ABSTRACT
Chicken embryos (CE) are an experimental model used as an important life science research tool worldwide, and then, adequate anesthetic protocols must be adopted to avoid the unjustifiable suffering of animals. Thus, our objective was to evaluate different anesthetic protocols in CEs using an easy inoculation route, the shell membrane (SM). We adopted the heart rate by pulse and the CE movements as a parameter of pain by assessing the vase in the chorioallantoic membrane (CAM) through the shell by a sensor of a multiparametric monitor. CEs were distributed into the following groups: (i) association of ketamine (5 mg/CE), midazolam (0.05 mg/CE) and morphine (0.15 mg/CE); (ii) ketamine (5 mg/CE) and xylazine (0.125 mg/CE); (iii) xylazine (0.0125 mg/CE) and morphine (0.15 mg/CE). The stress method used to test the anesthetic potential of the drugs was high temperature stimulation, keeping the CEs 10 cm from the fire of a Bussen nozzle for 30 s. In this experimental model, associations between different drugs decreased the pulse and the movement, indicating possible sedation. After treatment, the CE's submitted to the stress method had the heart rate and movements kept low in the groups ketamine-midazolam-morphine and ketamine-xylazine, while the non-drug-treated group increased heart rate. In a group treated with xylazine-morphine, the heart rate did not decrease, but the movement decreased after the stimulus. As the best results were the combinations of ketamine-midazolam-morphine and ketamine-xylazine, we recommend these associations for use in embryos in the final third of embryonic development in experimental protocols and euthanasia.
Subject(s)
Anesthesia , Anesthetics , Ketamine , Chick Embryo , Animals , Midazolam , Ketamine/pharmacology , Xylazine/pharmacology , Chickens , Anesthetics/pharmacology , Morphine DerivativesABSTRACT
The aim of the study was to evaluate the genotypic and phenotypic characteristics of 20 strains of S. Heidelberg (SH) isolated from broilers produced in southern Brazil. The similarity and presence of genetic determinants linked to virulence, antimicrobial resistance, biofilm formation, and in silico-predicted metabolic interactions revealed this serovar as a threat to public health. The presence of the ompC, invA, sodC, avrA, lpfA, and agfA genes was detected in 100% of the strains and the luxS gene in 70% of them. None of the strains carries the bla SHV, mcr-1, qnrA, qnrB, and qnrS genes. All strains showed a multidrug-resistant profile to at least three non-ß-lactam drugs, which include colistin, sulfamethoxazole, and tetracycline. Resistance to penicillin, ceftriaxone (90%), meropenem (25%), and cefoxitin (25%) were associated with the presence of bla CTX-M and bla CMY-2 genes. Biofilm formation reached a mature stage at 25 and 37°C, especially with chicken juice (CJ) addition. The sodium hypochlorite 1% was the least efficient in controlling the sessile cells. Genomic analysis of two strains identified more than 100 virulence genes and the presence of resistance to 24 classes of antibiotics correlated to phenotypic tests. Protein-protein interaction (PPI) prediction shows two metabolic pathways correlation with biofilm formation. Virulence, resistance, and biofilm determinants must be constant monitoring in SH, due to the possibility of occurring infections extremely difficult to cure and due risk of the maintenance of the bacterium in production environments.
ABSTRACT
There is no effective therapy against COVID-19 available so far. In the last months, different drugs have been tested as potential treatments for COVID-19, exhibiting high toxicity and low efficacy. Therefore, nanotechnology can be applied to improve the therapeutic action and minimize the toxicity of loaded drugs. In this review, we summarized the drugs tested as COVID-19 treatment and the advantages of antiviral nanostructured drug-delivery systems. Such systems have demonstrated low in vitro toxicity with better in vitro antiviral activity than free drugs. We believe that this approach should inspire novel nanostructured drug-delivery systems developments to find efficient COVID-19 treatments. Here, we discuss the remaining challenges for such promising nanosystems to be approved for clinical use.
