Use of CHROMagar Candida for genital specimens in the diagnostic laboratory

A New Variant of Mutational and Polymorphic Signatures in the ERG11 Gene of Fluconazole-Resistant Candida albicans

Background

Resistance to antifungal drugs for treating Candida infections remains a major concern globally despite the range of medications available. Most of these drugs target key proteins essential to the life cycle of the organism. An enzyme essential for fungal cell membrane integrity, lanosterol 14–α demethylase (CYP51), is encoded by the ERG11 gene in Candida species. This enzyme is the target of azole–based drugs. The organism has, however, devised molecular adaptations to evade the activity of these drugs.

Materials and Methods

Classical methods were employed to characterize clinical isolates sampled from women and dogs of reproductive age. For fluconazole efficacy studies, CLSI guidelines on drug susceptibility testing were used. To understand the susceptibility pattern, various molecular and structural analytic approaches, including sequencing, in silico site-directed mutagenesis, and protein-ligand profiling, were applied to the ERG11 gene and CYP51 protein sequences. Several platforms, comprising Clustal Omega, Pymol plugin manager, Pymol molecular visualizer, Chimera–curated Dynameomics rotamer library, protein–ligand interaction profiler, Charmm36 force field, GROMACS, Geneious, and Mega7, were employed for this analysis.

Results

The following Candida species distribution was obtained: 37.84% C. albicans, 8.12% C. glabrata, 10.81% C. krusei, 5.41% C. tropicalis, and 37.84% of other unidentified Candida species. Two codons in the nucleotide sequence of the wild-type (CTC and CCA) coding for LEU–370 and PRO–375, respectively, were mutated to L370S and P375H in the resistant strain. The mutation stabilized the protein at the expense of the heme moiety. We found that the susceptible isolate from dogs (Can–iso–029/dog) is closely related to the most resistant isolate from humans.

Conclusion

Taken together, our results showed new mutations in the heme-binding pocket of caCYP51 that explain the resistance to fluconazole exhibited by the Candida isolates. So far, the L370S and P375H resistance-linked mutations have not been previously reported.

Quantitative system for diagnosis of vulvovaginal candidiasis

INTRODUCTION

Vaginal infections are one of the most common reason for gynecological consultations. Many of them are the result of overgrowth of resident microorganisms. The clinical symptoms of vulvovaginal candidiasis are nonspecific and an accurate diagnosis is a problem that often leads to inadequate treatment or delays in treatment. The lack of an exact and practical diagnostic method is a common cause of misdiagnosis.

AIM

To create a complex, quantitative method for the diagnosis of vulvovaginal candidiasis which to enables differentiation from vaginal fungal colonization.

MATERIAL AND METHODS

A total of 2306 vaginal samples were examined. Clinical, microbiological, epidemiological methods and statistical models are used.

RESULTS AND DISCUSSION

The proposed score system is a specific, sensitive and inexpensive method to routinely diagnose vulvovaginal candidiasis. Statistical processing of the obtained data shows the impact of the individual components on which the method is based: the presence of vaginal discharge, pruritus, direct microscopy and assessment of the fungal growth. The data analysis reveals good sensitivity (71%) and high specificity (98%) of the method. This allows accurate interpretation of the result of the clinical and microbiological examination of each patient.

CONCLUSION

The system for diagnosing vulvovaginal candidiasis is complex and based on quantitative indicators. The method can be used to differentiate vulvovaginal candidiasis from vaginal fungal colonization (the cut-off value is 5.5 points) and to more accurately interpret a Candida positive result from quantitative real-time PCR in asymptomatic patients or in women with mixed vaginal infection.

Comparative Analysis of the Capacity of the Candida Species To Elicit Vaginal Immunopathology

