Use of oriental mustard and allyl isothiocyanate to control Salmonella, Campylobacter and L. monocytogenes in poultry meat

Eleimat, Amin

06 1900

In this project the factors influencing the stability and antimicrobial activity of allyl isothiocyanate (AITC) against Campylobacter jejuni, Salmonella or Listeria monocytogenes as well as factors that enhance sinigrin (glucosinolate in Oriental mustard) hydrolysis by these pathogens were investigated. The minimum inhibitory concentration (MIC) of AITC against 5 strains of each of Salmonella or L. monocytogenes, ranged from 60-100 ppm at 37 ºC. This was reduced to 10-40 ppm at 21 ºC and a further reduction to 5-10 ppm against strains of L. monocytogenes was observed at 4 ºC. This was attributed to greater stability of AITC as temperature was decreased. C. jejuni strains were more susceptible to AITC with MICs of 0.63-1.25 ppm and 2.5-5 ppm at 37 and 42 ºC, respectively. AITC was more inhibitory at ≤ 21 ºC against Salmonella with acidic pH or against L. monocytogenes with neutral pH. C. jejuni, Salmonella and L. monocytogenes strains and mixtures had the ability to degrade sinigrin to form inhibitory concentrations of AITC, and sinigrin hydrolysis was significantly enhanced by higher incubation temperature (21 ºC > 10 ºC > 4 ºC), the presence of 10 mM ferric or ferrous irons, and the presence of < 0.25% glucose. This project also investigated the antimicrobial activity of AITC or Oriental mustard extract alone or combined with ethylenediamine tetraacetic acid (EDTA), malic acid and acetic acid in edible antimicrobial coatings against C. jejuni and Salmonella on fresh, refrigerated, vacuum-packed chicken breasts or L. monocytogenes on refrigerated, cured roast chicken. Malic acid improved the antimicrobial activity of Oriental mustard extract against L. monocytogenes, while EDTA improved its activity against Salmonella. Incorporation of 25 to 50 µl/g AITC or 100 to 250 mg/g Oriental mustard extract in 0.5%κ-carrageenan/2%chitosan coatings, prepared using 1.5% malic or acetic acid, reduced L. monocytogenes on cooked, cured, vacuum-packed chicken slices 4.2 to > 7.0 log10 CFU/g, compared to uncoated chicken by 70 d at 4 ºC. In addition, 0.2%κ-carrageenan/2%chitosan coatings (prepared using a 1% acetic acid solution) containing 250 mg/g mustard extract or 50 µl/g AITC reduced Salmonella numbers on vacuum-packed chicken breasts 3.0 log10 CFU/g by 21 d at 4 ºC. Further, 0.2%κ-carrageenan/2%chitosan coatings containing 50 or 100 µl/g AITC reduced numbers of C. jejuni on fresh, vacuum-packed chicken breasts > 5.0 log10 CFU/g (C. jejuni cells were not detected) after 5 d storage at 4 ºC, while coatings containing 200 to 300 mg/g Oriental mustard extract or 25 µl/g AITC reduced C. jejuni numbers by 3.6 to 4.6 log10 CFU/g. Numbers of lactic acid and aerobic bacteria on poultry meat products were significantly reduced by the coatings. It is clear that κ-carrageenan/chitosan coatings containing either AITC, mustard extract alone or combined with EDTA, malic or acetic acid significantly reduced C. jejuni and Salmonella on fresh, refrigerated, vacuum-packed chicken breasts and L. monocytogenes on refrigerated, cured roast chicken, and consequently enhanced their safety.

Mustard

Allyl isothiocyanate

Glucosinolates

Poultry meat

Salmonella

Campylobacter

L. monocytogenes

Natural antimicrobials

Myrosinase

Organic acids

EDTA

Chitosan

Antimicrobial coatings

ANÁLISE FITOQUÍMICA, AVALIAÇÃO DA ATIVIDADE ANTIOXIDANTE E ANTIMICROBIANA DE Solanum guaraniticum A. ST.-HIL. / PHYTOCHEMICAL ANALYSIS, EVALUATION OF THE ANTIOXIDANT AND ANTIMICROBIAL ACTIVITIES OF Solanum guaraniticum A. ST.-HIL.

