Nosocomial fungemia by Candida auris: first four reported cases in continental Europe / Fungemia nosocomial por Candida auris: primeros cuatro casos en Europa continental

Background. Candida auris is an emerging multidrug-resistant yeast that can cause invasive infections and is associated with high mortality. It is typically resistant to fluconazole and voriconazole and, some cases, also to echinocandins and amphotericin B. This species, phylogenetically related to Candida haemulonii, is frequently misidentified by commercial identification techniques in clinical laboratories; therefore, the real prevalence of C. auris infections may be underestimated. Aims. To describe the clinical and microbiological features of the first four cases of C. auris fungemia episodes observed in the European continent. Methods. The four patients were hospitalized in the adult surgical intensive care unit. A total of 8 isolates (two per patient) from blood and catheter tip were analyzed. Results. All isolates were misidentified as Saccharomyces cerevisiae by AuxaColor 2, and as Candida sake by API ID20C. VITEK MS technology misidentified one isolate as Candida lusitaniae, another as C. haemulonii and could not identify the other six. C. auris identification was confirmed by ITS rDNA sequencing. All isolates were fluconazole (MIC >256mg/l) and voriconazole (MIC 2mg/l) resistant and susceptible to posaconazole, itraconazole, echinocandins and amphotericin B. Conclusions. C. auris should be regarded as an emerging pathogen, which requires molecular methods for definitive identification. Our isolates were highly resistant to fluconazole and resistant to voriconazole, but susceptible to the other antifungals tested, which emphasizes the importance of accurately identifying this species to avoid therapeutic failures (AU)

Antecedentes. Candida auris es una levadura multirresistente de reciente aparición que puede causar infecciones invasivas asociadas con una elevada mortalidad. Habitualmente, C. auris es resistente al fluconazol y el voriconazol, y en algunos casos, también a las equinocandinas y la anfotericina B. Esta especie, relacionada filogenéticamente con Candida haemulonii, no se identifica por las técnicas comerciales habitualmente disponibles en los laboratorios clínicos, por lo que la prevalencia real de las infecciones causadas por C. auris puede estar subestimada. Objetivos. Describir las características clínicas y microbiológicas de los cuatro primeros casos de fungemia por C. auris observados en el continente europeo. Métodos. Los cuatro pacientes eran adultos y estaban en la unidad de cuidados intensivos quirúrgicos. Se analizaron un total de 8 aislamientos (dos por paciente), obtenidos a partir de un hemocultivo y de punta de catéter. Resultados. Todos los aislamientos se identificaron erróneamente como Saccharomyces cerevisiae por AuxaColor 2 y como Candida sake por API ID20C. El sistema VITEK MS identificó erróneamente un aislamiento como Candida lusitaniae, otro como C. haemulonii y no pudo identificar los seis aislamientos restantes. La identificación de C. auris se confirmó mediante secuenciación de la región ITS del ADNr. Todos los aislamientos fueron resistentes al fluconazol (CMI>256mg/l) y el voriconazol (CMI 2mg/l) y sensibles al posaconazol, el itraconazol, las equinocandinas y la anfotericina B. Conclusiones. C. auris es un agente patógeno de reciente aparición que actualmente solo puede ser identificado mediante secuenciación molecular. Nuestros aislamientos fueron muy resistentes al fluconazol y resistentes al voriconazol, pero sensibles a los otros antifúngicos ensayados, lo cual destaca la importancia de identificar correctamente esta especie en la práctica asistencial para evitar fracasos terapéuticos (AU)

Nosocomial fungemia by Candida auris: First four reported cases in continental Europe.

BACKGROUND: Candida auris is an emerging multidrug-resistant yeast that can cause invasive infections and is associated with high mortality. It is typically resistant to fluconazole and voriconazole and, some cases, also to echinocandins and amphotericin B. This species, phylogenetically related to Candida haemulonii, is frequently misidentified by commercial identification techniques in clinical laboratories; therefore, the real prevalence of C. auris infections may be underestimated. AIMS: To describe the clinical and microbiological features of the first four cases of C. auris fungemia episodes observed in the European continent. METHODS: The four patients were hospitalized in the adult surgical intensive care unit. A total of 8 isolates (two per patient) from blood and catheter tip were analyzed. RESULTS: All isolates were misidentified as Saccharomyces cerevisiae by AuxaColor 2, and as Candida sake by API ID20C. VITEK MS technology misidentified one isolate as Candida lusitaniae, another as C. haemulonii and could not identify the other six. C. auris identification was confirmed by ITS rDNA sequencing. All isolates were fluconazole (MIC >256mg/l) and voriconazole (MIC 2mg/l) resistant and susceptible to posaconazole, itraconazole, echinocandins and amphotericin B. CONCLUSIONS: C. auris should be regarded as an emerging pathogen, which requires molecular methods for definitive identification. Our isolates were highly resistant to fluconazole and resistant to voriconazole, but susceptible to the other antifungals tested, which emphasizes the importance of accurately identifying this species to avoid therapeutic failures.