The human fungal pathogen Candida albicans is the major etiological agent of vulvovaginal candidiasis (VVC). Despite this fact, other non-albicans Candida (NAC) species have frequently been reported, as well. Despite their presence in the vaginal environment, little is known about their capacities to elicit immune responses classically associated with C. albicans-mediated immunopathology, including neutrophil recruitment and proinflammatory cytokine signaling. Therefore, using a combination of in vitro and in vivo approaches, we undertook a comparative analysis to determine whether a representative panel of NAC species could colonize, induce immunopathological markers, or cause damage at the vaginal mucosa. Using a murine model of VVC, C. albicans was found to induce robust immunopathology (neutrophils and interleukin 1β [IL-1β]) and elicit mucosal damage. However, all the NAC species tested (including C. dubliniensis, C. tropicalis, C. parapsilosis, C. krusei, C. glabrata, and C. auris) induced significantly less damage and neutrophil recruitment than C. albicans, despite achieving similar early colonization levels. These results largely correlated with a notable lack of ability by the NAC species (including C. dubliniensis and C. tropicalis) to form hyphae both in vitro and in vivo Furthermore, both C. dubliniensis and C. tropicalis induced significantly less expression of the ECE1 gene encoding candidalysin, a key fungal virulence determinant driving VVC immunopathology. In order to determine the relative capacities of these species to elicit inflammasome-dependent IL-1β release, both wild-type and NLRP3^-/- THP-1 cells were challenged in vitro While most species tested elicited only modest amounts of IL-1β, challenge with C. albicans led to significantly elevated levels that were largely NLRP3 dependent. Collectively, our findings demonstrate that although NAC species are increasingly reported as causative agents of VVC, C. albicans appears to be exceedingly vaginopathogenic, exhibiting robust immunopathology, hypha formation, and candidalysin expression. Thus, this study provides mechanistic insight into why C. albicans is overwhelmingly the major pathogen reported during VVC.

The Role of PCR in the Diagnosis of Candida Vulvovaginitis-a New Gold Standard?

PCR is recognized as a reliable technique for detection of all types of microorganisms. Being highly objective and reproducible also sensitive and specific, PCR is now widely used for sexually transmitted infection (STI) diagnosis. Potential, however, exists for detecting non-pathogens, and not identifying a pathogenic state decreases specificity or clinical significance. PCR Candida tests of vaginal specimens are now widely available and frequently used offering a modest to moderate increase in sensitivity and are likely to replace traditional culture and DNA homology testing. Nevertheless, there remain considerable gaps in our knowledge regarding the usefulness and applications of these expensive tests.

Identifying Candida and other yeast-like fungi: utility of an identification algorithm in resource limited setting

AIM

The increasing recovery rates of unusual yeasts with innate drug resistance make accurate identification crucial for successful therapy and infection control measures. The current study was undertaken to study the utility of CHROMagar Candida (CC) and evaluate an identification algorithm, using germ tube test (GT), CC and a commercial identification kit, API ID 32C.

SETTINGS AND DESIGN

The prospective study was carried out at a private laboratory in Mumbai, India.

MATERIALS AND METHODS

Identification of 533 yeast and yeast like isolates was carried out using an identification algorithm, comprising of the GT, CC and API tests.

RESULTS

CC was useful to detect mixed cultures. We were able to identify 393/533, i.e. 73.7 % of isolates using GT and CC Tests only. This was because C. albicans and C. tropicalis, which can be reliably identified using CC, constituted 75.2 % of the isolates. We were unable to identify 140 isolates, i.e. 26.3 %, using GT and CC tests only and performed additional testing using API ID 32C. CC was not found to be reliable in identifying C. krusei.

CONCLUSION

The diverse identification profile obtained in our study substantiates the need for all diagnostic microbiology laboratories to be better prepared for identifying unusual yeasts. Though GT or CC testing cannot alone suffice for identification of all clinically encountered Candida and yeast-like fungi, use of GT, CC and automated identification systems in a step-wise algorithm can enable the same in a more cost effective manner.

T. Detection of FUR1 Gene in 5-Flucytosine Resistant Candida Isolates in Vaginal Candidiasis Patients

BACKGROUND AND AIMS

This study was done to detect the prevalence, risk factors for vaginal candidiasis in Chennai and to evaluate different methods for speciation of Candida isolates from vaginal candidiasis patients. This study was also aimed at detecting resistance patterns of Candida spp to common antifungals and at detecting mutant FUR1 genes in 5-Flucytosine (5 FC) resistant isolates.

MATERIAL AND METHODS

Two hundred clinically suspected vaginal candidiasis patients were screened for candidiasis and isolated Candida were speciated by standard morphological and biochemical tests (sugar fermentation and assimilation) and by using CHROM agar-Candida medium. Antifungal susceptibility was performed by disk diffusion method (CLSI M44-A) using fluconazole, itraconazole and 5FC disks. Five FC resistant isolates were subjected to PCR for detection of mutant FUR1 genes.

