Antifungal Susceptibility Testing Of Yeasts Research Articles

Standardisation of high throughput microdilution antifungal susceptibility testing for Candida albicans and Cryptococcus neoformans.

The Clinical and Laboratory Standards Institute (CLSI) M27 guidelines are the recommended and most commonly used protocols for broth microdilution antifungal susceptibility testing of yeasts. However, these guidelines are limited to the use of 96-well assay plates, limiting assay capacity. With the increased risk of fungal resistance emerging in the community, it is important to have alternative protocols available, that offer higher throughput and can screen more than eight to ten potential antifungal compounds per plate. This study presents an optimised broth microdilution minimum inhibitory concentration (MIC) method for testing the susceptibility of yeasts in an efficient high throughput screening setup, with minimal growth variability and maximum reproducibility. We extend the M27 guidelines and optimise the conditions for 384-well plates. Validation of the assay was performed with ten clinically used antifungals (fluconazole, amphotericin B, 5-fluorocytosine, posaconazole, voriconazole, ketoconazole, itraconazole, caspofungin diacetate, anidulafungin and micafungin) against Candida albicans and Cryptococcus neoformans.

Evaluation of a customised Sensititre YeastOne plate containing isavuconazole for antifungal susceptibility testing in Singapore

This study evaluated the performance of a customised Sensititre YeastOne (SYO) plate including isavuconazole (YIT) against existing practice (comprising SYO YO10 plate and isavuconazole gradient strip) in order to streamline the workflow for antifungal susceptibility testing in a tertiary hospital in Singapore.A total of 101 (51 yeast and 50 mould) clinical isolates were included for analysis. Isolates included in the study were recovered from a variety of body sites and reflected the case mix encountered in daily practice. Antifungal susceptibility testing was performed using three methods: YO10, YIT and gradient diffusion strip (for isavuconazole only). Reproducibility, essential agreement and categorical agreement were calculated.When YO10 and YIT plates were compared, the reproducibility was 100% for 8 common antifungals. The categorical agreement (CA) was >97% for all antifungals except for amphotericin B (89.4%), but this was attributed to seven isolates with MICs bordering the wild-type (WT) cut-off. The essential agreement (EA) obtained when testing isavuconazole using YIT versus gradient diffusion was 77.2% overall, 90.2% for yeasts and 64% for moulds.In conclusion, the YIT plate is suitable for antifungal susceptibility testing of yeasts in our laboratory. Its use for mould isolates needs to be monitored further.

Determination of amphotericin B antifungal susceptibility in Candida strains using an inverted microscope.

Invasive Candida infections have recently shown a significant increase in prevalence and are associated with high mortality rates. Initiating early antifungal treatment in patients with candidemia is vital. The aim of our study was to compare the antifungal susceptibility results of a new method called Flat Plate Method modified from reference "Clinical and Laboratory Standards Institute (CLSI) microdilution method by us with Sensitititre Yeast One colorimetric method and the reference CLSI method. We tested 100 Candida isolates from blood cultures. We followed the CLSI M27-A3 (reference method for broth dilution antifungal susceptibility testing of yeasts; third edition) guidelines for testing in vitro susceptibility to amphotericin B. In the Flat Plate method, 96-well plates were used for evaluation with an inverted microscope. Minimum inhibitory concentration (MIC) values in the SYO method were measured following the manufacturer's instructions. The MIC values obtained by all three methods were considered compatible if they were within ± 2 dilution limits. The SYO method detected C. albicans and C. glabrata with 100% essential agreement, whereas there was 96.29% essential agreement in the case of C. parapsilosis. In the Flat Plate method, the essential agreement with amphotericin B was 91.42%, for C. albicans isolates and 89.47%.for C. glabrata strains. When determining early antifungal susceptibility using the Flat Plate method, the results are obtained quickly, with high accuracy, and without incurring additional costs. However, there is a need for comprehensive studies comparing different antifungals.

MALDI-TOF mass spectrometry identification and antifungal susceptibility testing of yeasts causing vulvovaginal candidiasis (VVC) in Tebessa (Northeastern Algeria).

