Estudo da incorporação de nanopartículas de prata na matriz polimérica de termoplástico elastomérico poliester (TPE-E) por diferentes técnicas de processamento visando ação bactericida / Study of the different processing techniques of silver nanoparticles incorporation in the polymer matrix of polyester elastomeric thermoplastic TPE-E aiming bactericidal action

Leonardo Guedes Marchini

11 September 2018

A primeira parte do estudo consistiu em caracterizar as amostras de termoplástico elastomérico poliéster (TPE-E) modificadas via irradiação gama (γ) em presença de atmosfera de oxigênio e irradiadas com fonte de 60 Co nas doses de 5, 10, 20, 30, 50 e 100 kGy. Na segunda parte foram realizadas as caracterizações das dispersões coloidais de prata metálica adsorvida em sílica pirogênica (AgNPs_SiO2) e do óxido de zinco aditivado com prata metálica adsorvida em sílica pirogênica (AgNPs_ZnO). Na terceira e última parte, as concentrações de 250, 500, 1000 e 5000 ppm, em massa , de AgNPs_SiO2, idem para AgNPs_ZnO, foram misturados mecanicamente por 30 minutos com 1 % em massa de óleo ALKEST TW 80, 0.3 % em massa de anti-oxidante Irganox 1010 e grânulos de TPE-E, posteriormente processados, independentemente, via injeção plástica, extrusão monorosca e irradiação com prensagem a quente. As técnicas de caracterização utilizadas no trabalho foram: espectroscopia no infravermelho (FTIR), calorimetria exploratória diferencial (DSC), análise termogravimétrica (TGA), difração de raios X (DRX), espectrometria de fluorescência de raios X por dispersão de comprimento de onda (WD-XRF), microscopia eletrônica de varredura com espectroscopia por dispersão de energia de raios X (MEV-EDS), microscopia eletrônica de transmissão com espectroscopia por dispersão de energia de raios X (MET-EDS), índice de fluidez (MFR) e ensaios de tração. As amostras de TPE-E irradiadas apresentaram diminuição da temperatura de degradação (Tonset) e do índice de fluidez (IF) com o aumento da dose de irradiação. Foi possível observar nos resultados obtidos por espectrometria de fluorescência de raios X por dispersão de comprimento de onda a presença de prata nos compostos de sílica pirogênica e de óxido de zinco com sílica pirogênica. Todas as amostras de TPE-E contendo aditivos AgNPs_SiO2 e AgNPs_ZnO obtidas pelas diferentes técnicas apresentaram atividade bactericida para bactéria Gram-negativa Escherichia coli (E.Coli) e a bactéria Gram-positiva Staphylococcus aureus (S.Aureus), sendo os melhores resultados obtidos nos filmes de TPE-E irradiados e prensados com 0.5 % de AgNPs_ZnO com doses de 20 e 50 kGy e 0.5 % AgNPs_SiO2 com doses de 0 e 20 kGy. / The first part of the study consisted of characterizing samples of thermoplastic polyester elastomeric polyester (TPE-E) modified by gamma irradiation (γ) in the presence of oxygen atmosphere and irradiated with a 60 Co source at doses of 5, 10, 20, 30, 50 and 100 kGy. In the second part, the characterization of the colloidal dispersion of silver silicon adsorbed pyrogenic silica (AgNPs_SiO2) and the zinc oxide added with colloidal dispersion of metallic silver adsorbed on silica pyrogen (AgNPs_ZnO). In the third and final part, concentrations of 250, 500, 1000 and 5000 ppm, mass%, of AgNPs_SiO2, identical to AgNPs_ZnO, were mixed mechanically for 30 minutes with 1% by mass of ALKEST TW 80 oil, 0.3% by mass of Irganox 1010 anti-oxidant and TPE-E granules, further processed independently, via plastic injection, monosulfur extrusion and irradiation with hot pressing. The characterization techniques used in the work were: infrared spectroscopy (FTIR), differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), X-ray diffraction (XRD), X-ray fluorescence spectrometry by wavelength dispersion WD-XRF), scanning electron microscopy with X-ray energy dispersion spectroscopy (SEM-EDS), transmission electron microscopy with X-ray energy dispersion spectroscopy (TEM-EDS), melt flow index (MFR) and traction tests. The irradiated TPE-E samples showed a decrease in degradation temperature (Tonset) and melt flow index (IF) with increasing irradiation dose. It was possible to observe in the results obtained by X-ray fluorescence spectrometry by wavelength dispersion the presence of silver in the silica pyrogenic compounds and of zinc oxide with pyrogenic silica. All the TPE-E samples containing additives AgNPs_SiO2 and AgNPs_ZnO obtained by the different techniques presented bactericidal activity for Gram-negative bacteria Escherichia coli (E.Coli) and Gram-positive bacteria Staphylococcus aureus (S.Aureus), being the best results obtained in the TPE-E films irradiated and pressed with 0.5% AgNPs_ZnO at doses of 0, 20 and 50 kGy and 0.5% AgNPs _SiO2 at doses of 0 and 20 kGy.

