General principles of mycology

From IDWiki

Specimen collection and processing

  • Can refer to the HRLMP Laboratory Test Information Guide.
  • Skin, hair, nail for dermatophytes
    • Skin: clean with 70% alcohol. Scrape off the surface, the collect a subsurface sample from the inflammatory edge of the lesion, using a scalpel or a dermal curette.
    • Nail: clean an unpolished nail with 70% alcohol. Scrape the surface clear, then collect a sample of lower nail table/plate at the edge of lesion with a small curette or scalpel.
    • Hair: 10-12 hair roots with surrounding crust, with sterile forceps, placed in a clean envelope or sterile cup.
    • Should be submitted without added moisture
  • Tissue: the preferred sample for fungal culture. Should be placed in a small amount of preservative-free saline to keep it moist
  • Processing:
    • Often directly inoculated onto culture media.
    • Can also mince (with scalpel) or homogenize (grind) to improve yield.
      • Mince better for fungal to preserve structure.

Fungal media

Selecting appropriate media

  • Bronchoscopy or lung tissue: SAB-CG, Littman, and BHIA-CCG w 10% SB; heavy inoculum; for BAL >2mL, centrifuge down an inoculate 0.5 ml/plate.
    • Can add Gram stain and CAN-BA for Nocardia.
    • Can add PJP stuff for PJP.
    • Target organisms include:
      • Hyaline molds: Aspergillus, Fusarium, Penicillium, Scedosporium
      • Mucorales
      • Yeasts: Cryptococcus
      • Dimorphics: Histo/Blasto/Crypto
  • Vaginal swab: SAB-CG and Littman, to help isolate Candida.
    • Chromogenic agar may be useful e.g. BioRad CandiSelect-4 (C. albicans is purple, others are green)
  • Inducing sporulation: Potato dextrose agar (PDA)
  • Suspected histoplasmosis: Incubate for 28 days at 30ºC for as long as 6 weeks.

Classification of fungi

Working classification

  • Yeast
  • Filamentous fungi
    • Hyalohyphomycosis (hyaline molds)
    • Mucormycosis
    • Dematiaceous / phaeohyphomycosis (pigmented hyphae)
    • Endemic mycoses / dimorphic fungi
    • Dermatophytes (also hyaline, but separated for simplicity)
  • Pneumocystis
  • Unusual fungal and fungal-like

Four Phyla

  • Zygomycota/Glomeromycota: Mucormycotina and Entomycophthomycotina? e.g. Mucorales
  • Ascomycota: e.g. Candida, Fusarium, Sporothrix, Aspergillus, Penicillium, Coccidioides, Histoplasma
  • Basidiomycota: e.g. Cryptococcus
  • Deuteromycota
  • Other: Blastomyces, “black yeasts” (informal)

Clinical Classification

  • Superficial/cutaneous mycoses, e.g. dermatophytes, tinea, etc.
  • Subcutaneous mycoses, e.g. mycetoma, sporotrichosis
  • Systemic mycoses, e.g. Aspergillus, dimorphics, Candida
  • Opportunistic mycoses, e.g. same as systemic, also Cryptococcus, mucormycosis

Automated blood culture systems

  • BacT/Alert is an automated blood culture system that uses enriched trypticase soy broth, automatically monitored for growth with a CO2 sensor.
  • Isolator lysis-centrifugation tube has components to lyse RBCs and WBCs, inhibit the immune cell actions; tubes are lysed then centrifuged and the sediment plated onto agar media. Isolator can release any intracellular fungi.
  • Per Am J Clin Pathol 1995;103(5):660-662, the Isolator system is much more sensitive for fungi in general, though Candida spp. are fairly well-detected by BactT/Alert.
System CO2 Temp Overall Yields Better For Speed
BacTAlert 5% 36ºC Not significantly different Aerobic and facultatively anaerobic Gram-negative bacilli, Candida, Cryptococcus, and Fusarium Faster if organism detected in both blood cultures
Isolator System (lysis centrifugation) 5% 37ºC Not significantly different Staphylococcus spp., yeast (C. parapsilosis, C. lusitaniae, Rhodotorula, and Cladosporium), dimorphic fungi (Histoplasma), and M. furfur Faster identification of organisms on solid media

