Aspergillus: Difference between revisions
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Aspergillus
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Aspergillus spp.
Microbiology
- Aspergillus is a mold with hyaline (lightly-pigmented) hyphae, septated, and usually branched at acute angle (45º)
- Named for the appearance of the sporulating head, which looks like an aspergillum used to sprinkle holy water (in 1729)
- Most species reproduce asexually, although A. fumigatus and a few others have teleomorphs (sexual form with fruiting body)
- Culture is important, but molecular methods are often required to identify the particular species
- Pathogenic species grow quickly on common media
- Can grow at 37º C, and A. fumigatus can grow up to 50º C
Species | Colony Characteristics | Microscopy | Clinical Significant |
---|---|---|---|
A. fumigatus | Smoky gray-green; may have pale yellow or lavender reverse; grows at 50 ºC | Columnar; uniseriate; smooth to finely roughened conidia | Most common invasive species (90+%) and most pathogenic |
A. flavus | Olive to lime green | Radiate to loosely columnar; uniseriate or biseriate; rough conidiophore | Sinusitis; skin infection; produces aflatoxin |
A. terreus | Beige to cinnamon buff | Columnar; biseriate; globose; small conidia; globose accessory conidia along hyphae | Increasingly detected; intrinsically resistant to ampho B, though more susceptible to new azoles |
A. niger | Initially white, rapidly turning black with yellow reverse | Radiate; biseriate; globose, black, very rough conidia | Uncommon in invasive infections; superficial cause of otic disease; colonizer |
A. nidulans |
A. ustus complex (A. caladustus) are resistant to azoles and echinocandins, and variable resistance to amphotericin (but susceptible to terbinafine)
Epidemiology
- Ubiquitous worldwide, found in soil, water, food, air, and decaying vegetation
- There is increasing antifungal resistance worldwide
- Outbreaks can occur with construction
- May also be possible to have activation of latent infecton or colonization, making infection control more difficult
High-Risk Populations
- The major risk factor is defective function or decreased number of neutrophils
- In order of risk: CGD, alloSCT with GVHD, AML with induction or (worse) reinduction, everyone else, etc.
- CGD is the highest risk disease; other at-risk groups include lung disease, AIDS, etc.
- Hematopoitic stem cell transplants are highest risk (7% allo, 1% auto)
- Peaks <40 days and >100 days
- With or without neutropenia, most likely related to steroid use
- Hematologic malignancies
- Usually following induction chemotherapy, or refractory or recurrenct disease (50% mortality)
- 3+7 AML induction usually 14-21 days of neutropenia
- Solid-organ transplants
- Highest among lung transplant recipients (6%) due to ongoing environmental exposure, decreased ciliary clearance, and common concomitant Aspergillus colonization
- Followed by liver (4%), heart (2%), and kidney (0.5%)
- Usually diagnosed at 6 to 12 months
- Therapeutic immunosuppression, including prednisone and anti-TNF-alpha
- GVHD increases the risk, due to the additional immune suppression
- Highest risk within GVHD is with gut involvement
- Solid maligancies are relatively low risk due to the short courses of neutropenia, but increasing risk with newer chemotherapies
Pathophysiology
- Initially acquired by inhalation of conidia into lungs or sinuses, or rarely from local tissue invasion
- The conidia grow and germinate, transforming into hyphae and invading the vasculature
- Hydrocortisone appears to be a growth factor for Aspergillus
- Vascular invasion is typical of invasive aspergillosis
- May cause pulmonary infarction
- This can be followed by hematogenous dissemination
- The host immune response begins with ciliary clearance to prevent the conidia from reaching the alveoli
- Once in the alveoli, the response depends on pulmonary macrophages to phagocytose the conidia
- Following germination and growth of hyphae, PMNs act to kill hyphae and swollen conidia
- This is helped by opsonization of conidia by complement
- Antibodies are common, given the mold's ubiquity, but not protective