Vulvovaginal candidiasis (VVC) alongside with antifungal resistance are becoming a major clinical problem in recent years. A prospective study aimed to evaluate the diversity of yeast strains associated with VVC in Tebessa city (northeastern Algeria) and investigate their susceptibility patterns. Over two months, yeasts were isolated on chromogenic medium from twenty-nine non-pregnant women with symptomatic VVC. The isolates were characterized with MALDI-TOF MS and antifungal susceptibility testing was performed for nine antifungal drugs using SensititreTM YeastOneTM YO10. Twenty-nine non-duplicate yeasts were recovered and the mass spectrometry profiles showed reliable scores of which four genera and five different species were identified. Candida albicans accounted for 65.5 % (n = 19) of the total number of isolates, followed by C. glabrata with 20.7% (n = 6). For the remaining non-albicans Candida (NCA) species, Kluyveromyces marxianus with 6.9% (n = 2), Pichia kudriavzevii and Saccharomyces cerevisiae with one isolate each. The antifungal susceptibilities showed wild type MICs of C. albicans to amphotericin B, azoles and echinocandins. In addition, four C. albicans isolates were resistant to flucytosine. For C. glabrata isolates, 100% non-WT phenotype was found for both posaconazole and itraconazole. For the very first time, the obtained outcomes bring out new data concerning the epidemiology of yeasts causing VVC in Algeria and their antimicrobial susceptibility profiles.

Antifungal Susceptibility Testing and Drug Discovery in the Dimorphic Fungus Histoplasma Capsulatum.

The thermal dimorphism of the fungal pathogen Histoplasma is linked to its virulence in mammalian hosts. Mammalian body temperature triggers differentiation of the fungus into virulent yeasts which successfully infect host phagocytes. Accurate determination of antifungal susceptibility with relevance to infection requires that the tests be performed specifically using the yeast form, not the filamentous environmental form. However, traditional CLSI methodology for antifungal susceptibility testing of yeasts with Histoplasma is in adequate. We present optimized methodology for performing antifungal susceptibility assays on Histoplasma yeasts with an emphasis on quantitative yeast growth determination. Colorimetric and fluorometric assays for Histoplasma growth overcome challenges associated with quantifying some Histoplasma strains which grow as aggregates of yeasts. We also describe antifungal susceptibility testing of Histoplasma yeasts within macrophages to provide improved accuracy and better physiological relevance of antifungal susceptibility profiles.

Etiology of oral candidiasis in patients with oropharyngeal cancer.

e18068 Background: The purpose of this study was to assess the etiology of oral candidiasis in patients with oropharyngeal cancer as potential causative agents of invasive candidiasis and to analyze in vitro activity of isolates of Candida fungi to caspofungin, fluconazole and voriconazole. Methods: Isolates were obtained in a prospective study from the oral mucosa of patients with oropharyngeal cancer in 2020-2021. Identification of Candida fungi was performed using MALDI-TOF MS. Result of activity of isolates to caspofungin, fluconazole and voriconazole after 24 hours of incubation were registered according to CLSI M60-ED2:2020 (Performance Standards for Antifungal Susceptibility Testing of Yeasts). Results: 45 patients aged 30-85 years were examined. 92 isolates of Candida fungi were obtained: C. albicans 31.5% (29) and Candida non albicans 68.5% (63). Candida non albicans included: C.parapsilosis 30.2% (19), C.glabrata 28.6% (18), C.krusei 19.0% (12), C.tropicalis 15.9% (10), C.guilliermondii 6.3% (4). Candida carriage on the oral mucosa was noted in 62.2% of patients in the first days of hospitalization, with a predominance of C. albicans 42.8% compared with 32.1% after chemotherapy (p = 0.003) and 25.0% after antibiotic therapy. The distribution of species varied depending on the age of patients. The table presents comparative activity of caspofungin, fluconazole and voriconazole (susceptible (S), moderately resistant (I), resistant (R)) in % to Candida spp. High sensitivity to caspofungin was noted for both C.аlbicans and Candida non albicans. Voriconazole was characterized by lower sensitivity and natural resistance in C.glabrata which makes it less suitable for empirical therapy, as well as fluconazole. Conclusions: Candida non albicans (68.5%) were predominant in the oral candidiasis etiology in patients with oropharyngeal cancer, which was probably due to the use of azole antimycotics for prevention and empirical therapy. Reduced activity to voriconazole and fluconazole was observed in the dominant isolates, given the natural resistance of C. krusei to fluconazole and C. glabrata to voriconazole. Acquired azole resistance was noted for C. parapsilosis and C. albicans. The pathogen type should be determined in all cases of invasive candidiasis to exclude natural resistance and sensitivity to azoles before starting therapy.[Table: see text]

Commercial Methods for Antifungal Susceptibility Testing of Yeasts: Strengths and Limitations as Predictors of Resistance.

