RESUMO
Contamination of the veterinary hospital environment with multiresistant pathogens endangers not only hospitalized animals, but also the workplace safety of veterinarians and nurses, animal guardians and, when in case of a teaching hospital, veterinary students. The objective of this study was to map the main points of bacterial contamination of a veterinary teaching hospital in Brazil to identify multiresistant microorganisms and their antimicrobial resistance genes. Samples were collected from 39 different locations of a veterinary school hospital which comprised a pool according to each hospital environment. In certain environments, more than one pool has been collected. All samples were collected in quadruplicates for the selective isolation of the main multiresistant microorganisms: methicillin-resistant Staphylococcus (MRS), vancomycin resistant Enterococcus (VRE), cephalosporinases and/or extended-spectrum beta-lactamase-producing Gram-negative bacteria (ESBL) and Carbapenemase-producing (CP). After isolation and identification of isolates, multiplex-PCR reactions were performed to detect the main genes for each microorganism and antimicrobial susceptibility tests with the main antibiotics used for each bacterial group according to CLSI. Of the 39 veterinary teaching hospital sites collected, all (100%) had at least one of the microorganisms surveyed, and 17.95% (n=7) of the sites were able to isolate the four pathogens. From the 94 pools collected, it was possible to isolate MRS in 81.91% (n=77), VRE in 12.77% (n=12), cephalosporinases and/or ESBL in 62.77% (n=59) and CP in 24.47%. (n=23). Regarding MRS, the mecA gene was detected in all isolates. All isolated VREs were identified as Enterococcus faecalis and presented the vanA gene. Regarding cephalosporinases and/or ESBL, 89.83% (n=53) of the isolates presented the blaTEM gene, 57.63% (n=34) the blaOXA-1 gene, 37.29% (n=22) blaCTX-M gene from some group (1, 2, 9 ou 8/25) and 20.34% (n=12) the blaSHV gene. It was possible to identify the main microorganisms responsible for causing nosocomial infections in humans (VRE, MRS, ESBL and CP) in the veterinary hospital environment, suggesting a source of infection for professionals and students of veterinary medicine, placing a high risk for public health.(AU)
A contaminação do ambiente hospitalar veterinário com patógenos multirresistentes coloca em perigo não apenas os animais hospitalizados, mas também a segurança no local de trabalho de veterinários e enfermeiros, responsáveis por animais e, quando se tratar de um hospital de ensino, estudantes de veterinária. O objetivo deste estudo foi mapear os principais pontos de contaminação bacteriana de um hospital veterinário de ensino no Brasil, identificando microorganismos multirresistentes e seus genes de resistência antimicrobiana. As amostras foram coletadas em 39 locais diferentes de um hospital de escola veterinária, que compreendia um pool de acordo com o ambiente de cada hospital. Em certos ambientes, mais de um pool foi coletado. Todas as amostras foram coletadas em quadruplicados para o isolamento seletivo dos principais microorganismos multirresistentes: Staphylococcus resistente à meticilina (MRS), Enterococcus resistente à vancomicina (VRE), bactérias Gram-negativas produtoras de cefalosporinases e/ou beta-lactamase de espectro estendido (ESBL) e produtoras de carbapenemase (PC). Após o isolamento e identificação dos isolados, foram realizadas reações de PCR multiplex para detectar os principais genes de cada microorganismo e testes de susceptibilidade a antimicrobianos com os principais antibióticos utilizados para cada grupo bacteriano de acordo com o CLSI. Dos 39 locais do VCH coletados, todos (100%) possuíam pelo menos um dos microrganismos pesquisados e 17,95% (n=7) dos locais foram capazes de isolar os quatro patógenos. Dos 94 pools coletados, foi possível isolar MRS em 81,91% (n=77), VRE em 12,77% (n=12), ESBL em 62,77% (n=59) e carbapenemases em 24,47% (n=23). Em relação ao MRS, o gene mecA foi detectado em todos os isolados. Todos os VREs isolados foram identificados como Enterococcus faecalis e apresentaram o gene vanA. Em relação às cefalosporinases e/ou ESBL, 89,83% (n=53) dos isolados apresentaram o gene blaTEM, 57,63% (n=34) o gene blaOXA-1, 37,29% (n=22) o gene blaCTX-M de algum grupo e 20,34% (n=12) o gene blaSHV. Foi possível identificar os principais microrganismos responsáveis por causar infecções nosocomiais em humanos (VRE, MRS, ESBL e CP) no ambiente hospitalar veterinário, sugerindo uma fonte de infecção para profissionais e estudantes de medicina veterinária, colocando alto risco para a saúde pública.(AU)
Assuntos