Zadra, Marina

14 June 2013

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The Solanaceae family is one of the largest and most complex, especially the Solanum genus, with about 1500 species. Solanum guaraniticum is a shrub found in Paraguay, Argentina and Brazil, popularly known as jurubeba or false jurubeba. This study aimed to quantify the main classes of secondary metabolites and determine the antimicrobial and antioxidant activities of the leaves of S. guaraniticum. The plant material was collected in the city of Guaporé, RS, Brazil, and is registered in the herbarium of the Biology Department at the Federal University of Santa Maria under number SMDB13158. The leaves of the plant were dried, triturated and macerated with ethanol (70%) for seven days. After this period, the material was filtered and the extract concentrated in rotary evaporator to obtain the aqueous extract. Part of this was taken to complete dryness yielding the crude extract (CE), another part was successively fractionated with chloroform (CHCl3), ethyl acetate (AcOEt) and butanol (BuOH), yielding the respective fractions. In the antioxidant and phytochemical analysis, the AcOEt fraction showed the highest amount of polyphenols (546.57 ± 2.35 mg of gallic acid equivalents/g) and the best antioxidant capacity by DPPH method (IC50 = 9.11 ± 0.75 μg/ mL). The CHCl3 fraction showed the highest contents of tannins (56.03 ± 0.68 mg of catechin equivalents/g), flavonoids (75.73 ± 0.34 mg rutin equivalents/g) and alkaloids (10.79 ± 0.06 mg/g), being more effective in scavenging reactive species, by inhibition of dichlorofluorescein oxidation (DCFH-DA), also showing the best activity of inhibition of lipid peroxidation by the TBARS method, as well as inhibition of protein oxidation, by the protein carbonyl method. HPLC analysis of CE and fractions revealed the presence of caffeic, chlorogenic and rosmarinic acids, very active phenolic acids that may be involved in the activities described. Regarding antimicrobial activity, assessed by broth microdilution, good activities were observed against Gram-positive bacteria, especially for CE (MIC of 32 μg/mL for M. luteus) and the AcOEt fraction (MIC of 64 μg/mL for S. intermedius and L. monocytogenes). The extracts were practically inactive against Gram-negative bacteria and inactive against fungi. It was also verified promising antimycobacterial activity, mainly to the CHCl3 fraction against M. smegmatis (MIC = 156 μg/mL). The results contributed to reveal some phytochemical characteristics of this species, and show that S. guaraniticum possesses considerable antimicrobial and antioxidant potential. / A família Solanaceae é uma das maiores e mais complexas, destacando-se o gênero Solanum, com cerca de 1500 espécies. Solanum guaraniticum é um arbusto encontrado no Paraguai, Argentina e Brasil, conhecido popularmente como jurubeba ou falsa jurubeba. Este estudo teve como objetivo quantificar as principais classes de metabólitos secundários e determinar as atividades antioxidantes e antimicrobianas das folhas de S. guaraniticum. O material vegetal foi coletado no município de Guaporé, RS, Brasil, e está registrado no herbário do Departamento de Biologia da Universidade Federal de Santa Maria sob o número SMDB 13158. As folhas da planta foram secas, trituradas, e maceradas com etanol (70%) por sete dias. Após este período, o material foi filtrado e o extrato concentrado em evaporador rotatório a fim de obter o extrato aquoso. Parte deste foi levado à secura total originando o extrato bruto (EB), outra parte foi fracionado sucessivamente com clorofórmio (CHCl3), acetato de etila (AcOEt) e butanol (BuOH), originando as respectivas frações. Na análise fitoquímica e antioxidante, a fração AcOEt apresentou a maior quantidade de polifenóis (546.57 ± 2,35 mg de equivalentes de ácido gálico/g) e a melhor capacidade antioxidante através do método do DPPH (IC50 = 9.11 ± 0,75 μg/mL). Já a fração CHCl3 apresentou os maiores teores de taninos (56,03 ± 0,68 mg de equivalentes de catequina/g), flavonoides (75,73 ± 0,34 mg de equivalentes de rutina/g) e alcaloides (10,79 ± 0,06 mg/g), sendo a fração mais eficaz na remoção de espécies reativas, por inibição da oxidação da diclorofluoresceína (DCFH-DA), apresentando também a melhor atividade de inibição da peroxidação lipídica, avaliada através do método do TBARS, bem como de inibição da oxidação de proteínas, pelo método da proteína carbonil. A análise do EB e frações por CLAE revelou a presença dos ácidos cafeico, clorogênico e rosmarínico, ácidos fenólicos bastante ativos e que podem estar envolvidos nas atividades descritas. No que diz respeito à atividade antimicrobiana, avaliada através de microdiluição em caldo, boas atividades foram verificadas frente a bactérias Gram-positivas, principalmente para o EB (CIM de 32 μg/mL para M. luteus) e para a fração AcOEt (CIM de 64 μg/mL para S. intermedius e L. monocytogenes). Os extratos foram praticamente inativos contra bactérias Gram-negativas e inativos contra fungos. Verificou-se também atividade antimicobacteriana promissora, principalmente para a fração CHCl3 contra M. smegmatis (CIM = 156 μg/mL). Os resultados ajudam a elucidar algumas características fitoquímicas da espécie e mostram que S. guaraniticum possui potenciais antioxidante e antimicrobiano consideráveis.