Susceptibility testing can yield variable results because it is method (commercial or reference), agent, and species dependent. Therefore, in order for results to be clinically relevant, MICs (minimal inhibitory concentrations) or MECs (minimal effective concentrations) should help in selecting the best treatment agent in the clinical setting. This is accomplished by categorical endpoints, ideally, breakpoints (BPs) and/or ECVs/ECOFFs (epidemiological cutoff values). BPs and ECVs are available by the reference methods (CLSI [Clinical and Laboratory Standards Institute] and EUCAST [European Committee on Antifungal Susceptibility Testing]) for a variety of species/agent combinations. The lack of clinical data precludes establishment of BPs for susceptibility testing by the commercial methods and ECVs have only been calculated for the Etest and SYO assays. The goal of this review is to summarize the variety of commercial methods for antifungal susceptibility testing and the potential value of Etest and SYO ECVs for detecting mutants/non-wild type (NWT) Candida isolates. Therefore, the literature search focused on publications where the commercial method, meaning MICs and ECVs, were reported for specific NWT isolates; genetic mutations have also been listed. For the Etest, the best performers recognizing the NWT were anidulafungin ECVs: 92% for the common species; 97% for C. glabrata and fluconazole ECVs, mostly for C. parapsilosis (45 NWT isolates). By the SYO, posaconazole ECVs recognized 93% of the C. albicans and 96% of the C. parapsilosis NWT isolates and micafungin ECVs 94% (mostly C. albicans and C. glabrata). Smaller sets, some with clinical data, were also listed. These are promising results for the use of both commercial methods to identify antifungal resistance (NWT isolates). However, ECVs for other species and methods need to be defined, including the C. neoformans complex and emerging species.

Rapid Antifungal Susceptibility Testing of Yeasts and Molds by MALDI-TOF MS: A Systematic Review and Meta-Analysis.

Due to the growing burden of fungal infections and a recent rise in antifungal resistance, antifungal susceptibility testing (AFST) is of increasing importance. The common methods of AFST have turnaround times of 24 to 48 h, and the available rapid methods are limited by applicability, cost-efficiency or accuracy. Given the urgency of adequate antifungal treatment in invasive mycoses, the need for the rapid and reliable detection of resistance is evident. In this systematic review and meta-analysis, we evaluated the diagnostic accuracy of AFST based on matrix-assisted laser desorption ionization time of flight mass spectrometry (MALDI-TOF MS). Twelve studies were reviewed, and data for the comparative analysis of their accuracy and methodology were systematically extracted. Compared to broth dilution as the gold standard, MALDI-TOF MS-based AFST reached a pooled sensitivity and specificity of 91% (95% Confidence Interval [CI], 84% to 96%) and 95% (95% CI, 90% to 98%), respectively. A comparative analysis showed that the sensitivity was higher for the semi-quantitative matrix-assisted laser desorption ionization Biotyper antibiotic susceptibility test rapid assay (MBT ASTRA) technique (96%) than for the correlate composite index (CCI) approach (85%), which is based on spectrum changes. Turnaround times below eight hours reached better diagnostic values than longer incubation periods, qualifying MALDI-TOF MS-based AFST as a rapid and accurate method for the detection of antifungal resistance.

In vitro Antifungal Effects of Berberine Against Candida spp. In Planktonic and Biofilm Conditions.

