ABSTRACT
Introducción: El tratamiento de las infecciones por Klebsiella pneumoniae productora de carbapenemasa tipo KPC es complicado debido a las escasas opciones terapéuticas existentes, lo cual obliga a optimizar los esquemas terapéuticos disponibles. Objetivo: Determinar la concordancia de la tarjeta AST-N272 del Sistema Vitek 2 Compact y las tiras M.I.C.ETM Evaluator con la dilución en agar para la determinación de la concentración mínima inhibitoria del meropenem en Klebsiella pneumoniae productora de carbapenemasa tipo KPC. Métodos: Se estudiaron 53 aislados de K. pneumoniae bla KPC positivas no clonales, provenientes de hisopados rectales recolectados en diferentes unidades hospitalarias de Guayaquil, Ecuador, entre enero a junio de 2016. Se determinó la concentración mínima inhibitoria de meropenem por dilución en agar (método de referencia), así como por el sistema Vitek 2 Compact (AST-N272) y las tiras M.I.C.ETM. Se determinó la CMI 50, CMI 90 y la concordancia esencial. Resultados: El rango de la CMI de meropenem de los aislados estudiados fue de 1 a ≥ 32 µg/mL, con una CMI50= 4 µg/mL y una CMI90= ≥ 32 µg/mL. El 86,79 por ciento (n= 46) de los aislados tuvo una CMI≤ 8 µg/mL. Se observó un 94,33 por ciento de concordancia esencial con las tiras M.I.C.ETM, mientras que la tarjeta AST-N272 mostró una concordancia esencial inferior al 50 por ciento. Conclusiones: Los resultados sugieren posibles implicaciones en el tratataminto del paciente, pues reduce opciones terapéuticas en contextos de difícil manejo. Además, resaltan la necesidad de la confirmación de la resistencia a carbapenémicos mediante el método de Kirby Bawer en aquellos laboratorios que tienen métodos automatizados para estudios de susceptibilidad(AU)
Introduction: The treatment for KPC carbapenemase-producing Klebsiella pneumoniae infections is complicated, due to the scant therapeutic options available, which forces us to optimize the therapies at hand. Objective: Determine the agreement between the AST-N272 card of the Vitek 2 Compact system and the M.I.C.E.TM Evaluator strips, and the agar dilution method for determination of the minimum inhibitory meropenem concentration in KPC carbapenemase-producing Klebsiella pneumoniae. Methods: A study was conducted of 53 positive non-clonal K. pneumoniae bla KPC isolates from rectal swabs collected at several hospitals in Guayaquil, Ecuador, from January to June 2016. Minimum inhibitory meropenem concentration was determined by agar dilution (reference method), the Vitek 2 Compact system (AST-N272) and M.I.C.E.TM strips. Determination was made of MIC 50, MIC 90 and essential agreement. Results: The meropenem MIC range for the isolates studied was 1 to ≥ 32 µg/ml, with MIC50= 4 µg/ml and MIC90= ≥ 32 µg/ml. In 86.79 percent (n= 46) of the isolates MIC was ≤ 8 µg/ml. Essential agreement was 94.33 percent with the M.I.C.E.TM strips and under 50 percent with the AST-N272 card. Conclusions: The results obtained suggest potential implications for the treatment of patients, since therapeutic options are reduced in difficult management contexts. They also highlight the need for confirmation of carbapenem resistance by the Kirby-Bauer procedure in laboratories equipped with automated methods for susceptibility studies(AU)
Subject(s)
Humans , Microbial Sensitivity Tests/methods , Enterobacteriaceae Infections/drug therapy , Meropenem/therapeutic use , Klebsiella pneumoniae , EcuadorABSTRACT
Yeast infections have acquired great importance due to increasing frequency in immunocompromised patients or patients undergoing invasive diagnostic and therapeutic techniques, and also because of its high morbidity and mortality. At the same time, it has been seen an increase in the emergence of new pathogenic species difficult to diagnose and treat. The aim of this study was to determine the in vitro susceptibility of 89 yeasts from different sources against the antifungals amphotericin B, voriconazole, fluconazole and flucytosine, using the VITEK® 2 Compact system. The antifungal susceptibility was performed automatically by the Vitek® 2 Compact system. The origin of the yeasts was: Group 1 - microbiota of wild animals (W) (26/89), 2 - cows milk with subclinical mastitis (M) (27/89) and 3 - hospital enviorment (H) (36/89). Of the 89 yeasts submitted to the Vitek® 2 test, 25 (20.9%) were resistant to