Blood Culture–Positive Yeasts: Introduction, Common molds, Comparison, and Keynotes

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Introduction

Unlike molds, yeasts are the most commonly recovered fungi in blood cultures. Candidemia is among the leading causes of bloodstream infections in immunocompromised and critically ill patients. Yeasts such as Candida, Cryptococcus, and Trichosporon are responsible for significant morbidity and mortality. Blood culture positivity with yeasts is almost always clinically substantial and requires prompt antifungal therapy along with source control (e.g., removal of central venous catheters). Automated systems such as BACTEC and BacT/ALERT detect yeast growth within 24–72 hours, but species-level identification and susceptibility testing are crucial for guiding therapy.

Blood Culture–Positive Yeasts
Fig. Blood Culture–Positive Yeasts
Growth of yeasts on MacConkey agar after subculturing from postive blood culture ( remembering as bacterial growth)
Fig. Growth of yeasts on MacConkey agar after subculturing from a positive blood culture (remembered as bacterial growth)
Growth of yeasts on MacConkey agar after subculturing from a positive blood culture (remembered as bacterial growth)
Fig. Growth of yeasts on MacConkey agar after subculturing from a positive blood culture (remembered as bacterial growth)
Oval budding yeast cell in wet mount of culture at a magnification of 1600X
Fig. Oval budding yeast cell in wet mount of culture at a magnification of 1600X
Oval budding yeast cells, some elongated (pseudohyphae-like) in wet mount of culture micrioscopy at a magnification of 1600X
Fig. Oval budding yeast cells, some elongated (pseudohyphae-like) in wet mount of culture microscopy at a magnification of 1600X
Yeast cells, some elongated (pseudohyphae-like) in wet mount of culture at a magnification of 1600X
Fig. Yeast cells, some elongated (pseudohyphae-like) in a wet mount of culture at a magnification of 1600X
Yeast cells and budding yeasts in wet mount of culture at a magnification of 1600X
Fig. Yeast cells and budding yeasts in a wet mount of culture at a magnification of 1600X
Yeast cells, some elongated (pseudohyphae-like) in wet mount of culture at a magnification of 1600X
Fig. Yeast cells, some elongated (pseudohyphae-like) in a wet mount of culture at a magnification of 1600X
Yeasts in wet mount of culture at a magnification of 1600X
Fig. Yeasts in a wet mount of culture at a magnification of 1600X

Common Yeasts Recovered in Blood Cultures

  1. Candida spp.
  2. Cryptococcus neoformans / C. gattii
    • Occasionally isolated from blood in disseminated cryptococcosis, especially in HIV/AIDS and transplant patients.
    • Capsule visualization by India ink or antigen testing (CrAg) aids diagnosis.
  3. Trichosporon spp.
    • Rare, but may cause fungemia in neutropenic and hematology patients.
    • Often resistant to amphotericin B.
  4. Rhodotorula spp.
    • Emerging opportunist, characterized by pink/red colonies.
    • Associated with catheter-related fungemia; usually resistant to azoles and echinocandins.
  5. Malassezia spp.
    • Rare, lipid-dependent yeasts.
    • Cause fungemia in neonates and patients receiving lipid-rich parenteral nutrition.

Comparison of Blood Culture–Positive Yeasts

YeastMicroscopy / Colony MorphologyBlood Culture YieldClinical SignificanceResistance Notes
Candida albicans & non-albicans CandidaCreamy, smooth colonies; budding yeast ± pseudohyphaeCommonest yeast in blood culturesCandidemia, device-related, disseminated infectionC. glabrata (azole resistant), C. krusei (intrinsic fluconazole resistance), C. auris (MDR)
Cryptococcus neoformans / gattiiEncapsulated budding yeast, India ink haloRequires lipid for culture; azole therapy is often effectiveDisseminated cryptococcosis (HIV, transplant)Susceptible to amphotericin B + flucytosine; variable azole susceptibility
Trichosporon spp.Yeast with arthroconidiaUncommonFungemia in hematology patientsAmphotericin B resistant; azole susceptible
Rhodotorula spp.Pigmented (pink/red) yeast coloniesUncommonCatheter-related fungemiaResistant to azoles, echinocandins
Malassezia spp.Lipid-dependent yeast; requires lipid supplementationVery rareFungemia in neonates, TPN patientsRequires lipid for culture; azole therapy often effective

