Concentração inibitória mínima de óleo essencial de gengibre frente a microrganismos patogênicos / Minimum inhibitory concentration of ginger oil essential against pathogenic microorganism

Óleos essenciais extraídos de condimentos representam uma alternativa para conservação de alimentos processados, em especial pela atividade antimicrobiana. No presente trabalho foi determinada a Concentração Mínima Inibitória (CMI) frente a B. cereus, E. coli, P. aeruginosa, S. Typhimurium e S. aureus, por microdiluição em caldo in vitro em microplacas de 96 poços. O maior potencial antimicrobiano do óleo foi evidenciado frente a S. aureus(CMI de 3,13%), seguido por E. coli (6,25%) e S. Typhimurium (12,5%). A comprovação da atividade antimicrobiana do óleo demonstra seu potencial de aplicação como ingrediente natural, evidenciado pelo seu efeito na inibição de microrganismos patogênicos frequentemente associados a doenças de origem alimentar.

Influência do ultrassom no crescimento de Salmonella typhimurium / Influence of ultrasound in Salmonella typhimurium growth

O ultrassom tem sido amplamente estudado na inativação de microrganismos e no processamento de alimentos. Entretanto, o efeito sobre o crescimento de bactérias ainda é pouco elucidado. O presente estudo avaliou o efeito de diferentes densidades energéticas de ultrassom (0; 0,11; 0,22 e 0,43 KJ/mL) no crescimento de Salmonella enterica serovar Typhimurium em caldo BHI. Altas densidades energéticas diminuíram (p < 0,05) a duração da fase lag e a densidade de células na fase estacionária. Entretanto, não houve diferença (p < 0,05) na velocidade de crescimento. Portanto, os resultados do presente estudo alertam para os riscos do ultrassom quando aplicado isoladamente. Assim, as aplicações desta tecnologia, isoladamente, em alimentos que suportam o crescimento de patógenos, como carne e produtos cárneos, devem ser minuciosamente avaliadas para cada tipo de produto.

Physical and chemical quality, biodiversity, and thermodynamic prediction of adhesion of bacterial isolates from a water purification system: a case study

ABSTRACT The objective of this study was to evaluate the quality of water purification system and identify the bacteria this system, predict bacterial adherence according to the hydrophobicity of these microorganisms and of the polypropylene distribution loop for purified water. The assessment of drinking water that supplies the purification system allowed good-quality physical, chemical, and microbiological specifications. The physicochemical specifications of the distributed purified water were approved, but the heterotrophic bacteria count was higher than allowed (>2 log CFU mL-1).The sanitation of the storage tank with chlorine decreased the number of bacteria adhered to the surface (4.34 cycles log). By sequencing of the 16SrDNA genes, six species of bacteria were identified. The contact angle was determined and polypropylene surface and all bacteria were considered to be hydrophilic, and adhesion was thermodynamically unfavorable. This case study showed the importance of monitoring the water quality in the purified water systems and the importance of sanitization with chemical agents. The count of heterotrophic bacteria on the polypropylene surface was consistent with the predicted thermodynamics results because the number of adhered cells reached approximate values of 5 log CFU cm-2.

Sanitização de cenoura minimamente processada com nanopartículas de prata / Sanitization of minimally processed carrot with silver nanoparticles

A produção de cenoura em grande escala na região de Rio Paranaíba coloca essa região em posição de destaque no cenário nacional. No entanto, é relatado que ocorre significativa quantidade de sobras após a colheita. O aproveitamento do material descartado na cadeia de alimentos pode se concretizar pelo processamento mínimo, como uma alternativa de agregação de valor. A etapa de sanitização é de extrema importância durante a produção de vegetais minimamente processados. Nesse contexto, objetivou-se estudar o efeito antimicrobiano de nanopartículas de prata na sanitização de cenoura minimamente processada, obtida a partir do aproveitamento das sobras de cenouras da colheita da cidade de Rio Paranaíba, bem como o estudo da termodinâmica de adesão de diferentes estirpes bacterianas na superfície da cenoura sanitizada. Observou-se que as nanopartículas de prata (6mg L^-1)apresentaram bons resultados, quando comparadas aos sanitizantes hipoclorito de sódio (100mg L^-1) e dicloroisocianurato de sódio (150mg L^-1), na descontaminação da cenoura minimamente processada sobre microrganismos mesófilos aeróbios; Pseudomonasspp.; bactérias láticas; e coliformes a 35ºC. Verificou-se também que a superfície da cenoura apresenta características hidrofílicas que podem dificultar a adesão bacteriana. Esse fato foi confirmado na avaliação de termodinâmica de adesão, que foi desfavorável paraStaphylococcus aureus, Escherichia colie Listeria innocua, sendo mais desfavorável para as interações envolvendo as superfícies de cenoura sanitizadas com nanopartículas de prata.

