<i>In Vitro</i> Antifungal Activity of Manogepix and Other Antifungal Agents against South African <i>Candida auris</i> Isolates from Bloodstream Infections

Since C. auris was first detected in South Africa in 2009, health care-associated transmission events and large outbreaks have led to this pathogen accounting for more than 1 in 10 cases of candidemia. A large proportion of South African C. auris isolates are highly resistant to fluconazole but variably resistant to amphotericin B and echinocandins. </jats:p

Candida auris in South Africa, 2012–2016

To determine the epidemiology of Candida auris in South Africa, we reviewed data from public- and private-sector diagnostic laboratories that reported confirmed and probable cases of invasive disease and colonization for October 2012–November 2016. We defined a case as a first isolation of C. auris from any specimen from a person of any age admitted to any healthcare facility in South Africa. We defined probable cases as cases where the diagnostic laboratory had used a nonconfirmatory biochemical identification method and C. haemulonii was cultured. We analyzed 1,692 cases; 93% were from private-sector healthcare facilities, and 92% of cases from known locations were from Gauteng Province. Of cases with available data, 29% were invasive infections. The number of cases increased from 18 (October 2012–November 2013) to 861 (October 2015–November 2016). Our results show a large increase in C. auris cases during the study period, centered on private hospitals in Gauteng Province

Cross-reactivity of a <i>Histoplasma capsulatum</i> antigen enzyme immunoassay in urine specimens from persons with emergomycosis in South Africa

Abstract Histoplasma antigen detection in urine is a rapid diagnostic method for disseminated histoplasmosis, although cross-reactivity has been reported in specimens from patients with other thermally dimorphic fungal infections. We tested urine specimens, from persons with suspected invasive fungal infections, using a commercial monoclonal antibody Histoplasma enzyme immunoassay (EIA) at a South African national mycology reference laboratory from August 2014 through December 2018. Corresponding fungal culture and histopathology results were obtained from an electronic laboratory information system. In some cases, cultured fungal isolates were sent with the urine specimen for species-level identification by phenotypic and molecular methods. Cross-reactivity was confirmed using culture filtrates of several fungal pathogens. Of 212 referred cases, 41 (19%) were excluded since they had no recorded clinical history (n = 1), alternative diagnoses were confirmed (n = 2), or no fungal culture or histopathology results (n = 38). Eighty-seven of 212 (41%) had laboratory evidence of an invasive fungal disease, while 84 (40%) did not. Of the 87 cases, 37 (43%) were culture-confirmed mycoses: emergomycosis (n = 18), histoplasmosis (n = 8), sporotrichosis (n = 6), cryptococcosis (n = 2), talaromycosis (n = 1), and other fungi isolated (n = 2). The sensitivity and specificity of the EIA were calculated for two groups: culture-confirmed (n = 37) and histology-confirmed invasive fungal disease (n = 50). The sensitivity and specificity of the EIA for diagnosis of histoplasmosis compared to culture were 88% (7/8, 95%CI 47-100%) and 72% (21/29, 95%CI 53-87%), respectively, and for diagnosis of emergomycosis/histoplasmosis compared to histology was 83% (29/35, 95%CI 66-93%) and 93% (14/15, 95%CI 68-100%), respectively. Cross-reactions occurred in urine specimens of patients with Emergomyces africanus infection and in culture filtrates of E. africanus, T. marneffei and Blastomyces species. A commercial Histoplasma EIA had satisfactory accuracy for diagnosis of culture-confirmed histoplasmosis, but cross-reacted in urine specimens from patients with invasive disease caused by the closely-related pathogen, E. africanus and in culture filtrates of E. africanus and other related fungi. Lay summary Emergomyces africanus and Histoplasma capsulatum are fungi that cause a multi-system disease among HIV-seropositive persons with a low CD4 cell count. Handling live cultures of these fungi to confirm a diagnosis requires specialized laboratory equipment and infrastructure which is infrequently accessible in low-resource settings. The features of the two diseases (i.e., disseminated histoplasmosis and emergomycosis) may be indistinguishable when infected tissue is prepared, stained, and examined under a microscope. Enzyme immunoassays (EIA) have been developed as rapid diagnostic tools for the detection of a cell wall component of H. capsulatum in urine specimens, although cross-reactions have been reported in specimens from patients with other fungal infections. We evaluated the accuracy of a commercial Histoplasma EIA to diagnose histoplasmosis and to assess cross-reactions in urine specimens from persons with emergomycosis and in cultures of E. africanus and related fungi. We report a sensitivity and specificity of 88% (95%CI 47-100%) and 72% (95%CI 53-87%) for diagnosis of histoplasmosis compared to culture and 83% (95%CI 66-93%) and 93% (95%CI 68-100%) for diagnosis of either histoplasmosis/emergomycosis compared to a diagnosis made by microscopic examination of infected tissue. The assay cross-reacted in urine specimens from patients with emergomycosis and in culture filtrates of related fungi. Although the EIA cross-reacted with other related fungi, this test can decrease the time to diagnosis and facilitate early treatment of emergomycosis and histoplasmosis in South Africa. </jats:sec

