Global ETD Search

1	In Vitro Interactions of Amikacin and Beta-Lactam Antibiotics Against Amikacin-Resistant Gram-Negative Bacilli Alvarez, Salvador, Jones, Mary, Holtsclaw-Berk, Shirley, Berk, Steven L. 01 January 1988 (has links) We tested 42 strains of amikacin-resistant gram-negative bacilli with amikacin in combination with six beta-lactam antibiotics using the checkerboard and time kill curve techniques. Synergism was demonstrated with time-killing curve in 43-68% of the strains tested. Ceftazidime plus amikacin was the most active combination by the checkerboard technique, while amikacin-cefoperazone was the most active combination by the time-killing curve technique against Pseudomonas aeruginosa. Discrepancies were found between the results of the two methods used. amikacin-resistant gram-negative bacilli aminoglycosides beta-lactams
2	Avaliação da multirresistência a antibióticos e produção de ESBL e carbapenemases em bacilos gram-negativos de efluente hospitalar e urbano / Evaluation of antibiotic multi-resistance and production of ESBL and carbapenemases in gram-negative bacilli of hospital and urban effluent Zagui, Guilherme Sgobbi 29 March 2019 (has links) A multirresistência aos antibióticos observada em bacilos gram-negativos é um grave problema de saúde pública devido a alta morbidade e mortalidade apresentada, especialmente em instituições assistenciais de saúde. Como consequência do intenso uso de antibióticos, a multirresistência a esses fármacos é principalmente mediada por enzimas hidrolisantes, onde destaca-se as enzimas ?-lactamases, principal mecanismo de resistência aos ?-lactâmicos verificado em bacilos gram-negativos. Os esgotos de origem hospitalar e de estações de tratamento de esgoto (ETE) são considerados como reservatórios de bactérias multirresistentes pela presença de antibióticos que as selecionam e por favorecem a transmissão de determinantes de resistência. Nesse sentido, o presente estudo objetivou avaliar a multirresistência a antibióticos e a produção de enzimas ?-lactamases em bacilos gram-negativos isolados de efluente hospitalar e da estação de tratamento de esgoto, na cidade de Ribeirão Preto, SP. No hospital terciário, amostras de esgotos foram coletadas dos ambulatórios, das enfermarias e da junção do esgoto hospitalar. Na ETE, amostras foram coletadas na caixa de entrada do esgoto bruto e após ao tratamento. Dez microlitros foram semeados em ágar MacConkey, SalmonellaShigella, Cetrimide e TCBS e a identificação dos bacilos gram-negativos foi realizada pelo kit Bactray®. O teste de susceptibilidade aos antibióticos foi realizado pelo método de discodifusão em ágar. A detecção fenotípica de bacilos produtores de ESBL foi realizada pelos testes de sinergia de disco-duplo e disco combinado com ácido clavulânico, e para detecção de isolados produtores de carbapenemases foi utilizado os testes de disco combinado com ácido fenilborônico e EDTA e o teste Blue Carba. A PCR foi utilizada para amplificação dos genes codificadores de ESBL e carbapenemases. No total, 45 bacilos gram-negativos foram isolados, sendo as espécies Klebsiella pneumoniae e Pseudomonas aeruginosa as de maiores prevalências. Ampla resistência foi verificada aos antibióticos ?-lactâmicos, sendo a resistência ao aztreonam, a cefepime e a cefotaxima mais expressiva nos isolados do esgoto hospitalar, com diferenças estatisticamente significante (p<0,05). O fenótipo multidroga resistente foi atribuído a 33,3%, nos isolados exclusivamente do esgoto hospitalar, com diferença estatisticamente significante (p = 0,0025) em relação aos isolados do esgoto da ETE. Genes de ?-lactamases foram encontrados em 35,6% das bactérias, sendo o blaKPC e blaTEM os de maiores ocorrências, ambos em 17,8% dos isolados, e os genes blaSHV e blaCTX-M em 13,3% e 8,9%. Somente em um isolado de Enterobacter cloacae no esgoto tratado da ETE foi identificado o gene blaSHV, os demais isolados portadores dos genes de ?-lactamases foram encontrados no esgoto hospitalar. Os dados obtidos neste estudo são importantes levando em consideração que no Brasil o esgoto hospitalar pode ser lançado in natura na rede coletora municipal, no entanto, acredita-se que tal permissão favorece a disseminação da multirresistência bacteriana, posto que, os resultados demonstram alta frequência de bactérias portadoras de genes de resistência a antibióticos no esgoto hospitalar estudado. Assim, a implementação do tratamento de efluentes hospitalares, especialmente os de hospitais terciários, e adicionalmente ao tratamento da ETE evitaria a propagação dessas bactérias no ambiente e de impactar negativamente os recursos hídricos / Antibiotic multi-resistance observed in Gram-negative bacilli is a serious public health problem due to high morbidity and mortality, especially in health care institutions. As a consequence of the intense use of antibiotics, multi-resistance to these drugs is mainly mediated by hydrolyzing enzymes, in which ?-lactamases, the main ?-lactam resistance mechanism observed in Gramnegative bacilli, are prominent. Hospital sewage and wastewater treatment plants (WWTP) are considered reservoirs of multiresistant bacteria by the presence of antibiotics that select these bacteria and favor the transmission of resistance determinants. In this sense, the present study aimed to evaluate the antibiotics multi-resistance and the production of ?