Bugs, hosts and ICU environment: Countering pan-resistance in nosocomial microbiota and treating bacterial infections in the critical care setting / Gérmenes, huéspedes y el entorno de la Unidad de Cuidados Intensivos: contrarrestando la panresistencia en la microbiota nosocomial para tratar las infecciones bacterianas en cuidados críticos

ICUs are areas where resistance problems are the largest, and these constitute a major problem for the intensivist's clinical practice. Main resistance phenotypes among nosocomial microbiota are (I) vancomycin-resistance/heteroresistance and tolerance in grampositives (MRSA, enterococci) and (II) efflux pumps/enzymatic resistance mechanisms (ESBLs, AmpC, metallo-betalactamases) in gramnegatives. These phenotypes are found at different rates in pathogens causing respiratory (nosocomial pneumonia/ventilator-associated pneumonia), bloodstream (primary bacteremia/catheter-associated bacteremia), urinary, intraabdominal and surgical wound infections and endocarditis in the ICU. New antibiotics are available to overcome non-susceptibility in grampositives; however, accumulation of resistance traits in gramnegatives has led to multidrug resistance, a worrisome problem nowadays. This article reviews microorganism/infection risk factors for multidrug resistance, suggesting adequate empirical treatments. Drugs, patient and environmental factors all play a role in the decision to prescribe/recommend antibiotic regimens in the specific ICU patient, implying that intensivists should be familiar with available drugs, environmental epidemiology and patient factors (AU)

UCIs son las áreas donde los problemas de resistencia son los más grandes, y éstos constituyen un problema importante para la práctica clínica de los intensivistas . Fenotipos de resistencia principales entre la microbiota nosocomial son ( I ) vancomycin-resistance/heteroresistance y tolerancia en grampositives ( MRSA, enterococos ) y ( II ) las bombas de flujo / mecanismos enzimáticos de resistencia ( BLEE , AmpC , metalo- betalactamasas ) en gramnegativos . Estos fenotipos se encuentran en diferentes tipos de patógenos causantes de las vías respiratorias (neumonía / pulmonía nosocomial asociada a ventilación mecánica), el torrente sanguíneo ( bacteremia primaria / bacteriemia asociada a catéter ) , urinario, infecciones de las heridas quirúrgicas intraabdominales y endocarditis y en la UCI. Nuevos antibióticos están disponibles para superar la no - susceptibilidad in grampositives, sin embargo, la acumulación de rasgos de resistencia en gramnegativos ha dado lugar a la resistencia a múltiples fármacos, un problema preocupante en la actualidad. Este artículo revisa los factores de riesgo microorganismo / infección de la resistencia a múltiples fármacos, lo que sugiere tratamientos empíricos adecuados. Las drogas, el paciente y los factores ambientales juegan un papel en la decisión de prescribir / recomendar regímenes de antibióticos en el paciente en la UCI específica, lo que implica que los intensivistas deben familiarizarse con los fármacos disponibles, epidemiología ambiental y los factores del paciente (AU)

Bugs, hosts and ICU environment: countering pan-resistance in nosocomial microbiota and treating bacterial infections in the critical care setting.

ICUs are areas where resistance problems are the largest, and these constitute a major problem for the intensivist's clinical practice. Main resistance phenotypes among nosocomial microbiota are (i) vancomycin-resistance/heteroresistance and tolerance in grampositives (MRSA, enterococci) and (ii) efflux pumps/enzymatic resistance mechanisms (ESBLs, AmpC, metallo-betalactamases) in gramnegatives. These phenotypes are found at different rates in pathogens causing respiratory (nosocomial pneumonia/ventilator-associated pneumonia), bloodstream (primary bacteremia/catheter-associated bacteremia), urinary, intraabdominal and surgical wound infections and endocarditis in the ICU. New antibiotics are available to overcome non-susceptibility in grampositives; however, accumulation of resistance traits in gramnegatives has led to multidrug resistance, a worrisome problem nowadays. This article reviews microorganism/infection risk factors for multidrug resistance, suggesting adequate empirical treatments. Drugs, patient and environmental factors all play a role in the decision to prescribe/recommend antibiotic regimens in the specific ICU patient, implying that intensivists should be familiar with available drugs, environmental epidemiology and patient factors.

Bugs, hosts and ICU environment: countering pan-resistance in nosocomial microbiota and treating bacterial infections in the critical care setting.

ICUs are areas where resistance problems are the largest, and they constitutes a major problem for the intensivist's clinical practice. Main resistance phenotypes among nosocomial microbiota are: i) vancomycin-resistance/heteroresistance and tolerance in grampositives (MRSA, enterococci) and ii) efflux pumps/enzymatic resistance mechanisms (ESBLs, AmpC, metallobetalactamases) in gramnegatives. These phenotypes are found at different rates in pathogens causing respiratory (nosocomial pneumonia/ventilator-associated pneumonia), bloodstream (primary bacteremia/catheter-associated bacteremia), urinary, intraabdominal and surgical wound infections and endocarditis in the ICU. New antibiotics are available to overcome non-susceptibility in grampositives; however, accumulation of resistance traits in gramnegatives has lead to multidrug resistance, a worrisome problem nowadays. This article reviews by microorganism/infection risk factors for multidrug resistance, suggesting adequate empirical treatments. Drugs, patient and environmental factors all play a role in the decision to prescribe/recommend antibiotic regimens in the specific ICU patient, implying that intensivists should be familiar with available drugs, environmental epidemiology and patient factors.