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Pulse methylprednisolone in allergic bronchopulmonary aspergillosis exacerbations

Inderpaul Singh Sehgal, Ritesh Agarwal
European Respiratory Review 2014 23: 149-152; DOI: 10.1183/09059180.00004813
Inderpaul Singh Sehgal
Dept of Pulmonary Medicine, Postgraduate Institute of Medical Education and Research, Chandigarh, India.
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Ritesh Agarwal
Dept of Pulmonary Medicine, Postgraduate Institute of Medical Education and Research, Chandigarh, India.
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  • For correspondence: riteshpgi@gmail.com
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To the Editor:

Allergic bronchopulmonary aspergillosis (ABPA) is an immunological pulmonary disorder caused by hypersensitivity reactions to fungal antigens released by Aspergillus fumigatus [1]. Several aspects of the disease remain an enigma despite being described six decades ago by Hinson et al. [2]. The clinical presentation is that of poorly controlled asthma, mucus plugging and bronchiectasis [3], and the diagnosis of ABPA is made on a composite of clinico-radiological and immunological findings [4]. The primary management of ABPA involves the use of glucocorticoids as an anti-inflammatory agent. Azoles are used in patients with recurrent exacerbations, and act by decreasing the fungal burden in the airways, thereby preventing exacerbations [5]. The natural history of ABPA is characterised by repeated episodes of exacerbations requiring glucocorticoids for management [6–8]. Herein, we describe two patients in whom the disease activity remained uncontrolled despite treatment with oral corticosteroids and azoles. These patients were managed successfully with intravenous pulses of high-dose methylprednisolone. We also systematically review the literature on the use of high-dose intravenous methylprednisolone in ABPA.

A 48-year-old male with history of bronchial asthma since 20 years of age was diagnosed with ABPA 6 years previously: A. fumigatus specific IgE 102 kUA·L−1; type I skin reaction against Aspergillus antigen; total serum IgE 1208 IU·mL−1; central bronchiectasis; eosinophil count 620 cells·μL−1; and A. fumigatus precipitins positive. During the course of the disease he had multiple exacerbations, which responded to oral steroids. The patient was also started on itraconazole 200 mg twice daily (four courses, each of 6 months duration) for recurrent exacerbations. His last exacerbation was 8 months ago. Current therapy included prednisolone 15 mg every other day along with inhaled bronchodilators and steroids. The patient presented with increasing shortness of breath, wheezing and cough for 1 week. A chest radiograph showed no evidence of any new infiltrates or atelectasis. Serum IgE levels were 11 384.97 IU·mL−1. He was started on oral prednisolone 50 mg daily and itraconazole 200 mg twice daily. However, the patient’s general condition did not improve after 1 week of therapy and he was hospitalised with type II respiratory failure in the respiratory intensive care unit. The patient was managed with oxygen, intravenous antibiotics, nebulised bronchodilators and noninvasive ventilation. Sputum for bacterial cultures and acid-fast bacilli were negative. A chest radiograph was performed again and showed no new opacities. Due to a suboptimal response to oral steroids and itraconazole, he was administered pulse intravenous methylprednisolone at a dose of 1 g daily for 3 days to control his ABPA. Oral steroids were rapidly tapered over the next 8 weeks and the patient continued on prednisolone 15 mg every other day, oral itraconazole 200 mg twice daily, inhaled steroids and bronchodilators. On follow-up at 6 weeks, the patient was doing well and his IgE level was 2679.90 IU·mL−1.

A 32-year-old female with known asthma for the past 20 years was diagnosed with ABPA 3 years ago: A. fumigatus specific IgE 53.3 kUA·L−1; type I and III skin reaction against Aspergillus antigen; total IgE 4228 IU·mL−1; central bronchiectasis and high-attenuation mucus; eosinophil count 240 cells·μL−1; and A. fumigatus precipitins positive. She was initiated on oral prednisolone 30 mg daily with which there was clinical and radiological response and her serum IgE levels fell to a nadir of 2200 IU·mL−1. During the subsequent 2 years she had two episodes of exacerbation of asthma, which were managed with oral steroids for 5 days each. In the current episode, the patient presented with history of worsening dyspnoea. Chest radiographs showed no new abnormality but her IgE level rose to 4149 IU·mL−1. She was started on itraconazole (200 mg twice daily) and oral prednisolone 40 mg daily. There was no response to therapy after 1 week and she was hospitalised. She was hypoxaemic at presentation and was treated with oxygen, intravenous antibiotics and nebulised bronchodilators. During her hospital stay, sputum cultures and smears for acid-fast bacilli were negative; compression ultrasound for deep vein thrombosis and d-dimers were also negative. To control her ABPA, the patient received intravenous methylprednisolone 1 g daily for 3 days. This was followed by an improvement in the patient’s symptoms and on discharge after 10 days, her room-air oxygen saturation rose to 96%. Oral steroids were subsequently tapered over the next 2 months to 15 mg every other day. Treatment with oral itraconazole 200 mg twice daily, inhaled steroids and bronchodilators were continued. Her serum IgE level 4 weeks after pulse therapy was 1220 IU·mL−1 and reached a nadir of 784 IU·mL−1 3 months after receiving pulse methylprednisolone.