High Prevalence of Candida auris Colonization during Protracted Neonatal Unit Outbreak, South Africa

One third of patients were colonized by Candida auris during a point-prevalence survey in a neonatal unit during an outbreak in South Africa. The sensitivity of a direct PCR for rapid colonization detection was 44% compared with culture. The infection incidence rate decreased by 85% after the survey and implementation of isolation/cohorting

Decreasing fluconazole susceptibility of clinical South African Cryptococcus neoformans isolates over a decade.

BackgroundFluconazole is used in combination with amphotericin B for induction treatment of cryptococcal meningitis and as monotherapy for consolidation and maintenance treatment. More than 90% of isolates from first episodes of cryptococcal disease had a fluconazole minimum inhibitory concentration (MIC) ≤4 μg/ml in a Gauteng population-based surveillance study of Cryptococcus neoformans in 2007-2008. We assessed whether fluconazole resistance had emerged in clinical cryptococcal isolates over a decade.Methodology and principal findingsWe prospectively collected C. neoformans isolates from 1 January through 31 March 2017 from persons with a first episode of culture-confirmed cryptococcal disease at 37 South African hospitals. Isolates were phenotypically confirmed to C. neoformans species-complex level. We determined fluconazole MICs (range: 0.125 μg/ml to 64 μg/ml) of 229 C. neoformans isolates using custom-made broth microdilution panels prepared, inoculated and read according to Clinical and Laboratory Standards Institute M27-A3 and M60 recommendations. These MIC values were compared to MICs of 249 isolates from earlier surveillance (2007-2008). Clinical data were collected from patients during both surveillance periods. There were more males (61% vs 39%) and more participants on combination induction antifungal treatment (92% vs 32%) in 2017 compared to 2007-2008. The fluconazole MIC50, MIC90 and geometric mean MIC was 4 μg/ml, 8 μg/ml and 4.11 μg/ml in 2017 (n = 229) compared to 1 μg/ml, 2 μg/ml and 2.08 μg/ml in 2007-2008 (n = 249) respectively. Voriconazole, itraconazole and posaconazole Etests were performed on 16 of 229 (7%) C. neoformans isolates with a fluconazole MIC value of ≥16 μg/ml; only one had MIC values of >32 μg/ml for these three antifungal agents.Conclusions and significanceFluconazole MIC50 and MIC90 values were two-fold higher in 2017 compared to 2007-2008. Although there are no breakpoints, higher fluconazole doses may be required to maintain efficacy of standard treatment regimens for cryptococcal meningitis

Large Outbreaks of Fungal and Bacterial Bloodstream Infections in a Neonatal Unit, South Africa, 2012–2016

Candidemia is a major cause of healthcare-associated infections. We describe a large outbreak of Candida krusei bloodstream infections among infants in Gauteng Province, South Africa, during a 4-month period; a series of candidemia and bacteremia outbreaks in the neonatal unit followed. We detected cases by using enhanced laboratory surveillance and audited hospital wards by environmental sampling and epidemiologic studies. During July–October 2014, among 589 patients, 48 unique cases of C. krusei candidemia occurred (8.2% incidence). Risk factors for candidemia on multivariable analyses were necrotizing enterocolitis, birthweight <1,500 g, receipt of parenteral nutrition, and receipt of blood transfusion. Despite initial interventions, outbreaks of bloodstream infection caused by C. krusei, rarer fungal species, and bacterial pathogens continued in the neonatal unit through July 29, 2016. Multiple factors contributed to these outbreaks; the most functional response is to fortify infection prevention and control

<i>In Vitro</i> Antifungal Resistance of Candida auris Isolates from Bloodstream Infections, South Africa

Candida auris is a multidrug-resistant fungal pathogen that is endemic in South African hospitals. We tested bloodstream C. auris isolates that were submitted to a reference laboratory for national laboratory-based surveillance for candidemia in 2016 and 2017. </jats:p