-lactamase enzymes in Gram-negative bacilli isolated from hospital effluent and the wastewater treatment plants in Ribeirão Preto city, SP. In the tertiary hospital, sewage samples from the outpatient clinics, rooms patients and the hospital sewage junction were collected. In the WWTP, raw and treated sewage were collected. Ten microliters were seeded on MacConkey, Salmonella-Shigella, Cetrimide and TCBS agar and the identification of Gram-negative bacilli was performed by the Bactray® kit. Antibiotic susceptibility test was performed by agar-diffusion method. Phenotypic detection of ESBL-producing bacilli was performed by double-disc and discsynergy tests combined with clavulanic acid, and for the detection of carbapenemase-producing isolates the combined disk tests with phenylboronic acid and EDTA and Blue Carba test were used. PCR amplification of ESBL and carbapenemases-encoding genes was used. In total, 45 Gram-negative bacilli were isolated, and Klebsiella pneumoniae and Pseudomonas aeruginosa being the most prevalent. Extensive resistance was verified to ?-lactam antibiotics and resistance to aztreonam, cefepime and cefotaxime was more pronounced in hospital sewage isolates, with statistically significant differences (p<0.05). Multidrug-resistant phenotype was attributed to 33.3% in isolates exclusively from hospital sewage, with a statistically significant difference (p = 0.0025) in relation to the sewage isolates from the WWTP. ?-lactamase genes were found in 35.6% of the bacteria, with blaKPC and blaTEM having the highest occurrences, both in 17.8% of the isolates, and the blaSHV and blaCTX-M genes in 13.3% and 8, 9%. Only in an isolate of Enterobacter cloacae in the treated sewage from WWTP was the blaSHV gene identified, the other isolates carrying the ?-lactamases genes were found in hospital sewage. The data obtained in this study are important considering that in Brazil the hospital sewage can be released in nature in municipal collection network, however, it is believed that such permission favors the dissemination of bacterial multi-resistance, since, the results show high frequency of bacteria carrying antibiotic resistance genes in the hospital sewer studied. Thus, the implementation of treatment of hospital effluents, especially those in tertiary hospitals, and in addition to the treatment of WWTP would prevent the spread of these bacteria in the environment and negatively impact water resources Bacilos Gram-Negativos Carbapenemases Carbapenemases ESBL ESBL Esgoto Gram-Negative Bacilli Multiresistant Bacteria Multirresistência Bacteriana Sewer
3	Uso de simbiótico para prevenção de infecções hospitalares em pacientes colonizados e/ou infectados por bacilos Gram-negativos multirresistentes / Use of a symbiotic product to prevent nosocomial infections in patients colonized and/or infected by multi-resistant Gram-negative bacilli. Mariana Corrêa Coelho Salomão 27 February 2015 (has links) Nas últimas décadas, a incidência de infecções hospitalares causadas por bactérias Gram-negativas multirresistentes vem crescendo de maneira vertiginosa em todo o mundo, de modo que a Organização Mundial de Saúde (OMS) recentemente reconheceu essas infecções como uma preocupação mundial devido ao seu impacto negativo sobre as taxas de mortalidade intra-hospitalar e dos custos da assistência à saúde, afetando tanto os países desenvolvidos quanto os em desenvolvimento. Atualmente considera-se que o uso racional de antimicrobianos, a higienização das mãos e o isolamento de contato são as principais medidas disponíveis para contenção desse avanço. Porém, elas são apenas parcialmente efetivas e de implementação trabalhosa e onerosa. Assim, considera-se necessário o desenvolvimento de formas mais simples e eficientes para lidar com esse problema. No presente estudo, nos propusemos a avaliar o impacto da administração de um produto simbiótico a pacientes colonizados e/ou infectados por bactérias Gram-negativas multirresistentes sobre a incidência subsequente de infecções hospitalares relacionadas ao trato respiratório e urinário. Trata-se de um ensaio clínico randomizado, duplamente cego, controlado com placebo, cuja intervenção consistiu na administração oral ou enteral diária de 1010 unidades de Lactobacillus bulgaricus e 1010 unidades de Lactobacillus rhamnosus associados a fruto-oligosacarídeos durante 7 dias, a pacientes internados em um hospital terciário, com colonização prévia por bactérias Gram-negativas multirresistentes, demonstrada por meio de cultura seletiva de swab retal. O desfecho primário do estudo foi a incidência de infecção hospitalar posterior à intervenção, que, na análise do tipo intenção de tratar foi 18/48 (37,50%) no grupo experimental e 12/53 (22,64%) no grupo controle (odds ratio ajustado=1,95, IC95%=0,69-5,50, p=0,21). Os desfechos secundários principais, também de acordo com a análise intenção de tratar, foram: o tempo de internação hospitalar; sendo a mediana de 17 dias no grupo controle e 31 dias no grupo experimental (p= 0,07), taxas de óbito; com valores de 3,77% no grupo placebo e 8,33% no