fluconazole, 11 (12.36%) to amphotericin B, 3 (3.37%) to voriconazole, and no sample was resistant to flucytosine. Regarding the minimum inhibitory concentration (MIC), fluconazole showed an MIC between 1 and 64 mg/mL for the three groups, voriconazole had an MIC between 0.12 and 8 mg/mL, amphotericin B had an MIC between 0.25 and 4 mg/mL for group H and group W respectively, between 0.25 and 16 mg/mL for group M and flucytosine had an MIC equal to 1g/mL for all groups. The yeasts isolated from the H group showed the highest resistance to fluconazole 12/89 (13.49%), followed by group W (7.87%) and group M (5.62%). The more resistant group to voriconazole was followed by the M and H groups, the W group showed no resistance to this antifungal. Group H was the least resistant (2.25%) to amphotericin.(AU)
As infecções por leveduras têm adquirido grande importância, devido ao aumento da sua frequência em pacientes imunocomprometidos ou pacientes submetidos a técnicas diagnosticas e terapêuticas agressivas, e devido sua alta morbidade e mortalidade. Paralelamente tem-se observado um incremento na aparição de novas espécies patógenas difíceis de diagnosticar e tratar. O objetivo desse estudo foi avaliar a suscetibilidade in vitro de 89 leveduras de diferentes origens frente aos antifúngicos Anfotericina B, Voriconazol, Fluconazol e Fluocitocina pelo Sistema Vitek 2.O antifungigrama foi realizado automaticamente pelo Vitek 2 Compact. A origem das leveduras foi: Grupo 1-Microbiota de Animais Silvestres (S) (26/89), 2- Leite com mastite bovina subclínica (L) (27/89) e 3- Ambiente Hospitalar (H)(36/89). Das 89 leveduras submetidas à carta Vitek, 25 (20.09%) foram resistentes ao fluconazol, oito (8.99%) à anfotericina B, três (3.37%) ao voriconazol, e nenhuma amostra mostrou-se resistente a fluocitosina. O grupo três (H)foi mais resistente ao fluconazol que os demais, já o dois (L) foi mais resistente ao voriconazol e a anfotericina B que os outros dois. O fluconazol pode ter apresentado maior número de resistências devido ser um fármaco comumente usado principalmente em humanos. As leveduras isoladas de humanos apresentaram maior número de resistências aos fármacos testados do que as leveduras isoladas de animais silvestres. O que pode ocorrer devido a uma maior exposição dos humanos aos fármacos em relação aos animais que vivem isolados em ambientes selvagens e na maioria dos casos nunca teve contato com fármacos de qualquer origem.(AU)
Subject(s)
Animals , Yeasts/pathogenicity , Antifungal Agents , Drug Resistance, Fungal , Microbiota , Mastitis, Bovine , Animals, Wild/microbiology , Milk/microbiologyABSTRACT
Abstract Yeast infections have acquired great importance due to increasing frequency in immunocompromised patients or patients undergoing invasive diagnostic and therapeutic techniques, and also because of its high morbidity and mortality. At the same time, it has been seen an increase in the emergence of new pathogenic species difficult to diagnose and treat. The aim of this study was to determine the in vitro susceptibility of 89 yeasts from different sources against the antifungals amphotericin B, voriconazole, fluconazole and flucytosine, using the VITEK® 2 Compact system. The antifungal susceptibility was performed automatically by the Vitek® 2 Compact system. The origin of the yeasts was: Group 1 - microbiota of wild animals (W) (26/89), 2 - cow's milk with subclinical mastitis (M) (27/89) and 3 - hospital enviorment (H) (36/89). Of the 89 yeasts submitted to the Vitek® 2 test, 25 (20.9%) were resistant to fluconazole, 11 (12.36%) to amphotericin B, 3 (3.37%) to voriconazole, and no sample was resistant to flucytosine. Regarding the minimum inhibitory concentration (MIC), fluconazole showed an MIC between 1 and 64 mg/mL for the three groups, voriconazole had an MIC between 0.12 and 8 mg/mL, amphotericin B had an MIC between 0.25 and 4 mg/mL for group H and group W respectively, between 0.25 and 16 mg/mL for group M and flucytosine had an MIC equal to 1μg/mL for all groups. The yeasts isolated from the H group showed the highest resistance to fluconazole 12/89 (13.49%), followed by group W (7.87%) and group M (5.62%). The more resistant group to voriconazole was followed by the M and H groups, the W group showed no resistance to this antifungal. Group H was the least resistant (2.25%) to amphotericin.