Subject(s)
Antiviral Agents/therapeutic use , COVID-19 Drug Treatment , Drug Delivery Systems , Nanotechnology/methods , Animals , Antiviral Agents/adverse effects , Clinical Trials as Topic , Drug Compounding , Humans , Mice , Middle East Respiratory Syndrome Coronavirus/drug effects , Nanostructures , Severe acute respiratory syndrome-related coronavirus/drug effects , SARS-CoV-2/drug effectsABSTRACT
Salmonella Infantis is frequently associated with human infections worldwide and is transmitted by consumption of contaminated foods, particularly those of animal origin, especially the chicken meat. We aimed to evaluate virulence characteristics, antimicrobial resistance and the genetic similarity of 51 strains of S. Infantis isolated from samples of poultry origin. The strains were isolated from 2009 to 2010 in a company with full cycle of broiler's production in the state of São Paulo, Brazil. The antimicrobial susceptibility test was performed and, by PCR, we evaluated the presence of the genes lpfA (hem-adhesion), agfA (hem-biofilm) and sefA (hem-adhesion) and resistance genes to beta-lactams (blaTEM, blaSHV, bla CTX-M and blaAmpC ). The phylogenetic relationship was determined by RAPD-PCR method. Among the drugs tested, the highest percentages of resistance were to amoxicillin (35.3%) and to sulfonamide (15.7%). Eleven antimicrobial resistance patterns were identified (A1 to A11), none of them presented a multiresistance profile (> 3 antimicrobials classes). There was 100% of positivity for the agfA gene, 92.2% for the lpfA gene, and no strain presented the sefA gene. Most of the isolates showed similarities in virulence potential, since they were simultaneously positive for two studied genes, agfA and lpfA (92.2%, 47/51). Of the 18 (35.3%) strains resistant to antimicrobials of the β-lactam class, 10 (55.5%) were positive to blaAmpC gene, five (27.8%) for blaCTX-M , two (11.1%) to blaSHV and no strain presented the blaTEM gene. The phylogenetic evaluation has shown the presence of five clusters (A, B, C, D and E) with similarity greatSalmonella Infantis is frequently associated with human infections worldwide and is transmitted by consumption of contaminated foods, particularly those of animal origin, especially the chicken meat...(AU)
Salmonella Infantis é frequentemente associada a infecções humanas no mundo todo sendo transmitida pelo consumo de alimentos contaminados, principalmente aqueles de origem animal, com destaque para a carne de frango. Objetivou-se avaliar características de virulência, resistência antimicrobiana e a similaridade genética de 51 estirpes de S. Infantis isoladas em amostras de origem avícola. As estirpes foram isoladas no período de 2009 a 2010 em uma empresa com ciclo completo de produção de frango de corte, localizada no estado de São Paulo, Brasil. Foi realizado o teste de susceptibilidade antimicrobiana e pela técnica de PCR, foi avaliada a presença dos genes lpfA (fímbria-adesão), agfA (fímbria-biofilme) e sefA (fímbria-adesão) e os genes de resistência aos beta-lactâmicos (bla TEM, blaSHV, blaCTX-M e blaAmpC ). A relação filogenética foi determinada pelo método de RAPD-PCR. Dentre as drogas testadas, os maiores percentuais de resistência foram para amoxacilina com 35,3% e sulfonamida com 15,7%. Onze perfis de resistência aos antimicrobianos foram identificados (A1 a A11), sendo que nenhum deles apresentou perfil de multirresistência (>3 classes de antimicrobianos). Houve 100% de positividade para o gene agfA, 92,2% para o gene lpfA e nenhuma estirpe apresentou o gene sefA. A maioria dos isolados apresentaram semelhanças no potencial de virulência, pois foram positivos simultaneamente para dois genes estudados, agfA e lpfA (92,2% - 47/51). Das 18 (35,3%) estirpes resistentes aos antimicrobianos da classe dos ß-lactâmicos, 10 (55,5%) foram positivas para o gene blaAmpC , cinco (27,8%) para blaCTX-M , duas (11,1%) para blaSHV e nenhuma estirpe apresentou o gene bla TEM . A avaliação filogenética demonstrou a presença de cinco clusters (A, B, C, D e E) com similaridade superior a 80%, e três estirpes distintas que não foram agrupadas em nenhum dos clusters...(AU)
Subject(s)