grupo simbiótico (odds ratio ajustado = 1,34, IC95%= 0,454,00, p= 0,61) e ocorrência de eventos adversos; 7,55% no grupo que utilizou placebo e 6,25% no grupo sob intervenção (p= 1,00). Os dados obtidos pelo estudo nos levam à conclusão de que o simbiótico estudado demonstrou-se inefetivo na prevenção de infecções hospitalares do trato respiratório e urinário em pacientes colonizados e/ou infectados por bactérias Gram-negativas multirresistentes. / In recent decades the incidence of multidrug resistant Gram-negative nosocomial infections has been dramatically raising in the whole world. The World Health Organization (WHO) recently recognized nosocomial infections as a global concern due to its negative impact on patients, health care workers and health care institutions, affecting developed countries as well as developing ones. They negatively impact in-hospital mortality and healthcare related costs. Antibiotic stewardship, hand hygiene promotion and contact precautions are the main available measures to control such multidrug resistant Gram-negative organisms in hospitals. However, they are only partially effective as well as difficult to be implemented and expensive. Therefore, simpler and more effective actions are thought to be helpful and urgent. In the main study, we propose to analyze the impact of the administration of a symbiotic product on patients colonized and/or infected by Gram-negative multidrug resistant bacteria upon the subsequent incidence of respiratory and urinary tract nosocomial infections. A randomized, double- blinded, placebo controlled, clinical trial was proposed in order to provide oral or enteral daily administration of 1010 units of Lactobacillus bulgaricus and 1010 units of L. rhamnosus associated with fructo-oligosacharide (FOS) during 7 days, to previously colonized patients with multi-resistant Gram-negative bacteria, identified through selective culture of rectal swab, hospitalized in a tertiary-care hospital. The primary outcome was the incidence of nosocomial infections after the intervention, which in the intention to treat analysis was 18/48 (37,50%) in the experimental group versus 12/53 (22,64%) in the control group (adjusted odds ratio= 1,95, IC95%= 0,69-5,50, p=0,21). Secondary outcomes, according to intention to treat analysis, were hospital length of stay: median of 17 days in the control group and 31 days in the symbiotic group (p= 0,07), mortality rates: 3,77% in the placebo group versus 8,33% in the experimental group (adjusted odds ratio = 1,34, IC95%= 0,45 4,00, p= 0,61) and adverse effects: 7,55% in the control group and 6,25% in the intervention group (p= 1,00). The results of this study leads to the conclusion that the studied symbiotic proved to be ineffective to prevent nosocomial respiratory and urinary tract infections in patients colonized and/or infected by Gram-negative multi-resistant bacteria. Bacilos Gram-negativos Infecção hospitalar Prebiótico Probiótico Simbiótico Gram-negative bacilli Nosocomial infection Prebiotic Probiotic Symbiotic
4	Uso de simbiótico para prevenção de infecções hospitalares em pacientes colonizados e/ou infectados por bacilos Gram-negativos multirresistentes / Use of a symbiotic product to prevent nosocomial infections in patients colonized and/or infected by multi-resistant Gram-negative bacilli. Salomão, Mariana Corrêa Coelho 27 February 2015 (has links) Nas últimas décadas, a incidência de infecções hospitalares causadas por bactérias Gram-negativas multirresistentes vem crescendo de maneira vertiginosa em todo o mundo, de modo que a Organização Mundial de Saúde (OMS) recentemente reconheceu essas infecções como uma preocupação mundial devido ao seu impacto negativo sobre as taxas de mortalidade intra-hospitalar e dos custos da assistência à saúde, afetando tanto os países desenvolvidos quanto os em desenvolvimento. Atualmente considera-se que o uso racional de antimicrobianos, a higienização das mãos e o isolamento de contato são as principais medidas disponíveis para contenção desse avanço. Porém, elas são apenas parcialmente efetivas e de implementação trabalhosa e onerosa. Assim, considera-se necessário o desenvolvimento de formas mais simples e eficientes para lidar com esse problema. No presente estudo, nos propusemos a avaliar o impacto da administração de um produto simbiótico a pacientes colonizados e/ou infectados por bactérias Gram-negativas multirresistentes sobre a incidência subsequente de infecções hospitalares relacionadas ao trato respiratório e urinário. Trata-se de um ensaio clínico randomizado, duplamente cego, controlado com placebo, cuja intervenção consistiu na administração oral ou enteral diária de 1010 unidades de Lactobacillus bulgaricus e 1010 unidades de Lactobacillus rhamnosus associados a fruto-oligosacarídeos durante 7 dias, a pacientes internados em um hospital terciário, com colonização prévia por bactérias Gram-negativas multirresistentes, demonstrada por meio de cultura seletiva de swab retal. O desfecho primário do estudo foi a incidência de infecção hospitalar posterior à intervenção, que, na análise do tipo intenção de tratar foi 18/48 (37,50%) no grupo experimental e 12/53 (22,64%) no grupo controle (odds ratio