Resumo As infecções por leveduras têm adquirido grande importância, devido ao aumento da sua frequência em pacientes imunocomprometidos ou pacientes submetidos a técnicas diagnosticas e terapêuticas agressivas, e devido sua alta morbidade e mortalidade. Paralelamente tem-se observado um incremento na aparição de novas espécies patógenas difíceis de diagnosticar e tratar. O objetivo desse estudo foi avaliar a suscetibilidade in vitro de 89 leveduras de diferentes origens frente aos antifúngicos Anfotericina B, Voriconazol, Fluconazol e Fluocitocina pelo Sistema Vitek® 2. O antifungigrama foi realizado automaticamente pelo Vitek® 2 Compact. A origem das leveduras foi: Grupo 1- Microbiota de Animais Silvestres (S) (26/89), 2- Leite com mastite bovina subclínica (L) (27/89) e 3- Ambiente Hospitalar (H) (36/89). Das 89 leveduras submetidas à carta Vitek®, 25 (20.09%) foram resistentes ao fluconazol, oito (8.99%) à anfotericina B, três (3.37%) ao voriconazol, e nenhuma amostra mostrou-se resistente a fluocitosina. O grupo três (H) foi mais resistente ao fluconazol que os demais, já o dois (L) foi mais resistente ao voriconazol e a anfotericina B que os outros dois. O fluconazol pode ter apresentado maior número de resistências devido ser um fármaco comumente usado principalmente em humanos. As leveduras isoladas de humanos apresentaram maior número de resistências aos fármacos testados do que as leveduras isoladas de animais silvestres. O que pode ocorrer devido a uma maior exposição dos humanos aos fármacos em relação aos animais que vivem isolados em ambientes selvagens e na maioria dos casos nunca teve contato com fármacos de qualquer origem.
Subject(s)
Animals , Yeasts/isolation & purification , Yeasts/drug effects , Milk/microbiology , Mastitis, Bovine/microbiology , Antifungal Agents/pharmacology , Cattle , Microbial Sensitivity Tests , Asymptomatic Infections , Animals, WildABSTRACT
Abstract Yeast infections have acquired great importance due to increasing frequency in immunocompromised patients or patients undergoing invasive diagnostic and therapeutic techniques, and also because of its high morbidity and mortality. At the same time, it has been seen an increase in the emergence of new pathogenic species difficult to diagnose and treat. The aim of this study was to determine the in vitro susceptibility of 89 yeasts from different sources against the antifungals amphotericin B, voriconazole, fluconazole and flucytosine, using the VITEK® 2 Compact system. The antifungal susceptibility was performed automatically by the Vitek® 2 Compact system. The origin of the yeasts was: Group 1 - microbiota of wild animals (W) (26/89), 2 - cows milk with subclinical mastitis (M) (27/89) and 3 - hospital enviorment (H) (36/89). Of the 89 yeasts submitted to the Vitek® 2 test, 25 (20.9%) were resistant to fluconazole, 11 (12.36%) to amphotericin B, 3 (3.37%) to voriconazole, and no sample was resistant to flucytosine. Regarding the minimum inhibitory concentration (MIC), fluconazole showed an MIC between 1 and 64 mg/mL for the three groups, voriconazole had an MIC between 0.12 and 8 mg/mL, amphotericin B had an MIC between 0.25 and 4 mg/mL for group H and group W respectively, between 0.25 and 16 mg/mL for group M and flucytosine had an MIC equal to 1g/mL for all groups. The yeasts isolated from the H group showed the highest resistance to fluconazole 12/89 (13.49%), followed by group W (7.87%) and group M (5.62%). The more resistant group to voriconazole was followed by the M and H groups, the W group showed no resistance to this antifungal. Group H was the least resistant (2.25%) to amphotericin.
