showing azole resistance according to the EUCAST 9.3.2 methodology were molecularly identified and the cyp51A gene was studied in A. fumigatus sensu stricto isolates. Results: Eight hundred and forty-seven isolates from 725 patients were collected in 29 hospitals (A. fumigatus sensu stricto (n ¼ 828) and cryptic species (n ¼ 19)). Isolates were mostly from the lower respiratory tract (94.0%; 797/847). Only cryptic species were amphotericin B resistant. Sixty-three (7.4%) out of the 847 isolates were resistant to 1 azole(s). Azole resistance was higher in cryptic species than in A. fumigatus sensu stricto (95%, 18/19 vs. 5.5%, 45/828); isavuconazole was associated to the lowest number of non-wild type isolates. The dominant mechanism of resistance was the presence of TR 34 -L98H substitutions (n ¼ 24 out of 63). Out of the 725 patients, 48 (6.6%) carried either cryptic species (n ¼ 14) or A. fumigatus sensu stricto (n ¼ 34; 4.7%) resistant isolates. Aspergillus fumigatus sensu stricto harbouring either the TR 34 -L98H (n ¼ 19) or TR 46 /Y121F/T289A (n ¼ 1) mutations were detected in patients in hospitals located at 7/24 studied cities. Discussion: Of the patients, 6.6% carry azole-resistant A. fumigatus sensu lato isolates in Spain. TR 34 -L98H is the dominant cyp51A gene substitutions, although its presence is not widespread.
Severely ill COVID-19 patients are at high risk of nosocomial infections. The aim of the study was to describe the characteristics of candidemia during the pre-pandemic period (January 2019–February 2020) compared to the pandemic period (March 2020–September 2021). Antifungal susceptibilities were assessed using the EUCAST E.Def 7.3.2 broth dilution method. Fluconazole-resistant C. parapsilosis isolates (FRCP) were studied for sequencing of the ERG11 gene. The incidence of candidemia and C. parapsilosis bloodstream infection increased significantly in the pandemic period (p = 0.021). ICU admission, mechanical ventilation, parenteral nutrition and corticosteroids administration were more frequent in patients with candidemia who had been admitted due to COVID-19. Fifteen cases of FRCP fungemia were detected. The first case was recorded 10 months before the pandemic in a patient transferred from another hospital. The incidence of FRCP in patients admitted for COVID-19 was 1.34 and 0.16 in all other patients (p < 0.001). ICU admission, previous Candida spp. colonization, arterial catheter use, parenteral nutrition and renal function replacement therapy were more frequent in patients with candidemia due to FRCP. All FRCP isolates showed the Y132F mutation. In conclusion, the incidence of candidemia experienced an increase during the COVID-19 pandemic and FRCP fungemia was more frequent in patients admitted due to COVID-19.
We have been monitoring the antifungal resistance in
Candida parapsilosis
isolates collected from inpatients at Madrid metropolitan area hospitals for the last 3 years. The study aimed to elucidate the presence of fluconazole-resistant
C. parapsilosis
genotypes in Madrid.
In vitro activity of ibrexafungerp against Candida species isolated from blood cultures. Determination of wild type populations using the EUCAST method
Objectives
We prospectively monitored the epidemiology and antifungal susceptibility of Candida spp. from blood cultures and intra-abdominal samples in patients admitted to hospitals in the Madrid area.
Methods
Between 2019 and 2021, we prospectively collected incident isolates [one per species, patient and compartment (blood cultures versus intra-abdominal samples)] from patients admitted to any of 16 hospitals located in Madrid. We studied the antifungal susceptibilities to amphotericin B, triazoles, micafungin, anidulafungin and ibrexafungerp following the EUCAST E.Def 7.3.2 procedure.
Results
A total of 2107 Candida spp. isolates (1895 patients) from blood cultures (51.7%) and intra-abdominal samples were collected. Candida albicans, the Candida glabrata complex, the Candida parapsilosis complex, Candida tropicalis and Candida krusei accounted for 96.9% of the isolates; in contrast, Candida auris was undetected. Fluconazole resistance in Candida spp. was higher in blood cultures than in intra-abdominal samples (9.1% versus 8.2%; P > 0.05), especially for the C. parapsilosis complex (16.6% versus 3.6%, P < 0.05), whereas echinocandin resistance tended to be lower in blood cultures (0.5% versus 1.0%; P > 0.05). Resistance rates have risen, particularly for fluconazole in blood culture isolates, which increased sharply in 2021. Ibrexafungerp showed in vitro activity against most isolates. Species distributions and resistance rates varied among hospitals.
