period 1 June 2004 to 30 October 2007 were screened. Patients that had infectious bacterial complications (BP, ESI, TI) were included in a prospective randomized trial to receive or not receive oral fluconazole (200 mg every 48 hours) throughout the time period required by the administration of therapeutic antibiotics via any route. It was evaluated whether the fungal peritonitis complication appeared within 30 - 150 days following the end of antibacterial treatment. Based on local results, the sample size necessary to obtain statistically significant results was determined to be 434 episodes of peritonitis. ♢

RESULTS

The 434 episodes of peritonitis presented between the previously specified dates and during this same period there were 174 ESI or TI, of which only 52 received oral antibiotic treatment. Information in relation to consumption of antibiotics for purposes other than BP, ESI, and TI was not reliable and thus this variable was excluded. Among the episodes of peritonitis, 402 (92.6%) were of bacterial origin and 32 (7.3%) were mycotic, mainly Candida species [30 (93.75%)]. Of the fungal peritonitis, 14 (43.73%) were primary (without prior use of antibiotics) and 18 (56.25%) were secondary. In the group of patients that received prophylaxis with fluconazole (210 for BP and 26 for ESI or TI), only 3 occurrences of fungal peritonitis were observed within 30 - 150 days of its administration, which is opposite to the group without prophylaxis (210 for BP and 26 for ESI or TI), in which 15 occurrences of fungal peritonitis were detected. Statistical analysis of the group of patients with BP found comparisons of the proportions of those receiving fluconazole (0.92%) or not (6.45%) presented a highly significant difference in favor of prophylaxis (p = 0.0051, Z = 2.8021). Given that only 1 patient in each group with ESI or TI, with or without prophylaxis, presented the complication fungal peritonitis, it was concluded that this result was not statistically significant. During laparoscopic surgery attempting reintroduction of the peritoneal catheter, it was found that 11 patients had severe adhesions or peritoneal fibrosis leading to obliteration of the peritoneal cavity. In 19 patients, reintroduction of the catheter was possible and the patients returned to PD without consequence. ♢

CONCLUSION

In patients with bacterial peritonitis, administration of prophylactic oral fluconazole throughout the time they received antibiotics significantly prevented the appearance of secondary fungal peritonitis.

Update on Fungal Peritonitis and its Treatment

Fungal peritonitis (FP) is a rare but potentially fatal complication of chronic peritoneal dialysis (PD), associated with high morbidity and mortality ranging between 20% and 30%. If not leading to death, the inflammatory process usually causes irreversible damage to the peritoneal membrane with subsequent dropout from PD therapy. Fungal peritonitis accounts for 3% – 6% of all peritonitis episodes; however, in some areas, the numbers can be much higher. The most common cause of the disease is Candida, predominately C. albicans, C. parapsilosis, and—more recently— C. glabrata; other yeasts and filamentous fungi such as Aspergillus, Paecilomyces, Penicillium, and Zygomycetes are found, but much less frequently. The main factors associated with the development of FP include previous antibiotic therapy, particularly for bacterial peritonitis, when two important operative mechanisms coincide: fungal overgrowth in the gastrointestinal tract and declining peritoneal defense because of peritonitis.

The management of FP poses a difficult challenge. Prompt initiation of therapy is critical, but no typical clinical picture has emerged, and the infecting organism can be difficult to isolate. The approach to the disease has changed considerably in recent years, and the 2005 guidelines from the International Society for Peritoneal Dialysis list FP as a strong indication for immediate catheter removal with temporary hemodialysis. The conventional antifungal regimens include fluconazole, amphotericin B, and flucytosine alone or in combination, optimally based on fungal sensitivities. The newer agents such as caspofungin and voriconazole have the potential to alter treatment strategies for FP, but further studies are required to clarify the precise role of these agents in this group of patients.

Neonatal coinfection model of coagulase-negative Staphylococcus (Staphylococcus epidermidis) and Candida albicans: fluconazole prophylaxis enhances survival and growth

Coagulase-negative staphylococci (CoNS) and Candida are among the most common causes of single infections and coinfections in neonates after 72 h of age. In neonates, coinfection increases the rate of mortality threefold and results in significantly greater morbidity compared to those that result from single infections. In an effort to better understand this phenomenon, we developed the first neonatal animal model of coinfection (with CoNS and Candida) and evaluated its effects on mortality and morbidity and the impact of antifungal prophylaxis with fluconazole. Neonatal Wistar rats were infected with Candida albicans and/or Staphylococcus epidermidis with doses of 2x10(8) and 2x10(6) CFU subcutaneously in different combinations and were monitored for mortality, weight gain, and bacteremia. The in vitro sensitivity of C. albicans to fluconazole was evaluated and the MIC was determined. A subset of rats in these experiments received fluconazole at 10 mg/kg of body weight/dose intraperitoneally starting 24 h before infection for 4 days, and the serum trough levels of fluconazole were measured. Coinfection in the suckling rat significantly increased the rate of mortality compared to that after infection with a single species (P<0.001) and resulted in deaths even at sublethal doses. Coinfection also impaired weight gain significantly in severely infected pups compared to that achieved after infection with a single species (P<0.001). Fluconazole prophylaxis significantly reduced mortality by 30% in the Candida group and 36% in the coinfection group and improved weight gain in this neonatal model of coinfection (P<0.001). We developed a neonatal model of coinfection with Candida and CoNS, observed significantly greater mortality and morbidity with coinfection, and found that fluconazole prophylaxis significantly reduced the rates of both mortality and morbidity. Further research on neonatal coinfection is urgently needed to improve clinical outcomes.