Resumo As infecções por leveduras têm adquirido grande importância, devido ao aumento da sua frequência em pacientes imunocomprometidos ou pacientes submetidos a técnicas diagnosticas e terapêuticas agressivas, e devido sua alta morbidade e mortalidade. Paralelamente tem-se observado um incremento na aparição de novas espécies patógenas difíceis de diagnosticar e tratar. O objetivo desse estudo foi avaliar a suscetibilidade in vitro de 89 leveduras de diferentes origens frente aos antifúngicos Anfotericina B, Voriconazol, Fluconazol e Fluocitocina pelo Sistema Vitek® 2. O antifungigrama foi realizado automaticamente pelo Vitek® 2 Compact. A origem das leveduras foi: Grupo 1- Microbiota de Animais Silvestres (S) (26/89), 2- Leite com mastite bovina subclínica (L) (27/89) e 3- Ambiente Hospitalar (H) (36/89). Das 89 leveduras submetidas à carta Vitek®, 25 (20.09%) foram resistentes ao fluconazol, oito (8.99%) à anfotericina B, três (3.37%) ao voriconazol, e nenhuma amostra mostrou-se resistente a fluocitosina. O grupo três (H) foi mais resistente ao fluconazol que os demais, já o dois (L) foi mais resistente ao voriconazol e a anfotericina B que os outros dois. O fluconazol pode ter apresentado maior número de resistências devido ser um fármaco comumente usado principalmente em humanos. As leveduras isoladas de humanos apresentaram maior número de resistências aos fármacos testados do que as leveduras isoladas de animais silvestres. O que pode ocorrer devido a uma maior exposição dos humanos aos fármacos em relação aos animais que vivem isolados em ambientes selvagens e na maioria dos casos nunca teve contato com fármacos de qualquer origem.
ABSTRACT
Abstract Yeast infections have acquired great importance due to increasing frequency in immunocompromised patients or patients undergoing invasive diagnostic and therapeutic techniques, and also because of its high morbidity and mortality. At the same time, it has been seen an increase in the emergence of new pathogenic species difficult to diagnose and treat. The aim of this study was to determine the in vitro susceptibility of 89 yeasts from different sources against the antifungals amphotericin B, voriconazole, fluconazole and flucytosine, using the VITEK® 2 Compact system. The antifungal susceptibility was performed automatically by the Vitek® 2 Compact system. The origin of the yeasts was: Group 1 - microbiota of wild animals (W) (26/89), 2 - cows milk with subclinical mastitis (M) (27/89) and 3 - hospital enviorment (H) (36/89). Of the 89 yeasts submitted to the Vitek® 2 test, 25 (20.9%) were resistant to fluconazole, 11 (12.36%) to amphotericin B, 3 (3.37%) to voriconazole, and no sample was resistant to flucytosine. Regarding the minimum inhibitory concentration (MIC), fluconazole showed an MIC between 1 and 64 mg/mL for the three groups, voriconazole had an MIC between 0.12 and 8 mg/mL, amphotericin B had an MIC between 0.25 and 4 mg/mL for group H and group W respectively, between 0.25 and 16 mg/mL for group M and flucytosine had an MIC equal to 1g/mL for all groups. The yeasts isolated from the H group showed the highest resistance to fluconazole 12/89 (13.49%), followed by group W (7.87%) and group M (5.62%). The more resistant group to voriconazole was followed by the M and H groups, the W group showed no resistance to this antifungal. Group H was the least resistant (2.25%) to amphotericin.
