Blastomyces dermatitidis

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Blastomyces dermatitidis /
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Microbiology

  • Broad-based dimorphic budding yeast
  • Mold at 25-28ºC and yeast at 37ºC
  • Branching hyphae 2-3 µm in diameter and right-angle conidiophores resembling lollipops
    • Conidia become airborne when disturbed

Epidemiology

  • Present in the Mississippi, Ohio, and St. Lawrence River Valleys, the Great Lakes regions, and western Ontario

![Map of fungi in North America](Map of fungi in North America.png)

  • May also be endemic to Africa and India, though it's unclear whether these are true cases or late reactivation
  • Hosts include humans, dogs, cats, horses, brown bears, and exotic pets like the kinkajou and red ruffed lemur
  • There have been point-source outbreaks associated with occupational and recreational activities, usually along streams or rivers enriched with decaying vegetation
  • Possibly has cold-weather seasonality

Pathophysiology

  • Inhalation of conidia into the lungs
  • Macophages can phagocytize and kill the conidia, and can also slow conversion into yeast form
    • A thick cell wall helps to prevent phagocytosis
  • Some conidia successfully convert to the pathogenic yeast form
  • Major antigens include BAD1 on the cell wall surface and binds CR3 (CD11b/CD18) and CD14
  • Humoral immunity has little effect; rather, immune response relies on cell-mediated immunity

Clinical Presentation

  • Can be acute pneumonia (followed by either recovery or chronic infection), or asymptomatic (followed by recovery or chronic infection)
    • About 50% overall resolve without treatment
    • About half of symptomatic patients have isolated lung involvement and half are disseminated
  • When symptomatic, may have non-specific and constitutional symptoms
  • Can be primary or reactivation
  • Incubation period 3 weeks to 3 months

Respiratory blastomycosis

  • Respiratory symptoms are the most common focus
  • Can mimic community-acquired pneumonia or tuberculosis, and may have hemoptysis
    • Less likely cavitary, but possible
  • Can be acute or chronic presentation, or asymptomatic
    • Chronic typically lasts 2 to 6 months, with constitutional symptoms
  • Even if there is non-pulmonary infection, there are often findings on chest x-ray
  • Can also cause ARDS in about 10% of cases, which distinguishes it from histoplasmosis

Extra-pulmonary blastomycosis

  • Next most common feature is dissemination to skin
    • Lesions usually either verrucous or ulcerative
    • May be misdiagnosed as pyoderma gangrenosum, keratoacanthoma, BCC, squamous cell carcinoma, or mycosis fungoides
    • Differential also contains NTM, other fungal infections, lupus
  • Osteomyelitis, with or without evidence of lung involvement, is the third most common form
    • There are no specific clinical or radiographical features of blastomycosis
  • Genitourinary involvement, especially prostatitis and epididymo-orchitis, are next most common
    • May be cultured in urine collected after prostate massage
  • Meningitis and cerebritis/abscess are possible
    • Consider screening for it in immunocompromised people
    • Cerebellum more common
    • CSF culture is insenitive, though PCR is better
    • Found in 5-10% of cases of disseminated blasto, but associated with high mortality
    • Can have ocular involvement, as well
    • Differential would involve bacterial and fungal meningitis/abscess (including cryptococcosis), and Nocardia
  • Can also affect larynx, lymphatics or lymph nodes, spleen, and any other organ, though fungemia is rarely found
  • Infection can cause endocrinologic abnormalities including adrenal insufficiency, thyroid infection, hypercalcemia (granulomatous)
    • There are case reports of diabetes insipidus, and hyperprolactinemia
  • Because it can occur in any organ, there are also case reports of breast lesions, tubo-ovarian abscess, otitis media, branchial cleft cyst infection

Pregnancy

  • May be higher risk group, and can transmit it to the newborn

Immunocompromise

  • Not as commonly described as an opportunistic infection as the other endemic fungi
  • Few cases with AIDS, but possible
  • Sarcoidosis, transplantation, and steroid use are all risk factors
  • Infliximab and etanercept are higher risk