Animals , Salmonella/isolation & purification , Salmonella/genetics , Salmonella/pathogenicity , Salmonella Infections, Animal , Drug Resistance, Microbial/genetics , Chickens/microbiology , beta-Lactams , Amoxicillin , Salmonella InfectionsABSTRACT
Salmonella Infantis is frequently associated with human infections worldwide and is transmitted by consumption of contaminated foods, particularly those of animal origin, especially the chicken meat. We aimed to evaluate virulence characteristics, antimicrobial resistance and the genetic similarity of 51 strains of S. Infantis isolated from samples of poultry origin. The strains were isolated from 2009 to 2010 in a company with full cycle of broiler's production in the state of São Paulo, Brazil. The antimicrobial susceptibility test was performed and, by PCR, we evaluated the presence of the genes lpfA (hem-adhesion), agfA (hem-biofilm) and sefA (hem-adhesion) and resistance genes to beta-lactams (blaTEM, blaSHV, bla CTX-M and blaAmpC ). The phylogenetic relationship was determined by RAPD-PCR method. Among the drugs tested, the highest percentages of resistance were to amoxicillin (35.3%) and to sulfonamide (15.7%). Eleven antimicrobial resistance patterns were identified (A1 to A11), none of them presented a multiresistance profile (> 3 antimicrobials classes). There was 100% of positivity for the agfA gene, 92.2% for the lpfA gene, and no strain presented the sefA gene. Most of the isolates showed similarities in virulence potential, since they were simultaneously positive for two studied genes, agfA and lpfA (92.2%, 47/51). Of the 18 (35.3%) strains resistant to antimicrobials of the β-lactam class, 10 (55.5%) were positive to blaAmpC gene, five (27.8%) for blaCTX-M , two (11.1%) to blaSHV and no strain presented the blaTEM gene. The phylogenetic evaluation has shown the presence of five clusters (A, B, C, D and E) with similarity greatSalmonella Infantis is frequently associated with human infections worldwide and is transmitted by consumption of contaminated foods, particularly those of animal origin, especially the chicken meat. We aimed to evaluate virulence characteristics, antimicrobial resistance and the genetic similarity of 51 strains of S. Infantis isolated from samples of poultry origin. The strains were isolated from 2009 to 2010 in a company with full cycle of broiler's production in the state of São Paulo, Brazil. The antimicrobial susceptibility test was performed and, by PCR, we evaluated the presence of the genes lpfA (hem-adhesion), agfA (hem-biofilm) and sefA (hem-adhesion) and resistance genes to beta-lactams (blaTEM, blaSHV, bla CTX-M and blaAmpC ). The phylogenetic relationship was determined by RAPD-PCR method. Among the drugs tested, the highest percentages of resistance were to amoxicillin (35.3%) and to sulfonamide (15.7%). Eleven antimicrobial resistance patterns were identified (A1 to A11), none of them presented a multiresistance profile (> 3 antimicrobials classes). There was 100% of positivity for the agfA gene, 92.2% for the lpfA gene, and no strain presented the sefA gene. Most of the isolates showed similarities in virulence potential, since they were simultaneously positive for two studied genes, agfA and lpfA (92.2%, 47/51). Of the 18 (35.3%) strains resistant to antimicrobials of the ß-lactam class, 10 (55.5%) were positive to blaAmpC gene, five (27.8%) for blaCTX-M , two (11.1%) to blaSHV and no strain presented the blaTEM gene. The phylogenetic evaluation has shown the presence of five clusters (A, B, C, D and E) with similarity greater than 80%, and three distinct strains which were not grouped in any cluster. Cluster B grouped 33 strains, all positive for lpfA and agfA genes, from both, the broiler farming facility and the slaughterhouse, persistent throughout all the study period. This cluster also grouped 18 strains clones with genetic similarity greater than 99%, all isolated in the slaughterhouse. The presence of virulence genes associated with persistent strains clones for a long period, warns to the possibility of S. Infantis to form biofilm, and should be constantly monitored in broilers' production chain, in order to know the profile of the strains that may contaminate the final product and evaluate the hazards that represents to public health.er than 80%, and three distinct strains which were not grouped in any cluster. Cluster B grouped 33 strains, all positive for lpfA and agfA genes, from both, the broiler farming facility and the slaughterhouse, persistent throughout all the study period. This cluster also grouped 18 strains clones with genetic similarity greater than 99%, all isolated in the slaughterhouse. The presence of virulence genes associated with persistent strains clones for a long period, warns to the possibility of S. Infantis to form biofilm, and should be constantly monitored in broilers' production chain, in order to know the profile of the strains that may contaminate the final product and evaluate the hazards that represents to public health.