PurposeAntifungal resistance associated with the extensive use of antifungals and biofilm formation presents major clinical challenges. Thus, new therapeutic strategies for fungal infections are urgently required. This study aimed to evaluate the in vitro antifungal effects of the natural bioactive alkaloid berberine against Candida spp. in planktonic and biofilm conditions.MethodsUsing the CLSI M27-A3 reference method for broth dilution antifungal susceptibility testing of yeasts, the MICs for five standard strains comprised of Candida albicans (ATCC 10231, ATCC 90028), Candida krusei (ATCC 6258), Candida glabrata (ATCC 90030), Candida dubliniensis (MYA 646), and six clinical isolates (CLC1–CLC6) were tested. The 2,3-bis-(2-methoxy-4-nitro-5-sulfophenyl)-2H-tetrazolium-5-carboxanilide (XTT) reduction assay was used to evaluate the inhibitory effects of berberine against Candida biofilms. The optical density value at 490 nm was measured and illustrated using concentration-absorbance curves. Finally, the effects were quantified by confocal laser scanning microscopy (CLSM), and 3-dimensional reconstruction was performed. The viability inhibition rates, biofilm formation, and thickness decrease rates were tested and analyzed using independent-samples t-test. The differences among the five Candida strains were analyzed using one way ANOVA.ResultsThe MICs for the five standard strains described above were 80, 160, 10, 20, and 40 μg/mL, respectively, which was similar to that of the clinical isolates, suggesting the stable, broad-spectrum antifungal activity of berberine. Berberine exerted concentration-dependent inhibitory effects against Candida biofilms, which were enhanced with the maturation of Candida biofilms. Berberine decreased the viability of Candida biofilms, with inhibition rates by CLSM ranging from 19.89 ± 0.57% to 96.93 ± 1.37%. Following 3-dimensional reconstruction, the biofilms of the berberine-treated group displayed a poorly developed architecture, and the biofilm thickness decrease rates ranged from 15.49 ± 8.45% to 30.30 ± 15.48%.ConclusionBerberine exhibited significant antifungal activity in Candida spp. The results provide a useful reference for multiple Candida infections and biofilm infections associated with antifungal resistance. Therefore, berberine might have novel therapeutic potential as an antifungal agent or a major active component of antifungal drugs.

A Rapid Procedure for Identification and Antifungal Susceptibility Testing of Yeasts From Positive Blood Cultures

The development of rapid diagnostic assays for the identification and analysis of antimicrobial resistance of fungal pathogens causing invasive mycoses is of utmost importance to reduce morbidity and mortality. We evaluated the performance of a novel rapid procedure directly applied to monomicrobial blood cultures from patients with bloodstream infection caused by yeast species, including nine Candida and three non-Candida species. For the rapid procedure herein developed, samples of positive blood cultures were transferred into serum separator tubes and treated with sodium dodecyl sulfate; the yeast layer was recovered and directly used for microbial identification by MALDI-TOF mass spectrometry and antifungal susceptibility testing (AFST) by the Sensititre YeastOne Y010 panel. The results were compared with those obtained by the same methods applied to colonies isolated on solid media. Using a score value of 1.700 as cut-off for valid identification, the rapid procedure identified 66 of 124 (53.2%) isolates, all of which concordantly with the reference method. However, adopting a cut-off ≥1.300 and ≥4 consecutive repetitions of the same species in the list of matches would extend concordant identification to 107/124 (86.3%) samples. Importantly, AFST revealed essential agreement between the two methods for all the isolate/antifungal drug combinations tested, including misidentified and not identified isolates. Therefore, the procedure herein developed represents a valid alternative for AFST of yeasts from positive blood cultures, yielding accurate and reliable results at least 24 h earlier than with the routine procedure, thus allowing clinicians to promptly streamline antifungal therapy.

