Acute Isolated Appendicitis Due to Aspergillus Carneus in a Neutropenic Child with Acute Myeloid Leukemia
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NEW MICROBIOLOGICA, 39, 65-69, 2016 Acute isolated appendicitis due to Aspergillus carneus in a neutropenic child with acute myeloid leukemia Nunzia Decembrino1, Marco Zecca1, Anna Maria Tortorano2, Francesca Mangione3, Fabiola Lallitto3, Francesca Introzzi1, Elena Bergami1, Piero Marone3 , Francesca Tamarozzi4, Caterina Cavanna3 1Pediatric Hematology/Oncology, IRCCS San Matteo Hospital Foundation, Pavia, Italy; 2Department of Biomedical Science for Health, University of Milan, Italy; 3Microbiology and Virology Unit, IRCCS San Matteo Hospital Foundation, Pavia, Italy; 4Department of Clinical Surgical Diagnostic and Pediatric Sciences, University of Pavia, Italy SUMMARY We describe a case of isolated acute appendicitis due to Aspergillus carneus in a neutropenic child with acute my- eloid leukemia (AML) treated according to the AIEOP AML 2002/01 protocol. Despite prophylaxis with acyclovir, ciprofloxacin and fluconazole administered during the neutropenic phase, 16 days after the end of chemotherapy the child developed fever without identified infective foci, which prompted a therapy shift to meropenem and lipo- somial amphotericin B. After five days of persisting fever he developed ingravescent abdominal lower right quad- rant pain. Abdominal ultrasound was consistent with acute appendicitis and he underwent appendectomy with prompt defervescence. PAS+ fungal elements were found at histopathology examination of the resected vermiform appendix, and galactomannan was low positive. A. carneus, a rare species of Aspergillus formerly placed in section Flavipedes and recently considered a member of section Terrei, was identified in the specimen. Treatment with voriconazole was promptly started with success. No other site of Aspergillus localization was detected. Appendicitis is rarely caused by fungal organisms and isolated intestinal aspergillosis without pulmonary infection is unusual. To our knowledge, this is the first report of infection due to A. carneus in a child and in a primary gastrointestinal infection. KEY WORDS: Aspergillus carneus, Appendicitis, Galactomannan, Leukemia, Voriconazole. Received July 7, 2015 Accepted December 6, 2015 INTRODUCTION mentous fungi, which constitute, at present, the majority of invasive fungal infections in se- Invasive fungal infections are an important verely immunocompromised patients (Pagano cause of morbidity and mortality in immuno- et al., 2006; Pagano et al., 2007). compromised neutropenic cancer and trans- Aspergillus fumigatus, A. terreus and A. flavus plant patients (Pagano et al., 2006; Pagano et are the Aspergillus species most frequently in- al., 2007; Pagano et al., 2010). In recent years, volved in invasive infections in neutropenic a shift in the most prevalent etiological agents patients, but new species are emerging (Kon- has been observed from Candida spp. to fila- toyiannis et al., 2010; Steinbach et al., 2012). In these cases, mortality rates range from 20 to 47% despite prophylaxis with new antifun- Corresponding author gal drugs active against molds (Lass-Flörl et Caterina Cavanna al., 2005). Furthermore, the clinical diagnosis Laboratorio Micologia of these infections is challenging, often being S.C. Medicina di Laboratorio di Virologia e Microbiologia Fondazione IRCCS Policlinico San Matteo misdiagnosed as bacterial infections, with fatal Piazzale Golgi, 19 - 27100 Pavia, Italy consequences (Auberger et al., 2008; von Eiff et E-mail: [email protected] al., 1995) 66 N. Decembrino, M. Zecca, A.M. Tortorano, F. Mangione, F. Lallitto, F. Introzzi, E. Bergami, P. Marone, F. Tamarozzi, C. Cavanna Aspergillus infections usually involve the respi- pericecal inflammatory changes and an appen- ratory tract, with vascular invasion and subse- dicolith. These findings were consistent with quent dissemination. On the contrary, primary acute appendicitis, and the patient underwent aspergillosis of the gut is a rare event (Eggiman appendicectomy. The histopathology exam- et al., 2006; Li et al., 2014). We describe a case ination of the resected vermiform appendix of primary aspergillar appendicitis in a child showed gangrenous inflammation and sec- with acute myeloid leukemia (AML) diagnosed ondary peri-appendiceal peritonitis. Period- by histological examination and confirmed by ic acid–Schiff (PAS) positive fungal elements cultural isolation and molecular identification. with dichotomous branching hyphae were ob- served both in the appendix and in the vessels, demonstrating vascular invasion (Figure 1). A CASE REPORT galactomannan antigen test on a serum sample obtained on the same day resulted weakly pos- A 6-year-old Romanian boy was diagnosed in itive (0.69 n.v. <0.5). These findings