efeito bactericida

nanopartículas de prata

TPE-E

bactericidal effect

silver nanoparticles

TPE-E

Estudo da incorporação de nanopartículas de prata na matriz polimérica de termoplástico elastomérico poliester (TPE-E) por diferentes técnicas de processamento visando ação bactericida / Study of the different processing techniques of silver nanoparticles incorporation in the polymer matrix of polyester elastomeric thermoplastic TPE-E aiming bactericidal action

Marchini, Leonardo Guedes

11 September 2018

A primeira parte do estudo consistiu em caracterizar as amostras de termoplástico elastomérico poliéster (TPE-E) modificadas via irradiação gama (γ) em presença de atmosfera de oxigênio e irradiadas com fonte de 60 Co nas doses de 5, 10, 20, 30, 50 e 100 kGy. Na segunda parte foram realizadas as caracterizações das dispersões coloidais de prata metálica adsorvida em sílica pirogênica (AgNPs_SiO2) e do óxido de zinco aditivado com prata metálica adsorvida em sílica pirogênica (AgNPs_ZnO). Na terceira e última parte, as concentrações de 250, 500, 1000 e 5000 ppm, em massa , de AgNPs_SiO2, idem para AgNPs_ZnO, foram misturados mecanicamente por 30 minutos com 1 % em massa de óleo ALKEST TW 80, 0.3 % em massa de anti-oxidante Irganox 1010 e grânulos de TPE-E, posteriormente processados, independentemente, via injeção plástica, extrusão monorosca e irradiação com prensagem a quente. As técnicas de caracterização utilizadas no trabalho foram: espectroscopia no infravermelho (FTIR), calorimetria exploratória diferencial (DSC), análise termogravimétrica (TGA), difração de raios X (DRX), espectrometria de fluorescência de raios X por dispersão de comprimento de onda (WD-XRF), microscopia eletrônica de varredura com espectroscopia por dispersão de energia de raios X (MEV-EDS), microscopia eletrônica de transmissão com espectroscopia por dispersão de energia de raios X (MET-EDS), índice de fluidez (MFR) e ensaios de tração. As amostras de TPE-E irradiadas apresentaram diminuição da temperatura de degradação (Tonset) e do índice de fluidez (IF) com o aumento da dose de irradiação. Foi possível observar nos resultados obtidos por espectrometria de fluorescência de raios X por dispersão de comprimento de onda a presença de prata nos compostos de sílica pirogênica e de óxido de zinco com sílica pirogênica. Todas as amostras de TPE-E contendo aditivos AgNPs_SiO2 e AgNPs_ZnO obtidas pelas diferentes técnicas apresentaram atividade bactericida para bactéria Gram-negativa Escherichia coli (E.Coli) e a bactéria Gram-positiva Staphylococcus aureus (S.Aureus), sendo os melhores resultados obtidos nos filmes de TPE-E irradiados e prensados com 0.5 % de AgNPs_ZnO com doses de 20 e 50 kGy e 0.5 % AgNPs_SiO2 com doses de 0 e 20 kGy. / The first part of the study consisted of characterizing samples of thermoplastic polyester elastomeric polyester (TPE-E) modified by gamma irradiation (γ) in the presence of oxygen atmosphere and irradiated with a 60 Co source at doses of 5, 10, 20, 30, 50 and 100 kGy. In the second part, the characterization of the colloidal dispersion of silver silicon adsorbed pyrogenic silica (AgNPs_SiO2) and the zinc oxide added with colloidal dispersion of metallic silver adsorbed on silica pyrogen (AgNPs_ZnO). In the third and final part, concentrations of 250, 500, 1000 and 5000 ppm, mass%, of AgNPs_SiO2, identical to AgNPs_ZnO, were mixed mechanically for 30 minutes with 1% by mass of ALKEST TW 80 oil, 0.3% by mass of Irganox 1010 anti-oxidant and TPE-E granules, further processed independently, via plastic injection, monosulfur extrusion and irradiation with hot pressing. The characterization techniques used in the work were: infrared spectroscopy (FTIR), differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), X-ray diffraction (XRD), X-ray fluorescence spectrometry by wavelength dispersion WD-XRF), scanning electron microscopy with X-ray energy dispersion spectroscopy (SEM-EDS), transmission electron microscopy with X-ray energy dispersion spectroscopy (TEM-EDS), melt flow index (MFR) and traction tests. The irradiated TPE-E samples showed a decrease in degradation temperature (Tonset) and melt flow index (IF) with increasing irradiation dose. It was possible to observe in the results obtained by X-ray fluorescence spectrometry by wavelength dispersion the presence of silver in the silica pyrogenic compounds and of zinc oxide with pyrogenic silica. All the TPE-E samples containing additives AgNPs_SiO2 and AgNPs_ZnO obtained by the different techniques presented bactericidal activity for Gram-negative bacteria Escherichia coli (E.Coli) and Gram-positive bacteria Staphylococcus aureus (S.Aureus), being the best results obtained in the TPE-E films irradiated and pressed with 0.5% AgNPs_ZnO at doses of 0, 20 and 50 kGy and 0.5% AgNPs _SiO2 at doses of 0 and 20 kGy.