ajustado=1,95, IC95%=0,69-5,50, p=0,21). Os desfechos secundários principais, também de acordo com a análise intenção de tratar, foram: o tempo de internação hospitalar; sendo a mediana de 17 dias no grupo controle e 31 dias no grupo experimental (p= 0,07), taxas de óbito; com valores de 3,77% no grupo placebo e 8,33% no grupo simbiótico (odds ratio ajustado = 1,34, IC95%= 0,454,00, p= 0,61) e ocorrência de eventos adversos; 7,55% no grupo que utilizou placebo e 6,25% no grupo sob intervenção (p= 1,00). Os dados obtidos pelo estudo nos levam à conclusão de que o simbiótico estudado demonstrou-se inefetivo na prevenção de infecções hospitalares do trato respiratório e urinário em pacientes colonizados e/ou infectados por bactérias Gram-negativas multirresistentes. / In recent decades the incidence of multidrug resistant Gram-negative nosocomial infections has been dramatically raising in the whole world. The World Health Organization (WHO) recently recognized nosocomial infections as a global concern due to its negative impact on patients, health care workers and health care institutions, affecting developed countries as well as developing ones. They negatively impact in-hospital mortality and healthcare related costs. Antibiotic stewardship, hand hygiene promotion and contact precautions are the main available measures to control such multidrug resistant Gram-negative organisms in hospitals. However, they are only partially effective as well as difficult to be implemented and expensive. Therefore, simpler and more effective actions are thought to be helpful and urgent. In the main study, we propose to analyze the impact of the administration of a symbiotic product on patients colonized and/or infected by Gram-negative multidrug resistant bacteria upon the subsequent incidence of respiratory and urinary tract nosocomial infections. A randomized, double- blinded, placebo controlled, clinical trial was proposed in order to provide oral or enteral daily administration of 1010 units of Lactobacillus bulgaricus and 1010 units of L. rhamnosus associated with fructo-oligosacharide (FOS) during 7 days, to previously colonized patients with multi-resistant Gram-negative bacteria, identified through selective culture of rectal swab, hospitalized in a tertiary-care hospital. The primary outcome was the incidence of nosocomial infections after the intervention, which in the intention to treat analysis was 18/48 (37,50%) in the experimental group versus 12/53 (22,64%) in the control group (adjusted odds ratio= 1,95, IC95%= 0,69-5,50, p=0,21). Secondary outcomes, according to intention to treat analysis, were hospital length of stay: median of 17 days in the control group and 31 days in the symbiotic group (p= 0,07), mortality rates: 3,77% in the placebo group versus 8,33% in the experimental group (adjusted odds ratio = 1,34, IC95%= 0,45 4,00, p= 0,61) and adverse effects: 7,55% in the control group and 6,25% in the intervention group (p= 1,00). The results of this study leads to the conclusion that the studied symbiotic proved to be ineffective to prevent nosocomial respiratory and urinary tract infections in patients colonized and/or infected by Gram-negative multi-resistant bacteria. Bacilos Gram-negativos Gram-negative bacilli Infecção hospitalar Nosocomial infection Prebiotic Prebiótico Probiotic Probiótico Simbiótico Symbiotic
5	Study The Change Of Blood Enteric Bacterial DNA Load In Patients With Systemic Inflammatory Response Syndrome Yang, Ming-chieh 12 September 2012 (has links) Early detection of infection, identification of microorganism, and correct choice of antibiotics are critical in the management of sepsis. Quantitative real-time polymerase chain reaction (RT-PCR) has the potential to improve the timeliness, sensitivity, and accuracy of detecting pathogens. In this study we utilize this method to detect the enteric bacterial counts in the blood from patients with systemic inflammatory response syndrome (SIRS) in the emergency department (ED). The universal primers utilized in RT-PCR are specific for 23S ribosomal DNA (rDNA) and wec F gene. The results show that in SIRS patients with positive culture results from specimen collected within 10 days after presenting to ED, and patients surviving for less than 28 days, the serum bacterial DNA load of enteric Gram negative bacilli is higher. In SIRS patients with shock, patients fulfilling both white blood cell counts and respiratory criteria of SIRS, and patients fulfilling both white blood cell counts and respiratory criteria of SIRS with Acute Physiology and Chronic Health Evaluation II score more than 20, the serum bacterial DNA load of enteric Gram negative bacilli and 28-day mortality are both higher. These results suggest that bacterial translocation may happen in patients with SIRS and may be related to higher mortality in patients with SIRS. sepsis bacterial translocation systemic inflammatory response syndrome real-time polymerase chain reaction Gram negative bacilli