Escalating the dose of oral steroids constitutes the backbone of treating ABPA exacerbations; however, the management of an occasional ABPA patient may prove challenging. Both the index cases failed to respond to high doses of oral steroids and itraconazole and were managed with intravenous methylprednisolone pulse therapy. A systematic review of the PubMed and EMBASE databases using the search terms: “allergic bronchopulmonary aspergillosis” OR “abpa” OR “abpm” OR “allergic bronchopulmonary mycosis” yielded four reports (39 cases) on the use of high doses of intravenous methylprednisolone in the management of ABPA [9–12]. All the reports were in patients with ABPA complicating cystic fibrosis, and involved both adult and paediatric patients (table 1). Three reports used pulse methylprednisolone 10–20 mg·kg−1 as a steroid sparing agent for three consecutive days every month [9, 10, 12]. One report involves the use of high-dose methylprednisolone in a life-threatening ABPA exacerbation unresponsive to oral steroid, which is similar to our cases [11]. Our cases are the first report on the use of pulse methylprednisolone in the management of ABPA exacerbations in adult asthmatic patients.

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Table 1. Studies describing the use of high-dose intravenous methylprednisolone in allergic bronchopulmonary aspergillosis

ABPA is caused by abnormal immune responses to fungal antigens with preferential activation of T-helper type 2 responses and subsequent release of pro-inflammatory cytokines [13]. ABPA exacerbations probably reflect heightened immune activity triggered by increased fungal colonisation [1]. The differential diagnosis of ABPA exacerbation includes exacerbation of asthma, pulmonary embolism and pneumonia. However, ABPA exacerbations are characterised by clinico-radiological worsening associated with elevation of serum IgE levels 50–100% of the baseline value [4]. The rationale behind the use of steroids in ABPA exacerbations is their ability to relieve airway obstruction, decrease sputum production and hasten resolution of pulmonary infiltrates due to their anti-inflammatory effects (inhibition of phospholipase A2 activity and arachidonic acid metabolism, decrease in inflammatory cell chemotaxis, cell adhesion and tissue infiltration, and diminished production of inflammatory cytokines) [14]. We have previously shown that the presence of severe bronchiectasis and high-attenuation mucus is associated with recurrent relapses [15–17]. Both our patients had severe bronchiectasis while one patient had high-attenuation mucus. In addition, due to the severity of their underlying disease, both patients had been on long-term oral steroids. Long-term steroid use is associated with downregulation of steroid receptors and, hence, creation of a steroid resistance state [18]. Use of high doses of methylprednisolone may overcome this effect by its non-genomic physicochemical actions, which are independent of the steroid receptors [19].

The use of methylprednisolone in acute exacerbations of ABPA has been previously described in a single case of an 11-year-old child with cystic fibrosis, where the exacerbation was unresponsive to oral steroids and pulsed doses of methylprednisolone led to clinical stabilisation and better control of ABPA [11]. Our patients were even sicker, and were unresponsive to both prednisolone and itraconazole. Use of pulsed doses of methylprednisolone led to clinical stabilisation in both cases, and we were able to reduce the dose of oral prednisolone within 4–8 weeks. Intravenous monthly pulses of methylprednisolone have also been used as a steroid-sparing agent to prevent various side-effects like hyperglycaemia, hypertension and osteoporosis. In fact, in three published studies none of the patients gained weight or developed cushingoid habitus in studies employing monthly pulses of methylprednisolone, and there was no suppression of hypothalamic–pituitary axis [9, 10, 12]. In acute exacerbations of ABPA, pulse methylprednisolone should currently be considered in those refractory to oral prednisolone and itraconazole or in those who develop acute respiratory failure due to acute exacerbation. Therapeutic bronchoscopy should be considered before pulse methylprednisolone in those with large airway collapse, [20]. The administration of high doses of methylprednisolone may be rarely associated with complications like cardiac arrhythmias and circulatory collapse usually following rapid administration [19]. Hence, the infusion should be given gradually over 2 h, and the patients should be closely observed during the pulse therapy.

In conclusion, pulsed doses of intravenous methylprednisolone are safe and effective, which can be used in managing ABPA exacerbations unresponsive to conventional therapy with oral steroids and azoles.

Footnotes

  • Provenance: Submitted article, peer reviewed.

  • Statement of Interest: None declared.

  • Received June 24, 2013.
  • Accepted July 16, 2013.
  • ©ERS 2014

ERR articles are open access and distributed under the terms of the Creative Commons Attribution Non-Commercial Licence 3.0.

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Pulse methylprednisolone in allergic bronchopulmonary aspergillosis exacerbations
Inderpaul Singh Sehgal, Ritesh Agarwal
European Respiratory Review Mar 2014, 23 (131) 149-152; DOI: 10.1183/09059180.00004813

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Pulse methylprednisolone in allergic bronchopulmonary aspergillosis exacerbations
Inderpaul Singh Sehgal, Ritesh Agarwal
European Respiratory Review Mar 2014, 23 (131) 149-152; DOI: 10.1183/09059180.00004813
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