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This research evaluates the use of cassava bagasse starch and oregano essential oil (OEO) in an active film. For comparison, films of cassava starch (CS) and cassava bagasse starch (BS) were prepared with OEO at 1, 2, and 3 %. Physical, thermal, mechanical, antioxidant, and antimicrobial properties were determined. BS films presented higher thickness, WVP, ΔE, modulus of elasticity, and maximum stress, but lower strain at break compared to CS films. Adding OEO into the films increased their thickness, moisture, solubility, WVP and strain at break. However, maximum stress, modulus of elasticity, and T dmax decreased. The CS films added with 3 % of OEO showed higher WVP (6.32 × 10-14 kg m/m2.s.Pa), intermediate solubility of 39 % and low maximum stress (0.19 MPa) while the BS film with 3 % of OEO presented 5.73 × 10-14 kg m/m2.s.Pa, 30 % and 0.39 MPa, respectively. The increase from 1 % to 3 % of OEO increased the total phenolic compound content and antioxidant activity of the films by 1.3-fold and 3.7-fold, respectively. The incorporation of 3 % OEO in the films inhibited the growth of S. aureus and E. coli. Therefore, BS and OEO films offer a promising solution as biodegradable active food packaging, providing a more sustainable alternative to traditional non-biodegradable plastic packaging.
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Antioxidant films were prepared using poly(vinyl chloride) (PVC) incorporated with 0.5% or 1.0% zinc oxide (ZnO)-flavonoid (quercetin or morin) nanoparticles (NPZnO-Q% or NPZnO-M%) via the casting method. NP incorporation within the polymer matrix influenced the structural, morphological, optical, and thermal properties of the PVC-based films, as well as their antioxidant activity as assessed using the DPPH radical scavenging method. Our results indicated that increasing ZnO-flavonoid NP concentration increased films thickness, while reducing ultraviolet light (UV) transmittance but conserving transparency. The presence of NPZnO-Q% or NPZnO-M% improved the surface uniformity and thermal stability of the active films. In terms of antioxidant activity, there was an enhancement in the DPPH radical scavenging capacity (PVC/ZnO-Q1.0% > PVC/ZnO-Q0.5% > PVC/ZnO-M0.5% > PVC/ZnO-M1.0% > PVC), suggesting that the packaging can help protect food from oxidative processes. Therefore, these antioxidant films represent an innovative strategy for using as active food packaging material, especially intended for aiding in quality preservation and extending the shelf life of fatty foods.
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Chia (Salvia hispanica L.) flour seeds produce films with good barrier properties against water vapor and could be used as food packaging; however, their mechanical properties are poor, which limits their application. The incorporation of nanoparticles into natural polymers is a strategy used to improve the properties of films to increase their applications. Furthermore, nanoparticles can encapsulate antioxidant agents and generate active films. The objective of this study was to evaluate the influence of chia flour (4%-7%), glycerol (15%-25%), and chia extract-loaded chitosan nanoparticles (ChCNp) (0%-0.75%) on the physical, mechanical, barrier, structural and antioxidant properties of chia flour nanocomposite films. Chitosan nanoparticles loaded with antioxidant chia extract were synthesized by ionic gelation and incorporated into the films. The thickness, water vapor permeability, tensile strength, and antioxidant properties of the films were evaluated using a Box-Behnken experimental design. Structural analysis was conducted using the FTIR technique. The results of the ANOVA of the responses were adjusted to second and third order polynomial models obtaining determination coefficients of 0.96-0.99. The water vapor permeability of the films was 3.89 × 10-8-1.68 × 10-7 g mm/Pa s m2, tensile strength was 0.67-3.59 MPa and antioxidant activity was 57.12%-67.84%. The variables presented different effects on the films. Increasing the chia seed flour concentration negatively affected the water vapor permeability but improved the tensile strength and the antioxidant capacity of the films. The increase in glycerol concentration caused the films to become brittle. The nanoparticles had a significant effect on the thickness of the films and improved their mechanical and antioxidant properties. However, they did not show an effect on barrier properties. The results demonstrate that it is possible to obtain nanocomposite films with antioxidant capacity from chia seed flour and with the incorporation of chitosan nanoparticles loaded with antioxidants.