Solanum guaraniticum

Jurubeba

Compostos fenólicos

CLAE

Antimicrobianos naturais

Solanum guaraniticum

Jurubeba

Phenolic compounds

HPLC

Natural antimicrobials

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

Estudio de la capacidad antimicrobiana de sustancias naturales in vivo e in vitro

Ibáñez Peinado, Diana

18 July 2022

[ES] Actualmente, una de las principales preocupaciones de las autoridades sanitarias y de la industria alimentaria sigue siendo garantizar la inocuidad microbiológica en la cadena alimentaria ya que a pesar de los notables esfuerzos realizados, el número de brotes y casos de enfermedades de transmisión alimentaria causadas por microorganismos sigue elevándose. Por otro lado, otro de los problemas que debe afrontar la industria alimentaria es la implementación de nuevas alternativas de producción más sostenibles, manteniendo altos estándares de seguridad y garantizando la disponibilidad de alimentos. En este contexto se enmarca la presente tesis doctoral, cuyo principal objetivo es la evaluación in vivo e in vitro de la capacidad antimicrobiana de distintas sustancias naturales procedentes de fuentes alternativas, más sostenibles (extracto de coliflor, espirulina y soluciones de quitosano), frente a microorganismos patógenos de importancia en la industria de alimentos. Los estudios demuestran la capacidad antimicrobiana in vitro del quitosano de insecto y crustáceo frente a microorganismos patógenos como E. coli, L. monocytogenes y S. Typhimurium siendo dependiente del pH del medio estudiado. Además, cuando el quitosano se combina con un tratamiento suave de altas presiones hidrostáticas, se pone de manifiesto una relación sinérgica entre ambas tecnologías llegando a inactivar completamente la carga microbiana de S. Typhimurium. Los estudios in vivo llevados a cabo con Caenorhabditis elegans muestran que el nematodo aumenta su supervivencia en presencia de extractos de coliflor y espirulina. En cuanto a la capacidad antimicrobiana, los extractos de espirulina y de coliflor reducen la colonización intestinal por S. Typhimurium en el nema todo mostrando así su capacidad antimicrobiana in vivo. En la presente tesis doctoral, se hace un recorrido completo sobre la capacidad antimicrobiana de ciertos extractos vegetales o componentes procedentes de animales, fundamentalmente basados en estudios in vivo. Este es un paso importante en la materialización de estos compuestos como alternativas más naturales y sostenibles a otros compuestos sintéticos usados en conservación de alimentos. / [CA] Actualment, una de les principals preocupacions de les autoritats sanitàries i de la indústria alimentària continua sent garantir la innocuïtat microbiològica en la cadena alimentària ja que malgrat els notables esforços realitzats, el nombre de brots i casos de malalties de transmissió alimentària causades per microorganismes continua elevant-se. D'altra banda, un altre dels problemes que ha d'afrontar la indústria alimentària és la implementació de noves alternatives de producció més sostenibles, mantenint alts estàndards de seguretat i garantint la disponibilitat d'aliments. En aquest context s'emmarca la present tesi doctoral, el principal objectiu de la qual és l'avaluació in vivo i in vitro de la capacitat antimicrobiana de diferents substàncies naturals procedents de fonts alternatives, més sostenibles (extracte de coliflor, espirulina i solucions de quitosano), enfront de microorganismes patògens d'importància en la indústria d'aliments. Els estudis demostren la capacitat antimicrobiana in vitro del quitosano d'insecte i crustaci enfront de microorganismes patògens com a E. coli, L. monocytogenes i S. Typhimurium sent dependent del pH del mig estudiat. A