Conclusions
Whereas no C. auris isolates were detected, fluconazole-resistant C. parapsilosis isolates have been spreading across the region and this has pulled up the rate of fluconazole resistance. In contrast, the rate of echinocandin resistance continues to be low.
Updated analysis on yeast isolates causing fungaemia in patients admitted to a tertiary hospital in Madrid, Spain, over a 13-year period.
We studied 896 isolates associated to 872 episodes of fungaemia in 857 hospitalized patients between January 2007 and December 2019. Antifungal susceptibility was assessed by EUCAST EDef 7.3.2. Mutations conferring azole and echinocandin resistance were further studied, and genotyping of resistant clones performed with species-specific microsatellite markers.
Candida albicans (45.8%) was the most frequently identified species, followed by the Candida parapsilosis complex (26.4%), Candida glabrata (12.3%), Candida tropicalis (7.3%), Candida krusei (2.3%), other Candida spp. (3.1%), and non-Candida yeasts (2.8%). Rate of fluconazole resistance in Candida spp. was 4.7%, ranging from 0% (C. parapsilosis) to 9.1% (C. glabrata). The overall rate of echinocandin resistance was 3.1%. Resistance was highly influenced by the presence of intrinsically resistant species. Although the number of isolates between 2007 and 2013 was almost two-fold higher than that of the 2014-2019 period (566 vs. 330), fluconazole resistance in Candida spp. was greater in the second period (3.5% vs. 6.8%; P < 0.05), while overall resistance to echinocandins remained stable (3.5% vs. 2.4%; P > 0.05). Resistant clones were collected from different wards and/or time points, suggesting no epidemiological links.
The number of fungaemia episodes has been decreasing over the last 13 years, with a slight increase in the rate of fluconazole resistance and stable echinocandin resistance. Antifungal resistance is not the cause of the spread of resistant clones.
Background: Candidaemia and invasive candidiasis are typically hospital-acquired. Genotyping isolates from patients admitted to different hospitals may be helpful in tracking clones spreading across hospitals, especially those showing antifungal resistance. Methods: We characterized Candida clusters by studying Candida isolates (C. albicans, n = 1041; C. parapsilosis, n = 354, and C. tropicalis, n = 125) from blood cultures (53.8%) and intra-abdominal samples (46.2%) collected as part of the CANDIMAD (Candida in Madrid) study in Madrid (2019–2021). Species-specific microsatellite markers were used to define the genotypes of Candida spp. found in a single patient (singleton) or several patients (cluster) from a single hospital (intra-hospital cluster) or different hospitals (widespread cluster). Results: We found 83 clusters, of which 20 were intra-hospital, 49 were widespread, and 14 were intra-hospital and widespread. Some intra-hospital clusters were first detected before the onset of the COVID-19 pandemic, but the number of clusters increased during the pandemic, especially for C. parapsilosis. The proportion of widespread clusters was significantly higher for genotypes found in both compartments than those exclusively found in either the blood cultures or intra-abdominal samples. Most C. albicans- and C. tropicalis-resistant genotypes were singleton and presented exclusively in either blood cultures or intra-abdominal samples. Fluconazole-resistant C. parapsilosis isolates belonged to intra-hospital clusters harboring either the Y132F or G458S ERG11p substitutions; the dominant genotype was also widespread. Conclusions: the number of clusters—and patients involved—increased during the COVID-19 pandemic mainly due to the emergence of fluconazole-resistant C. parapsilosis genotypes.
We studied the ability of five echinocandin-susceptible C. glabrata isolates to acquire in vitro resistance to anidulafungin and micafungin. All isolates became phenotypically resistant after 2-4 days of exposure to low and constant micafungin concentrations (P < .05). Mutations in the HS1 region of the FKS2 gene were found in all isolates. The acquisition of resistance was not related to the previous use of antifungal treatment in the patients or the presence of mutations at MSH2 gene. We found differences (P < .0001) in the median survival of Galleria mellonella larvae infected with FKS2 mutant isolates (5 days) and wild-type isolates (3 days).
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