(AU)
Salmonella Infantis é frequentemente associada a infecções humanas no mundo todo sendo transmitida pelo consumo de alimentos contaminados, principalmente aqueles de origem animal, com destaque para a carne de frango. Objetivou-se avaliar características de virulência, resistência antimicrobiana e a similaridade genética de 51 estirpes de S. Infantis isoladas em amostras de origem avícola. As estirpes foram isoladas no período de 2009 a 2010 em uma empresa com ciclo completo de produção de frango de corte, localizada no estado de São Paulo, Brasil. Foi realizado o teste de susceptibilidade antimicrobiana e pela técnica de PCR, foi avaliada a presença dos genes lpfA (fímbria-adesão), agfA (fímbria-biofilme) e sefA (fímbria-adesão) e os genes de resistência aos beta-lactâmicos (bla TEM, blaSHV, blaCTX-M e blaAmpC ). A relação filogenética foi determinada pelo método de RAPD-PCR. Dentre as drogas testadas, os maiores percentuais de resistência foram para amoxacilina com 35,3% e sulfonamida com 15,7%. Onze perfis de resistência aos antimicrobianos foram identificados (A1 a A11), sendo que nenhum deles apresentou perfil de multirresistência (>3 classes de antimicrobianos). Houve 100% de positividade para o gene agfA, 92,2% para o gene lpfA e nenhuma estirpe apresentou o gene sefA. A maioria dos isolados apresentaram semelhanças no potencial de virulência, pois foram positivos simultaneamente para dois genes estudados, agfA e lpfA (92,2% - 47/51). Das 18 (35,3%) estirpes resistentes aos antimicrobianos da classe dos ß-lactâmicos, 10 (55,5%) foram positivas para o gene blaAmpC , cinco (27,8%) para blaCTX-M , duas (11,1%) para blaSHV e nenhuma estirpe apresentou o gene bla TEM . A avaliação filogenética demonstrou a presença de cinco clusters (A, B, C, D e E) com similaridade superior a 80%, e três estirpes distintas que não foram agrupadas em nenhum dos clusters. O cluster B agrupou 33 estirpes, todas positivas para os genes lpfA e agfA, provenientes tanto do aviário quanto do matadouro frigorífico, persistentes durante todo o período do estudo. Este cluster ainda agrupou 18 estirpes clones com similaridade genética superior a 99%, todas isoladas no matadouro frigorífico. A presença dos genes de virulência, associada à persistência das estirpes clones durante um longo período do estudo, alertam para a possibilidade de S. Infantis em formar biofilme, devendo ser constantemente monitorada na cadeia de produção avícola, especialmente no ambiente de abate, de forma a conhecer o perfil das estirpes que podem contaminar o produto final e assim avaliar os perigos que representam para a saúde pública.(AU)
Subject(s)
Animals , Salmonella/isolation & purification , Salmonella/genetics , Salmonella/pathogenicity , Salmonella Infections, Animal , Drug Resistance, Microbial/genetics , Chickens/microbiology , beta-Lactams , Amoxicillin , Salmonella InfectionsABSTRACT
ABSTRACT: Salmonella Infantis is frequently associated with human infections worldwide and is transmitted by consumption of contaminated foods, particularly those of animal origin, especially the chicken meat. We aimed to evaluate virulence characteristics, antimicrobial resistance and the genetic similarity of 51 strains of S. Infantis isolated from samples of poultry origin. The strains were isolated from 2009 to 2010 in a company with full cycle of broilers production in the state of São Paulo, Brazil. The antimicrobial susceptibility test was performed and, by PCR, we evaluated the presence of the genes lpfA (hem-adhesion), agfA (hem-biofilm) and sefA (hem-adhesion) and resistance genes to beta-lactams (blaTEM, blaSHV, bla CTX-M and blaAmpC ). The phylogenetic relationship was determined by RAPD-PCR method. Among the drugs tested, the highest percentages of resistance were to amoxicillin (35.3%) and to sulfonamide (15.7%). Eleven antimicrobial resistance patterns were identified (A1 to A11), none of them presented a multiresistance profile (> 3 antimicrobials classes). There was 100% of positivity for the agfA gene, 92.2% for the lpfA gene, and no strain presented the sefA gene. Most of the isolates showed similarities in virulence potential, since they were simultaneously positive for two studied genes, agfA and lpfA (92.2%, 47/51). Of the 18 (35.3%) strains resistant to antimicrobials of the -lactam class, 10 (55.5%) were positive to blaAmpC gene, five (27.8%) for blaCTX-M , two (11.1%) to blaSHV and no strain presented the blaTEM gene. The phylogenetic evaluation has shown the presence of five clusters (A, B, C, D and E) with similarity greater than 80%, and three distinct strains which were not grouped in any cluster. Cluster B grouped 33 strains, all positive for lpfA and agfA genes, from both, the broiler farming facility and the slaughterhouse, persistent throughout all the study period. This cluster also grouped 18 strains clones with genetic similarity greater than 99%, all isolated in the slaughterhouse. The presence of virulence genes associated with persistent strains clones for a long period, warns to the possibility of S. Infantis to form biofilm, and should be constantly monitored in broilers production chain, in order to know the profile of the strains that may contaminate the final product and evaluate the hazards that represents to public health.
RESUMO: Salmonella Infantis é frequentemente associada a infecções humanas no mundo todo sendo transmitida pelo consumo de alimentos contaminados, principalmente aqueles de origem animal, com destaque para a carne de frango. Objetivou-se avaliar características de virulência, resistência antimicrobiana e a similaridade genética de 51 estirpes de S. Infantis isoladas em amostras de origem avícola. As estirpes foram isoladas no período de 2009 a 2010 em uma empresa com ciclo completo de produção de frango de corte, localizada no estado de São Paulo, Brasil. Foi realizado o teste de susceptibilidade antimicrobiana e pela técnica de PCR, foi avaliada a presença dos genes lpfA (fímbria-adesão), agfA (fímbria-biofilme) e sefA (fímbria-adesão) e os genes de resistência aos beta-lactâmicos (bla TEM, blaSHV, blaCTX-M e blaAmpC ). A relação filogenética foi determinada pelo método de RAPD-PCR. Dentre as drogas testadas, os maiores percentuais de resistência foram para amoxacilina com 35,3% e sulfonamida com 15,7%. Onze perfis de resistência aos antimicrobianos foram identificados (A1 a A11), sendo que nenhum deles apresentou perfil de multirresistência (>3 classes de antimicrobianos). Houve 100% de positividade para o gene agfA, 92,2% para o gene lpfA e nenhuma estirpe apresentou o gene sefA. A maioria dos isolados apresentaram semelhanças no potencial de virulência, pois foram positivos simultaneamente para dois genes estudados, agfA e lpfA (92,2% - 47/51). Das 18 (35,3%) estirpes resistentes aos antimicrobianos da classe dos -lactâmicos, 10 (55,5%) foram positivas para o gene blaAmpC , cinco (27,8%) para blaCTX-M , duas (11,1%) para blaSHV e nenhuma estirpe apresentou o gene bla TEM . A avaliação filogenética demonstrou a presença de cinco clusters (A, B, C, D e E) com similaridade superior a 80%, e três estirpes distintas que não foram agrupadas em nenhum dos clusters. O cluster B agrupou 33 estirpes, todas positivas para os genes lpfA e agfA, provenientes tanto do aviário quanto do matadouro frigorífico, persistentes durante todo o período do estudo. Este cluster ainda agrupou 18 estirpes clones com similaridade genética superior a 99%, todas isoladas no matadouro frigorífico. A presença dos genes de virulência, associada à persistência das estirpes clones durante um longo período do estudo, alertam para a possibilidade de S. Infantis em formar biofilme, devendo ser constantemente monitorada na cadeia de produção avícola, especialmente no ambiente de abate, de forma a conhecer o perfil das estirpes que podem contaminar o produto final e assim avaliar os perigos que representam para a saúde pública.