més, quan el quitosano es combina amb un tractament suau d'altes pressions hidroestàtiques, es posa de manifest una relació sinèrgica entre totes dues tecnologies arribant a inactivar completament la càrrega microbiana de S. Typhimurium. Els estudis in vivo duts a terme amb Caenorhabditis elegans mostren que el nematode augmenta la seua supervivència en presència d'extractes de coliflor i espirulina. Quant a la capacitat antimicrobiana, els extractes d'espirulina i de coliflor redueixen la colonització intestinal per S. Typhimurium en el nematode mostrant així la seua capacitat antimicrobiana in vivo. En la present tesi doctoral, es fa un recorregut complet sobre la capacitat antimicrobiana d'uns certs extractes vegetals o components procedents d'animals, fonamentalment basats en estudis in vivo. Aquest és un pas important en la materialització d'aquests compostos com a alternatives més naturals i sostenibles a altres compostos sintètics usats en conservació d'aliments. / [EN] Currently, one of the main concerns of the health authorities and the food industry continues to be ensuring microbiological safety in the food chain, as despite considerable efforts, the number of outbreaks and cases of foodborne diseases caused by microorganisms continues to rise. On the other hand, another chalenge facing the food industry is the implementation of new, more sustainable production alternatives while maintaining high safety standards and ensuring food availability. It is in this context, the main objective of this PhD thesis is the in vivo and in vitro evaluation of the antimicrobial capacity of different natural substances from alternative, more sustainable sources (cauliflower extract, spirulina and chitosan solutions) against pathogenic microorganisms of importance in the food industry. Studies demonstrate the in vitro antimicrobial capacity of insect and crustacean chitosan against pathogenic microorganisms such as E. coli, L. monocytogenes and S. Typhimurium, being dependent on the pH of the medium studied. Moreover, when chitosan is combined with a mild treatment of high hydrostatic pressures, a synergistic relationship between both technologies is evident, reaching the point of completely inactivating the microbial load of S. Typhimurium. In vivo studies carried out with Caenorhabditis elegans show that the nematode increases its survival in the presence of cauliflower and spirulina extracts. In terms of antimicrobial capacity, spirulina and cauliflower extracts reduce intestinal colonization by S. Typhimurium in the nematode, thus showing their antimicrobial capacity in vivo. In this doctoral thesis, a complete overview of the antimicrobial capacity of certain plant extracts or animal-derived compounds is presented, mainly based on in vivo studies. This is an important step in the materialisation of these compounds as more natural and sustainable alternatives to other synthetic compounds used in food preservation. / La presente tesis doctoral se enmarca dentro del Programa de Doctorado Ciencia, Tecnología y Gestión Alimentaria de la Universidad Politécnica de Valencia. El trabajo experimental se realizó gracias a fondos del Ministerio de Ciencia e Innovación y del Fondo Europeo de Desarrollo Regional (FEDER), a través del proyecto: Validación de nuevas herramientas y procesos para el análisis y la mejora de la seguridad alimentaria microbiológica: aplicación a nuevas matrices alimentarias (AGL2017-86840-C2-2-R) del Programa Estatal de Investigación, Desarrollo e Innovación Orientada a los Retos de la Sociedad. / Ibáñez Peinado, D. (2022). Estudio de la capacidad antimicrobiana de sustancias naturales in vivo e in vitro [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/184317 / TESIS

