BACKGROUND: The role of fungi in chronic rhinosinusitis has been described in recent reports. Controversy exists on the use of topical amphotericin B therapy as a treatment modality for this condition. The effect of various concentrations of amphotericin B nasal irrigation on actively growing fungi was studied in vitro. METHODS: Ten species of fungi commonly found in the nasal cavity were grown on growth media plates. Each fungi was exposed to 20 mL of amphotericin B nasal irrigation at concentrations of either 100, 200, or 300 microg/mL or sterile water two times daily for 6 weeks. Each plate was subcultured on a weekly basis to examine for any viable fungi. RESULTS: Fungi growth was not arrested in the 100-microg/mL amphotericin B and sterile water groups at the end of 6 weeks. Use of the 300-and 200-microg/mL amphotericin B solutions showed failure of the subcultured fungi to grow at 5 and 6 weeks, respectively. CONCLUSION: Nasal amphotericin B irrigation is ineffective in killing fungi in vitro at a concentration of 100 microg/mL over a 6-week period. Concentrations of 200 and 300 lig/mL successfully prevented fungi growth at the conclusion of the study. The current concentration of commercially available topical amphotericin B (100 microg/mL) seems ineffective in eradicating fungi in vitro.
BACKGROUND: The role of fungi in chronic rhinosinusitis has been described in recent reports. Controversy exists on the use of topical amphotericin B therapy as a treatment modality for this condition. The effect of various concentrations of amphotericin B nasal irrigation on actively growing fungi was studied in vitro. METHODS: Ten species of fungi commonly found in the nasal cavity were grown on growth media plates. Each fungi was exposed to 20 mL of amphotericin B nasal irrigation at concentrations of either 100, 200, or 300 microg/mL or sterile water two times daily for 6 weeks. Each plate was subcultured on a weekly basis to examine for any viable fungi. RESULTS: Fungi growth was not arrested in the 100-microg/mL amphotericin B and sterile water groups at the end of 6 weeks. Use of the 300-and 200-microg/mL amphotericin B solutions showed failure of the subcultured fungi to grow at 5 and 6 weeks, respectively. CONCLUSION: Nasal amphotericin B irrigation is ineffective in killing fungi in vitro at a concentration of 100 microg/mL over a 6-week period. Concentrations of 200 and 300 lig/mL successfully prevented fungi growth at the conclusion of the study. The current concentration of commercially available topical amphotericin B (100 microg/mL) seems ineffective in eradicating fungi in vitro.
Authors: Andrew H Murr; Andrew N Goldberg; Steven D Pletcher; Kelsey Dillehay; Larry J Wymer; Stephen J Vesper Journal: Laryngoscope Date: 2012-04-24 Impact factor: 3.325
Authors: Peta-Lee Sacks; Richard J Harvey; Janet Rimmer; Richard M Gallagher; Raymond Sacks Journal: Am J Rhinol Allergy Date: 2012 Mar-Apr Impact factor: 2.467