Staphylococcus , Infecção Hospitalar , Resistência a Meticilina , Enterococcus faecalis , Reação em Cadeia da Polimerase Multiplex , Anti-Infecciosos , Antibacterianos , beta-Lactamases , Hospitais VeterináriosRESUMO
ABSTRACT: Contamination of the veterinary hospital environment with multiresistant pathogens endangers not only hospitalized animals, but also the workplace safety of veterinarians and nurses, animal guardians and, when in case of a teaching hospital, veterinary students. The objective of this study was to map the main points of bacterial contamination of a veterinary teaching hospital in Brazil to identify multiresistant microorganisms and their antimicrobial resistance genes. Samples were collected from 39 different locations of a veterinary school hospital which comprised a pool according to each hospital environment. In certain environments, more than one pool has been collected. All samples were collected in quadruplicates for the selective isolation of the main multiresistant microorganisms: methicillin-resistant Staphylococcus (MRS), vancomycin resistant Enterococcus (VRE), cephalosporinases and/or extended-spectrum beta-lactamase-producing Gram-negative bacteria (ESBL) and Carbapenemase-producing (CP). After isolation and identification of isolates, multiplex-PCR reactions were performed to detect the main genes for each microorganism and antimicrobial susceptibility tests with the main antibiotics used for each bacterial group according to CLSI. Of the 39 veterinary teaching hospital sites collected, all (100%) had at least one of the microorganisms surveyed, and 17.95% (n=7) of the sites were able to isolate the four pathogens. From the 94 pools collected, it was possible to isolate MRS in 81.91% (n=77), VRE in 12.77% (n=12), cephalosporinases and/or ESBL in 62.77% (n=59) and CP in 24.47%. (n=23). Regarding MRS, the mecA gene was detected in all isolates. All isolated VREs were identified as Enterococcus faecalis and presented the vanA gene. Regarding cephalosporinases and/or ESBL, 89.83% (n=53) of the isolates presented the blaTEM gene, 57.63% (n=34) the blaOXA-1 gene, 37.29% (n=22) blaCTX-M gene from some group (1, 2, 9 ou 8/25) and 20.34% (n=12) the blaSHV gene. It was possible to identify the main microorganisms responsible for causing nosocomial infections in humans (VRE, MRS, ESBL and CP) in the veterinary hospital environment, suggesting a source of infection for professionals and students of veterinary medicine, placing a high risk for public health.
RESUMO: A contaminação do ambiente hospitalar veterinário com patógenos multirresistentes coloca em perigo não apenas os animais hospitalizados, mas também a segurança no local de trabalho de veterinários e enfermeiros, responsáveis por animais e, quando se tratar de um hospital de ensino, estudantes de veterinária. O objetivo deste estudo foi mapear os principais pontos de contaminação bacteriana de um hospital veterinário de ensino no Brasil, identificando microorganismos multirresistentes e seus genes de resistência antimicrobiana. As amostras foram coletadas em 39 locais diferentes de um hospital de escola veterinária, que compreendia um pool de acordo com o ambiente de cada hospital. Em certos ambientes, mais de um pool foi coletado. Todas as amostras foram coletadas em quadruplicados para o isolamento seletivo dos principais microorganismos multirresistentes: Staphylococcus resistente à meticilina (MRS), Enterococcus resistente à vancomicina (VRE), bactérias Gram-negativas produtoras de cefalosporinases e/ou beta-lactamase de espectro estendido (ESBL) e produtoras de carbapenemase (PC). Após o isolamento e identificação dos isolados, foram realizadas reações de PCR multiplex para detectar os principais genes de cada microorganismo e testes de susceptibilidade a antimicrobianos com os principais antibióticos utilizados para cada grupo bacteriano de acordo com o CLSI. Dos 39 locais do VCH coletados, todos (100%) possuíam pelo menos um dos microrganismos pesquisados e 17,95% (n=7) dos locais foram capazes de isolar os quatro patógenos. Dos 94 pools coletados, foi possível isolar MRS em 81,91% (n=77), VRE em 12,77% (n=12), ESBL em 62,77% (n=59) e carbapenemases em 24,47% (n=23). Em relação ao MRS, o gene mecA foi detectado em todos os isolados. Todos os VREs isolados foram identificados como Enterococcus faecalis e apresentaram o gene vanA. Em relação às cefalosporinases e/ou ESBL, 89,83% (n=53) dos isolados apresentaram o gene blaTEM, 57,63% (n=34) o gene blaOXA-1, 37,29% (n=22) o gene blaCTX-M de algum grupo e 20,34% (n=12) o gene blaSHV. Foi possível identificar os principais microrganismos responsáveis por causar infecções nosocomiais em humanos (VRE, MRS, ESBL e CP) no ambiente hospitalar veterinário, sugerindo uma fonte de infecção para profissionais e estudantes de medicina veterinária, colocando alto risco para a saúde pública.