High hydrostatic pressures

Natural antimicrobials

Antimicrobianos naturales

Salmonella Typhimurium

Escherichia coli

Listeria monocytogenes

Altas presiones hidrostáticas

Caenorhabditis elegans

TECNOLOGIA DE ALIMENTOS

Evaluation of Peanut Skin Extract, Grape Seed Extract, and Grape Seed Extract Fractions to Reduce Populations of Select Foodborne Pathogens

Levy, Jason M.

10 June 2014

Grape seed extract (GSE) and peanut skin extract (PSE) are waste products in the wine and peanut industries. Both extracts have high concentrations of polyphenols, known to possess antioxidant and antimicrobial properties. A subcategory of polyphenol is procyanidin, which can be divided into two types, type A and type B. Type A (PSE), contains two single bonds connecting the phenolic groups while type B (GSE), contains one single bond connecting the phenolic groups. The minimum inhibitory concentration (MIC) of the two extracts was evaluated for their antimicrobial effect on Listeria monocytogenes, Staphylococcus aureus, Escherichia coli O157:H7, and Salmonella Typhimurium using the pour plate method. GSE was found to have a significantly lower MIC (p ≤ 0.05) than PSE for L. monocytogenes (GSE=60.60ppm, PSE=not found), S. aureus (GSE=38.63ppm, PSE=51.36ppm), and S. Typhimurium (GSE=45.73ppm, PSE=60.60ppm). There was no significant difference in inhibition of E. coli O157:H7 (GSE=47.44ppm, PSE=51.13ppm). Since GSE, contributed to greater pathogen inhibition, its extract was fractionated into monomer and oligomers components. Growth curves of all four pathogens inoculated in the monomer and oligomer fractions were compared using the BioScreen method. Oligomers inhibited growth of L. monocytogenes, S. aureus, and E. coli O157:H7 while monomers inhibited growth of S. Typhimurium. These results indicate that an extract with type B procyanidins that are high in oligomers may be more effective as antimicrobials. Type B procyanidins have also been shown to prevent bacterial adhesion, as is the case with urinary tract infections, and may aid in the prevention of biofilms. / Master of Science in Life Sciences

Polyphenols

natural antimicrobials

grape seed extract

Vitis vinifera

peanut skin extract

E. coli O157:H7

Listeria monocytogenes

S. aureus

Salmonella Typhimurium

Controle de Listeria monocytogenes em lingüiça frescal refrigerada através do uso de óleo essencial de orégano e nisina / Control of Listeria monocytogenes in fresh pork sausage due to use of oregano essential oil and nisin