RESULTS

A total of 72 (36%) Candida spp. were obtained. Vaginal candidiasis was more prevalent in 31-40 years age group and among those with poor genital hygiene and who wore tight fitting synthetic/nylon underclothes . C.albicans (35), C.tropicalis (8), C.glabrata (21), C.krusei (4) were identified by both carbohydrate assimilation test and by using CHROM agar-Candida medium. C.kefyr (2) and C.parapsilosis (2) could not be identified using CHROM agar-Candida. Resistance to fluconazole, itraconazole and 5-flucytosine was seen in 19.44%, 23.61% and 41.66% of the isolates respectively. Mutant FUR1 gene was detected in all the Candida spp that were resistant to 5FC.

CONCLUSION

C.albicans was the commonest species which caused vaginal candidiasis in Chennai. Though CHROM agar-candida medium is a useful differential isolation medium capable of early presumptive identification of Candida species, it could not identify C.kefyr and C.parapsilosis. Azole resistance was low in C. albicans but it was high in non-albicans Candida spp. Prevalence of primary resistance to 5-flucytosine was high in the strains studied and in all of them, it was mediated by mutant FUR1 gene.

Identification of Candida species associated with vulvovaginal candidiasis by multiplex PCR

BACKGROUND

Vulvovaginal candidiasis is a common infection. The aim of this study was to identify the species of vaginal Candida isolates by using multiplex PCR technique.

METHODS

191 isolates from patients admitted to Mahdieh hospital were identified. The vaginal swab specimens were cultured on Sabouraud Dextrose Agar. The ITS1 region between the 18S and 5.8S rRNA genes and a specific DNA fragment within the ITS2 region were amplified. The multiplex PCR products were separated by electrophoresis in 2% agarose gel, visualized by staining with ethidium bromide, and photographed. Descriptive statistics, Chi-square test, and Spearman correlation were used to summarize the findings.

RESULTS

C. albicans and C. glabrata were the most common species isolated from the specimens. A mix of C. glabrata and C. albicans was the most common mixed infection isolated from the samples. The analysis revealed a significant positive association between older age and infection with C. glabrata isolates (Spearman's rho = 0.89, P = 0.015).

CONCLUSION

Multiplex PCR is a fast, yet reliable method to identify Candida species. C. albicans and then C. glabrata are the two most common causes of vulvovaginal candidiasis. The number of mixed fungal infections is higher among Iranian population compared to international reports.

Performance of Chromogenic Candida agar and CHROMagar Candida in recovery and presumptive identification of monofungal and polyfungal vaginal isolates

Chromogenic Candida agar (OCCA) is a novel medium facilitating isolation and identification of Candida albicans, C. tropicalis, and C. krusei, as well as indicating polyfungal population in clinical samples. We compare the performance of OCCA, to CHROMagar Candida (CAC) and Sabouraud chloramphenicol agar (SCA). Vaginal swab samples from 392 women were simultaneously inoculated onto three study media. A total of 161 (41.1%) were found to be positive for fungi of which 140 (87%) were monofungal, and 21 (13%) polyfungal. One-hundred and fifty-seven samples (97.5%) were positive on CAC, 156 (96.9%) on OCCA, 148 (91.9%) on SCA and 144 (89.4%) samples were positive on all three media. The yeasts were identified by conventional methods including germ tube test, microscopic morphology on cornmeal-Tween 80 agar, and the commercial API 20C AUX. The 182 isolates were C. albicans (n = 104), C. glabrata (n = 51), C. krusei (n = 7), C. tropicalis (n = 5), C. famata (n = 3), C. kefyr (n = 3), C. zeylanoides (n = 3), C. colliculosa (n = 2), and other species of Candida (n = 4). Among the 21 polyfungal populations, 20 (95.2%) were detected in OCCA, 14 (66.7%) in CAC, and 13 (61.9%) in CAC and OCCA (P <0.05). Most polyfungal populations (47.6%) yielded C. albicans + C. glabrata. The efficiency of both chromogenic media for C. albicans was >or=92.9% at 72 h. OCCA is more efficient and reliable for rapidly identifying C. albicans and polyfungal populations than CAC. However, CAC is more efficient for identifying C. krusei and C. tropicalis. A chromogenic agar with a higher isolation rate of yeasts and better detection of polyfungal populations than SCA, is suggested as a medium of first choice when available.