6	Uso de simbiótico para descolonização de pacientes hospitalizados portadores de bacilos Gram-negativos multidrogarresistentes / Use of a symbiotic product to decolonize patients harboring multidrug-resistant Gram-negative bacilli Heluany Filho, Mário Augusto 10 June 2016 (has links) Nas últimas décadas, a incidência de infecções hospitalares causadas por bactérias Gramnegativas multidrogarresistentes (MDR) vem crescendo de maneira vertiginosa em todo o mundo, de modo que a Organização Mundial de Saúde (OMS) recentemente reconheceu essas infecções como uma preocupação mundial devido ao seu impacto negativo sobre as taxas de mortalidade intra-hospitalar e dos custos da assistência à saúde, afetando tanto os países desenvolvidos quanto os em desenvolvimento. Atualmente considera-se que a higienização das mãos, o uso racional de antimicrobianos e o isolamento de contato são as principais medidas disponíveis para contenção desse avanço. Porém, elas são apenas parcialmente efetivas e de implementação trabalhosa e onerosa. Assim, considera-se necessário o desenvolvimento de formas mais simples e eficientes paralidar com esse problema. No presente estudo, nos propusemos a avaliar o impacto da administração de um produto simbiótico a pacientes colonizados e/ou infectados por bactérias Gram-negativas MDR sobre as taxas de descolonização desses patógenos no trato digestivo. Trata-se de um ensaio clínico randomizado, duplamente cego, controlado com placebo, envolvendo 101 pacientes hospitalizados com colonização prévia por bactérias Gram-negativas MDR, demonstrada por meio de cultura seletiva de swab retal, cuja intervenção consistiu na administração oral ou enteral diária de 1010 unidades de Lactobacillus bulgaricus e 1010 unidades de Lactobacillus rhamnosus associados a fruto-oligossacarídeos durante (FOS) 7 dias. O desfecho primário do estudo foi a descolonização completa do trato digestivo posterior à intervenção, que, na análise do tipo \"intenção de tratar modificada\" foi de 16,7% (8/48) no grupo experimental e 20,7% (11/53) no grupo controle (p=0,600). Na análise \"per protocol\", a descolonização completa do trato observada foi de 18,9% (7/37) no grupo experimental e 23,3% (7/30) no grupo controle (p=0,659). Em uma análise multivariada por meio de modelo de regressão logística o uso do simbiótico não influenciou significativamente o risco de descolonização completa do trato digestivo (OR= 0,80, IC 95%= 0,28-2,27, p= 0,678). A ocorrência de eventos adversos de natureza leve a moderada foi semelhante entre os grupos: 7,55% no grupo que utilizou placebo e 6,25% no grupo sob intervenção (p= 1,000). Nenhum evento adverso grave potencialmente relacionado às medicações de estudo foi observado. Nas condições estudadas, os dados obtidos pelo estudo nos levam à conclusão de que o simbiótico estudado demonstrou-se inefetivo na descolonização do trato digestivo de pacientes previamente colonizados por bactérias Gram-negativas MDR. / In recent decades the incidence of multidrug resistant (MDR) Gram-negative nosocomial infections has been dramatically raising in the whole world. The World Health Organization (WHO) recently recognized nosocomial infections due to MDR pathogens as a global concern due to its negative impact on patients, health-care workers and health-care institutions, affecting developed countries as well as developing ones. They negatively impact in-hospital mortality and health-care related costs. Hand hygiene promotion, antibiotic stewardship and contact precautions are the main available measures to control such MDR Gram-negative organisms in hospitals. However, they are only partially effective as well as difficult to be implemented and expensive. Therefore, simpler and more effective actions are thought to be helpful and urgent. In the present study, we analyzed the impact of the administration of a symbiotic product on patients harboring Gram-negative multidrug-resistant bacteria upon the subsequent rates of decolonization of these pathogens from the gastro-intestinal tract.This is a double-blinded and placebo controlled randomized clinical trial evaluating the oral/enteral daily administration of 1010 units of Lactobacillus bulgaricusplus 1010 units of Lactobacillus rhamnosus associated with fructo-oligosacharide (FOS), or placebo, for 7 days, to 101 patients previously colonized by MDR Gram-negative bacteria, identified through selective culture of rectal swab. The primary study outcome was the rate of complete decolonization of the MDR microorganism from the gastro-intestinal tract following the intervention. In the \"modified intention to treat\" analysis, decolonization rates observed were 16.7% (8/48) in the experimental group and 20.7% (11/53) in the placebo group (p=0,600). In the \"per protocol\" analysis, decolonization rates were 18.9% (7/37) in the experimental group and 23.3% (7/30) in the placebo group (p=0,659). In a logistic regression model, symbiotic use did not produce any impact on the chance of decolonization (OR=0.80, CI95%=0.28-2.27, p=0.678). Mild to moderate adverse events occured similarly in both the placebo (7.55%) and the experimental group (6.25%), (p=1,000). No severe adverse event potentially related to the medications was detected during the study period. In the present study conditions, the results obtained lead to the conclusion that the studied symbiotic proved to be ineffective to decolonize patients harboring multidrug resistant Gram-negative bacilli. Counter-selective pressure Infecção hospitalar Nosocomial infections Prebiotic Prebiótico Pressão contra-seletiva Probiotic Probiótico Simbiótico Symbiotic
