TY - JOUR
T1 - Results from the ARTEMIS DISK global antifungal surveillance study
T2 - A 6.5-year analysis of susceptibilities of candida and other yeast species to fluconazole and voriconazole by standardized disk diffusion testing
AU - Global Antifungal Surveillance Group
AU - Pfaller, M. A.
AU - Diekema, D. J.
AU - Rinaldi, M. G.
AU - Barnes, R.
AU - Hu, B.
AU - Veselov, A. V.
AU - Tiraboschi, N.
AU - Nagy, E.
AU - Gibbs, D. L.
AU - Finquelievich, Jorge
AU - Ellis, David
AU - Frameree, Dominique
AU - Van Den Abeele, Annemarie
AU - Senterre, Jean Marc
AU - Colombo, Arnaldo
AU - Rennie, Robert
AU - Sanche, Steve
AU - Hu, Bijie
AU - Xu, Yingchun
AU - Zhang, Yingyuan
AU - Zhong, Nan Shan
AU - Rivas, Pilar
AU - Restrepo, Angela
AU - Bedout, Catalina
AU - Mendez, Ricardo Vega Matilde
AU - Mallatova, Nada
AU - Chmelarova, Eva
AU - Ayabaca, Julio
AU - Zurita, Jeannete
AU - Mallie, M.
AU - Candolfi, E.
AU - Fegeler, W.
AU - Haase, A.
AU - Rodloff, G.
AU - Bar, W.
AU - Czaika, V.
AU - Petrikos, George
AU - Puskás, Erzsébet
AU - Doczi, Ilona
AU - Gyula, Mestyan
AU - Nikolova, Radka
AU - Banerjee, Uma
AU - Keller, Nathan
AU - Tullio, Vivian
AU - Schito, Gian Carlo
AU - Fortina, Giacomo
AU - Testore, Gian Piero
AU - D'Antonio, Domenico
AU - Scalise, Giorgio
AU - Martino, Pietro
N1 - Publisher Copyright:
© 2005, American Society for Microbiology. All Rights Reserved.
PY - 2005/12
Y1 - 2005/12
N2 - Fluconazole in vitro susceptibility test results for 140,767 yeasts were collected from 127 participating investigators in 39 countries from June 1997 through December 2003. Data were collected on 79,343 yeast isolates tested with voriconazole from 2001 through 2003. All investigators tested clinical yeast isolates by the CLSI (formerly NCCLS) M44-A disk diffusion method. Test plates were automatically read and results were recorded with the BIOMIC Vision Image Analysis System. Species, drug, zone diameter, susceptibility category, and quality control results were collected quarterly via e-mail for analysis. Duplicate (the same patient, same species, and same susceptible-resistant biotype profile during any 7-day period) and uncontrolled test results were not analyzed. The 10 most common species of yeasts all showed less resistance to voriconazole than to fluconazole. Candida krusei showed the largest difference, with over 70% resistance to fluconazole and less than 8% to voriconazole. All species of yeasts tested were more susceptible to voriconazole than to fluconazole, assuming proposed interpretive breakpoints of ≥17 mm (susceptible) and ≤13 mm (resistant) for voriconazole. MICs reported in this study were determined from the zone diameter in millimeters from the continuous agar gradient around each disk, which was calibrated with MICs determined from the standard CLSI M27-A2 broth dilution method by balanced-weight regression analysis. The results from this investigation demonstrate the broad spectrum of the azoles for most of the opportunistic yeast pathogens but also highlight several areas where resistance may be progressing and/or where previously rare species may be "emerging".
AB - Fluconazole in vitro susceptibility test results for 140,767 yeasts were collected from 127 participating investigators in 39 countries from June 1997 through December 2003. Data were collected on 79,343 yeast isolates tested with voriconazole from 2001 through 2003. All investigators tested clinical yeast isolates by the CLSI (formerly NCCLS) M44-A disk diffusion method. Test plates were automatically read and results were recorded with the BIOMIC Vision Image Analysis System. Species, drug, zone diameter, susceptibility category, and quality control results were collected quarterly via e-mail for analysis. Duplicate (the same patient, same species, and same susceptible-resistant biotype profile during any 7-day period) and uncontrolled test results were not analyzed. The 10 most common species of yeasts all showed less resistance to voriconazole than to fluconazole. Candida krusei showed the largest difference, with over 70% resistance to fluconazole and less than 8% to voriconazole. All species of yeasts tested were more susceptible to voriconazole than to fluconazole, assuming proposed interpretive breakpoints of ≥17 mm (susceptible) and ≤13 mm (resistant) for voriconazole. MICs reported in this study were determined from the zone diameter in millimeters from the continuous agar gradient around each disk, which was calibrated with MICs determined from the standard CLSI M27-A2 broth dilution method by balanced-weight regression analysis. The results from this investigation demonstrate the broad spectrum of the azoles for most of the opportunistic yeast pathogens but also highlight several areas where resistance may be progressing and/or where previously rare species may be "emerging".
UR - http://www.scopus.com/inward/record.url?scp=30744462355&partnerID=8YFLogxK
U2 - 10.1128/JCM.43.12.5848-5859.2005
DO - 10.1128/JCM.43.12.5848-5859.2005
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C2 - 16333066
AN - SCOPUS:30744462355
SN - 0095-1137
VL - 43
SP - 5848
EP - 5859
JO - Journal of Clinical Microbiology
JF - Journal of Clinical Microbiology
IS - 12
ER -