The carrot production on a large scale in the region of Rio Paranaiba places the region in a prominent position on the national scene. However, it is reported that a significant amount of scraps occurs after harvest. The use of discarded material in the food chain can be realized by minimal processing, as an alternative of adding value. A sanitization step is very important during the production of minimally processed vegetables. In this context, this research aimed to study the antimicrobial effect of silver nanoparticles in the sanitization of minimal processing carrot from discarded carrot harvested at Rio Paranaiba city, as well as study the thermodynamics adhesion for different bacterial strains in sanitized carrot surface. It was observed that silver nanoparticles (6mg L^-1) showed good results when was compared to sodium hypochlorite (100mg L^-1) and sodium dichloroisocyanurate (150mg L^-1) in reducing populations of aerobic mesophilic microorganism;Pseudomonasspp. lactic acid bacteria and coliforms at 35ºC present in carrot. It was also found that the surface of carrot has hydrophilic characteristics which can prevent bacterial adhesion. This fact was confirmed that thermodynamic evaluation of adhesion that was unfavorable for Staphylococcus aureus, Escherichia coliand Listeria innocua, and more thermodynamically unfavorable for interactions involving carrot surfaces sanitized with silver nanoparticles.

Nanotechnology in the food industry / Nanotecnologia na indústria de alimentos

Nanotechnologies involve the manipulation of matter at a very small scale, generally between 1 and 100 nanometers. They exploit novel properties and functions that occur in matter at this scale. The application of nanotechnology in the areas of food and food packaging is growing rapidly, and in the area of food security, these applications include the detection of microorganisms, environmental protection, water purification, encapsulation of nutrients and food packing. Nanotechnology is opening up a world of new possibilities for the food industry, but the entry of nanoparticles into the food chain can result in a buildup of toxic contaminants in food and harm human health. This review focuses on the nanoencapsulation of bioactive compounds, nanosensor especially to detect foodborne pathogens, applications of nanotechnology in food packing and highlight some of aspects of toxicology.

A nanotecnologia envolve a manipulação da matéria em uma escala muito pequena, geralmente entre 1 e 100 nanômetros. Ela explora novas propriedades e funções que ocorrem na matéria nesta escala nanometrica. A aplicação da nanotecnologia nas áreas de alimentos, embalagens para alimentos e segurança alimentar têm crescido rapidamente. Estas aplicações incluem a detecção de microrganismos, proteção ambiental, purificação de água, encapsulamento de nutrientes e embalagem para alimentos. A nanotecnologia está abrindo novas possibilidades para a indústria de alimentos, mas, a entrada de nanopartículas na cadeia alimentar pode resultar em um acúmulo de contaminantes que podem ser tóxicos e prejudicar a saúde humana. Esta revisão enfoca a nanoencapsulação de compostos bioativos, nanosensores, especialmente para detecção de patógenos em alimentos, aplicação da nanotecnologia na área de embalagens para alimentos e destaca alguns aspectos sobre toxicologia.

Otimização da produção de nanopartículas de prata utilizando nova síntese e avaliação da sua ação sanitizante / Optimization of production of silver nanoparticles produced by new synthesis and evaluation of its sanitizing action

Sanitizantes químicos são utilizados na higienização de superfícies que entram em contato com os alimentos, de forma a eliminar patógenos e reduzir deterioradores assegurando a inocuidade dos alimentos para os consumidores. Atualmente, tem-se o interesse no desenvolvimento de novos antimicrobianos, em razão do aumento no número de bactérias resistentes. Neste contexto, o objetivo deste trabalho foi otimizar a produção de nanopartículas de prata a partir de uma nova síntese, bem como avaliar sua capacidade antimicrobiana por diferentes metodologias. Observou-se que o rendimento na produção das nanopartículas de prata aumentou à medida que a concentração do surfactante usado na dispersão foi também aumentada, isto pode ser explicado pelo fato da reação de formação das nanopartículas se caracterizar como uma catálise micelar. Pelos resultados obtidos no teste de adesão bacteriana, observouse que a adesão de Staphylococcus aureus e Listeria innocua foi menor nas superfícies condicionadas com as nanopartículas de prata. As nanopartículas de prata também foram capazes de reduzir o número de bactérias aderidas em diferentes superfícies de aço inoxidável, superfícies estas, comumente utilizadas nas indústrias de alimentos. Portanto, as nanopartículas de prata obtidas por uma nova síntese apresentam-se eficientes como agentes antimicrobianos, com potencial uso como sanitizantes, na indústria de alimentos.