Epidemiology of Herpes Simplex Virus Infection in Pregnancy: A Pilot Study

Herpes simplex virus (HSV) infection is one of the most common sexually transmitted viral diseases worldwide. HSV type 2 causes most genital herpes and HSV type 1 is usually transmitted via non-sexual contacts. We studied 109 pregnant women between January 2007 and December 2008, in relation to their age, condom use, number of sexual partners, age at first intercourse, parity and smoking habits. The aim of this study is to evaluate the prevalence of HSV cervical infection and HSV co-infection with other genital microorganisms associated with poor neonatal outcome. Our results show that of the 109 outpatients enrolled, 30% were HSV1 and/or HSV2 positive, of whom 30% were infected with both HSV1 and HSV2, 18% were infected with HSV1 alone and 52% with HSV2 alone. A significant association between HSV1 and HSV2 infection was found, and the prevalence of HSV2 infection in women infected with HSV1 was 63%. The prevalence of HSV1/2 varied in the presence of other vaginal microorganisms but a statistical significant association was not found. This pilot study is probably too small to obtain statistically significant results. Nevertheless, using these observed results, we calculated that about 530 patients with comparable features should be enrolled to detect an increase of 50% in HSV infection due to the presence of other genital infections and potential risk factors.

Human Papillomaviruses and genital co-infections in gynaecological outpatients

Background

High grade HPV infections and persistence are the strongest risk factors for cervical cancer. Nevertheless other genital microorganisms may be involved in the progression of HPV associated lesions.

Methods

Cervical samples were collected to search for human Papillomavirus (HPV), bacteria and yeast infections in gynaecologic outpatients. HPV typing was carried out by PCR and sequencing on cervical brush specimens. Chlamydia trachomatis was identified by strand displacement amplification (SDA) and the other microorganisms were detected by conventional methods.

Results

In this cross-sectional study on 857 enrolled outpatients, statistical analyses revealed a significant association of HPV with C. trachomatis and Ureaplasma urealyticum (at high density) detection, whereas no correlation was found between HPV infection and bacterial vaginosis, Streptococcus agalactiae, yeasts, Trichomonas vaginalis and U. urealyticum. Mycoplasma hominis was isolated only in a few cases both in HPV positive and negative women and no patient was infected with Neisseria gonorrhoeae.

Conclusion

Although bacterial vaginosis was not significantly associated with HPV, it was more common among the HPV positive women. A significant association between HPV and C. trachomatis was found and interestingly also with U. urealyticum but only at a high colonization rate. These data suggest that it may be important to screen for the simultaneous presence of different microorganisms which may have synergistic pathological effects.

Use of chromogenic medium in the isolation of yeasts from clinical specimens

Over a 1 year period 3296 specimens submitted for fungal culture were plated onto routine mycological media (RM) and CHROMagar Candida (CaC) to evaluate the capability of CaC to improve on RM. With RM, cultures producing single yeast isolates were identified from 802 specimens. CaC produced similar results, with 76 % agreement. Of 761 specimens that yielded a single Candida species by RM, 615 (81 %) produced one or more yeast isolates using CaC. Of concern, 132 negative CaC cultures corresponded to specimens that yielded C. albicans alone on RM. When yeasts were recovered, CaC correctly identified 98 % of C. albicans, 93 % of Candida tropicalis, 96 % of Candida glabrata and 100 % of Candida krusei based on typical colours. CaC did potentially improve on RM by detecting yeasts in 91 specimens that yielded none by routine methods. CaC was noted to recover more yeast isolates than RM when mixed cultures were detected. Overall, the role of CaC in improving RM appears limited.

Identificação de espécies de Candida e susceptibilidade antifúngica in vitro: estudo de 100 pacientes com candidíases superficiais

FUNDAMENTO: Leveduras do gênero Candida determinam colonização, infecções superficiais e infecções sistêmicas em imunodeprimidos. As várias apresentações da doença levam à necessidade de utilizar diferentes métodos diagnósticos e tratamentos. OBJETIVOS: Diferenciar as espécies de Candida e correlacioná-las com as regiões anatômicas. Avaliar a susceptibilidade a cetoconazol, fluconazol, itraconazol e anfotericina B. MÉTODOS: Foram avaliados 100 pacientes imunocompetentes com candidíase cutânea ou mucosa atendidos na Santa Casa de S. Paulo entre maio de 1999 e julho de 2001. Correlacionou-se a região acometida e a espécie de Candida, isolada através técnica CHROMagar Candida®. Avaliou-se a susceptibilidade das espécies a cetoconazol, fluconazol, itraconazol e anfotericina B, através do Etest®. RESULTADOS: C. albicans foi isolada em 76,0% dos materiais, C. krusei em 19% e C. tropicalis em 1%. Não houve correlação significante entre a região acometida e as espécies. A maioria das amostras mostrou susceptibilidade aos antifúngicos. CONCLUSÃO: C. albicans foi a espécie mais observada. A maioria das amostras de Candida mostrou-se susceptível aos antifúngicos.