Kruger, Monika Francisca

30 June 2006

Listeria monocytogenes é conhecida como um importante patógeno causador de doenças transmitidas por alimentos na última década. Apesar do número de casos por ano ser relativamente baixo, a infecção pode ser grave, com mortalidades acima de 30%. Pesquisas realizadas no Brasil relataram uma incidência de 32% em amostras de produtos cárneos, e o microrganismo foi encontrado em 80% das amostras lingüiças frescal de carne suína. Apesar dos recentes avanços nas tecnologias de controle de patógenos em alimentos, os consumidores têm procurado alimentos \"naturais\", isto é, submetidos a tratamentos menos agressivos e isentos de conservadores químicos. Antimicrobianos naturais são uma opção interessante, mas sua aplicação requer uma melhor compreensão de sua funcionalidade nos alimentos. Os óleos essenciais e seus compostos fenólicos estão se tornando agentes antimicrobianos naturais bastante populares, assim como a nisina, uma bacteriocina produzida por Lactococcus lactis subsp. lactis. Esta pesquisa foi desenvolvida para avaliar o efeito de óleo essencial de orégano (O.E.O.) e de nisina, individualmente ou em combinação, na inibição da multiplicação de Listeria monocytogenes Scott A in vitro (meio de cultura) e in situ -(lingüiça frescal suína). A atividade inibitória foi testada pela metodologia de difusão em poços, e os halos de inibição foram medidos 24 horas após a incubação à 37ºC. Foram testadas as concentrações 0,05%, 0,1%, 0,2%, 0,3%, 0,4% e 0,5% (v/v) de O.E.O. e 0, 100, 200, 400, 600, 800, 1000, 1200, 1400, 1600, 1800 e 2000 ppm de nisina. Quando o óleo essencial foi usado em combinação com a nisina foi observado um efeito sinérgico na inibição de L. monocytogenes. As concentrações que apresentaram o maior efeito contra o patógeno nos testes in vitro, ou seja 0,5% (v/v) O.E.O. com 200 ppm de nisina, foram utilizadas nos experimentos com três formulações diferentes lingüiça frescal, contendo pernil de porco, sal (2%), nitrito (0,015%), condimentos, emulsificantes e antioxidantes, experimentalmente contaminadas com L. monocytogenes Scott A (106 UFC/g). A multiplicação do patógeno foi monitorada no produto refrigerado a 5oC por até 10 dias, através da contagem em placas. Controles sem antimicrobianos também foram estudados. Os resultados indicaram que o O.E.O., usado isoladamente, não conferiu proteção ao alimento. A nisina causou uma redução de 2 log imediatamente após o contato com o microrganismo, mas durante o armazenamento, as células sobreviventes apresentaram a mesma taxa de multiplicação que na lingüiça controle (??0,05), mantendo as contagens 2 log inferiores as do controle por até 9 dias. Quando os dois antimicrobianos foram usados em combinação, a redução imediata após o contato foi de 4 log, e, quando comparado ao controle, a taxa de multiplicação durante o armazenamento a 5oC foi significativamente mais altas que no controle (??0,05). Entretanto, as amostras de lingüiça contendo esses antimicrobianos nas concentrações testadas não foram aprovadas nos testes sensoriais de aceitação (??0,05). Esses resultados indicam que a combinação desses antimicrobianos pode ser utilizada como uma barreira adicional para a multiplicação de L.monocytogenes em lingüiça frescal suína, mas os atributos sensoriais que conferem ao produto podem limitar sua aplicação. / Listeria monocytogenes has been recognized as an important foodborne pathogen for the past decade. Although the number of cases per annum is relatively low, the infections can be acute, with mortality up to 30%. In Brazil, some works reported that 32% of dairy meat products were contaminated with L. monocytogenes, and this organism was found in 80% of fresh pork sausage. In spite of modern improvements in food production techniques, the consumers are seeking for \"natural\" food products, i.e., not submitted to aggressive treatments or added of chemical preservatives. Natural antimicrobials are a promising option, but their application requires a better understanding of their functionality in foods. Naturally occurring antimicrobial agents, such as essential oils and their phenolic components, are becoming increasingly popular as preservation agents. Other compound with increased application in foods is nisin, a bacteriocin produced by Lactococcus lactis subsp. lactis. This study aimed to evaluate the antimicrobial effect of oregano essential oil (O.E.O.) and nisin, individually or in combination, on the inhibition of growth of Listeria monocytogenes Scott A in vitro (agar culture medium) and in situ (fresh pork sausage). The inhibitory activity was tested by the well diffusion method, measuring the inhibition halos after 24hours incubation at 37ºC. The concentrations tested were 0.05%, 0.1%, 0.2%, 0.3%, 0.4%, 0.5% (v/v) for OEO and 0, 100, 200, 400, 600, 800, 1000, 1200, 1400, 1600, 1800 and 2000 ppm for nisin. When the essential oil was used in combination with nisin, a synergistic effect was observed for L. monocytogenes, i.e., the oil enhanced the activity of the bacteriocin. The combination 0.5% (v/v) O.E.O. with 200 ppm nisin presented the best results and was used to test the functionality in fresh pork sausage prepared with three different formulations, containing deboned minced pork meat, 2% salt and 0.015% nitrite, plus spices, emulsifier and antioxidant, and experimentally contaminated with L. monocytogenes Scott A (106 CFU/g). The growth of the pathogen was monitored in the refrigerated product (5oC) up to 10 days, by means of plate counting. Controls without antimicrobials were included in the experiments. Results indicated that O.E.O., used alone, was not effective. Nisin alone caused a 2-log reduction immediately after contact, but during storage the surviving cells presented the same multiplication rate as in the control (? ? 0.5), keeping the counts 2 log lower up to 9 days. When used in combination, the two antimicrobials caused a 4-log count reduction immediately after addition and, when compared to the control, the multiplication rate of the surviving cells during storage under refrigeration up to 10 days was significantly higher (? ? 0.5). However, samples containing these antimicrobials in the tested concentrations failed the sensorial acceptance tests (? ? 0.5). These results indicate that the combination of these antimicrobials can be an additional hurdle for the control of L. monocytogenes in fresh pork sausages, but the final sensorial attributes of the product may hamper their application.