Sanitizers are used to clean surfaces that come in contact with food in order to eliminate pathogens and reduce spoilage ensuring food safety for consumers. Actually, there is interest in developing new antimicrobial agents, due to the increase in the number of resistant bacteria. In this context, the work aimed to optimize the production of silver nanoparticles obtained by a new synthesis, and assess their antimicrobial ability. We observed that the yield in production of the silver nanoparticles increases as is also increased the concentration of surfactant used in the dispersion, since the reaction produced is characterized in a micellar catalyst. Results obtained during testing of bacterial adhesion showed us that the adherence of S. aureus and L. innocua was lower when the surfaces were covered with the silver nanoparticles. The nanoparticles were also able to reduce the number of attached bacteria on surfaces of stainless steel. Therefore, the silver nanoparticles obtained by a new synthesis have to be effective antimicrobial agents with the potential use as sanitizing in the food industry.

Work of adhesion of dairy products on stainless steel surface

The adhesion of the solids presents in food can difficult the process of surface cleaning and promotes the bacterial adhesion process and can trigger health problems. In our study, we used UHT whole milk, chocolate based milk and infant formula to evaluate the adhesion of Enterobacter sakazakii on stainless steel coupons, and we determine the work of adhesion by measuring the contact angle as well as measured the interfacial tension of the samples. Inaddition we evaluated the hydrophobicity of stainless steel after pre-conditioning with milk samples mentioned. E. sakazakii was able to adhere to stainless steel in large numbers in the presence of dairy products. The chocolate based milk obtained the lower contact angle with stainless steel surface, higher interfacial tension and consequently higher adhesion work. It was verified a tendency of decreasing the interfacial tension as a function of the increasing of protein content. The pre-conditioning of the stainless steel coupons with milk samples changed the hydrophobic characteristics of the surfaces and became them hydrophilic. Therefore, variations in the composition of the milk products affect parameters important that can influence the procedure of hygiene in surface used in food industry.

Assessment of hydrophobicity and roughness of stainless steel adhered by an isolate of Bacillus cereus from a dairy plant

The interaction between the surface of stainless steel and Bacillus cereus was studied in terms of the characteristics of interfacial interaction determined from the measurement of the contact angle of the surface of B. cereus and stainless steel in the presence or absence of B. cereus adherence. The microtopographies and the roughness of the surface of stainless steel and stainless steel adhered by B. cereus were evaluated with the help of atomic force microscopy and perfilometry. The strain of B. cereus studied was considered hydrophilic, whereas the stainless steel was considered hydrophobic. The adhesion was not thermodynamically favorable (ΔGadhesion > 0) between the stainless steel and the strain of B. cereus studied. Thus, the interaction between them was not favored by the thermodynamic aspect of adhesion. There was no difference (p > 0.05) in the roughness of the surfaces of stainless steel adhered by B. cereus when analyzed by atomic force microscope and perfilometry.

Increased presevation of sliced mozzarella cheese by antimibrobial sachet incorporated with allyl isothiocyanate

There is an increasing tendency to add natural antimicrobials of plant origin into food. The objective of this work was to develop a microbial sachet incorporated with allyl isothiocyanate (AIT), a volatile compound of plant origin, and to test its efficiency against growth of yeasts and molds, Staphylococcus sp. and psychrotrophic bacteria on sliced mozzarella cheese. Another objective was to quantify the concentration of AIT in the headspace of cheese packaging. A reduction of 3.6 log cycles was observed in yeasts and molds counts in the mozzarella packed with the antimicrobial sachet over 15-day storage time. The sachet also showed an antibacterial effect on Staphylococcus sp., reducing 2.4 log cycles after 12-day storage. Psychrotrophic bacteria species were the most resistant to the antimicrobial action. The highest concentration of AIT (0.08µg.mL-1) inside the active packaging system was observed at the 6-day of storage at 12 ºC ± 2 ºC. At the end of the storage time, AIT concentration decreased to only 10 percent of the initial concentration. Active packaging containing antimicrobial sachet has a potential use for sliced mozzarella, with molds and yeasts being the most sensitive to the antimicrobial effects.