7	Uso de simbiótico para descolonização de pacientes hospitalizados portadores de bacilos Gram-negativos multidrogarresistentes / Use of a symbiotic product to decolonize patients harboring multidrug-resistant Gram-negative bacilli Mário Augusto Heluany Filho 10 June 2016 (has links) Nas últimas décadas, a incidência de infecções hospitalares causadas por bactérias Gramnegativas multidrogarresistentes (MDR) vem crescendo de maneira vertiginosa em todo o mundo, de modo que a Organização Mundial de Saúde (OMS) recentemente reconheceu essas infecções como uma preocupação mundial devido ao seu impacto negativo sobre as taxas de mortalidade intra-hospitalar e dos custos da assistência à saúde, afetando tanto os países desenvolvidos quanto os em desenvolvimento. Atualmente considera-se que a higienização das mãos, o uso racional de antimicrobianos e o isolamento de contato são as principais medidas disponíveis para contenção desse avanço. Porém, elas são apenas parcialmente efetivas e de implementação trabalhosa e onerosa. Assim, considera-se necessário o desenvolvimento de formas mais simples e eficientes paralidar com esse problema. No presente estudo, nos propusemos a avaliar o impacto da administração de um produto simbiótico a pacientes colonizados e/ou infectados por bactérias Gram-negativas MDR sobre as taxas de descolonização desses patógenos no trato digestivo. Trata-se de um ensaio clínico randomizado, duplamente cego, controlado com placebo, envolvendo 101 pacientes hospitalizados com colonização prévia por bactérias Gram-negativas MDR, demonstrada por meio de cultura seletiva de swab retal, cuja intervenção consistiu na administração oral ou enteral diária de 1010 unidades de Lactobacillus bulgaricus e 1010 unidades de Lactobacillus rhamnosus associados a fruto-oligossacarídeos durante (FOS) 7 dias. O desfecho primário do estudo foi a descolonização completa do trato digestivo posterior à intervenção, que, na análise do tipo \"intenção de tratar modificada\" foi de 16,7% (8/48) no grupo experimental e 20,7% (11/53) no grupo controle (p=0,600). Na análise \"per protocol\", a descolonização completa do trato observada foi de 18,9% (7/37) no grupo experimental e 23,3% (7/30) no grupo controle (p=0,659). Em uma análise multivariada por meio de modelo de regressão logística o uso do simbiótico não influenciou significativamente o risco de descolonização completa do trato digestivo (OR= 0,80, IC 95%= 0,28-2,27, p= 0,678). A ocorrência de eventos adversos de natureza leve a moderada foi semelhante entre os grupos: 7,55% no grupo que utilizou placebo e 6,25% no grupo sob intervenção (p= 1,000). Nenhum evento adverso grave potencialmente relacionado às medicações de estudo foi observado. Nas condições estudadas, os dados obtidos pelo estudo nos levam à conclusão de que o simbiótico estudado demonstrou-se inefetivo na descolonização do trato digestivo de pacientes previamente colonizados por bactérias Gram-negativas MDR. / In recent decades the incidence of multidrug resistant (MDR) Gram-negative nosocomial infections has been dramatically raising in the whole world. The World Health Organization (WHO) recently recognized nosocomial infections due to MDR pathogens as a global concern due to its negative impact on patients, health-care workers and health-care institutions, affecting developed countries as well as developing ones. They negatively impact in-hospital mortality and health-care related costs. Hand hygiene promotion, antibiotic stewardship and contact precautions are the main available measures to control such MDR Gram-negative organisms in hospitals. However, they are only partially effective as well as difficult to be implemented and expensive. Therefore, simpler and more effective actions are thought to be helpful and urgent. In the present study, we analyzed the impact of the administration of a symbiotic product on patients harboring Gram-negative multidrug-resistant bacteria upon the subsequent rates of decolonization of these pathogens from the gastro-intestinal tract.This is a double-blinded and placebo controlled randomized clinical trial evaluating the oral/enteral daily administration of 1010 units of Lactobacillus bulgaricusplus 1010 units of Lactobacillus rhamnosus associated with fructo-oligosacharide (FOS), or placebo, for 7 days, to 101 patients previously colonized by MDR Gram-negative bacteria, identified through selective culture of rectal swab. The primary study outcome was the rate of complete decolonization of the MDR microorganism from the gastro-intestinal tract following the intervention. In the \"modified intention to treat\" analysis, decolonization rates observed were 16.7% (8/48) in the experimental group and 20.7% (11/53) in the placebo group (p=0,600). In the \"per protocol\" analysis, decolonization rates were 18.9% (7/37) in the experimental group and 23.3% (7/30) in the placebo group (p=0,659). In a logistic regression model, symbiotic use did not produce any impact on the chance of decolonization (OR=0.80, CI95%=0.28-2.27, p=0.678). Mild to moderate adverse events occured similarly in both the placebo (7.55%) and the experimental group (6.25%), (p=1,000). No severe adverse event potentially related to the medications was detected during the study period. In the present study conditions, the results obtained lead to the conclusion that the studied symbiotic proved to be ineffective to decolonize patients harboring multidrug resistant Gram-negative bacilli. Infecção hospitalar Prebiótico Pressão contra-seletiva Probiótico Simbiótico Counter-selective pressure Nosocomial infections Prebiotic Probiotic Symbiotic
