Abstract / PDF

Daptomycin-induced acute eosinophilic pneumonia

Preeya Goyal BAa, Michael J. Breen PhDa Peter Hountras MDb, Rishi Raj MDc, Maureen K Bolon MDc

Correspondence to Preeya Goyal BA. Email: Preeya.goyal@northwestern.edu

+ Author Affiliation - Author Affiliation
a Medical students at Northwestern Feinberg School of Medicine in Chicago, Ill.
b A fellow in Pulmonary Medicine at Northwestern School of Medicine in Chicago, Ill.
c Faculty members in the Pulmonary and Critical Care Division in the Northwestern School of Medicine in Chicago, Ill.

SWRCCC 2016;4(13): 35-40
doi: 10.12746/swrccc2016.0413.174

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Abstract

Acute eosinophilic pneumonia (AEP) is a rare but important and potentially fatal complication of daptomycin therapy. Here, we present the case of an 85-year-old man with a history of resected esophageal cancer and osteomyelitis treated with daptomycin on two separate occasions who presented for workup of recurrent pneumonia. X-ray and computed tomography of the chest showed right upper lobe and left lower lobe infiltrates. Bronchoscopy with bronchoalveolar lavage showed a WBC of 200/µL with 75% eosinophils. No infectious etiology was found despite multiple cultures for pathogens. His presenting symptoms improved over the course of hospitalization despite cessation of all antibiotics. Given the clinical picture and bronchoscopy results, his presentation was attributed to daptomycin-related eosinophilic pneumonia.

Since the approval of daptomycin in 2003, approximately 20 case reports have been published demonstrating AEP associated with daptomycin use. We suggest that daptomycin-associated AEP is an under recognized complication and that the incidence will increase with greater use of the drug. Physicians should be especially cognizant of elderly male patients being treated with prolonged courses.

Keywords: malignant hyperthermia, succinylcholine, muscle injury, rigidity

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Introduction

Daptomycin is a cyclic lipopeptide derived from the fermentation of Streptomyces roseosporus. Its mechanism of action is based on calcium-dependent depolarization of the bacterial cell wall of gram-positive organisms.1 Acute eosinophilic pneumonia (AEP) is a rare, potentially fatal complication of daptomycin therapy that should be promptly recognized. Symptoms of daptomycin-induced eosinophilic pneumonia range from fever to severe dyspnea, which can make this diagnosis difficult to recognize. Daptomycin has a wide range of indications, including osteomyelitis, but it is not indicated for pulmonary infections since the drug is inactivated by surfactant.2

Daptomycin-induced eosinophilic pneumonia is characterized by febrile illness, hypoxemia, diffuse bilateral pulmonary infiltrates, and bronchoalveolar lavage (BAL) with greater than 25% eosinophils. If this presentation occurs for a maximum of 5 days, it is characterized as acute eosinophilic pneumonia. The BAL criteria can be superseded by a biopsy showing large numbers of eosinophils.3 The diagnosis of daptomycin-induced eosinophilic pneumonia is made when the patient meets the criteria for eosinophilic pneumonia and has a history of recent exposure to daptomycin without any other known cause of eosinophilic pneumonia. Additionally, one can see clinical improvement after cessation of daptomycin. Recurrence of symptoms with reinitiation of daptomycin therapy is expected but does not have to occur for diagnostic purposes.4


Case

An 85-year-old Caucasian male with a history of resected esophageal cancer, recent osteomyelitis, hypertension, and hyperlipidemia was transferred from an outside hospital for further workup of recurrent pneumonia. He initially presented with symptoms of increased shortness of breath and a cough productive of yellow sputum. This was the third admission for respiratory distress. Six months prior to this hospitalization, he sustained a right olecranon fracture after a fall, which was repaired with plate fixation. The surgery was complicated by infection of the hardware, which was removed. He then developed osteomyelitis of the right arm, which was treated with a five week course of intravenous daptomycin four months prior to admission. He was then treated with negative pressure wound therapy for the failure of the surgical incision to fully close. Three weeks prior to admission, he underwent debridement of the non-healing wound and was started on a second course of daptomycin.