antimicrobianos naturais

fresh pork sausage

lingüiça frescal suína

Listeria monocytogenes

Listeria monocytogenes

natural antimicrobials

nisin

nisina

óleo essencial de orégano

oregano essential oil

Controle de Listeria monocytogenes em lingüiça frescal refrigerada através do uso de óleo essencial de orégano e nisina / Control of Listeria monocytogenes in fresh pork sausage due to use of oregano essential oil and nisin

Monika Francisca Kruger

30 June 2006

Listeria monocytogenes é conhecida como um importante patógeno causador de doenças transmitidas por alimentos na última década. Apesar do número de casos por ano ser relativamente baixo, a infecção pode ser grave, com mortalidades acima de 30%. Pesquisas realizadas no Brasil relataram uma incidência de 32% em amostras de produtos cárneos, e o microrganismo foi encontrado em 80% das amostras lingüiças frescal de carne suína. Apesar dos recentes avanços nas tecnologias de controle de patógenos em alimentos, os consumidores têm procurado alimentos \"naturais\", isto é, submetidos a tratamentos menos agressivos e isentos de conservadores químicos. Antimicrobianos naturais são uma opção interessante, mas sua aplicação requer uma melhor compreensão de sua funcionalidade nos alimentos. Os óleos essenciais e seus compostos fenólicos estão se tornando agentes antimicrobianos naturais bastante populares, assim como a nisina, uma bacteriocina produzida por Lactococcus lactis subsp. lactis. Esta pesquisa foi desenvolvida para avaliar o efeito de óleo essencial de orégano (O.E.O.) e de nisina, individualmente ou em combinação, na inibição da multiplicação de Listeria monocytogenes Scott A in vitro (meio de cultura) e in situ -(lingüiça frescal suína). A atividade inibitória foi testada pela metodologia de difusão em poços, e os halos de inibição foram medidos 24 horas após a incubação à 37ºC. Foram testadas as concentrações 0,05%, 0,1%, 0,2%, 0,3%, 0,4% e 0,5% (v/v) de O.E.O. e 0, 100, 200, 400, 600, 800, 1000, 1200, 1400, 1600, 1800 e 2000 ppm de nisina. Quando o óleo essencial foi usado em combinação com a nisina foi observado um efeito sinérgico na inibição de L. monocytogenes. As concentrações que apresentaram o maior efeito contra o patógeno nos testes in vitro, ou seja 0,5% (v/v) O.E.O. com 200 ppm de nisina, foram utilizadas nos experimentos com três formulações diferentes lingüiça frescal, contendo pernil de porco, sal (2%), nitrito (0,015%), condimentos, emulsificantes e antioxidantes, experimentalmente contaminadas com L. monocytogenes Scott A (106 UFC/g). A multiplicação do patógeno foi monitorada no produto refrigerado a 5oC por até 10 dias, através da contagem em placas. Controles sem antimicrobianos também foram estudados. Os resultados indicaram que o O.E.O., usado isoladamente, não conferiu proteção ao alimento. A nisina causou uma redução de 2 log imediatamente após o contato com o microrganismo, mas durante o armazenamento, as células sobreviventes apresentaram a mesma taxa de multiplicação que na lingüiça controle (??0,05), mantendo as contagens 2 log inferiores as do controle por até 9 dias. Quando os dois antimicrobianos foram usados em combinação, a redução imediata após o contato foi de 4 log, e, quando comparado ao controle, a taxa de multiplicação durante o armazenamento a 5oC foi significativamente mais altas que no controle (??0,05). Entretanto, as amostras de lingüiça contendo esses antimicrobianos nas concentrações testadas não foram aprovadas nos testes sensoriais de aceitação (??0,05). Esses resultados indicam que a combinação desses