8	Fatores associados à aquisição nosocomial de bacilos gram-negativos no Hospital das Clínicas da Faculdade de Medicina de Botucatu em diferentes estações do ano um estudo tipo caso-controle / Rodrigues, Fernanda Saad January 2018 (has links) Orientador: Carlos Magno Castelo Branco Fortaleza / Resumo: Seasonality of healthcare-associated infections (HCAIs) has been recently reported, especially involving Gram-negative bacilli (GNB). Factors underlying this phenomenon were not elucidated. It is theoretically conceivable it reflects seasonal variations in traditional risk factors for those infections. With this in mind, we conducted a study to analyze the interplay of season, weather and usual predictors of healthcare-associated bloodstream infections caused by Gram-negative bacilli (GNB-BSI). The study had a retrospective, case-only desing. It was conducted in the teaching hospital from Botucatu School of Medicine (450 beds). The study enrolled 446 patients with GNB-BSI caused by Escherichia coli, Enterobacter spp., Klebsiella spp., Pseudomonas aeruginosa or Acinetobacter baumannii, diagnosed from July 2012 through June 2016. Demographic data, comorbidities, invasive procedures and use of antimicrobials were reviewed in medical charts. The season in which GNB-BSI occurred, as well as weather parameters of the day of diagnosis, were recorded. We analyzed factors associated with occurrence of GNB-BSI in different seasons (with winter as reference category) and caused by different GNB (reference category, E. coli). Univariate and multivariable models of polytomous (multinomial) logistic regressions were used for analysis. In multivariable analysis, GNB-BSI diagnosed in summer were more likely to be caused by Klebsiella spp. (OR, 5.33; 95%CI, 2.04-13.96) or A. baumannii (OR, 2.... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Seasonality of healthcare-associated infections (HCAIs) has been recently reported, especially involving Gram-negative bacilli (GNB). Factors underlying this phenomenon were not elucidated. It is theoretically conceivable it reflects seasonal variations in traditional risk factors for those infections. With this in mind, we conducted a study to analyze the interplay of season, weather and usual predictors of healthcare-associated bloodstream infections caused by Gram-negative bacilli (GNB-BSI). The study had a retrospective, case-only desing. It was conducted in the teaching hospital from Botucatu School of Medicine (450 beds). The study enrolled 446 patients with GNB-BSI caused by Escherichia coli, Enterobacter spp., Klebsiella spp., Pseudomonas aeruginosa or Acinetobacter baumannii, diagnosed from July 2012 through June 2016. Demographic data, comorbidities, invasive procedures and use of antimicrobials were reviewed in medical charts. The season in which GNB-BSI occurred, as well as weather parameters of the day of diagnosis, were recorded. We analyzed factors associated with occurrence of GNB-BSI in different seasons (with winter as reference category) and caused by different GNB (reference category, E. coli). Univariate and multivariable models of polytomous (multinomial) logistic regressions were used for analysis. In multivariable analysis, GNB-BSI diagnosed in summer were more likely to be caused by Klebsiella spp. (OR, 5.33; 95%CI, 2.04-13.96) or A. baumannii (OR, 2.... (Complete abstract click electronic access below) / Mestre bacilos gram-negativos infecções da corrente sanguínea sazonalidade Meteorologia. meteorology healthcare-associated infections gram-negative bacilli bloodstream infections seasonality
9	Analyse génomique et moléculaire d'isolats cliniques de bactéries multi-résistantes aux antibiotiques Diene, Seydina Mouhamadou 10 December 2012 (has links) L'augmentation et la dissémination de la résistance aux antibiotiques chez les bactéries à gram-negatif, particulièrement les Entérobactéries, les bactéries du genre Pseudomonas et Acinetobacter, représentent un problème majeur de santé publique au niveau mondial. Les infections nosocomiales causées par les bactéries multi-résistantes (BMR) ont conduit non seulement à une augmentation de la mortalité, de la morbidité, et du coût de traitement, mais aussi continuent de mettre en danger la vie des patients surtout immunodéprimés en milieu hospitalier. Bien entendu, l'utilisation abusive et non contrôlée des antibiotiques a grandement contribué à la large diffusion des déterminants de la résistance; cependant, des études récentes ont démontré que ces déterminants de la résistance pouvaient émerger à partir de sources anciennes et/ou environnementales. Ainsi, face à cette préoccupation mondiale, plusieurs études ont été rapportées avec des