bactericidal effect

efeito bactericida

nanopartículas de prata

silver nanoparticles

TPE-E

TPE-E

Characterization of SecA1 and SecA2 from Gram-positive pathogens and discovery of novel SecA inhibitors

Jin, Jinshan

14 December 2011

Due to the emergence and dissemination of multidrug resistance, bacterial pathogens have been causing a serious public health problem in recent years. To address the existing drug resistant problem, there is an urgent need to find new antimicrobials, especially those against drug-resistant bacteria. SecA is the central component of Sec-dependent secretion pathway, which is responsible for the secretion of many essential proteins as well as many toxins and virulence factors. Two SecA homologues are indentified in some important Gram-positive pathogens. SecA1 is involved in general secretion pathway and essential for viability, whereas SecA2 contribute to secretion of specific virulence factors. The high conservation among a wide range of bacteria and no human counterpart make SecA homologues attractive targets for exploring novel antimicrobials. We hypothesize that inhibition of these SecA homologues could reduce virulence, inhibit bacteria growth, and kill bacteria. SecA1 and SecA2 from four different species were cloned, purified, and characterized. All these SecA homologues show ATPase activities, thus screening ATPase inhibitors might help to develop new antimicrobials. In this study, three structurally different classes of SecA inhibitors were developed and optimized: 1) Rose Bengal (RB) and RB analogs derived from systematical dissection RB and Structure-Activity relationship (SAR) study; 2) pyrimidine analogs derived from virtual screening based on the ATP binding pocket of EcSecA and SAR study; and 3) bistriazole analogs derived from random screening and SAR study. Several potent SecA inhibitors show promising enzymatic inhibition against SecA homologues as well as bacteriostatic and bactericidal effects. Two major efflux pumps of S. aureus, NorA and MepA, have little negative effect on the antimicrobial activities of SecA inhibitors, suggesting that targeting SecA could by-pass efflux pumps. Moreover, these inhibitors impair the secretion of important toxins of S. aureus and B. anthracis, indicating the inhibition of in vivo SecA function could reduce virulence. Target identification assays confirm that these inhibitors could directly bind to SecA homologues, and specifically identify SecA from whole cell lysate of E. coli and S. aureus, suggesting that these inhibitors are really targeting on SecA. These studies validate that SecA is a good target for development antimicrobials.

