martes, 24 de junio de 2014

Candida auris–Associated Candidemia, South Africa - Volume 20, Number 7—July 2014 - Emerging Infectious Disease journal - CDC

Candida auris–Associated Candidemia, South Africa - Volume 20, Number 7—July 2014 - Emerging Infectious Disease journal - CDC

Volume 20, Number 7—July 2014


Candida auris–Associated Candidemia, South Africa


Technical Appendicies

To the Editor: We noted the report by Chowdhary et al. (1) and report Candida auris as a causative agent of candidemia in South Africa, with an estimated prevalence of 0.3% (N.P. Govender et al., unpub. data). First isolated in 2009, C. auris is an emerging species associated with clinical disease (26). We analyzed 4 isolates submitted to the National Institute for Communicable Diseases (Johannesburg, South Africa) from 4 patients with candidemia who had been admitted to different public- and private-sector hospitals from October 2012 through October 2013.
Identification of the isolates was undertaken by using ChromAgar Candida medium (Mast Diagnostics, Merseyside, UK), Vitek-2 YST (bioMérieux, Marcy ľEtoile, France), API 20C AUX (bioMérieux), and sequencing of internal transcribed spacer (ITS) and D1/D2 domains of the ribosomal RNA gene (7), followed by microbroth dilution susceptibility testing (8). All isolates were misidentified as C. haemulonii and Rhodotorula glutinis by Vitek-2 YST and API 20C AUX assays, respectively (Table).
Similar to the findings of Chowdhary et al., all isolates assimilated N-acetyl-glucosamine (1). With the use of the CBS-KNAW database, pairwise sequence alignment of ITS region showed 99% sequence homology to Kuwait isolates, and alignment of D1/D2 domain showed 98% homology to the Kuwait/India isolates (9). In a neighbor-joining phylogenetic tree based on ITS sequences, South Africa isolates formed a cluster with India and Kuwait isolates (Technical Appendix[PDF - 69 KB - 2 pages]Figure).
Fluconazole MICs were high for all isolates (Table). Isolates 209 and 224 showed reduced voriconazole susceptibility with MICs of 1 μg/mL and 2 μg/mL, respectively, which is above the epidemiologic cutoff value for 11 Candida species (10). Isolates were susceptible to amphotericin B and echinocandins at low MICs Clinical data were available for 1 patient (Technical Appendix[PDF - 69 KB - 2 pages] Table). Two C. haemulonii isolates were identified during laboratory-based sentinel surveillance for candidemia in South Africa; the ITS region of one isolate was sequenced and the isolate identified as C. auris (N.P. Govender, pers. comm.). In this study,C. auris was misidentified by routinely used tests and was accurately identified by sequencing, in keeping with previous findings (1,3,4,6).
Rindidzani E. Magobo, Craig Corcoran, Sharona Seetharam, and Nelesh P. GovenderComments to Author 
Author affiliations: National Institute for Communicable Diseases, Johannesburg, South Africa (R.E. Magobo, N.P. Govender)National Health Laboratory Service, Johannesburg, South Africa (S. Seetharam)University of the Witwatersrand, Johannesburg (S. Seetharam, N.P. Govender)Ampath National Reference Laboratory, Pretoria, South Africa (C. Corcoran)


We thank Serisha Naicker for technical assistance.
The work was supported by the National Institute for Communicable Diseases. N.P.G. has received honoraria from MSD (Pty) Ltd South Africa (Merck) and Pfizer for speaking engagements and has received a research grant from Pfizer South Africa.


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  2. Satoh KMakimura KHasumi YNishiyama YUchida KYamaguchi HCandida auris sp. nov., a novel ascomycetous yeast isolated from the external ear canal of an inpatient in a Japanese hospital. Microbiol Immunol2009;53:414DOIPubMed
  3. Kim MNShin JHSung HLee KKim ECRoy NCandida haemulonii and closely related species at 5 university hospitals in Korea: identification, antifungal susceptibility, and clinical features. Clin Infect Dis2009;48:e5761DOIPubMed
  4. Lee WGShin JHUh YKang MGKim SHPark KHFirst three reported cases of nosocomial fungemia caused by Candida auris. J Clin Microbiol.2011;49:313942DOIPubMed
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  7. White TJBruns TLee STaylor J. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. In: Innis MA, Gelfand DH, Sninsky JJ, White TJ, editors. PCR protocols: a guide to methods and applications. San Diego: Academic Press; 1990. p. 315–22.
  8. Clinical and Laboratory Standards Institute. Reference method for broth dilution antifungal susceptibility testing of yeasts; approved standard. 3rd ed. Wayne (PA): The Institute; 2008.
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  10. Pfaller MADiekema DJProgress in antifungal susceptibility testing of Candida spp. by use of Clinical and Laboratory Standards Institute broth microdilution methods, 2010 to 2012. J Clin Microbiol2012;50:284656DOIPubMed


Technical Appendix

Suggested citation for this article: Magobo RE, Corcoran C, Seetharam S, Govender NP. Candida auris–associated candidemia, South Africa [letter]. Emerg Infect Dis [Internet]. 2014 Jul [date cited].

DOI: 10.3201/eid2007.131765

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