prompted the pediatric department of IRCCS San Matteo initiation of voriconazole therapy, initially in- Hospital Foundation, Pavia, Italy, with AML, travenously for 10 days, with a loading dose of French-American-British classification M5. A 14 mg/kg/day in two divided doses, then orally first cycle of induction chemotherapy with ICE with a dose of 400 mg/day in two divided dos- scheme (Ifosfamide, Carboplatin, Etopside) es, subsequently adjusted through monitoring was started according to AIEOP (Italian Asso- of circulating drug concentration, as recom- ciation for Pediatric Hematology/Oncology) mended by the Fourth European Conference AML 2002/01 protocol, and prophylaxis with on Infections in Leukaemia (ECIL-4) pediatric acyclovir, ciprofloxacin and fluconazole was recommendations (Groll et al., 2012). Fever dis- administered during the neutropenic phase. appeared soon after surgery. Galactomannan Sixteen days after the end of chemotherapy, the levels turned negative after two weeks of treat- child developed fever without apparent infec- ment. No other site of Aspergillus localization tive foci (negative blood, stool, and urine cul- was detected on total body CT scan performed tures, chest X-ray, and galactomannan antigen one week after surgery and repeated before test [Platelia™ Aspergillus EIA, BIO-RAD] 0.24 transplant. In the following months, the patient n.v. <0.5). Anti-infective therapy was shifted to remained in complete hematological remis- meropenem and liposomial amphotericin B (3 sion throughout the chemotherapy protocol, mg/kg/day). After five days of treatment and and underwent hematopoietic stem cell trans- persisting fever, he developed severe abdomi- plantation in first complete remission from a nal right lower quadrant pain. Abdominal ul- matched unrelated donor four months after ap- trasound showed an aperistaltic, fluid-filled, pendicitis. Voriconazole secondary prophylaxis non compressible, distended appendix with was maintained during neutropenia and until FIGURE 1 - Histopa- thology examination of the resected vermiform appendix. Images from 2 fields of view (100X magnification) show- ing periodic acid–Schiff (PAS) positive fungal elements with dichot- omous branching hy- phae (arrows). Acute isolated appendicitis due to Aspergillus carneus in a neutropenic child with acute myeloid leukemia 67 neutrophil engraftment, and was switched to internal transcribed spacer regions of fungal fluconazole 10 mg/kg/day for a further month ribosomal DNA (White et al., 1990). PCR was until recovery of CD4+ counts. No aspergillosis performed in a 2700 thermal cycler (Applera, relapse or other invasive fungal infections were Foster City, CA, USA) using the following con- observed. ditions: denaturation 94°C for 5 min; 40 cycles Eight months after transplant, he persists in of 94°C for 30 s, 58°C for 30 s, and 72°C for complete remission and in good clinical condi- 1 min, and final extension at 72°C for 5 min. tions. PCR products were visualized on a 2% agarose gel stained with ethidium bromide. The am- plicon was sequenced using Big Dye termina- MICROBIOLOGICAL IDENTIFICATION tors (Applera) in a 310 ABI PRISM® sequencer (Applera). Nucleotide sequences were analyzed Culture of the resected vermiform appendix on using Finch TV software Version 1.4.0. and the Sabouraud Dextrose Agar showed the growth GenBank BLAST database (White et al., 1990). of several light brown colonies of moulds af- The strain was identified as Aspergillus carne- ter 3 days at 37°C, changing to pink with aging us (Reference number of deposited sequence (Figure 2A). Conidial heads radiated to loosely in Genbank: KP979648 100% homology for the columnar, 150-200x25-35 μm, were observed first and second closest). at microscopic examination using lactophenol In vitro antifungal susceptibility testing to am- cotton blue staining. Conidiophore stipes were photericin B, itraconazole, posaconazole and variable in length, up to 1 mm, smooth-walled, voriconazole was performed with Sensititre hyaline to very light brown. Vesicles were hemi- Yeast One (TREK Diagnostic Systems, East spherical, 5.5-10.0 μm in diameter. Conidioge- Grinstead, West Sussex, UK) using the cut-off nous cells were biseriate. Metulae covered the values of the Clinical and Laboratory Standards upper third to half of the vesicle. Conidia, 2.5- Institute (CLSI M38-A2, 2008), according to the 3.5 μm in diameter, were spherical and smooth- manufacturer’s instructions. Conidia and spo- walled (Figure 2B). These macroscopic and rangiospores were induced in Potato Dextrose microscopic features were indicative of Asperig- Agar cultures at 35°C and used to prepare the illus genus. Molecular identification was then inoculum suspensions. Minimum inhibitory performed. concentrations (MIC) were visually identified Genomic DNA was extracted using the Ultra as