- A. fumigatus has small conidia, allowing it to reach the alveoli more easily, and also produces a complement inhibitor
Clinical Presentation
Colonization and superficial infections
Aspergilloma (fungal ball)
- Ball of hyphae growing in a preexisting cavity, often in bullous emphysema, sarcoidosis, tuberculosis, histoplasmosis, congenital cysts, bacterial lung abscesses, or Pneumocystis bleb
- Often asymptomatic, but the most common symptom is hemoptysis, which can be fatal
- Can also occur in the sinuses
Other supreficial infections
- Otomycosis: chronic otitis externa caused by A. niger or A. fumigatus
- Onychomycosis
- Keratitis
Allergic syndromes
Allergic bronchopulmonary aspergillosis (ABPA)
- Caused by a Th2 response to Aspergillus, usually in patients with asthma or cystic fibrosis
- Criteria include: asthma, central bronchiectasis on CT, positive skin test for Aspergillus, total IgE >417 IU/mL, IgE or IgG antibodies to A. fumigatus, transient CXR infiltrates, Aspergillus precipitans, and eosinophilia
- Supported by Aspergillus on sputum culture, brown mucous plugs with dead eosinophils, and CXR showing bronchiectasis
- The course is characterized by exacerbations and remissions, leading to eventual pulmonary fibrosis and chronic pulmonary aspergillosis
Allergic fungal sinusitis
- Can be Aspergillus or other molds
- Mangement is mostly surgical
Chronic cavitary pulmonary aspergillosis (CCPA)
- One or more cavities that can contain solid or liquid material or a fungal ball, usually following creation of multiple cavities from another process
- May present with pulmonary or constitutional symptoms, including hemoptysis, dyspnea, and productive cough
- Weight loss and fatigue are common and profound, while fevers are less common
- May mimic TB
- Diagnosis requires:
- 3 months of symptoms or chronic illness or progressive radiological abnormalities with cavitation, pleural thickening, perivacitary infiltrates +/- fungal ball
- Aspergillus IgG antibodies
- No or minimal immunocompromise
- Must rule out other causes of symptoms, including other causes of weight loss
Invasive aspergillosis
- aka. angioinvasive, invading the vasculature
Chronic necrotizing pulmonary aspergillosis
- With mild or moderate immunosuppression, patients may develop chronic necrotizing pulmonary aspergillosis (CNPA), essentially a subacute form of invasive aspergillosis
Invasive pulmonary aspergillosis
- Usually after 10 to 12 days of severe neutropenia
- Non-productive cough, dyspnea, pleuritic chest pain, and fever with pulmonary infiltrates despite broad-spectrum antibiotics
- Symptoms may be less prominent in patients with defective immunity
- Fever dampened by high dose steroids
- Also hemoptysis, pleural effusion, and pneumothorax
- Can mimic a pulmonary embolism
- Imaging may show multiple dense nodular pulmonary infiltrates without air bronchograms, suggesting extensive infection
- Classic, though, is pleural-based wedge-shaped densities or cavitary lesions
- Pleural effusions are common
- A nodular lesion wth a halo is suggestive of early aspergillosis, followed by cavitation in later disease
Other sites of invasive respiratory aspergillosis
- Ulcerative tracheobronchitis, a high concern in lung transplant
- May mimic graft rejection
- Invasive rhinosinusitis, with mortality of 10-20%
- Hematogenous dissemination to any organ, associated with 90% mortality
Other sites of invasive aspergillosis
- Cerebral aspergillosis, which may explain half of all CNS lesions in HSCT
- Presents >100 days after transplant, usually with concomitant pulmonary disease
- Presents with focal neuro signs, altered mental status, and headaches
- Osteomyelitis
- Vertebral osteomyelitis may result from extension of empyema, but is also the most common site of hematogenous dissemination
- Skin and soft tissue infection
- Either from hematogenous spread or local invasion
- Often around IVs or adhesive dressings
- Neutropenic patients as well as burns and surgical sites
Specific risk groups
- For CGD and AML induction and SOT, it tends to be isolated pulmonary aspergillosis
- In SCT with GVHD, you tend to see more CNS aspergillosis and disseminated aspergillosis
Diagnosis
- Culture positive for Aspergillus and histology with invasive hyphae
