Disk Diffusion Testing Using Candida sp. Colonies Taken Directly from CHROMagar Candida Medium May Decrease Time Required To Obtain Results

doi:10.1128/JCM.43.7.3497-3499.2005

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Journal of Clinical Microbiology, July 2005, p. 3497-3499, Vol. 43, No. 7
0095-1137/05/$08.00+0 doi:10.1128/JCM.43.7.3497-3499.2005
Copyright © 2005, American Society for Microbiology. All Rights Reserved.

Disk Diffusion Testing Using Candida sp. Colonies Taken Directly from CHROMagar Candida Medium May Decrease Time Required To Obtain Results

Michael Klevay,¹ Alex Ebinger,² Daniel Diekema,¹^,2^,4^* Shawn Messer,² Richard Hollis,² and Michael Pfaller²^,3

Departments of Internal Medicine,¹ Pathology,University of Iowa Carver College of Medicine,² Department of Epidemiology, University of Iowa College of Public Health,³ Iowa City Veterans Affairs Medical Center, Iowa City, Iowa⁴

Received 11 November 2004/ Returned for modification 25 December 2004/ Accepted 14 March 2005

ABSTRACT

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We compared results of disk diffusion antifungal susceptibilitytesting from Candida sp. strains passaged on CHROMagar and onpotato dextrose agar. The overall categorical agreements forfluconazole and voriconazole disk testing were 95% and 98% with0% and 0.5% very major errors, respectively. Disk diffusiontesting by the CLSI (formerly NCCLS) M44-A method can be performedaccurately by taking inocula directly from CHROMagar.

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CHROMagar Candida (Hardy Diagnostics, Santa Maria, CA) is a differentialculture medium effective for primary isolation and identificationof common Candida species from clinical samples (5). Laboratoriesusing CHROMagar for rapid identification of selected Candidaspp. must still passage the organisms on nondifferential mediasuch as potato dextrose agar (PDA) prior to performing diskdiffusion antifungal susceptibility testing (2). Performingdisk diffusion antifungal susceptibility testing on coloniesdirectly from CHROMagar could significantly decrease the timerequired to obtain results.

The organisms tested represented unique patient isolates ofCandida spp. acquired from several surveillance programs, includingSENTRY (3) and ARTEMIS (4). In total, the isolates were collectedfrom 11 centers in the United States; seven in Europe; six inLatin America; and 15 centers in Africa, Canada, Asia, and Australia.One hundred ninety-two isolates of Candida were used, over 50%of which were from the bloodstream, the others being from respiratory,gastrointestinal, cerebrospinal fluid, abscess, and joint cultures.These included isolates of C. albicans (n = 59), C. glabrata(n = 57), C. parapsilosis (n = 43), and C. tropicalis (n = 33).These four species represent approximately 95% of Candida strainsrecovered in most clinical laboratories (3).

All fungal isolates were identified at the participating institutionby the routine methodology in use at each laboratory. Upon receiptat the University of Iowa, species identification was performedwith Vitek and API products (bioMerieux, St. Louis, Mo.), asrecommended by the manufacturer, or by conventional methods,as required (1). Isolates were stored as suspensions in waterat ambient temperature until used in the study.

The isolates were subcultured onto PDA (Remel, Lenexa, KS) andincubated for 24 h at 30°C. Isolates were then subculturedin parallel onto PDA and CHROMagar and incubated for 24 h at35°C. Disk diffusion testing of fluconazole and voriconazoleon the identical parallel isolates was performed as describedin CLSI (formerly NCCLS) document M44-A (2). Mueller-Hintonagar plates supplemented with 2% glucose and methylene bluewere used. The agar surface was inoculated by using a swab dippedin a cell suspension adjusted to the turbidity of a 0.5 McFarlandstandard. The plates were incubated in air at 35°C and readat 24 h. Zone diameter endpoints were read manually with calipersat 80% growth inhibition. The interpretive criteria for fluconazoledisk diffusion testing were those published by the CLSI andwere as follows: susceptible, zone diameter of $≥$ 19 mm; susceptibledose dependent, zone diameter of 15 to 18 mm; resistant, zonediameter of $≤$ 14 mm. Provisional interpretive criteria were usedfor voriconazole, with a zone of inhibition of $≤$ 13 mm considered resistantand of $≥$ 14 mm considered susceptible.