Resumo As infecções por leveduras têm adquirido grande importância, devido ao aumento da sua frequência em pacientes imunocomprometidos ou pacientes submetidos a técnicas diagnosticas e terapêuticas agressivas, e devido sua alta morbidade e mortalidade. Paralelamente tem-se observado um incremento na aparição de novas espécies patógenas difíceis de diagnosticar e tratar. O objetivo desse estudo foi avaliar a suscetibilidade in vitro de 89 leveduras de diferentes origens frente aos antifúngicos Anfotericina B, Voriconazol, Fluconazol e Fluocitocina pelo Sistema Vitek® 2. O antifungigrama foi realizado automaticamente pelo Vitek® 2 Compact. A origem das leveduras foi: Grupo 1- Microbiota de Animais Silvestres (S) (26/89), 2- Leite com mastite bovina subclínica (L) (27/89) e 3- Ambiente Hospitalar (H) (36/89). Das 89 leveduras submetidas à carta Vitek®, 25 (20.09%) foram resistentes ao fluconazol, oito (8.99%) à anfotericina B, três (3.37%) ao voriconazol, e nenhuma amostra mostrou-se resistente a fluocitosina. O grupo três (H) foi mais resistente ao fluconazol que os demais, já o dois (L) foi mais resistente ao voriconazol e a anfotericina B que os outros dois. O fluconazol pode ter apresentado maior número de resistências devido ser um fármaco comumente usado principalmente em humanos. As leveduras isoladas de humanos apresentaram maior número de resistências aos fármacos testados do que as leveduras isoladas de animais silvestres. O que pode ocorrer devido a uma maior exposição dos humanos aos fármacos em relação aos animais que vivem isolados em ambientes selvagens e na maioria dos casos nunca teve contato com fármacos de qualquer origem.
ABSTRACT
Abstract Yeast infections have acquired great importance due to increasing frequency in immunocompromised patients or patients undergoing invasive diagnostic and therapeutic techniques, and also because of its high morbidity and mortality. At the same time, it has been seen an increase in the emergence of new pathogenic species difficult to diagnose and treat. The aim of this study was to determine the in vitro susceptibility of 89 yeasts from different sources against the antifungals amphotericin B, voriconazole, fluconazole and flucytosine, using the VITEK® 2 Compact system. The antifungal susceptibility was performed automatically by the Vitek® 2 Compact system. The origin of the yeasts was: Group 1 - microbiota of wild animals (W) (26/89), 2 - cows milk with subclinical mastitis (M) (27/89) and 3 - hospital enviorment (H) (36/89). Of the 89 yeasts submitted to the Vitek® 2 test, 25 (20.9%) were resistant to fluconazole, 11 (12.36%) to amphotericin B, 3 (3.37%) to voriconazole, and no sample was resistant to flucytosine. Regarding the minimum inhibitory concentration (MIC), fluconazole showed an MIC between 1 and 64 mg/mL for the three groups, voriconazole had an MIC between 0.12 and 8 mg/mL, amphotericin B had an MIC between 0.25 and 4 mg/mL for group H and group W respectively, between 0.25 and 16 mg/mL for group M and flucytosine had an MIC equal to 1g/mL for all groups. The yeasts isolated from the H group showed the highest resistance to fluconazole 12/89 (13.49%), followed by group W (7.87%) and group M (5.62%). The more resistant group to voriconazole was followed by the M and H groups, the W group showed no resistance to this antifungal. Group H was the least resistant (2.25%) to amphotericin.