antimicrobianos pode ser utilizada como uma barreira adicional para a multiplicação de L.monocytogenes em lingüiça frescal suína, mas os atributos sensoriais que conferem ao produto podem limitar sua aplicação. / Listeria monocytogenes has been recognized as an important foodborne pathogen for the past decade. Although the number of cases per annum is relatively low, the infections can be acute, with mortality up to 30%. In Brazil, some works reported that 32% of dairy meat products were contaminated with L. monocytogenes, and this organism was found in 80% of fresh pork sausage. In spite of modern improvements in food production techniques, the consumers are seeking for \"natural\" food products, i.e., not submitted to aggressive treatments or added of chemical preservatives. Natural antimicrobials are a promising option, but their application requires a better understanding of their functionality in foods. Naturally occurring antimicrobial agents, such as essential oils and their phenolic components, are becoming increasingly popular as preservation agents. Other compound with increased application in foods is nisin, a bacteriocin produced by Lactococcus lactis subsp. lactis. This study aimed to evaluate the antimicrobial effect of oregano essential oil (O.E.O.) and nisin, individually or in combination, on the inhibition of growth of Listeria monocytogenes Scott A in vitro (agar culture medium) and in situ (fresh pork sausage). The inhibitory activity was tested by the well diffusion method, measuring the inhibition halos after 24hours incubation at 37ºC. The concentrations tested were 0.05%, 0.1%, 0.2%, 0.3%, 0.4%, 0.5% (v/v) for OEO and 0, 100, 200, 400, 600, 800, 1000, 1200, 1400, 1600, 1800 and 2000 ppm for nisin. When the essential oil was used in combination with nisin, a synergistic effect was observed for L. monocytogenes, i.e., the oil enhanced the activity of the bacteriocin. The combination 0.5% (v/v) O.E.O. with 200 ppm nisin presented the best results and was used to test the functionality in fresh pork sausage prepared with three different formulations, containing deboned minced pork meat, 2% salt and 0.015% nitrite, plus spices, emulsifier and antioxidant, and experimentally contaminated with L. monocytogenes Scott A (106 CFU/g). The growth of the pathogen was monitored in the refrigerated product (5oC) up to 10 days, by means of plate counting. Controls without antimicrobials were included in the experiments. Results indicated that O.E.O., used alone, was not effective. Nisin alone caused a 2-log reduction immediately after contact, but during storage the surviving cells presented the same multiplication rate as in the control (? ? 0.5), keeping the counts 2 log lower up to 9 days. When used in combination, the two antimicrobials caused a 4-log count reduction immediately after addition and, when compared to the control, the multiplication rate of the surviving cells during storage under refrigeration up to 10 days was significantly higher (? ? 0.5). However, samples containing these antimicrobials in the tested concentrations failed the sensorial acceptance tests (? ? 0.5). These results indicate that the combination of these antimicrobials can be an additional hurdle for the control of L. monocytogenes in fresh pork sausages, but the final sensorial attributes of the product may hamper their application.

antimicrobianos naturais

lingüiça frescal suína

Listeria monocytogenes

nisina

óleo essencial de orégano

fresh pork sausage

Listeria monocytogenes

natural antimicrobials

nisin

oregano essential oil