Quality control was performed using C. parapsilosis ATCC 22019and C. krusei ATCC 6258 for each batch tested.

The zone diameters (in millimeters) for fluconazole and voriconazoledisks at 24 h, after inoculation from CHROMagar, were plottedagainst their respective zones of inhibition after inoculationfrom PDA. The method of least squares was used to calculatea regression line for each comparison. Major errors were classifiedas resistant by disk diffusion of inocula taken from CHROMagarand susceptible when cultured from PDA. Very major errors wereclassified as susceptible by disk diffusion of Candida spp.taken from CHROMagar and resistant when cultured from PDA. Minorerrors occurred when the result of one isolate was susceptibleor resistant and that of the parallel isolate was susceptibledose dependent.

There was a strong correlation between disk test results forall Candida isolates taken from CHROMagar and results for isolatestaken from PDA for both fluconazole and voriconazole (R² of>0.8, P < 0.001; Fig. 1 and 2). In addition, overall andspecies-specific categorical agreements between disk test resultsafter inoculation from CHROMagar and results after inoculationfrom PDA for all Candida strains were excellent (90 to 100%;Table 1).

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FIG. 1. Zones of inhibition (mm) around voriconazole disks for Candida spp. inoculated from CHROMagar compared to those inoculated from PDA. The numbers plotted in the graph represent the number of Candida isolates at each pair of inhibition zones.

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FIG. 2. Zones of inhibition (mm) around fluconazole disks for Candida spp. inoculated from CHROMagar compared to those inoculated from PDA. The numbers plotted in the graph represent the number of Candida isolates at each pair of inhibition zones.

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TABLE 1. Categorical interpretive agreement for disk diffusion from PDA and that from CHROMagar

Given current patterns of resistance among Candida species (3),clinicians are usually most interested in quickly knowing thespecies and the fluconazole susceptibility of sterile-site Candidaisolates. For laboratories that do not perform broth microdilutionsusceptibility testing of yeast species on site, sending isolatesto a reference laboratory can result in delays in reportingof results that limit the usefulness of the information. Forthese laboratories, disk diffusion susceptibility testing, limitedto just one or two drugs, including fluconazole, is often enoughto guide therapy. We have demonstrated that disk diffusion testingusing the CLSI M44-A method can be performed directly from eitherCHROMagar or PDA, with categorical agreement between the twoof 95% for fluconazole and 98% for voriconazole. This allowsfor more timely determination of antifungal susceptibility testresults in laboratories using CHROMagar for rapid identificationof common Candida species.

FOOTNOTES

* Corresponding author. Mailing address: C 606 General Hospital, University of Iowa Hospital, 200 Hawkins Drive, Iowa City, Iowa 52246. Phone: (319) 356-8615. Fax: (319) 356-4916. E-mail: daniel-diekema{at}uiowa.edu.

REFERENCES

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Hazen, K. C., and S. A. Howell. 2003. Candida, Cryptococcus, and other yeasts of medical importance, p. 1693-1711. In P. R. Murray, E. J. Baron, J. H. Jorgensen, M. A. Pfaller, and R. H. Yolken (ed.),Manual of clinical microbiology , 8th ed. ASM Press, Washington, D.C.

National Committee for Clinical Laboratory Standards. 2004. Method for antifungal disk diffusion susceptibility testing of yeasts: approved guideline M44-A. National Committee for Clinical Laboratory Standards, Wayne, Pa.

Pfaller, M. A., D. J. Diekema, R. N. Jones, et al. 2002. Trends in antifungal susceptibility of Candida spp. isolated from pediatric and adult patients with bloodstream infections: SENTRY Antimicrobial Surveillance Program, 1997-2000. J. Clin. Microbiol. 40:852-856.[Abstract/Free Full Text]

Pfaller, M. A., K. C. Hazen, S. A. Messer, et al. 2004. Comparison of results of fluconazole disk diffusion testing for Candida species with results from a central reference laboratory in the ARTEMIS global antifungal surveillance program. J. Clin. Microbiol. 42:3607-3612.[Abstract/Free Full Text]

Pfaller, M. A., A. Houston, and S. C. Coffmann.1996 . Application of CHROMagar Candida for rapid screening of clinical specimens for Candida albicans, Candida tropicalis, Candida krusei, and Candida (Torulopsis) glabrata.J. Clin. Microbiol. 34:58-61.[Abstract]

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