RESUMO
Contamination of the veterinary hospital environment with multiresistant pathogens endangers not only hospitalized animals, but also the workplace safety of veterinarians and nurses, animal guardians and, when in case of a teaching hospital, veterinary students. The objective of this study was to map the main points of bacterial contamination of a veterinary teaching hospital in Brazil to identify multiresistant microorganisms and their antimicrobial resistance genes. Samples were collected from 39 different locations of a veterinary school hospital which comprised a pool according to each hospital environment. In certain environments, more than one pool has been collected. All samples were collected in quadruplicates for the selective isolation of the main multiresistant microorganisms: methicillin-resistant Staphylococcus (MRS), vancomycin resistant Enterococcus (VRE), cephalosporinases and/or extended-spectrum beta-lactamase-producing Gram-negative bacteria (ESBL) and Carbapenemase-producing (CP). After isolation and identification of isolates, multiplex-PCR reactions were performed to detect the main genes for each microorganism and antimicrobial susceptibility tests with the main antibiotics used for each bacterial group according to CLSI. Of the 39 veterinary teaching hospital sites collected, all (100%) had at least one of the microorganisms surveyed, and 17.95% (n=7) of the sites were able to isolate the four pathogens. From the 94 pools collected, it was possible to isolate MRS in 81.91% (n=77), VRE in 12.77% (n=12), cephalosporinases and/or ESBL in 62.77% (n=59) and CP in 24.47%. (n=23). Regarding MRS, the mecA gene was detected in all isolates. All isolated VREs were identified as Enterococcus faecalis and presented the vanA gene. Regarding cephalosporinases and/or ESBL, 89.83% (n=53) of the isolates presented the blaTEM gene, 57.63% (n=34) the blaOXA-1 gene, 37.29% (n=22) blaCTX-M gene from some group (1, 2, 9 ou 8/25) and 20.34% (n=12) the blaSHV gene. It was possible to identify the main microorganisms responsible for causing nosocomial infections in humans (VRE, MRS, ESBL and CP) in the veterinary hospital environment, suggesting a source of infection for professionals and students of veterinary medicine, placing a high risk for public health.(AU)
A contaminação do ambiente hospitalar veterinário com patógenos multirresistentes coloca em perigo não apenas os animais hospitalizados, mas também a segurança no local de trabalho de veterinários e enfermeiros, responsáveis por animais e, quando se tratar de um hospital de ensino, estudantes de veterinária. O objetivo deste estudo foi mapear os principais pontos de contaminação bacteriana de um hospital veterinário de ensino no Brasil, identificando microorganismos multirresistentes e seus genes de resistência antimicrobiana. As amostras foram coletadas em 39 locais diferentes de um hospital de escola veterinária, que compreendia um pool de acordo com o ambiente de cada hospital. Em certos ambientes, mais de um pool foi coletado. Todas as amostras foram coletadas em quadruplicados para o isolamento seletivo dos principais microorganismos multirresistentes: Staphylococcus resistente à meticilina (MRS), Enterococcus resistente à vancomicina (VRE), bactérias Gram-negativas produtoras de cefalosporinases e/ou beta-lactamase de espectro estendido (ESBL) e produtoras de carbapenemase (PC). Após o isolamento e identificação dos isolados, foram realizadas reações de PCR multiplex para detectar os principais genes de cada microorganismo e testes de susceptibilidade a antimicrobianos com os principais antibióticos utilizados para cada grupo bacteriano de acordo com o CLSI. Dos 39 locais do VCH coletados, todos (100%) possuíam pelo menos um dos microrganismos pesquisados e 17,95% (n=7) dos locais foram capazes de isolar os quatro patógenos. Dos 94 pools coletados, foi possível isolar MRS em 81,91% (n=77), VRE em 12,77% (n=12), ESBL em 62,77% (n=59) e carbapenemases em 24,47% (n=23). Em relação ao MRS, o gene mecA foi detectado em todos os isolados. Todos os VREs isolados foram identificados como Enterococcus faecalis e apresentaram o gene vanA. Em relação às cefalosporinases e/ou ESBL, 89,83% (n=53) dos isolados apresentaram o gene blaTEM, 57,63% (n=34) o gene blaOXA-1, 37,29% (n=22) o gene blaCTX-M de algum grupo e 20,34% (n=12) o gene blaSHV. Foi possível identificar os principais microrganismos responsáveis por causar infecções nosocomiais em humanos (VRE, MRS, ESBL e CP) no ambiente hospitalar veterinário, sugerindo uma fonte de infecção para profissionais e estudantes de medicina veterinária, colocando alto risco para a saúde pública.(AU)
Assuntos