SecA

Antimicrobials

SecA inhibitors

Bacteriostatic effect

Bactericidal effect

virulence factor secretion

Characterization of SecA1 and SecA2 from Gram-Positive Pathogens and Discovery of Novel SecA Inhibitors

Jin, Jinshan

14 December 2011

Due to the emergence and dissemination of multidrug resistance, bacterial pathogens have been causing a serious public health problem in recent years. To address the existing drug resistant problem, there is an urgent need to find new antimicrobials, especially those against drug-resistant bacteria. SecA is the central component of Sec-dependent secretion pathway, which is responsible for the secretion of many essential proteins as well as many toxins and virulence factors. Two SecA homologues are indentified in some important Gram-positive pathogens. SecA1 is involved in general secretion pathway and essential for viability, whereas SecA2 contribute to secretion of specific virulence factors. The high conservation among a wide range of bacteria and no human counterpart make SecA homologues attractive targets for exploring novel antimicrobials. We hypothesize that inhibition of these SecA homologues could reduce virulence, inhibit bacteria growth, and kill bacteria. SecA1 and SecA2 from four different species were cloned, purified, and characterized. All these SecA homologues show ATPase activities, thus screening ATPase inhibitors might help to develop new antimicrobials. In this study, three structurally different classes of SecA inhibitors were developed and optimized: 1) Rose Bengal (RB) and RB analogs derived from systematical dissection RB and Structure-Activity relationship (SAR) study; 2) pyrimidine analogs derived from virtual screening based on the ATP binding pocket of EcSecA and SAR study; and 3) bistriazole analogs derived from random screening and SAR study. Several potent SecA inhibitors show promising enzymatic inhibition against SecA homologues as well as bacteriostatic and bactericidal effects. Two major efflux pumps of S. aureus, NorA and MepA, have little negative effect on the antimicrobial activities of SecA inhibitors, suggesting that targeting SecA could by-pass efflux pumps. Moreover, these inhibitors impair the secretion of important toxins of S. aureus and B. anthracis, indicating the inhibition of in vivo SecA function could reduce virulence. Target identification assays confirm that these inhibitors could directly bind to SecA homologues, and specifically identify SecA from whole cell lysate of E. coli and S. aureus, suggesting that these inhibitors are really targeting on SecA. These studies validate that SecA is a good target for development antimicrobials.

SecA

Antimicrobials

SecA inhibitors

Bacteriostatic effect

Bactericidal effect

Virulence factor secretion

Desenvolvimento de hidroxiapatita contendo nanopartículas de prata com propriedades antibacterianas / Development of hydroxyapatite containing silver nanoparticles with antibacterial properties