Direct isolation of Candida spp. from blood cultures on the chromogenic medium CHROMagar Candida

CHROMagar Candida is a selective and differential chromogenic medium that has been shown to be useful for identification of Candida albicans, Candida krusei, Candida tropicalis, and perhaps Candida glabrata. Colony morphology and color have been well defined when CHROMagar Candida has been used to isolate yeast directly from clinical specimens, including stool, urine, respiratory, vaginal, oropharyngeal, and esophageal sources. Direct isolation of yeast on CHROMagar Candida from blood cultures has not been evaluated. We evaluated whether the color and colony characteristics produced by Candida spp. on CHROMagar Candida were altered when yeasts were isolated directly from blood cultures. Fifty clinical isolates of Candida were inoculated into aerobic and anaerobic blood culture bottles and incubated at 35 degrees C in an automated blood culture system. When growth was detected, an aliquot was removed and plated onto CHROMagar Candida. As a control, CHROMagar Candida plates were inoculated with the same isolate of yeast grown on Sabouraud dextrose agar simultaneously. No significant difference was detected in color or colony morphology between the blood and control isolates in any of the tested organisms. All C. albicans (n = 12), C. tropicalis (n = 12), C. glabrata (n = 9), and C. krusei (n = 5) isolates exhibited the expected species-specific colony characteristics and color, whether isolated directly from blood or from control cultures. CHROMagar Candida can be reliably used for direct isolation of yeast from blood cultures. Direct isolation could allow mycology laboratories to more rapidly identify Candida spp., enable clinicians to more quickly make antifungal agent selections, and potentially decrease patient morbidity and mortality.

Persistence of pigment production by yeast isolates grown on CHROMagar Candida medium

We evaluated the persistence of pigmentation in yeast isolates grown on the chromogenic medium CHROMagar Candida over 7 days. Candida, Cryptococcus, and Trichosporon isolates were inoculated alone or mixed onto duplicate sets of plates and incubated at 30 and 35 degrees C. Candida albicans and Candida krusei were readily identified throughout the reading period, but Candida glabrata was difficult to differentiate from other species until the 3- or 4-day time point. Candida tropicalis produced colonies similar to those of rare Cryptococcus and Trichosporon species, and mixed cultures were often difficult to identify as such.

Prevalence of vulvovaginal candidiasis and susceptibility to fluconazole in women

OBJECTIVE

The purpose of this study was to determine the prevalence of vaginal colonization by Candida with the use of a rapid detection method, to examine the determinants of vaginal candidiasis, and to evaluate susceptibility for fluconazole.

STUDY DESIGN

Vaginal swabs were collected from unselected women at the outpatient clinic of the Department of Obstetrics and Gynecology. A differentiation was made between patients with a positive and a negative potassium hydroxide examination.

RESULTS

Six hundred twelve women were recruited, of whom 39 women (6.3%) had clinical candidiasis. The overall rate of yeast colonization was 20.1%. Candida albicans was isolated most frequently(68.3%), followed by C glabrata (16.3%) and C parapsilosis (8.9%). Clinical candidiasis was related positively with the state of estrogen impregnation. In vitro susceptibility testing by the National Committee for Clinical Laboratory Standards method for fluconazole revealed that 21.1% of the isolates were resistant.

CONCLUSION

More than 20% of the unselected women were colonized with Candida species. Hyperestrogenemia was associated with an increased vulvovaginal colonization by Candida. Surprisingly, 21% of the isolates was resistant to fluconazole, according to the National Committee for Clinical Laboratory Standards method.

Comparison of chromogenic and fluorogenic membrane filtration methods for detection of four Candida species

CHROMagar Candida medium was inoculated with a variety of clinical samples (n = 282) by using membrane filtration instead of swabbing or streaking. This modified CHROMagar procedure increased the ability to detect yeast by 16.7%. Compared to an enzymatic two-step membrane filtration method with fluorogenic substrates, it yielded similar recovery but was slower.