Diagnosis

  • Requires a microbiologic diagnosis

Microscopy

  • Can be directly visualized on exudate, sputum, tissue, or really any sample
  • Fairly easy to see with KOH or calcofluor
  • Can be seen on histology of skin lesion biopsy with Gomori methenamine silver (GMS) and periodic acid-Schiff (PAS) stains
  • Thick-walled, multinucleated, broad-based budding

Culture

  • Grows as mycelial (mold) form at 25-30ºC, usually after 1 to 3 weeks, starting as a white mold that slowly turns light brown
    • Grows 5-10 days before they develop conidia, so relatively low risk of infection early on
  • Usually needs a DNA probe to confirm the species
  • Biosafety level 3 pathogen, so needs to be sent to Public Health

Serology

  • Antibody
    • Serology with complement fixation is insensitive
    • A antigen antibodies is better (Sn 65-80%, Sp 100%)
    • BAD1 antigen antibodies is 85% sensitive but not yet used
  • Urinary antigen has 93% sens and 80% spec
    • It cross-reacts with other dimorphic fungi, especially histoplasmosis
    • Can be trended to monitor response during therapy
  • Can check 1,3-β-d-glucan, but not specific or particularly sensitive

Molecular methods

  • Not yet well-developed, but theoretically possible to do PCR

Management

  • Chronic blasto doesn't resolve without treatment, and mortality is as high as 60%
  • Although many cases of acute pulmonary blasto self-resolve, it is still recommended to treat, since azoles are well-tolerated
  • Severity is based on clinical judgement, as there are no validated criteria
  • Pulmonary blastomycosis
    • Mild-to-moderate: itraconazole 200 mg po tid for 3 days followed by bid for 6-12 months
    • Moderate severe-to-severe: liposomal amphotericin B 3-5 mg/kg per day for 1-2 weeks or until improvement, followed by itraconazole 200 mg po tid for 3 days, followed by itraconazole 200 mg po bid, for a total of 6 to 12 months
      • May need 6 to 8 weeks of induction
    • Monitor serum itraconazole after 2 weeks
  • Disseminated extrapulmonary blastomycosis
    • Same as for pulmonary blastomycosis
    • 12 months for bone and CNS involvement
  • CNS blastomycosis
    • Amphotericin 5 mg/kg per day for 4-6 weeks followed by an azole for at least 12 months and until resolution of CSF abnormalities
    • Azoles include fluconazole 800 mg daily, itraconazole 200 mg bid or tid, or voriconazole 200-300 mg bid
      • Vori may be better for CNS disease
  • Immunosuppressed patients with blastomycosis, including AIDS
    • Same as for severe pulmonary blastomycosis, but duration is at least 12 months
    • May be followed by lifelong suppressive itraconazole 200 mg po daily if immunosuppression cannot be decreased and they have relapsed despite appropriate therapy
  • Blastomycosis in pregnant women
    • Use liposomal amphotericin 3-5 mg/kg per day
    • Avoid azoles for risk of teratogenicity
  • Blastomycosis in newborns: AmB deoxycholate 1 mg/kg per day
  • Blastomycosis in children
    • Mild-to-moderate: itraconazole 10 mg/kg po per day (up to 400 mg) for 6 to 12 months
    • Severe blastomycosis: AmB deoxycholate 0.7-1 mg/kg per day or liposomal AmB at 3-5 mg/kg per day, followed by itraconazole 10 mg/kg po per day (up to 400 mg), for a total of 12 months
    • Monitor serum levels after 2 weeks

Itraconazole

  • Tablet formulation has poorer oral bioavailability than liquid formulation
  • Need to avoid PPI and H2 blockers, as it needs an acidic stomach environment to get absorbed, especially for tablet formulation
  • Not as good CNS penetration as other azoles
  • Needs therapeutic drug monitoring after 2 weeks with goal of maintaining serum levels between 1.0 and 10.0 􏱤g/ml

Further Reading