Andrade, Flávio Augusto Cavadas

27 August 2013

A hidroxiapatita (HA) tem sido amplamente utilizada como material de implante por possuir alta similaridade com a composição dos ossos e ter capacidade de formar ligações químicas fortes com o tecido ósseo. Entretanto, a adsorção fácil de moléculas orgânicas (proteínas, aminoácidos e polissacarídeos) pela HA também favorece a adsorção e replicação de bactérias, aumentando os casos de infecções relacionados a esse biomaterial. Visando contribuir para o avanço de novos biomateriais com propriedades antibacterianas, foram produzidas neste trabalho hidroxiapatitas contendo nanopartículas de prata (AgNPs) com diferentes proporções (0,01; 0,05; 0,10 e 0,25% m/m). A primeira etapa do trabalho consistiu na obtenção do pó de HA por precipitação química e na produção de AgNPs em suspensões coloidais por meio de síntese que utiliza a quitosana como agente redutor e estabilizante. Na segunda etapa, as AgNPs foram adsorvidas na HA pelo método de imersão do pó usando um dos coloides sintetizados, obtendo-se quatro hidroxiapatitas contendo AgNPs (HA-AgNPs) nas formas de pó e disco. Na terceira e última etapa, os materiais produzidos foram caracterizados utilizando diversas técnicas e os pós (HA e HA-AgNPs) foram submetidos a avaliações in vitro. O efeito antibacteriano foi avaliado frente a cepas de S. aureus e E. coli utilizando métodos qualitativos e quantitativos. A adesão bacteriana sobre a superfície dos discos foi observada por microscopias eletrônica de varredura (MEV) e confocal de varredura a laser. A citotoxicidade in vitro foi avaliada utilizando cultura de células contendo linhagem de osteoblastos (MG-63). Nesse ensaio, a viabilidade dos osteoblastos foi estudada usando o teste da resazurina; a atividade enzimática foi investigada através da fosfatase alcalina (ALP); e a adesão dos osteoblastos foi observada por MEV. Os resultados mostraram que a HA produzida é nanométrica e que as AgNPs sintetizadas são estáveis e esféricas, com diâmetros variando entre 5-10 nm. Técnicas de MEV, EDS e ICP-AES confirmaram a presença de prata nas HA-AgNPs. As demais caracterizações não mostraram alterações relevantes na estrutura, morfologia e características de superfície (hidrofobicidade e carga líquida). No entanto, a atividade antibacteriana dos materiais mostrou-se eficiente para ambas as cepas e com uma redução de 99,9% das colônias bacterianas em quase todos os materiais já nas primeiras 4 h. Também foi encontrado que a eliminação foi maior tanto para E. coli quanto utilizando materiais em pó. O estudo da adesão bacteriana confirmou os resultados anteriores mostrando efeito superior para quase todas HA-AgNPs produzidas comparado a HA, exceto para o material com menor proporção de AgNPs (0,01% m/m). Por outro lado, os testes de viabilidade, ALP e adesão demonstraram que a HA-AgNPs com maior quantidade de AgNPs (0,25% m/m) tem um efeito negativo sobre os osteoblastos. Considerando ambos os efeitos de citotoxicidade e antibacteriano, aliado a metodologia simples e de baixo custo envolvido na produção desses materiais, sugere-se que a HA contendo entre 0,05 0,10% m/m das AgNPs sintetizada pode ser a mais favorável para o desenvolvimento proposto visando futuras aplicações biomédicas. / Hydroxyapatite (HA) has been widely used as implant material due to its high similarity with the bone composition and its capacity to form strong chemical bonds with the bone tissue. However, the easy adsorption of organic molecules (proteins, amino acids and polysaccharides) by the HA also favors bacteria adsorption and replication, increasing the cases of infection related to this biomaterial. Aiming to contribute to the advancement of new biomaterials with antibacterial properties, were produced in this work hydroxyapatites containing silver nanoparticles (AgNPs) with different ratios (0.01, 0.05, 0.10 and 0.25% m/m). The first step of this work consisted in obtaining the HA powder by chemical precipitation and production of AgNPs colloidal suspensions by synthesis using chitosan as a reducing agent and stabilizer. In the second step, the AgNPs were adsorbed to the HA matrix by the powder immersion method using onde of the synthesized colloids, resulting in four hydroxyapatites containg AgNPs (HA-AgNPs) in disk and powder forms. In the third and final step, the materials produced were characterized using several techniques, with the powders (HA and HA-AgNPs) evaluated in vitro. The antibacterial effect was evaluated against strains of S. aureus and E. coli using qualitative (ágar diffusion test) and quantitative (bacterial colony counts) methods. The bacterial adhesion over the disks surface were observed by Scanning Electron Microscopy (SEM) and confocal laser scanning microscopy. Cytotoxicity was evaluated in vitro using cell culture containing the osteoblast lineage (MG- 63). In this assay, osteoblasts viability was studied using the resazurin test; the enzyme activity was investigated by alkaline phosphatase (ALP), and osteoblast adhesion was observed by SEM. The results showed that the HA produced is nanometric and the synthesized AgNPs are stable and spherical with diameters ranging from 5-10 nm. SEM, EDS and ICP-AES techniques confirmed the presence of silver in the HA-AgNPs. The others characterizations showed no significant changes in the structure, morphology and surface characteristics (hydrophobicity and net charge). However, the materials antibacterial activity was effective for both strains and with reduction of 99.9% of bacterial colonies in almost all materials within the first 4 h. It was also found that the removal was as great for E. coli as for powder materials. The bacterial adhesion study confirmed previous results showing superior effect for almost all HA-AgNPs produced compared to HA, except for the material with the lowest proportion of AgNPs (0.01% m/m). On the other hand, viability tests, ALP and adhesion demonstrated that HA-AGNPS with higher AGNPS quantities (0.25% m/m) has a negative effect on osteoblasts. Considering both cytotoxicity and antibacterial effects, combined with the simple methodology and low cost involved in the production of these materials, it is suggested that the HA containing synthesized AgNPs ranging from 0.05 to 0.10% m/m can be the most favorable for the development of the proposed material for future biomedical applications.