ABSTRACT
Little is known about Salmonella biofilm assembly, making the prevention of the disease a challenge in the poultry production chain. The objective of the present study was then to evaluate biofilm formation from different serotypes of Salmonella spp. in both polystyrene plates and eggshells. Salmonella Gallinarum and S. Minnesota were both classified as producers of biofilms of moderate intensity. Interestingly, S. Gallinarum produces biofilm even though being a serotype without flagellum and not having the lux gene in its genome, suggesting that there might be other important structures and genes associated with biofilm formation. Regarding Enteritidis, Typhimurium, Typhimurium variant, and Heidelberg serotypes, despite having high counts, BFI (Biofilm Formation Index) showed low biofilm production, probably due to the scarcity of extracellular matrix produced by such strains. A turkey eggshell model was then used for S. Enteritidis and S. Heidelberg biofilm formation. The results from the microbial count and scanning electron microscopy showed that Salmonella serotypes were also able to generate biofilm in eggshells, suggesting the presence of biofilms in poultry producing farms, a main concern for the poultry production industry.
Subject(s)
Biofilms/growth & development , Poultry/microbiology , Salmonella Infections, Animal/microbiology , Salmonella/classification , Salmonella/growth & development , Animals , Bacterial Adhesion/physiology , Egg Shell/microbiology , Farms , Food MicrobiologyABSTRACT
To improve the understanding of implications of Campylobacter spp. infections in pets and children of different environments were analysed 160 faecal samples from children and 120 from pets (103 dogs and 17 cats). Campylobacter spp. were detected in 6.87% of the children and in 18.3% of the dogs and cats. From 33 stool samples positive for Campylobacter spp., 57.6% were identified as C. jejuni, and 33.4% were identified as C. coli. More than 50% of the isolates in pets were resistant to ceftiofur, sulphazotrim, norfloxacin and tetracycline. In humans, most of the isolates were resistant to amoxicillin, cefazolin, ceftiofur, erythromycin and norfloxacin. From 19 isolates of C. jejuni, 11 isolates from children and 5 from dogs contained two to four of the virulence genes flaA, pldA, cadF or ciaB. We found an association between the presence of virulence genes and diarrhoea. Furthermore, an association was observed between the presence of Campylobacter spp. and diarrhoea in dewormed pets with blood picture suggestive of bacterial infection, and the therapeutic use of antibiotics was associated with more positive detection of Campylobacter spp. in the faeces of pets. Our data indicate that virulent strains of Campylobacter spp. can be risk factor to diarrhoea in animals, and that high resistance to antimicrobial agents is common in pets.(AU)
Com o objetivo de melhorar o entendimento das infecções por Campylobacter spp. em cães, gatos e crianças no Brasil, foram avaliadas 160 amostras fecais de crianças e 120 swabs retais de pets (103 cães e 17 gatos). Do total das amostras das crianças, 6,87% foram positivas para Campylobacter spp. e em cães e gatos a positividade foi de 18,3%. Das 33 amostras positivas para Campylobacter spp., 57,6% foram identificadas como C. jejuni e 33,4% foram identificadas como C. coli. Mais de 50% das amostras isoladas de pets foram resistentes a ceftiofur, sulphazotrim, norfloxacina e tetraciclina. Em crianças, a maioria das amostras foi resistente a amoxilina, cefazolina, ceftiofur, eritromicina e norfloxacina. De 19 isolados de C. jejuni, 11 isolados de crianças e cinco (5) de cães tinham dois (2) dos quatro (4) genes de virulência flaA, pldA, cadF or ciaB. Associação positiva entre a presença de Campylobacter spp. e diarreia em cães e gatos foi observada em animais desverminados e com hemograma sugestivo de infecção bacteriana. Também houve associação positiva entre a presença dos genes de virulência e a ocorrência de diarreia, e entre o uso de antibióticos e a positividade para Campylobacter spp. em suabes fecais de pets. Os dados desse trabalho indicam que cepas virulentas de Campylobacter spp. são fatores de risco para diarreia em cães e a resistência antimicrobiana é comum em isolados de cães.(AU)
Subject(s)
Animals , Child , Cats , Dogs , Campylobacter/classification , Campylobacter/pathogenicityABSTRACT