Antifungal Susceptibility Testing of Candida and Cryptococcus Species and Mechanisms of Resistance: Implications for Clinical Laboratories

Resistance to antifungal drugs amongst Candida species is a growing concern, and azole resistance may be emerging in Cryptococcus species. This review provides a contemporary perspective, relevant to the clinical mycology laboratory, of antifungal susceptibility testing of these fungi, focussing on the challenges of phenotypic and genotypic methodologies to detect drug resistance. Standardised CLSI and EUCAST broth microdilution (BMD) susceptibility testing methods are the benchmark to determine clinical breakpoints (CBPs) and/or epidemiological cut-off values (ECVs) MICs for Candida and Cryptococcus spp. Commercial methods may be used but caution is required when employing BMD CBPs/ECVs to interpret results. Species-specific CBPs/ECVs for Candida spp. generally correlate well with predicting likelihood of therapeutic failure or of presence of a drug resistance mechanism with the exception of the echinocandins where the presence of specific FKS gene mutations and not the MIC correlates most accurately with clinical outcome. The relationship of presence of one or more mechanisms of azole resistance and drug MICs is uncertain. Next generation sequencing technology is offering insights into the relationships between susceptibility results obtained by phenotypic and genotypic methods. For Cryptococcus spp., CBPs are not established but species- and genetic type-specific EVCs are useful for guiding therapy where clinically indicated. Isolates of genotype VGII appear to exhibit the highest MICs. Antifungal susceptibility testing of yeasts is important to detect drug resistance. For Candida spp., MICs have clinical utility for the azoles but detecting echinocandin resistance by genotypic methods is preferred. For Cryptococcus spp., ECVs are useful in guiding therapy.

Methodological Issues in Antifungal Susceptibility Testing of Malassezia pachydermatis.

Reference methods for antifungal susceptibility testing of yeasts have been developed by the Clinical and Laboratory Standards Institute (CLSI) and the European Committee on Antibiotic Susceptibility Testing (EUCAST). These methods are intended to test the main pathogenic yeasts that cause invasive infections, namely Candida spp. and Cryptococcus neoformans, while testing other yeast species introduces several additional problems in standardization not addressed by these reference procedures. As a consequence, a number of procedures have been employed in the literature to test the antifungal susceptibility of Malassezia pachydermatis. This has resulted in conflicting results. The aim of the present study is to review the procedures and the technical parameters (growth media, inoculum preparation, temperature and length of incubation, method of reading) employed for susceptibility testing of M. pachydermatis, and when possible, to propose recommendations for or against their use. Such information may be useful for the future development of a reference assay.

The Hazardous Activity of Yeasts Embedded in Biofilm and Planktonic Estimated Through the Effectiveness of four Commonly Used Biocidal Conditionings

The aim of study was to analyse the activity of four biocides. Assessment was made using the methodology described by the Clinical and Laboratory Standards Institute (CLSI); Antifungal Susceptibility Testing of Yeasts, M27-A3 Approved Standard, in: Candida sake, C. albicans, C. lusitaniae and Rhodotorulla rubra. The outcome, related to the culture2 s cut-off value of optical density (O.D.) was analysed statistically (p = 0.05 or lower) proving that Candida albicans was capable of generating strong biofilms, in the resistance setting (p = 0.001).

Antifungal and anti-inflammatory claims for wild carrot essential oil

The present study focuses on the biological potential, including both antifungal and anti-inflammatory properties, and on the cytotoxicity of the unexplored essential oil extracted from wild carrot (Daucus carota subsp. maximus) from Portugal. The essential oil from the aerial parts of plants growing in the south of Portugal were analysed by GC and GC-MS. The oil was predominantly composed of monoterpenes (52.6%), being α-pinene (22.2%) and geranyl acetate (16.0%) the main compounds. Also, the sesquiterpene hydrocarbon β-bisabolene (11.5%) and the phenylpropanoid α-asarone (9.8%) were present in significant amounts. The antifungal activity was shown through the determination of both the minimal inhibitory and minimal lethal concentrations (MICs and MLCs) of the oil against several pathogenic fungi strains [1 – 3]. The oil was particularly active against dermatophytes and Cryptococcus neoformans, with MIC values ranging from 0.16 to 0.32µL/mL. The peripheral and central anti-inflammatory ability of the oil was demonstrated by the inhibition of nitric oxide (NO) production in both lipopolysaccharide (LPS)-treated macrophages and microglia cells, respectively. Moreover, oil's cytotoxicity was assessed using the MTT assay in four mammalian cell lines, namely macrophages (Raw 264.7), keratinocytes (HaCat), hepatocytes (HepG2) and microglia (N9). Both bioactive and safe concentrations (0.32µL/mL) were disclosed supporting subsequent in vivo investigations for the development of effective therapeutic complements for the management of dermatophytosis and/or inflammatory-related diseases. Moreover, bearing in mind that inflammation plays a key role in progression of neurodegenerative diseases such as Alzheimer's disease, Parkinson's disease and multiple sclerosis, the novelty and significance of these results also set up an interesting starting point for the design of a potential nutraceutical to prevent or ameliorate these highly prevalent chronic disorders. Keywords: Daucus maximus, essential oil, antifungal, anti-inflammatory, neuroprotective, cell viability