Adesão celular

Adsorção

Adsorption

Bactericidal effect

Biomaterial

Biomaterial

Cell adhesion

Cell culture

Chitosan

Cultura de células

Efeito bactericida

Immersion method

Método de imersão

Quitosana

Resazurin

Resazurina

Desenvolvimento de hidroxiapatita contendo nanopartículas de prata com propriedades antibacterianas / Development of hydroxyapatite containing silver nanoparticles with antibacterial properties

Flávio Augusto Cavadas Andrade

27 August 2013

A hidroxiapatita (HA) tem sido amplamente utilizada como material de implante por possuir alta similaridade com a composição dos ossos e ter capacidade de formar ligações químicas fortes com o tecido ósseo. Entretanto, a adsorção fácil de moléculas orgânicas (proteínas, aminoácidos e polissacarídeos) pela HA também favorece a adsorção e replicação de bactérias, aumentando os casos de infecções relacionados a esse biomaterial. Visando contribuir para o avanço de novos biomateriais com propriedades antibacterianas, foram produzidas neste trabalho hidroxiapatitas contendo nanopartículas de prata (AgNPs) com diferentes proporções (0,01; 0,05; 0,10 e 0,25% m/m). A primeira etapa do trabalho consistiu na obtenção do pó de HA por precipitação química e na produção de AgNPs em suspensões coloidais por meio de síntese que utiliza a quitosana como agente redutor e estabilizante. Na segunda etapa, as AgNPs foram adsorvidas na HA pelo método de imersão do pó usando um dos coloides sintetizados, obtendo-se quatro hidroxiapatitas contendo AgNPs (HA-AgNPs) nas formas de pó e disco. Na terceira e última etapa, os materiais produzidos foram caracterizados utilizando diversas técnicas e os pós (HA e HA-AgNPs) foram submetidos a avaliações in vitro. O efeito antibacteriano foi avaliado frente a cepas de S. aureus e E. coli utilizando métodos qualitativos e quantitativos. A adesão bacteriana sobre a superfície dos discos foi observada por microscopias eletrônica de varredura (MEV) e confocal de varredura a laser. A citotoxicidade in vitro foi avaliada utilizando cultura de células contendo linhagem de osteoblastos (MG-63). Nesse ensaio, a viabilidade dos osteoblastos foi estudada usando o teste da resazurina; a atividade enzimática foi investigada através da fosfatase alcalina (ALP); e a adesão dos osteoblastos foi observada por MEV. Os resultados mostraram que a HA produzida é nanométrica e que as AgNPs sintetizadas são estáveis e esféricas, com diâmetros variando entre 5-10 nm. Técnicas de MEV, EDS e ICP-AES confirmaram a presença de prata nas HA-AgNPs. As demais caracterizações não mostraram alterações relevantes na estrutura, morfologia e características de superfície (hidrofobicidade e carga líquida). No entanto, a atividade antibacteriana dos materiais mostrou-se eficiente para ambas as cepas e com uma redução de 99,9% das colônias bacterianas em quase todos os materiais já nas primeiras 4 h. Também foi encontrado que a eliminação foi maior tanto para E. coli quanto utilizando materiais em pó. O estudo da adesão bacteriana confirmou os resultados anteriores mostrando efeito superior para quase todas HA-AgNPs produzidas comparado a HA, exceto para o material com menor proporção de AgNPs (0,01% m/m). Por outro lado, os testes de viabilidade, ALP e adesão demonstraram que a HA-AgNPs com maior quantidade de AgNPs (0,25% m/m) tem um efeito negativo sobre os osteoblastos. Considerando ambos os efeitos de citotoxicidade e antibacteriano, aliado a metodologia simples e de baixo custo envolvido na produção desses materiais, sugere-se