recommandations importantes de conduire des études épidémiologiques, moléculaires, et génomiques afin de contrôler la diffusion et l'augmentation de la résistance aux antibiotiques. De plus, durant ces 10 dernières années, nous avons assisté à l'emergence et au développement de nouvelles technologies de séquençage à haut débit coïncidant avec une augmentation exponentielle du nombre de genomes bactériens séquencés. / The increase and spread of multidrug-resistant (MDR) gram-negative bacteria especially Enterobacteriaceae, Pseudomonas, and Acinetobacter (E.P.A) species have become a major concern worldwide. The hospital-acquired infections caused by MDR bacteria have led not only to an increase in mortality, morbidity, and cost of treatment, but also continue to endanger the life of patients, especially those immunocompromised. Although the frequent misuse of antibiotic drug has greatly contributed to worldwide dissemination and resistance to antibiotics; recent studies have shown that these resistance determinants could emerge from ancient or environmental sources. Front of this worldwide concern, several studies have been reported with significant recommendations to conduct molecular epidemiology, and genomic studies, in order to control the increase and the dissemination of the antibiotic resistance. Moreover, during these last 10 years, we are witnessing the emergence and development of new technologies of high throughput sequencing and coinciding with an exponential increase of number of bacterial genomes sequenced today. Therefore, it is in this context that the project of this thesis was conducted with three essential objectives: (i) the genome sequencing of clinical MDR bacteria, the analysis and the identification of the mechanisms and the genetic determinants of antimicrobial resistance (ii) the achievement of molecular epidemiology studies from clinical MDR bacteria responsible of outbreak (iii) the development and implementation of molecular tools for monitoring and diagnosis of potential MDR bacteria. Bacilles Gram-négatif Séquençage et analyse génomique Etudes épidémiologiques Analyse bio-informatiques Gram-negative bacilli Sequencing and genomic analysis Epidemiologic studies And Bio-informatic analysis.
10	Développement des nouveaux outils de surveillance de l'émergence des bactéries à Gram négatif multirésistantes Berrazeg, Meryem 03 June 2013 (has links) L'augmentation et la dissémination de la résistance aux antibiotiques chez les bacilles à Gram-négatif, particulièrement les Entérobactéries, les bactéries du genre Pseudomonas et Acinetobacter, représentent un problème majeur de santé publique. Les infections nosocomiales causées par les bactéries multi-résistantes ont conduit non seulement à une augmentation de la mortalité, de la morbidité et du coût de traitement, mais aussi continuent à mettre en danger la vie des patients surtout immunodéprimés. L'utilisation abusive et non contrôlée des antibiotiques a grandement contribué à la large diffusion de la résistance aux antibiotiques. Cependant, des études récentes ont démontré que cette résistance pouvait émerger à partir de sources anciennes et/ou environnementales. Ainsi, face à cette préoccupation mondiale et suite à de nombreuses recommandations, plusieurs études épidémiologiques et moléculaires ont été rapportées afin de contrôler et surveiller la diffusion et la dissémination de la résistance aux antibiotiques. Il est cependant prioritaire de développer des nouveaux outils de surveillance de la résistance aux antibiotiques. C'est dans cette optique que ce projet de thèse s'articule avec comme objectifs :- Le développement et la mise en place de nouveaux outils et logiciels de surveillance et de diagnostic des bactéries multi-résistantes, - La réalisation des études d'épidémiologie moléculaire sur les isolats cliniques de bactéries multi-résistantes responsables d'épidémies. / The increase and spread of multidrug-resistant (MDR) gram-negative bacteria especially Enterobacteriaceae, Pseudomonas, and Acinetobacter (E.P.A) species have become a major concern worldwide. The hospital-acquired infections caused by MDR bacteria have led not only to an increase in mortality, morbidity, and cost of treatment, but also continue to endanger the life of patients, especially those immunocompromised. Although, the frequent misuse of antibiotic drug has greatly contributed to worldwide dissemination of antibiotics resistance. Recent studies have shown that these resistance determinants could emerge from ancient or environmental sources. Front of this worldwide concern, and various recommendations, several epidemiological and molecular studies have been reported in order to control the spread and the dissemination of the antibiotic resistance. However, it is a priority to develop new tools for monitoring antibiotic resistance. Therefore, it is in this context that the project of this thesis was conducted with two essential objectives: -The development and implementation of news tools and software for monitoring and diagnosis of potential MDR bacteria. -The achievement of molecular epidemiology studies from clinical MDR bacteria responsible of outbreak.

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