Antifungal susceptibility testing for yeasts: how, when and why, according to the new EUCAST guidelines

Antifungal susceptibility testing of yeasts and the development of interpretive breakpoints are nowadays very important topics both for the increasing incidence of invasive mycoses and number of available antifungal drugs and for the appearance of acquired resistance. The Subcommittee on Antifungal Susceptibility Testing (AFST) of the European Committee on Antibiotic Susceptibility Testing (EUCAST) has recently released both the operative standards to evaluate the fermenting yeasts susceptibility against antimycotic drugs and the breakpoints for infections due to some Candida species and for some of the available antifungals. Antifungal susceptibility testing is mandatory on a routine base for: 1. therapeutic failure, 2. breakthrough fungemias, 3. on yeasts isolated from patients who recently received prophylactic antifungal treatments, and 4. when the deep-seated infection is due to less common yeasts, with an unknown susceptibility pattern. The Medical Mycology Committee (CoSM) of the Italian Society of Clinical Microbiologists (AMCLI) adopted the interpretive breakpoints of both CLSI and EUCAST. The operating procedure for antifungal susceptibility testing according to EUCAST is supported by the recommendation to use, when clinically necessary, validated commercial methods (Vitek2, Sensititre, E-test). Finally, the CoSM reports the recommendations for a correct management of antifungal susceptibility testing.

Determination of antifungal susceptibility patterns among the clinical isolates of Candida species

Context:Candida species are opportunistic yeasts that cause infections ranging from simple dermatosis to potentially life-threatening fungemia. The emergence of resistance to antifungal drugs has been increased in the past two decades.Aim:the present study we determined to find out the susceptibility profiles of clinical isolates of Candida species against four antifungal drugs, including amphotericin B, ketoconazole, fluconazole and itraconazole.Materials and Methods:Antifungal susceptibility testing of the yeasts was done in accordance with the proposed guidelines for antifungal disk diffusion susceptibility testing of yeasts based on the CLSI document M44-A.Results:A total of 206 yeast isolates were assessed. Among the evaluated Candida species, the highest rates of resistance to ketoconazole were seen in Candida glabrata (16.6%) and Candida albicans (3.2%). Susceptibility and intermediate response to fluconazole were seen in 96.6% and 3.4% of the Candida isolates, respectively. A total of 19 (9.2%) yeast isolates showed petite phenomenon including 11 C. glabrata, 3 C. albicans, 2 Candida dubliniensis and one isolate of each Candida krusei and Candida parapsilosis.Conclusion:The high number of petite mutation in the isolated yeasts should be seriously considered since it may be one of the reasons of antifungal treatment failure.

In Vitro Susceptibility Testing in Fungi: What is its Role in Clinical Practice?

An increasing number of patients are undergoing transplantation procedures or receiving aggressive immunosuppression and chemotherapy. The growing population of immunocompromised hosts has led to a rise in the prevalence of invasive fungal infections due to yeasts and molds. The introduction of new antifungal agents and recent reports of resistance emerging during treatment of fungal infections have highlighted the need for in vitro susceptibility testing. Various testing procedures have been proposed, including macrodilution and microdilution, agar diffusion, disk diffusion, and Etest (AB Biodisk, Solna, Sweden). Establishing clinical correlation with antifungal susceptibility testing, however, is a huge challenge because susceptibility techniques do not take into account the dynamic and complex biology of fungi exposed to an antifungal in vivo. This paper reviews the available methods for antifungal susceptibility testing of yeasts and filamentous fungi and the data regarding the clinical implications of in vitro testing.

