Brad Spellberg1, Ashraf S Ibrahim, John E Edwards, Scott G Filler. 1. Los Angeles Biomedical Research Institute, Division of Infectious Diseases at Harbor-University of California at Los Angeles Medical Center, Torrance 90502, USA. bspellberg@labiomed.org
Abstract
BACKGROUND: Candida species are among the most common etiologies of nosocomial bloodstream infections, causing a mortality of >40%. The murine model of hematogenously disseminated candidiasis is the standard for investigating both the activity of antifungal agents and the pathogenesis of this disease. However, despite decades of use, little is known about the physiological characteristics of the host in this model, and the cause of death remains unclear. METHODS: Using i-STAT technology, we measured blood chemistry and hemodynamic parameters to define host physiological characteristics during murine disseminated candidiasis. RESULTS: Mice with hematogenously disseminated candidiasis died of progressive sepsis, as manifested by worsening hypotension, tachycardia, and hypothermia. The mice developed metabolic acidosis, as well as profound acidemia and hypoglycemia. They also developed renal insufficiency, which became severe only shortly before death. Kidney fungal burden was correlated with severity of renal failure and systemic acidosis. The presence of significant weight loss, hypotension, or hypothermia was predictive of imminent death. CONCLUSIONS: These findings indicate that the murine model of hematogenously disseminated candidiasis accurately recapitulates the progressive sepsis seen during severe clinical cases. The results underscore the validity of the model for study of the pathophysiological aspects of this disease, as well as for the evaluation of antifungal drug efficacy.
BACKGROUND: Candida species are among the most common etiologies of nosocomial bloodstream infections, causing a mortality of >40%. The murine model of hematogenously disseminated candidiasis is the standard for investigating both the activity of antifungal agents and the pathogenesis of this disease. However, despite decades of use, little is known about the physiological characteristics of the host in this model, and the cause of death remains unclear. METHODS: Using i-STAT technology, we measured blood chemistry and hemodynamic parameters to define host physiological characteristics during murine disseminated candidiasis. RESULTS:Mice with hematogenously disseminated candidiasis died of progressive sepsis, as manifested by worsening hypotension, tachycardia, and hypothermia. The mice developed metabolic acidosis, as well as profound acidemia and hypoglycemia. They also developed renal insufficiency, which became severe only shortly before death. Kidney fungal burden was correlated with severity of renal failure and systemic acidosis. The presence of significant weight loss, hypotension, or hypothermia was predictive of imminent death. CONCLUSIONS: These findings indicate that the murine model of hematogenously disseminated candidiasis accurately recapitulates the progressive sepsis seen during severe clinical cases. The results underscore the validity of the model for study of the pathophysiological aspects of this disease, as well as for the evaluation of antifungal drug efficacy.
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