We present the case of a 42-year-old woman, never-smoker, immunocompetent, with no recent travel or relevant treatment, history of nasal polyposis, employed in cleaning. She was referred for suspected bronchial asthma with mucopurulent sputum, intermittent cough and wheezing, predominantly at night. Pulmonary function tests showed no obstruction and a bronchodilator test was negative. Blood tests revealed peripheral eosinophilia of 940cells/μL and total immunoglobulin E (IgE) of 400IU/mL. High-resolution computed tomography of the chest revealed cylindrical bronchiectasis in the middle lobe and right and left lower lobes, filled with mucous material (Fig. 1).

Fig. 1

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We performed a differential diagnosis for hypereosinophilia. IgE and IgG against Aspergillus, prick tests and recombinants were negative, ruling out allergic bronchopulmonary aspergillosis (ABPA). Eosinophilic granulomatosis with polyangiitis was excluded with ANCA antibodies and negative nasal biopsy. A parasitic origin and primary hypereosinophilic syndromes were also ruled out by the haematology unit. Genetic studies for primary ciliary dyskinesia and cystic fibrosis were negative.

A bronchoscopy was performed for bronchoalveolar lavage (BAL) and bronchial aspiration (BAS), showing 48% eosinophilia and isolation of Candida albicans which was considered non-relevant. Given the peripheral blood eosinophilia and BAL eosinophils>25%, chronic eosinophilic pneumonia was considered a diagnosis of exclusion. Prednisone 0.5mg/kg per day was started with clinical improvement, but it could not be reduced below 10mg daily. After several lung function tests, airflow variability was observed [FVC, 2.25 (63%); FEV1, 1.57 (54%); FEV1/FVC, 69.93%; bronchodilator test negative; and FeNO, 18ppb], confirming the diagnosis of bronchial asthma. A repeat bronchoscopy with similar BAL and BAS showed eosinophilia 1000cells/μL and IgE 1300IU/L.

After a diagnostic process for hypereosinophilia with specific IgE for C. albicans, the patient met the criteria for allergic bronchopulmonary mycosis (ABPM) caused by C. albicans. In view of her young, corticosteroid-dependent patient profile, biological treatment with mepolizumab 100mg subcutaneous every 28 days was prescribed, resulting in clinical and radiological improvement, reduced airflow obstruction [FVC, 2.56 (71%); FEV1, 2.04 (70%); FEV1/FVC, 79.01], and decreased peripheral eosinophilia (eosinophilia before treatment: 1500cells/μL; after treatment: 100cells/μL). Prednisone could be reduced to 5mg per day with the aim of discontinuing it definitively (Fig. 1).

Now that we have the opportunity to implement new therapies,1 an exhaustive diagnostic approach to hypereosinophilia has become vital. In our case, we identified C. albicans ABPM, a rare manifestation second in prevalence to Aspergillus fumigatus which is the most typical presentation.2 Traditionally, diagnostic criteria followed the model of ABPA, but this changed when the latest ISHAM revision was published.3 These guidelines distinguish between ABPA and ABPM, and for ABPM recommend the following criteria: Predisposing conditions (history of bronchial asthma, cystic fibrosis or bronchiectasis) or compatible clinical-radiological presentation; Major criteria: total IgE>500IU/mL and elevated fungal IgE; At least 2 minor criteria: positive fungal IgG; 2 sputum samples (or one BAL) with fungal species growth; eosinophilia>500cells/μL; radiographic abnormalities (bronchiectasis, mucous plugs, or increased attenuation).

According to the ISHAM group, corticosteroids or itraconazole may be used as first-line treatments. However, the combination of both is not fully recommended in the latest review due to an increased risk of adverse effects. If itraconazole is chosen as the initial therapy, a 2-week course of corticosteroids may be used to mitigate adverse effects.3 We used prednisone as the first-line therapy, which initially resulted in a favourable clinical response but led to disease exacerbations upon dose tapering. In accordance with the guidelines, which suggest the use of itraconazole or biological therapy in such cases, we opted for the latter. We administered mepolizumab (an anti-IL-5 agent), which has shown potential superiority over other biologics in terms of improving function and reducing corticosteroid doses.4 Scientific evidence also supports the use of omalizumab (the biologic with the most historical experience), dupilumab, and benralizumab.2,4,5

We would like to emphasize the importance of an adequate diagnostic approach to pulmonary-origin hypereosinophilia and share our experience with ABPM. This is an underdiagnosed condition, with case reports in the last 2 decades being almost non-existent outside of Asia.