Isolation and characterization of a species-specific DNA fragment for identification of Candida (Torulopsis) glabrata by PCR

A PCR specific for Candida glabrata that amplifies a mitochondrial rRNA gene fragment was developed by analysis of C. glabrata-specific agarose gel bands, which were generated by arbitrarily primed PCR. The expected PCR product was successfully amplified with genomic DNA from 95 C. glabrata isolates but not from a number of other fungal isolates.

Yeast identification in the clinical microbiology laboratory: phenotypical methods

Emerging yeast pathogens are favoured by increasing numbers of immunocompromised patients and by certain current medical practices. These yeasts differ in their antifungal drug susceptibilities, and rapid species identification is imperative. A large variety of methods have been developed with the aim of facilitating rapid, accurate yeast identification. Significant recent commercial introductions have included species-specific direct enzymatic colour tests, differential chromogenic isolation plates, direct immunological tests, and enhanced manual and automated biochemical and enzymatic panels. Chromogenic isolation media demonstrate better detection rates of yeasts in mixed cultures than traditional media, and allow the direct identification of Candida albicans by means of colony colour. Comparative evaluation of rapid methods for C. albicans identification, including the germ tube test, shows that chromogenic media may be economically advantageous. Accurate tests for single species include the Bichrolatex Albicans and Krusei Color tests, both immunologically based, as well as the Remel Rapid Trehalose Assimilation Broth for C. glabrata. Among broad-spectrum tests, the RapID Yeast Plus system gives same-day identification of clinical yeasts, but performance depends on inoculum density and geographic isolate source. The API 20 C AUX system is considered a reference method, but newer systems such as Auxacolor and Fungichrom are as accurate and are more convenient. Among automated systems, the ID 32 C strip, the Vitek Yeast Biochemical Card and the Vitek 2 ID-YST system correctly identify >93% of common yeasts, but the ID-YST is the most accurate with uncommon yeasts, including C. dubliniensis. Spectroscopic methods such as Fourier transformed-infrared spectroscopy offer potential advantages for the future. Overall, the advantages of rapid yeast identification methods include relative simplicity and low cost. For all rapid methods, meticulous, standardized multicenter comparisons are needed before tests are fully accepted.

"Room temperature" use of CHROMagar Candida

The color of colonies of 9 Candida species was examined on the chromogenic medium CHROMagar Candida incubated for 24-72 h at 25 degrees C, 30 degrees C or 37 degrees C. Colors and colony forms characteristic of C. albicans, C. dubliniensis, C. krusei and C. tropicalis were formed most rapidly and with the deepest hues at 37 degrees C. After 48 h incubation at 25 degrees C, 9 of 48 C. albicans isolates gave pink colonies instead of the green colonies characteristic for the species, and the blue-purple colony color characteristic of C. tropicalis isolates was not formed until 48 h at 25 degrees C. Incubation of the chromogenic medium at temperatures below 30 degrees C cannot be recommended for reliable presumptive identification of Candida spp., and pink colonies of C. glabrata would not be reliably distinguished from pink colonies formed by other species under any of the incubation conditions used.

The use of CHROMagar Orientation as a primary isolation medium with presumptive identification for the routine screening of urine specimens

The aim of the study was to compare the use of a novel differential culture medium CHROMagar, for both primary isolation and presumptive identificaton, with the method currently used in our laboratory for screening mid-stream-urine samples (MSU). Routine methods (RM) included blotting paper imprinting of all specimens and additional quantitative culture on cysteine lactose electrolyte-deficient agar (CLED) for selected samples together with Microbact 12E for further identification. The CHROMagar method (CH) relied on the use of blotting paper imprints, colonial colour and morphology on CHROMagar only. With respect to the 3390 MSU specimens examined, both methods yielded similar results in 3240, including > or = 87% of Escherichia coli, Pseudomonas spp., Staphylococcus spp., Proteus mirabilis/Morganella morganii and Enterobacter/Serratia/Klebsiella/Citrobacter spp. Of the 52 discordant identifications, yeasts were reported as staphylococci on CHROMagar in 10. The overall cost of materials per specimen was US$ 0.30 by RM and $ 0.24 by CH. It took about 3 min to perform each Microbact test. Thus, CHROMagar plus Gram stain and other simple bench tests gave results similar to those using our current method, but had the advantage of saving time and materials.