- Only 10-30% of patients with IA have a positive BAL culture, improved with use of fungal media
- Serology for antibodies is unhelpful, given that the mold is ubiquitous
- Galactomannan by EIA
- Best-studied and most sensitive in HSCT patients
- Released from the fungal cell wall on growth
- Cutoff of 0.5 is good, 80% Sn and Sp
- BAL is more sensitive, but prophylaxis decreases sensitivity
- Imaging can be helpful
- Halo sign on CT is present for about the first 7 days of disease in neutropenic patients
- Can also have nodules, pleural-based infarctions, or vacitation, as well as non-specific consolidation
Management
Aspergilloma
- If asymptomatic and single aspergilloma, monitor
- If symptoms, especially hemoptysis, surgical resection (if possible)
- No role for antifungals
Allergic bronchopulmonary aspergillosis (ABPA)
- Indications for treatment
- Diagnose with Aspergillus-IgE
- If ongoing symptoms despite appropriate management of asthma (including oral steroids), treat with itraconazole
- If CF patient has frequent exacerbations or falling FEV1, treat with itraconazole
- Itraconazole 200 mg/day for 16 weeks, which decreases steroid use and increases patient function
Allergic fungal rhinosinusitis
- Polypectomy and sinus washout
- Topical nasal steroids
- Oral antifungal therapy can be tried if above does not work, but rarely effective
Chronic cavitary pulmonary aspergillosis (CCPA)
- If asymptomatic, monitor every 3-6 months, with investigations every 3-12 months including
- Low-dose CT chest or CXR
- ESR/CRP
- Aspergillus IgG titres
- Annual PFTs
- If pulmonary symptoms, constitutional symptoms, or worsening lung function, treat with 6+ months of antifungal therapy
- Itraconazole or voriconazole
- If this fails, try IV micafungin, caspofungin, or amphotericin B
- If hemoptysis, treat with tranexamic acid, pulmonary artery embolization, or antifungal therapy
- May need surgical resection if localized disease refractory to medical management
Invasive aspergillosis
- Voriconazole 6 mg/kg IV q12h x2 then 4 mg/kg IV q12h, or 200 mg po q12h
- Alternative: liposomal amphotericin B 3 mg/kg/day
- Salvage: echinocandins (caspo, or other)
- If hepatotoxicity with voriconazole, switch to posaconazole
- Vori superior to amphofor mortality
- Combo vori+anidula no better than vori except in post-hoc analysis of possible early treatment
- In the future, watch out for isuvaconazole—may be superior to vori
- Duration 6-12 weeks depending on immunosuppression
- Follow-up CT after a minimum of 2 weeks, or earlier if deterioration
Breakthrough infection
- Base empiric treatment on local epidemiology
- Probably fewer breakthroughs in HSCT patients with posaconazole prophylaxis
Failure
- Technically should be assessed at 6 weeks (2 weeks at a minimum, based on pharmacokinetics)
Prevention
- For high-risk patients in hospital (e.g. HSCT), use air filters, frequent air exchanges, and positive-pressure ventilation
Antifungal prophylaxis
- Posaconazole prophylaxis is first to demonstrate survival benefit for AML/induction patients
- AML induction: posaconazole, voriconazole, or micafungin
- Caspofungin probably also effective
- Itraconazole also effective but poorly tolerated
- HSCT with moderate to severe GVHD: posaconazole (voriconazole is alternative)
- Reduces invasive fungal infections, but no mortality benefit
- Immunosuppression for GVHD: prophylaxis for duration of immunosuppression (steroids >1mg/kg/d for >2 weeks, or lymphocyte-depleting agents, or TNF-alpha inhibition)
- Lung transplant: vori/itra/inhaled amphoB for 3 to 4 months after transplant, and when receiving thymoglobulin, alemtuzumab, or high-dose steroids
- Other solid-organ transplant: decision based on per-patient risk factors
- Prior IA requiring new immunosuppression: may also benefit from prophylaxis
References
- ^ Inderpaul S Sehgal, Sahajal Dhooria, Valliappan Muthu, Kuruswamy T Prasad, Ashutosh N Aggarwal, Arunaloke Chakrabarti, Hansraj Choudhary, Mandeep Garg, Ritesh Agarwal. Efficacy of 12-months oral itraconazole versus 6-months oral itraconazole to prevent relapses of chronic pulmonary aspergillosis: an open-label, randomised controlled trial in India. The Lancet Infectious Diseases. 2022. doi:10.1016/s1473-3099(22)00057-3.