Resumo As infecções por leveduras têm adquirido grande importância, devido ao aumento da sua frequência em pacientes imunocomprometidos ou pacientes submetidos a técnicas diagnosticas e terapêuticas agressivas, e devido sua alta morbidade e mortalidade. Paralelamente tem-se observado um incremento na aparição de novas espécies patógenas difíceis de diagnosticar e tratar. O objetivo desse estudo foi avaliar a suscetibilidade in vitro de 89 leveduras de diferentes origens frente aos antifúngicos Anfotericina B, Voriconazol, Fluconazol e Fluocitocina pelo Sistema Vitek® 2. O antifungigrama foi realizado automaticamente pelo Vitek® 2 Compact. A origem das leveduras foi: Grupo 1- Microbiota de Animais Silvestres (S) (26/89), 2- Leite com mastite bovina subclínica (L) (27/89) e 3- Ambiente Hospitalar (H) (36/89). Das 89 leveduras submetidas à carta Vitek®, 25 (20.09%) foram resistentes ao fluconazol, oito (8.99%) à anfotericina B, três (3.37%) ao voriconazol, e nenhuma amostra mostrou-se resistente a fluocitosina. O grupo três (H) foi mais resistente ao fluconazol que os demais, já o dois (L) foi mais resistente ao voriconazol e a anfotericina B que os outros dois. O fluconazol pode ter apresentado maior número de resistências devido ser um fármaco comumente usado principalmente em humanos. As leveduras isoladas de humanos apresentaram maior número de resistências aos fármacos testados do que as leveduras isoladas de animais silvestres. O que pode ocorrer devido a uma maior exposição dos humanos aos fármacos em relação aos animais que vivem isolados em ambientes selvagens e na maioria dos casos nunca teve contato com fármacos de qualquer origem.
ABSTRACT
Abstract Yeast infections have acquired great importance due to increasing frequency in immunocompromised patients or patients undergoing invasive diagnostic and therapeutic techniques, and also because of its high morbidity and mortality. At the same time, it has been seen an increase in the emergence of new pathogenic species difficult to diagnose and treat. The aim of this study was to determine the in vitro susceptibility of 89 yeasts from different sources against the antifungals amphotericin B, voriconazole, fluconazole and flucytosine, using the VITEK® 2 Compact system. The antifungal susceptibility was performed automatically by the Vitek® 2 Compact system. The origin of the yeasts was: Group 1 - microbiota of wild animals (W) (26/89), 2 - cows milk with subclinical mastitis (M) (27/89) and 3 - hospital enviorment (H) (36/89). Of the 89 yeasts submitted to the Vitek® 2 test, 25 (20.9%) were resistant to fluconazole, 11 (12.36%) to amphotericin B, 3 (3.37%) to voriconazole, and no sample was resistant to flucytosine. Regarding the minimum inhibitory concentration (MIC), fluconazole showed an MIC between 1 and 64 mg/mL for the three groups, voriconazole had an MIC between 0.12 and 8 mg/mL, amphotericin B had an MIC between 0.25 and 4 mg/mL for group H and group W respectively, between 0.25 and 16 mg/mL for group M and flucytosine had an MIC equal to 1g/mL for all groups. The yeasts isolated from the H group showed the highest resistance to fluconazole 12/89 (13.49%), followed by group W (7.87%) and group M (5.62%). The more resistant group to voriconazole was followed by the M and H groups, the W group showed no resistance to this antifungal. Group H was the least resistant (2.25%) to amphotericin.