Catheter-related fungemia caused by Candida intermedia

Candida intermedia is rarely reported as a human pathogen. We report two cases of catheter-related fungemia caused by C. intermedia which were treated successfully with intravenous fluconazole and catheter removal. The isolates were identified by commercial biochemical methods, oligonucleotide array, and partial sequencing analysis of rRNA genes.

EUCAST Definitive Document EDef 7.1: method for the determination of broth dilution MICs of antifungal agents for fermentative yeasts: Subcommittee on Antifungal Susceptibility Testing (AFST) of the ESCMID European Committee for Antimicrobial Susceptibility Testing (EUCAST)∗

INTRODUCTIONAntifungal susceptibility tests are performed onfungi that cause disease, especially if they belongto a species exhibiting resistance to commonlyused antifungal agents. Antifungal susceptibilitytesting is also important for resistance surveil-lance, for epidemiological studies and forcomparing the in-vitro activity of new and exist-ing agents.Dilution methods are used to establish theMICs of antimicrobial agents. These are thereference methods for antimicrobial susceptibilitytesting, and are used mainly to establish theactivity of a new antifungal agent, to confirm thesusceptibility of organisms that give equivocalresults in routine tests, and to determine thesusceptibility of fungi where routine dilution testsmay be unreliable. Fungi are tested for theirability to produce visible growth in microdilutionplate wells containing broth culture media andserial dilutions of the antifungal agents (brothmicrodilution). The MIC is defined as the lowestconcentration (in mg⁄L) of an antifungal agentthat inhibits the growth of a fungus. The MICprovides information concerning the susceptibil-ity or resistance of an organism to the antifungalagent and can help in making correct treatmentdecisions.The method described in this document isintended for testing the susceptibility ofyeasts that cause clinically significant infections(primarily Candida spp.). The method encom-passes only those yeasts that are able to fermentglucose. Thus, the susceptibility of non-fermenta-tive yeasts, e.g., Cryptococcus neoformans, cannotbe determined by the current procedure, and themethod is not suitable for testing the yeast formsof dimorphic fungi.SCOPEThe standard method described in this documentprovides a valid method for testing the suscepti-bility of glucose-fermenting yeasts to antifungalagents by determination of the MIC. MICs indi-cate the activity of a given antifungal drug underthe described test conditions, and can be used inmaking decisions concerning patient manage-ment after taking into account other factors, e.g.,pharmacokinetics, pharmacodynamics and resis-tance mechanisms. The MIC also allows fungi tobe categorised as ‘susceptible’ (S), ‘intermediate’(I) or ‘resistant’ (R) to a drug. In addition, MICdistributions can be used to define wild-type ornon-wild-type fungal populations.This method is intended primarily to facilitatean acceptable degree of conformity, i.e., agree-ment within specified ranges among laboratories,in measuring the susceptibility of yeasts to anti-fungal agents. The method is designed to be easyto perform, rapid, economical, and suitable forreading by microdilution plate readers in order toallow direct transfer, storage and manipulation ofthe data by computer. The method is alsointended to yield results that are concordantwith those obtained using the procedure

Evaluación comparativa de ATB Fungus 2 y Sensititre YeastOne en el estudio de la sensibilidad in vitro de Candida a los antifúngicos

ATB Fungus 2 and SensititreYeastOne are commercial methods for antifungal susceptibility testing of yeasts. The agreement between these two methods was assessed with a total of 133 Candida strains (60 Candida albicans, 18 Candida dubliniensis, 29 Candida glabrata, and 26 Candida krusei). MIC endpoints were established after 24 h of incubation at 36-/+1 degrees C by each method. Intra-laboratory reproducibility of both methods was excellent (=or>99%). Overall agreement between ATB Fungus 2 and Sensititre YeastOne 3 MICs (within 2 dilutions) was 91.2-97.7% for amphotericin B, 5-fluorocytosine and itraconazole, and 82.7% for fluconazole. The categorical agreement when ATB Fungus 2 results were compared to those by SensititreYeastOne 3 was 93.2-98.5% for 5-fluorocytosine and amphotericin B, but lower for the triazoles (72.9-75.9%). This easy to perform method could be an alternative for routine use in the clinical microbiology laboratory for susceptibility testing of common Candida spp.