que a HA contendo entre 0,05 0,10% m/m das AgNPs sintetizada pode ser a mais favorável para o desenvolvimento proposto visando futuras aplicações biomédicas. / Hydroxyapatite (HA) has been widely used as implant material due to its high similarity with the bone composition and its capacity to form strong chemical bonds with the bone tissue. However, the easy adsorption of organic molecules (proteins, amino acids and polysaccharides) by the HA also favors bacteria adsorption and replication, increasing the cases of infection related to this biomaterial. Aiming to contribute to the advancement of new biomaterials with antibacterial properties, were produced in this work hydroxyapatites containing silver nanoparticles (AgNPs) with different ratios (0.01, 0.05, 0.10 and 0.25% m/m). The first step of this work consisted in obtaining the HA powder by chemical precipitation and production of AgNPs colloidal suspensions by synthesis using chitosan as a reducing agent and stabilizer. In the second step, the AgNPs were adsorbed to the HA matrix by the powder immersion method using onde of the synthesized colloids, resulting in four hydroxyapatites containg AgNPs (HA-AgNPs) in disk and powder forms. In the third and final step, the materials produced were characterized using several techniques, with the powders (HA and HA-AgNPs) evaluated in vitro. The antibacterial effect was evaluated against strains of S. aureus and E. coli using qualitative (ágar diffusion test) and quantitative (bacterial colony counts) methods. The bacterial adhesion over the disks surface were observed by Scanning Electron Microscopy (SEM) and confocal laser scanning microscopy. Cytotoxicity was evaluated in vitro using cell culture containing the osteoblast lineage (MG- 63). In this assay, osteoblasts viability was studied using the resazurin test; the enzyme activity was investigated by alkaline phosphatase (ALP), and osteoblast adhesion was observed by SEM. The results showed that the HA produced is nanometric and the synthesized AgNPs are stable and spherical with diameters ranging from 5-10 nm. SEM, EDS and ICP-AES techniques confirmed the presence of silver in the HA-AgNPs. The others characterizations showed no significant changes in the structure, morphology and surface characteristics (hydrophobicity and net charge). However, the materials antibacterial activity was effective for both strains and with reduction of 99.9% of bacterial colonies in almost all materials within the first 4 h. It was also found that the removal was as great for E. coli as for powder materials. The bacterial adhesion study confirmed previous results showing superior effect for almost all HA-AgNPs produced compared to HA, except for the material with the lowest proportion of AgNPs (0.01% m/m). On the other hand, viability tests, ALP and adhesion demonstrated that HA-AGNPS with higher AGNPS quantities (0.25% m/m) has a negative effect on osteoblasts. Considering both cytotoxicity and antibacterial effects, combined with the simple methodology and low cost involved in the production of these materials, it is suggested that the HA containing synthesized AgNPs ranging from 0.05 to 0.10% m/m can be the most favorable for the development of the proposed material for future biomedical applications.

Adesão celular

Adsorção

Biomaterial

Cultura de células

Efeito bactericida

Método de imersão

Quitosana

Resazurina

Adsorption

Bactericidal effect

Biomaterial

Cell adhesion

Cell culture

Chitosan

Immersion method

Resazurin