Antifungal prophylaxis with posaconazole vs. fluconazole or itraconazole in pediatric patients with neutropenia

This analysis is a single-center, retrospective, non-randomized survey of 93 pediatric patients who received fluconazole, itraconazole, or posaconazole as oral antifungal monoprophylaxis during the phase of intensive induction, consolidation and re-induction chemotherapy, or during the period of neutropenia caused by an underlying disease. The survey was performed at the Department of Pediatric Hematology and Oncology, University Children’s Hospital Tuebingen, Germany. The patient cohorts consisted of pediatric patients and adolescents with hemato-oncological malignancies, starting chemotherapy between January 2006 and January 2013 (Table 1). The analysis included only pediatric patients who were diagnosed with prolonged neutropenia (neutrophil counts <500/μL; >5 days) when receiving antifungal prophylaxis. Antifungal monoprophylaxis with one of the three azoles began 24 h after the end of the chemotherapy cycle in pediatric patients with high-risk acute lymphoblastic leukemia (ALL), ALL relapse, acute myeloid leukemia (AML), AML relapse, non-Hodgkin lymphoma (NHL), Hodgkin lymphoma, osteosarcoma, Ewing sarcoma, and solid tumors, and ended at a minimum of one day before the start of chemotherapy. The treatment period was defined as the days when antifungal prophylaxis was orally administered with one of the three azoles. Pediatric patients with thalassemia major, aplastic anemia, or granulocytopenia were given antifungal monoprophylaxis during the whole period of neutropenia. Thirty-one of the 93 pediatric patients received antifungal prophylaxis with fluconazole at a dosage of 1 × 5 mg per kilogram of body weight per day (mg∙kg BW⁻¹∙d⁻¹) (maximum 1 × 400 mg/day), while 32 were given antifungal prophylaxis with itraconazole at a dosage of 2 × 5 mg∙kg BW⁻¹∙d⁻¹ (maximum 2 × 200 mg/day). Thirty other pediatric patients received antifungal prophylaxis with posaconazole 3 × 4 mg∙kg BW⁻¹∙d⁻¹ (maximum 3 × 200 mg/day). The primary objectives of this survey were to analyze the safety, feasibility, and efficacy of antifungal monoprophylaxis with fluconazole, itraconazole, or posaconazole for pediatric patients with hemato-oncological malignancies and neutropenia resulting from chemotherapy. The secondary objectives were to assess the incidence of invasive fungal infection with Aspergillus spp., Candida spp., or other fungal species. The observation period was defined as the time during the whole chemotherapy, including chemotherapy cycles. It started one day before the beginning of antifungal prophylaxis with one of the three azoles and ended three weeks after the last dosing or until the occurrence of a proven or probable fungal infection. For some pediatric patients, the observation period continued until shortly before the start of the conditioning regimen of the planned stem cell transplantation. The treatment period comprises days on which an antifungal monoprophylaxis with one of the three azoles, fluconazole, itraconazole, or posaconazole, was administered. The patients received fluconazole from 2006 to 2011, itraconazole from 2006 to 2012, and posaconazole from 2008 to 2013.

For all of the 93 pediatric patients included in this survey, adverse events during the observation period and caused by one of the three azoles were graded according to the current United States National Cancer Institute’s Common Terminology Criteria for Adverse Events [29]. During the observation period, an analysis of liver and kidney parameters, as well as electrolytes, was performed. The analysis of hepatic toxicity included transaminases alanine aminotransferase (ALT, normal range ≤39 U/L) and aspartate aminotransferase (AST, normal range ≤39 U/L), cholestasis parameters total bilirubin (normal range ≤1.1 mg/dL) and direct bilirubin (normal range ≤0.3 mg/dL), and alkaline phosphatase (AP, normal range ≤320 U/L). The evaluation of kidney toxicity involved the examination of serum creatinine (normal range ≤0.7 mg/dL) and urea (normal range ≤46 mg/dL). In addition, an analysis of electrolytes potassium (normal range ≥3.4 mmol/L), calcium (normal range ≥2.0 mmol/L), and phosphate (normal range 1.1–1.5 mmol/L) was carried out. We assessed clinically relevant elevations of >1.5 and >2.5 times the normal values of hepatic and renal parameters, and a decrease of potassium values <3.4 mmol/L or <2.4 mmol/L, calcium values <2.0 mmol/L or <1.8 mmol/L, and phosphate values <1.1 mmol/L or <0.8 mmol/L. During the antifungal monoprophylaxis with one of the three azoles, fluconazole, itraconazole, or posaconazole, analysis of blood cell counts and hepatic and kidney function was performed a minimum of two times weekly. The evaluation of electrolytes was done up to a minimum of 3 weeks after the end of treatment with antifungal monoprophylaxis. Blood analyses were documented the day before the start of oral monoprophylaxis with one of the three azoles (baseline), as well as the maximum or minimum values during and at the end, defined as the last day of treatment with antifungal prophylaxis.

All patients were monitored for clinical signs of infection, laboratory analyses, and radiological workup if indicated. The absence of clinically relevant symptoms such as fever or coughing and deviations of laboratory values beyond the normal range indicating a fungal infection were regarded as successful treatment. According to the European Organization for Research and Treatment of Cancer/National Institute of Allergy and Infectious Diseases Mycoses Study Group (EORTC/MSG) criteria of 2002 and 2008, invasive fungal infections were classified as proven, probable, and possible [30, 31]. The galactomannan antigen was measured until the occurrence of fever with duration of 72 h ≥38.5 °C by the Platelia™ Aspergillus enzyme-linked immunosorbent assay according to the manufacturer’s protocol (Bio-Rad Laboratories, Munich, Germany). The non-occurrence of clinical or microbiological signs of invasive fungal breakthrough infection during the observation period with antifungal monoprophylaxis was considered as successful antifungal treatment.

This retrospective analysis included 93 pediatric patients who received antifungal monoprophylaxis with fluconazole, itraconazole, or posaconazole after chemotherapy or during immunosuppressant therapy. The statistical comparison of differences between the results and normal range values of liver and kidney parameters and electrolytes was performed by one-sample t-tests. This took into account the 95 % confidence intervals. The inferential statistical analysis between the baseline values and maximum and minimum parameters, as well as the parameters at the cessation of antifungal monoprophylaxis, was performed using the Friedman two-way analysis of variance (ANOVA) by ranks. Values were only considered significant if they were above the age-adjusted reference. The analysis of hepatic and renal function parameters are presented as mean values + standard deviation (SD). Differences in the frequencies of medication groups, for example at primary diagnosis, application of steroids, or incidence of breakthrough infections when comparing the three patient groups (with n = 31, n = 32, and n = 30 patients), were tested by the k proportions test. Medications with available contingency tables for up to four classes were first calculated using Fisher’s exact test. This was followed by a k proportions test for each individual class (i.e., first a global test for the entire frequency table and then separate tests for each class). For statistical comparison of the three groups regarding clinical and laboratory adverse events during treatment with antifungal prophylaxis, the arithmetic mean values of the three medication groups with a one-way ANOVA were tested for differences. Values of p < 0.05 (*), p < 0.01 (**) and p < 0.001 (***) were defined as significant. XLSTAT 2013 (AddinSoft, Paris, France) or GraphPad Prism® Version 5.04 for Windows (GraphPad Software, La Jolla, CA, USA) were used for the statistical analyses. Graphs were created with GraphPad Prism® Version 5.04 for Windows.