Histology of fungi

  • Review Am J Clin Pathol 2009;131:364-375: histology alone cannot reliably identify fungi beyond routine descriptions like “hyaline filamentous fungus”
  • Approach to histology:
    • Yeast vs molds / pseudohyphae vs hyphae
    • Size or width
    • Septations
    • Branching

Stains

  • Regular H&E (hematoxylin and eosin): though not reliable for fungi. Can stain some fungal cells purple but is mostly used to identify the inflammatory response in the tissue
  • Periodic acid-Schiff (PAS): complex carbohydrates in fungal cell wall will stain red/purple/pink. Diastase may be used to digest glycogen in tissue (which also stains with PAS).
  • Gomori methenamine silver (GMS): a silver precipitation stain that is sensitive for fungi (possibly better than PAS). Fungi are stained black.
  • Mucicarmine: stains mucins as well as Cryptococcus polysaccharide capsule bright red.
  • Fontana-Masson: detects melanin and related pigments in fungi in dematiaceous fungi and Crypto. neoformans/gattii.

Invasive fungi

  • Invasive Aspergillosis: septate hyphal filaments (5-10µm thick) with dichotomous branching at 45º. May see fruiting bodies in lung cavities. Pulmonary lesions appear as nectrotizing pneumonia with sharply delineated gray foci and hemorrhagic borders (called target lesions).
  • Differentiating IA from other molds: Aspergillus hyphae cannot be distinguished from Pseudallescheria boydii and Fusarium spp. by histology alone; not reliably distinguished from Zygomycetes, either. Fruiting bodies may be more helpful, if seen. Culture is needed.
  • In tissue samples it can be very difficult to tell them apart Rapid (<3 hours) ribosomal RNA in situ hybridization (ISH) protocol using dual fluorogenic-labeled oligonucleotide probes was developed. These probes are composed of a mixture of DNA and locked nucleic acids
    • Aspergillosis: Stains positive with Masson-Fontana
    • Hyaline Moulds: i.e. Penicillium, Fusarium, Scopulariopsis, Pseudallescheria, Scedosporium, Acremonium, Paecilomyces, and Trichoderma species.
      • When differentiating between this and Aspergillus, other than Scedosporium, Aspergillus will stain positive with Masson-Fontana
    • Candida: on gram stain, yeast cells and pseudohyphae will appear gram-positive on clinical specimens
    • Zygomycetes: Mucor velutinosus does not stain with GMS
    • Actinomyces: stains gram-positive with the Brown-Brenn Stain
    • Nocardia: stains gram-positive with the Brown-Brenn Stain
    • PJP, H.capsulatum: stains with GMS vs Leishmania which does not stain with GMS
    • Cryptococcus: Stains burgundy red with Mayer’s mucicarmine stain
    • Blastomyces dermatitidis: can faintly stain with Mayer’s mucicarmine

Direct microscopy of fungi

  • KOH-Calcofluor: used for the direct examination of fungi. KOH clears tissue cells and helps the calcofluor, which binds the chitin and cellulose in fungal cell walls. Under UV light, the fungi will fluoresce.
    • No patient preparation required prior to collection of the sample
    • Step 1: Collect the sample i.e. skin, nails, hair
    • Step 2: The sample is then placed directly onto a microscope slide
    • Step 3: You then cover the sample with 10% or 20% KOH
    • Step 4: Wait until the sample is completely dissolved (5-15 minutes)
    • Step 5: Addition of Lactophenol cotton blue stain to better visualize the fungus
    • Step 6: Add calcofluor-white stain to the slide to cause the fungi to become fluorescent
    • Step 7: Identify the fungus via microscope
  • India ink: used to identify capsules. The ink floods the slide except where the capsule is present, creating a halo around encapsulated organisms such as Cryptococcus.
    • False positives with WBCs (halo diminishes with time) or contamination of the India ink itself.
  • Gram stain can still demonstrate yeasts.

Textbook References

  1. Larone Medically Important Fungi 5th edition
  2. St. Germain & Summerbell’s Identifying Fungi
  3. Anaissie Clinical Mycology 2nd edition
  4. ASM Bench Manual for Mycology
  5. ESCMID and ECMM Clinical Guidelines Series, in Clin Microbiol Infect 2014;20(Suppl. 3)
  6. Lancet Infectious Diseases Series on Fungal Infections, in issues 2017;17(11) and 2017;17(12)
  7. IDSA Guidelines