To improve the understanding of implications of Campylobacter spp. infections in pets and children of different environments were analysed 160 faecal samples from children and 120 from pets (103 dogs and 17 cats). Campylobacter spp. were detected in 6.87% of the children and in 18.3% of the dogs and cats. From 33 stool samples positive for Campylobacter spp., 57.6% were identified as C. jejuni, and 33.4% were identified as C. coli. More than 50% of the isolates in pets were resistant to ceftiofur, sulphazotrim, norfloxacin and tetracycline. In humans, most of the isolates were resistant to amoxicillin, cefazolin, ceftiofur, erythromycin and norfloxacin. From 19 isolates of C. jejuni, 11 isolates from children and 5 from dogs contained two to four of the virulence genes flaA, pldA, cadF or ciaB. We found an association between the presence of virulence genes and diarrhoea. Furthermore, an association was observed between the presence of Campylobacter spp. and diarrhoea in dewormed pets with blood picture suggestive of bacterial infection, and the therapeutic use of antibiotics was associated with more positive detection of Campylobacter spp. in the faeces of pets. Our data indicate that virulent strains of Campylobacter spp. can be risk factor to diarrhoea in animals, and that high resistance to antimicrobial agents is common in pets.(AU)
Com o objetivo de melhorar o entendimento das infecções por Campylobacter spp. em cães, gatos e crianças no Brasil, foram avaliadas 160 amostras fecais de crianças e 120 swabs retais de pets (103 cães e 17 gatos). Do total das amostras das crianças, 6,87% foram positivas para Campylobacter spp. e em cães e gatos a positividade foi de 18,3%. Das 33 amostras positivas para Campylobacter spp., 57,6% foram identificadas como C. jejuni e 33,4% foram identificadas como C. coli. Mais de 50% das amostras isoladas de pets foram resistentes a ceftiofur, sulphazotrim, norfloxacina e tetraciclina. Em crianças, a maioria das amostras foi resistente a amoxilina, cefazolina, ceftiofur, eritromicina e norfloxacina. De 19 isolados de C. jejuni, 11 isolados de crianças e cinco (5) de cães tinham dois (2) dos quatro (4) genes de virulência flaA, pldA, cadF or ciaB. Associação positiva entre a presença de Campylobacter spp. e diarreia em cães e gatos foi observada em animais desverminados e com hemograma sugestivo de infecção bacteriana. Também houve associação positiva entre a presença dos genes de virulência e a ocorrência de diarreia, e entre o uso de antibióticos e a positividade para Campylobacter spp. em suabes fecais de pets. Os dados desse trabalho indicam que cepas virulentas de Campylobacter spp. são fatores de risco para diarreia em cães e a resistência antimicrobiana é comum em isolados de cães(AU)
Subject(s)
Humans , Animals , Infant , Child, Preschool , Child , Cats , Dogs , Campylobacter/isolation & purification , Campylobacter Infections/veterinary , Campylobacter Infections/epidemiology , Virulence Factors , DysenteryABSTRACT
Salmonella spp. é um importante patógeno zoonótico que pode ser disseminado ao longo da cadeia produtiva de suínos. Objetivou-se avaliar a incidência de Salmonella spp. em fezes de suínos de terminação na granja, no pré-abate e amostras ambientais, identificar os sorovares e estabelecer a relação filogenética entre os isolados. Foram realizadas três coletas em lotes diferentes de suínos alojados na granja de terminação e nos mesmos animais após o transporte ao frigorífico totalizando 90 parcelas e 9 amostras ambientais. O transporte não influenciou na porcentagem de isolamento do microrganismo (p>0,05). Das 99 amostras, 50 (50,5 por cento) foram identificados como Salmonella spp., sendo identificado uma multiplicidade de sorovares: Agona (30 por cento), Typhimurium (26 por cento), Minnesota (24 por cento), Infantis (18 por cento) e Panama (2 por cento). Os dendrogramas demonstraram homologia entre isolados dos diferentes sorovares agrupados em clusters. A similaridade foi independente do local de isolamento indicando a presença de vários clones. As principais fontes de infecção determinadas foram a contaminação cruzada entre animais e ambiente e o consumo de ração contaminada. A diversidade de sorovares e a homologia entre eles indicam origem comum, demonstrando necessidade de monitoramento de bactérias zoonóticas e de implantação de medidas de controle mais eficazes para Salmonella spp. em suínos.(AU)