On admission, he was afebrile with a blood pressure of 118/64, heart rate of 68, respiratory rate of 18, and oxygen saturation of 94 % on 2 liters per minute oxygen by nasal cannula. Pulmonary examination revealed decreased breath sounds over the right upper lobe (RUL) and left lower lobe (LLL) and bibasilar crackles. He did not have a leukocytosis but the WBC differential showed an elevated absolute eosinophil count (1.3 K/µL). Right upper lung and left basilar opacities were present on a chest radiograph and computed tomography (CT) of the chest. He was briefly started on imipenem and vancomycin to cover suspected pneumonia and the resolving right elbow osteomyelitis. On the day after admission, all antibiotics were stopped since the clinical presentation and stable chest imaging did not seem consistent with hospital-acquired pneumonia. Given concern for endemic fungal infection, aspiration pneumonia, or eosinophilic pneumonitis, the pulmonary team was consulted for bronchoscopy and additional tests. Polymerase chain reaction testing for respiratory viruses, legionella urine antigen, sputum Gram stain and culture, mycobacterial culture, QuantiFERON gold, cryptococcal antigen, fungal culture, aspergillus galactomannan, pneumocystis direct fluorescent antigen, urine cultures, and blood cultures were all negative. Bronchoscopy BAL demonstrated a WBC of 200/µL with 75% eosinophils.

Given the bronchoscopy results, his symptoms were attributed to daptomycin-related eosinophilic pneumonia. Over his hospital course, symptoms resolved with cessation of antibiotics and a course of prednisone 30 milligrams daily for four weeks with a gradual taper.


fig1
Figure: Computed tomography shows a RUL consolidation consistent with pneumonia and altered tracheal/esophageal anatomy secondary to severe kyphosis. The study also shows LLL consolidation at another level not seen here.



Discussion

Diagnosis

The differential diagnosis for pulmonary eosinophilia is broad, and the diagnosis is often made by exclusion, as many findings are nonspecific. The differential includes helminth infections, allergic bronchopulmonary aspergillosis, acute and chronic eosinophilic pneumonias, Churg-Strauss syndrome, reactions to medications and toxins, and idiopathic eosinophilic pneumonia.5 Besides daptomycin, medications, including nonsteroidal anti-inflammatory drugs, anti-psychotics, other antimicrobials like nitrofurantoin and minocycline, and antidepressants, have caused AEP.4 A disproportionality analysis done in cases of eosinophilic pneumonia reported in the FDA Adverse Event Reporting System found that daptomycin was the drug most frequently associated with AEP.6


Mechanism

The exact mechanism of daptomycin-induced eosinophilic pneumonia is unknown. In an animal model of bronchoalveolar pneumonia, daptomycin was completely ineffective against S. pneumoniae and methicillin-resistant Staphylococcus aureus. In vitro experiments using bovine-derived surfactant have demonstrated that daptomycin binds to surfactant molecules and that its bactericidal activity rapidly drops with even low concentrations of surfactant.2 It is likely then that the drug accumulates in surfactant-lined alveoli, resulting in activation of alveolar macrophages by unclear mechanisms. This triggers an inflammatory response involving Th2 lymphocytes and the production of interleukin-5 and eotaxin, stimulating eosinophil production and migration to the lung.8 Patients then develop fever, dyspnea, and cough.9


Treatment

Symptoms usually resolve after the drug is stopped, but corticosteroid treatment may be needed if symptoms are severe.6 In general, corticosteroids should be delayed, if possible, until a biopsy or bronchoscopy BAL is performed since corticosteroids may suppress the eosinophilia.3 In most cases, a relatively short course (e.g., 2 weeks) of corticosteroids is sufficient for complete resolution.10


Literature Review

The table summarizes reported cases of daptomycin-associated AEP (Table).5,9,11-25 Some patterns are readily apparent. There is a strong male predominance (21/23 cases; 91%), and most cases occur in the elderly population. The outliers, a 28-year-old man and a 34-year-old man, had significant comorbidities, namely childhood-onset insulin-dependent diabetes mellitus and DiGeorge Syndrome. The clinical setting in which many of these complications occur is fairly limited, and the majority occur in patients treated for prosthetic joint infection, osteomyelitis, spondylodiscitis, and endocarditis/bacteremia.17 These types of infections generally require prolonged antibiotic courses ranging from four weeks for endocarditis to six or more weeks for osteomyelitis. Thus, clinicians should be attentive to the possibility of daptomycin-induced AEP in elderly men being treated for the above infections.