Resumo As infecções por leveduras têm adquirido grande importância, devido ao aumento da sua frequência em pacientes imunocomprometidos ou pacientes submetidos a técnicas diagnosticas e terapêuticas agressivas, e devido sua alta morbidade e mortalidade. Paralelamente tem-se observado um incremento na aparição de novas espécies patógenas difíceis de diagnosticar e tratar. O objetivo desse estudo foi avaliar a suscetibilidade in vitro de 89 leveduras de diferentes origens frente aos antifúngicos Anfotericina B, Voriconazol, Fluconazol e Fluocitocina pelo Sistema Vitek® 2. O antifungigrama foi realizado automaticamente pelo Vitek® 2 Compact. A origem das leveduras foi: Grupo 1- Microbiota de Animais Silvestres (S) (26/89), 2- Leite com mastite bovina subclínica (L) (27/89) e 3- Ambiente Hospitalar (H) (36/89). Das 89 leveduras submetidas à carta Vitek®, 25 (20.09%) foram resistentes ao fluconazol, oito (8.99%) à anfotericina B, três (3.37%) ao voriconazol, e nenhuma amostra mostrou-se resistente a fluocitosina. O grupo três (H) foi mais resistente ao fluconazol que os demais, já o dois (L) foi mais resistente ao voriconazol e a anfotericina B que os outros dois. O fluconazol pode ter apresentado maior número de resistências devido ser um fármaco comumente usado principalmente em humanos. As leveduras isoladas de humanos apresentaram maior número de resistências aos fármacos testados do que as leveduras isoladas de animais silvestres. O que pode ocorrer devido a uma maior exposição dos humanos aos fármacos em relação aos animais que vivem isolados em ambientes selvagens e na maioria dos casos nunca teve contato com fármacos de qualquer origem.
ABSTRACT
Las especies del complejo Burkholderia cepacia (CBC) son capaces de causar infecciones crónicas del tracto respiratorio en pacientes con fibrosis quística y en otros individuos inmunocomprometidos. La mayoría de estas especies exhiben alta resistencia a la terapia antibiótica, lo que genera la necesidad de una detección rápida y precisa para poder implementar estrategias de control adecuadas. En este trabajo se utilizó la técnica de reacción en cadena de la polimerasa (PCR) para amplificar el gen recA (PCR-recA), con el fin de identificar microorganismos pertenecientes al CBC. Con este método molecular como referencia, se evaluó la sensibilidad (S) y la especificidad (E) de dos sistemas de identificación comerciales automatizados, VITEK 2 y API 20NE (bioMérieux®), así como también el valor de las pruebas bioquímicas manuales más representativas para la identificación de estos microorganismos. El método VITEK 2 presentó una S del 71,1 % y una E del 100 %; para el método API 20NE, estos valores fueron 69,7 % y 90,2 %, respectivamente. En cuanto a las pruebas fenotípicas manuales, los resultados obtenidos fueron más heterogéneos, lo que posiblemente se deba a que estas bacterias podrían sufrir presión selectiva para sobrevivir en pacientes crónicos y perder factores fenotípicos característicos. La técnica de PCR-recA resultó de fácil implementación, por lo que cabe considerar a esta técnica de identificación como una opción viable, aun en laboratorios de diagnóstico clínico de mediana complejidad.
Species belonging to the Burkholderia cepacia complex (BCC) are capable of causing chronic respiratory tract infections in patients suffering from cystic fibrosis as wel as in immunocompromised individuals. Most of these species are highly resistant to antibiotic therapy, generating the need for their rapid and accurate detection for the proper treatment and clinical management of these patients. In this wok, the polymerase chain reaction (PCR) technique based on the amplification of the recA gene (PCR-recA) was applied for an accurate identification of bacteria belonging to the BCC. Sensitivity (S) and specificity (E) of two biochemically-based commercial automated systems, API 20NE and VITEK 2 (bioMérieux®), and of the most representative biochemical manual tests for the identification of the Burkholderia cepacia complex were herein evaluated. The commercial systems VITEK 2 and API 20NE showed the following sensitivity and specificity vaues for identification to the species level, S: 71.1 %, E: 100 %, S: 69.7 %, E: 90.2 %, respectively. More complex results were observed for phenotypic manual tests, since BCC bacteria can undergo selective pressure to survive in chronic patients causing the loss of their typical phenotypic characteristics. The PCR-recA technique was easy to implement even in medium-complexity clinical diagnostic laboratories.