Salmonella spp. is an important zoonotic pathogen that can spread along the production chain of swines. The objective was to evaluate the incidence of Salmonella spp. in feces of swines in termination phase in the farm, in the pre-slaughter and environmental samples, identify the serotypes and establish a phylogenetic relationship among the isolates. Three collections were done in different batches of pigs housed in the termination pen and in the same animals after transport to the slaughterhouse totaling 90 plots and 9 environmental samples. The transport does not influenced the percentage of isolation of the microorganism (p>0.05). Of the total of 99 samples, 50 (50.5 percent) were identified as Salmonella spp., and was identified a variety of serovars: Agona (30 percent), Typhimurium (26 percent), Minnesota (24 percent), Infantis (18 percent) and Panama (2 percent). Dendrograms showed homology among isolates of different serovars grouped into clusters. The similarity was independent of the local of isolation, indicating the presence of several clones. The main sources of infection were cross-contamination between animals and environment and the consumption of contaminated feed. The diversity of strains and homology among the isolates indicates a common origin, demonstrating a need for monitoring of zoonotic bacterias and the deployment of more effective control measures for Salmonella spp. in swines.(AU)
Subject(s)
Animals , Salmonella/isolation & purification , Swine/microbiology , Feces/microbiology , Random Amplified Polymorphic DNA Technique/veterinary , Food Contamination/analysis , Environmental Pollution/analysisABSTRACT
Salmonella spp. é um importante patógeno zoonótico que pode ser disseminado ao longo da cadeia produtiva de suínos. Objetivou-se avaliar a incidência de Salmonella spp. em fezes de suínos de terminação na granja, no pré-abate e amostras ambientais, identificar os sorovares e estabelecer a relação filogenética entre os isolados. Foram realizadas três coletas em lotes diferentes de suínos alojados na granja de terminação e nos mesmos animais após o transporte ao frigorífico totalizando 90 parcelas e 9 amostras ambientais. O transporte não influenciou na porcentagem de isolamento do microrganismo (p>0,05). Das 99 amostras, 50 (50,5 por cento) foram identificados como Salmonella spp., sendo identificado uma multiplicidade de sorovares: Agona (30 por cento), Typhimurium (26 por cento), Minnesota (24 por cento), Infantis (18 por cento) e Panama (2 por cento). Os dendrogramas demonstraram homologia entre isolados dos diferentes sorovares agrupados em clusters. A similaridade foi independente do local de isolamento indicando a presença de vários clones. As principais fontes de infecção determinadas foram a contaminação cruzada entre animais e ambiente e o consumo de ração contaminada. A diversidade de sorovares e a homologia entre eles indicam origem comum, demonstrando necessidade de monitoramento de bactérias zoonóticas e de implantação de medidas de controle mais eficazes para Salmonella spp. em suínos.
Salmonella spp. is an important zoonotic pathogen that can spread along the production chain of swines. The objective was to evaluate the incidence of Salmonella spp. in feces of swines in termination phase in the farm, in the pre-slaughter and environmental samples, identify the serotypes and establish a phylogenetic relationship among the isolates. Three collections were done in different batches of pigs housed in the termination pen and in the same animals after transport to the slaughterhouse totaling 90 plots and 9 environmental samples. The transport does not influenced the percentage of isolation of the microorganism (p>0.05). Of the total of 99 samples, 50 (50.5 percent) were identified as Salmonella spp., and was identified a variety of serovars: Agona (30 percent), Typhimurium (26 percent), Minnesota (24 percent), Infantis (18 percent) and Panama (2 percent). Dendrograms showed homology among isolates of different serovars grouped into clusters. The similarity was independent of the local of isolation, indicating the presence of several clones. The main sources of infection were cross-contamination between animals and environment and the consumption of contaminated feed. The diversity of strains and homology among the isolates indicates a common origin, demonstrating a need for monitoring of zoonotic bacterias and the deployment of more effective control measures for Salmonella spp. in swines.