Our patient had several uncommon characteristics for daptomycin-associated eosinophilic pneumonia. First, the classic distribution of pulmonary lesions is bilateral, diffuse opacities in the peripheral lung zones.8 Our patient had a discrete consolidations in the RUL and in the LLL. But his BAL cytology revealed 75% eosinophils and no organisms grew in BAL culture, leaving little doubt as to the diagnosis. Another notable feature is the rapidity of onset following reintroduction of daptomycin. Even initial courses as short as 3-7 days can predispose patients to a robust response after reinitiation of daptomycin.22,23 Our patient did not report symptoms during his initial five week course of daptomycin, even though his premorbid activity level was relatively good and he might note dyspnea. However, he developed symptoms within a few days of starting his second course of antibiotics. Physicians should proceed cautiously in restarting daptomycin in patients with even mild pulmonary symptoms during prior treatment with this drug.


Table: Cases of daptomycin-associated AEP with indication for and length of daptomycin therapy
Report Patient age, gender Indication Time on drug Pathology Treatment
 Cobb 2007 84   Prosthetic joint infection  6 weeks Bronchiolitis obliterans organizing pneumonia Drug withdrawal
 Hayes 2007 60   Endocarditis  1 week  AEP Drug withdrawal, corticosteroids
 Kakish 2008 65 Vertebral osteomyelitis  3 weeks  AEP Drug withdrawal, corticosteroids
 Shinde 2009 54 Surgical site infection  2 weeks  AEP Drug withdrawal, corticosteroids
 Lal 2010 82 Prosthetic joint infection  3 weeks  AEP, chronic pneumonitis Drug withdrawal, corticosteroids
 Lal 2010 87 Prosthetic joint infection  4 weeks  AEP, chronic pneumonitis Drug withdrawal, corticosteroids
 Miller 2010 60    Prosthetic joint infection  2 weeks  AEP Drug withdrawal, corticosteroids
 Miller 2010 60 Diabetic foot ulcer, osteomyelitis  2 weeks  AEP Drug withdrawal
 Miller 2010 83 Discitis  4 weeks  AEP Drug withdrawal, corticosteroids
 Kalogeropoulos 2011 78 Possible infective endocarditis  10 days  AEP Drug withdrawal
 Rether 2011 69   Spondylodiscitis, lumbar and psoas abscess  3 weeks  AEP Drug withdrawal, corticosteroids
 Philips 2013 48 Osteomyelitis  3 weeks  AEP Drug withdrawal, corticosteroids
 Philips 2013 28 Diabetic foot ulcer, osteomyelitis  4 weeks  AEP Drug withdrawal, corticosteroids
 Yusuf 2014 64 Prosthetic joint infection  4 weeks  AEP Drug withdrawal
 Yusuf 2014 61 Prosthetic joint infection  2 weeks  AEP Drug withdrawal, corticosteroids
 Yamamoto 2014 82 Vertebral septic arthritis, bacteremia  16 days  Pneumonitis Drug withdrawal
 Patel 2014 61  Diabetic foot ulcer, osteomyelitis  7 days  AEP Drug withdrawal, corticosteroids
 Rajagopal 2014 63 Diabetic foot ulcer, osteomyelitis  2 weeks  AEP Drug withdrawal
 Roux 2015 67 Prosthetic joint infection  17 days  Pneumonitis Drug withdrawal, corticosteroids
 Hagiya 2015 34 Endocarditis  5 doses, interrupted  AEP, myopathy, eosinophilic sinusitis Drug withdrawal
 Wojtaszczyk 2015 76 Septic arthritis  1 weeks  AEP Drug withdrawal, corticosteroids
 Chiu 2015 77 Osteomyelitis  6 weeks  AEP Drug withdrawal, corticosteroids
 Chiu 2015 74 Prosthetic joint infection  1 week, interruption, 3 days  AEP Drug withdrawal, corticosteroids



References

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Received: 11/23/2015
Accepted: 01/11/2016
Reviewers: Mark Sigler MD
Published electronically: 01/15/2016
Conflict of Interest Disclosures: none

 

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