Keynotes on Blood Culture–Positive Yeasts

Gram-positive budding yeast-like cells, oval to elongated in Gram staining of culture (Mag.4000X)
Fig. Gram-positive budding yeast-like cells, oval to elongated in Gram staining of culture (Mag. 4000X)
Gram-positive budding yeast-like cells, oval to elongated in Gram staining of culture microscopy at a magnification of 1000X
Fig. Gram-positive budding yeast-like cells, oval to elongated in Gram staining of culture microscopy at a magnification of 4000X
Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture microscopy at a magnification of 1000X
Fig. Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture microscopy at a magnification of 1000X
Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture microscopy at a magnification of 4000X
Fig. Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture microscopy at a magnification of 4000X
  1. Candida is by far the most common yeast isolated from blood cultures, with increasing prevalence of non-albicans Candida.
  2. Cryptococcus in blood culture usually signifies disseminated disease and requires antigen testing for confirmation.
  3. Trichosporon and Rhodotorula are rare but emerging opportunists, often in immunocompromised patients.
  4. Malassezia fungemia is associated with lipid nutrition and catheters in neonates.
  5. A positive yeast blood culture is always clinically significant and must be addressed with prompt therapy, source control, and susceptibility testing.
  6. Identification requires culture, biochemical tests, MALDI-TOF, and molecular sequencing, with antifungal susceptibility testing for guiding therapy.
Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture microscopy
Fig. Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture microscopy
Yeasts of Candida in Gram staining of culture (Mag. 1000X)
Fig. Yeasts of Candida in Gram staining of culture (Mag. 1000X)
Yeasts of Candida in Gram staining of culture microscopy (Mag. 4000X)
Fig. Yeasts of Candida in Gram staining of culture microscopy (Mag. 4000X)
Yeasts of Candida in Gram staining of culture microscopy
Fig. Yeasts of Candida in Gram staining of culture microscopy
Candida species in Gram staining
Fig. Candida species in Gram staining
Gram-positive budding yeast-like cells, oval to elongated in Gram staining of culture microscopy (Mag.4000X)
Fig. Gram-positive budding yeast-like cells, oval to elongated in Gram staining of culture microscopy (Mag. 4000X)
Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture (Mag.1000X)
Fig. Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture (Mag. 1000X)
Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture microscopy (Mag.1000X)
Fig. Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture microscopy (Mag. 1000X)
Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture
Fig. Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture
Gram-positive yeast cells, budding yeasts and hyphaes in Gram staining of culture microscopy at a magnification of 4000X
Fig. Gram-positive yeast cells, budding yeasts, and hyphae in Gram staining of culture microscopy at a magnification of 4000X
Gram-positive budding yeasts in Gram staining of culture microscopy at a magnification of 4000X
Fig. Gram-positive budding yeasts in Gram staining of culture microscopy at a magnification of 4000X
Yeasts in Gam staining
Fig. Yeasts in Gam staining
Yeasts in Gram staining of culture (Mag.4000X)
Fig. Yeasts in Gram staining of culture (Mag. 4000X)
Gram positive yeasts of Candida in Gram staining of culture microscopy
Fig. Gram-positive yeasts of Candida in Gram staining of culture microscopy
Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture (Mag.2000X)
Fig. Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture (Mag. 2000X)
Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture (Mag.4000X)
Fig. Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture (Mag. 4000X)
Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture microscopy (Mag.2000X)
Fig. Gram-positive budding yeast-like cells, oval to elongated, arranged singly, in pairs, and in short pseudohyphae-like forms in Gram staining of culture microscopy (Mag. 2000X)
Gram-positive budding yeast-like cells, oval to elongateds in Gram staining of culture (Mag.4000X)
Fig. Gram-positive budding yeast-like cells, oval to elongated in Gram staining of culture (Mag. 4000X)
Yeasts in Gram staining of culture microscopy at a magnification of 4000X
Fig. Yeasts in Gram staining of culture microscopy at a magnification of 4000X
Yeasts of Candida species in Gram staining
Fig. Yeasts of Candida species in Gram stain
Yeasts of Candida in Gram staining of culture
Fig. Yeasts of Candida in Gram staining of culture
Yeasts of Candida in Gram staining
Fig. Yeasts of Candida in Gram staining
Candida in Gram staining
Fig. Candida in Gram staining

Further Readings

  • https://pmc.ncbi.nlm.nih.gov/articles/PMC88373/
  • https://www.sciencedirect.com/topics/medicine-and-dentistry/fungemia
  • https://www.cdc.gov/candidiasis/data-research/facts-stats/index.html
  • https://pmc.ncbi.nlm.nih.gov/articles/PMC7122029/
  • https://www.umw.edu.pl/sites/default/files/mikrobiologia/files/Mycology.pdf
  • https://link.springer.com/article/10.1007/s10096-003-1020-5
  • https://www.sciencedirect.com/science/article/pii/S1198743X14633267
  • https://my.clevelandclinic.org/health/diseases/22308-invasive-candidiasis
  • https://bmcinfectdis.biomedcentral.com/articles/10.1186/s12879-020-05291-1
  • https://byjus.com/biology/difference-between-molds-and-yeasts/
  • https://microbenotes.com/differences-between-yeasts-and-molds/
  • https://www.sciencedirect.com/science/article/abs/pii/S0732889311005232
  • https://www.weizmann.ca/fungus-vs-fungus-newly-identified-yeast-might-prevent-life-threatening-fungal-infections/
  • https://www.sciencedirect.com/science/article/pii/S0196064486805728/pdf

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