Staphylococcus , Infecção Hospitalar , Resistência a Meticilina , Enterococcus faecalis , Reação em Cadeia da Polimerase Multiplex , Anti-Infecciosos , Antibacterianos , beta-Lactamases , Hospitais VeterináriosRESUMO
The aim of this case report is to describe an uncommon hemorrhagic cerebrovascular accident (CVA) associated with an osteosarcoma (OSA) metastasis. Cerebrovascular accident (CVA) is the acute onset of a neurological deficit from any change in blood supply resulting from a pathological process, characterizing a stroke and among all the causes, the neoplastic thrombus of osteosarcoma, specifically, is the most infrequent in clinical practice. A seven-year-old female midsize mixed-breed dog was submitted to a forelimb amputation for showing an osteoblastic OSA in proximal humerus. Three weeks later, the patient presented uninterruptible seizure and coma, resulting in death. At necropsy, it was observed afriable and reddish mass in the left frontal cortex which, microscopically was constituted by OSA metastasis in association with multiple ruptures of blood vessels and focally extensive severe bleeding, which caused a CVA. At immunohistochemistry, neoplastic cells of the humerus and the brain metastasis were positive for vimentin and osteonectin, confirming the diagnosis of osteoblastic OSA. The reports about OSA metastasis on the brain are rare in animals and humans, what could be related to the low frequency and few diagnosis ante and post-mortem. As uncommon as the description of OSA metastasis to the brain, is the CVA associated to them, demonstrating that reporting cases related to these clinical and anatomopathological lesions are important for the scientific community.(AU)
Assuntos
Animais , Feminino , Cães , Osteossarcoma/complicações , Osteossarcoma/veterinária , Acidente Vascular Cerebral/veterinária , Hemorragias Intracranianas/veterinária , Metástase Neoplásica , Úmero/patologiaRESUMO
The aim of this case report is to describe an uncommon hemorrhagic cerebrovascular accident (CVA) associated with an osteosarcoma (OSA) metastasis. Cerebrovascular accident (CVA) is the acute onset of a neurological deficit from any change in blood supply resulting from a pathological process, characterizing a stroke and among all the causes, the neoplastic thrombus of osteosarcoma, specifically, is the most infrequent in clinical practice. A seven-year-old female midsize mixed-breed dog was submitted to a forelimb amputation for showing an osteoblastic OSA in proximal humerus. Three weeks later, the patient presented uninterruptible seizure and coma, resulting in death. At necropsy, it was observed afriable and reddish mass in the left frontal cortex which, microscopically was constituted by OSA metastasis in association with multiple ruptures of blood vessels and focally extensive severe bleeding, which caused a CVA. At immunohistochemistry, neoplastic cells of the humerus and the brain metastasis were positive for vimentin and osteonectin, confirming the diagnosis of osteoblastic OSA. The reports about OSA metastasis on the brain are rare in animals and humans, what could be related to the low frequency and few diagnosis ante and post-mortem. As uncommon as the description of OSA metastasis to the brain, is the CVA associated to them, demonstrating that reporting cases related to these clinical and anatomopathological lesions are important for the scientific community.
Assuntos
Feminino , Animais , Cães , Acidente Vascular Cerebral/veterinária , Hemorragias Intracranianas/veterinária , Osteossarcoma/complicações , Osteossarcoma/veterinária , Metástase Neoplásica , Úmero/patologiaRESUMO
Cyclosporine A is the major immunosuppressive agent used for organ transplantation and for the treatment of a variety of autoimmune disorders such as multiple sclerosis. In this work, we investigated the effect of the cyclosporine A on the acetylcholinesterase activity in the cerebral cortex, striatum, hippocampus, hypothalamus, cerebellum and pons of the rats experimentally demyelinated by ethidium bromide. Rats were divided into four groups: I control (injected with saline), II (treated with cyclosporine A), III (injected with 0.1% ethidium bromide) and IV (injected with 0.1% the ethidium bromide and treated with cyclosporine A). The results showed a significant inhibition (p<0.05) of acetylcholinesterase activity in the groups II, III and IV in all brain structures analyzed. In the striatum, hippocampus, hypothalamus and pons the inhibition was greater (p<0.005) when ethidium bromide was associated with cyclosporine A. In conclusion, the present investigation demonstrated that cyclosporine A is an inhibitor of acetylcholinesterase activity and this effect is increased after an event of toxic demyelination of the central nervous system.