Fungal infection of the respiratory tract is often caused by Aspergillus fumigatus.1 Nevertheless, Aspergillus flavus is the predominant pathogen in tropical and dry regions due to its unique ability to survive at higher temperatures.3 Moreover, the larger size of A. flavus conidia eases their accumulation on the upper respiratory tract mucous, which makes this species the main agent among fungal etiologies of sinusitis.6 Amphotericin B (AMB), an antifungal agent widely used in these cases and considered the gold standard treatment for invasive fungal infections in patients with slow or unsatisfactory response to azole drugs, is one of the main therapeutic options.2 However, recent studies highlights the occurrence of strains of this species exhibiting high MIC values for AMB (>8μg/mL)2 associated with unknown mechanisms of resistance.4

This work reports a case of a 10-year-old male with a history of rhabdomyosarcoma in the eye socket treated over five years. In 2018, he started a new follow-up in pediatric oncology due to pancytopenia, with a neutrophil count lower than 1000cells/μL, and received a new diagnosis of myelodysplastic syndrome. Less than a year after the onset of this condition, the patient underwent an allogeneic hematopoietic stem cell transplantation (allo-HSCT) from isogroup A+, and a conditioning regimen with busulfan and fludarabine, along with prophylaxis with acyclovir, bactrim, levofloxacin and voriconazole, was started.

In the pre-transplant period, the patient, who suffered from febrile neutropenia episodes, had a prolonged administration of multiple antibacterial drugs (cefepime, meropenem and vancomycin), as well as antifungal prophylaxis with voriconazole plus liposomal-AMB over 30 days. There were hemorrhagic complications, such as hematuria and alveolar hemorrhage, but to greater degree episodes of epistaxis that were managed with nasal tampons. From the beginning of the conditioning regimen, white blood cells remained below 1000cells/μL, and dropped to fewer than 100cells/μL after HSCT. The first day after allo-HSCT a Klebsiella pneumoniae carbapenemase-producing colonization was diagnosed. Despite the absence of fever throughout post-HSCT, the patient showed respiratory distress and a convulsive episode that required intubation and mechanical ventilation to protect the airways. At this time, the antibiotic prescription was extended. The result of the blood culture was negative and the cranial tomography displayed a small hemorrhagic focus in the right parietal lobe. During this episode, the patient received liposomal-AMB for five days, returning to prophylactic voriconazole thereafter. An injury in the left nostril, explained by the local manipulation of dressings at the beginning, was also observed.

Twenty days after the allo-HSCT, the patient underwent a magnetic resonance imaging of the brain that showed pansinusopathy (Fig. 1A); the day after, necrosis in the left nasal region was observed (Fig. 1B). At this point, voriconazole-based prophylaxis was switched to liposomal amphotericin B and micafungin, and a debridement and a biopsy of the necrotic tissue was carried out the same day by an otorhinolaryngologist. However, the patient died shortly after due to septic shock and hemorrhage in several body sites.

Fig. 1.

A) Hypointense and hypocaptive mass involving the nasolabial area, with erosion of the nasal cartilages, extending into the cavity, and eroding the nasal septum, palate and anterior part of the left jaw. B) Extensive necrosis of the left wing of the nose, extending to the philtrum, septum and right nostril, in addition to ulceration on the nasal dorsum. C) Direct microscopic examination stained with lactophenol cotton blue showing a conidial head of Aspergillus sp. Magnification 400x. D) Antifungal susceptibility testing with E-test showing resistance against amphotericin B.

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The direct microscopic examination of a sample taken from the nasal mucosa by swabbing showed septate hyphae and long conidiophores, mostly rough in the distal part, with elongated vesicle and globose, smooth-walled conidia, typical of Aspergillus (Fig. 1C). It is noteworthy that the last laboratory finding from the biological sample is unusual. Postmortem microbiological culture from the nasal fragment yielded an Aspergillus isolate, and the histopathology showed the presence of septate branching hyphae, evidenced by the Grocott silver stain. The Aspergillus isolate was seeded on Sabouraud dextrose agar (SDA) and incubated at 28°C in order to be identified by MALDI-TOF mass spectrometry (MALDI Autoflex III, Bruker Daltonics, Bremen, Germany), and in order to perform an antifungigram through the European Committee on Antimicrobial Susceptibility Testing (EUCAST) method and E-test. The isolate was identified as A. flavus with a score value of 2.00 (Biotyper system, 3.1 version, Bruker Daltonics, USA/Germany). The antifungal susceptibility testing by the methods aforementioned exhibited sensitivity to itraconazole and voriconazole. However, they showed resistance to amphotericin B (Fig. 1D).

Regarding misidentification of Aspergillus nomius and Aspergillus tamarii as A. flavus by MALDI-TOF MS, as pointed out by Tam et al.,5 macro and micromorphological examinations were carried out after 5 days at 28°C on SDA, which showed a velutinous, white-yellowish colony (Fig. 2A), that looked yellowish on the reverse (Fig. 2B). Conidial heads were biseriate, but some heads had phialides borne directly on the vesicle (uniseriate), producing brownish-yellow, globose to subglobose conidia (Fig. 2C). However, we did not use molecular techniques (e.g. beta-tubulin and calmodulin gene sequencing) to confirm the species identification.

Fig. 2.

Macroscopic features of the Aspergillus flavus clinical isolate after five days on Sabouraud dextrose agar at 28°C. (A) White-yellowish colony with grainy appearance and radial grooves color. (B) Yellowish color on the reverse. (C) Long and large conidiophores with mostly biseriate heads and some others uniseriate. Long chains of oblong and mustard conidia.

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Undoubtedly, the underlying condition of the patient contributed to the onset and severity of the destructive sinusopathy. In addition, any invasive fungal infection due to amphotericin B-resistant Aspergillus can lead to patient's death due to an ineffective therapeutic management. Our case highlights the high mortality rates related to complications in HSCT-patients. Measuring voriconazole serum concentration, with the purpose of reducing toxicity, as well as avoiding any failure due to sub-optimal antifungal concentration, must be followed. Since our infection control service could not provide that checking we opted for administering rescue therapy.