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In this work, novel nanocomposite films based on babassu coconut mesocarp and zinc oxide nanoparticles (ZnO NPs), synthesized by a green route, were produced for application as food packaging films. The films were prepared using the casting method containing different contents of ZnO NPs (0 wt%, 0.1 wt%, 0.5 wt%, and 1.0 wt%). The films were characterized by Fourier-transform infrared spectroscopy (FTIR), X-ray diffraction (XRD), thermogravimetric analysis (TGA), scanning electron microscopy (SEM), instrumental color analysis, and optical properties. The water vapor permeability (WVP) and tensile strength of films were also determined. The antimicrobial activity of the films against cooked turkey ham samples contaminated with Staphylococcus aureus was investigated. The results showed that incorporating ZnO NPs into babassu mesocarp matrices influenced the structure of the biopolymer chains and the color of the films. The BM/ZnO-0.5 film (0.5 wt% ZnO NPs) showed better thermal, mechanical, and WVP properties. Furthermore, the synergistic effect of babassu mesocarp and ZnO NPs in the BM/ZnO-0.5 film improved the antimicrobial properties of the material, reducing the microbial count of S. aureus in cooked turkey ham samples stored under refrigeration for 7 days. Thus, the films produced in this study showed promising antimicrobial packaging materials for processed foods.
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Cronobacter sakazakii is a potentially pathogenic bacterium that is resistant to osmotic stress and low aw, and capable of persisting in a desiccated state in powdered infant milks. It is widespread in the environment and present in various products. Despite the low incidence of cases, its high mortality rates of 40 to 80 % amongst neonates make it a microorganism of public health interest. This current study performed a comparative assessment between current reduction methods applied for C. sakazakii in various food matrices, indicating tendencies and relevant parameters for process optimization. A systematic review and meta-analysis were conducted, qualitatively identifying the main methods of inactivation and control, and quantitatively evaluating the effect of treatment factors on the reduction response. Hierarchical clustering dendrograms led to conclusions on the efficiency of each treatment. Review of recent research trend identified a focus on the potential use of alternative treatments, with most studies related to non-thermal methods and dairy products. Using random-effects meta-analysis, a summary effect-size of 4-log was estimated; however, thermal methods and treatments on dairy matrices displayed wider dispersions - of τ2 = 8.1, compared with τ2 = 4.5 for vegetal matrices and τ2 = 4.0 for biofilms. Meta-analytical models indicated that factors such as chemical concentration, energy applied, and treatment time had a more significant impact on reduction than the increase in temperature. Non-thermal treatments, synergically associated with heat, and treatments on dairy matrices were found to be the most efficient.
Subject(s)
Cronobacter sakazakii , Food Microbiology , Cronobacter sakazakii/growth & development , Food Contamination/prevention & control , Food Contamination/analysis , Humans , Dairy Products/microbiology , Food Handling/methods , Biofilms/growth & development , AnimalsABSTRACT
OBJECTIVE: Pediocin PA-1, an antimicrobial peptide derived from Pediococcus acidilactici PAC1.0, has a potential application as a food preservative thanks to its strong inhibitory activity against the foodborne pathogen L. monocytogenes. This study aimed to produce Pediocin PA-1 from the yeast P. pastoris and evaluate its characteristics. METHODS: Gene encoding Pediocin PA-1 was integrated into P. pastoris X33 genome to establish the strain X33::ped, which could produce and secrete this peptide into culture medium. The antimicrobial activity of Pediocin PA-1 was examined using agar diffusion assay. The stability of pediocin PA-1 was determined based on its remaining antibacterial activity after exposure to proteases and extreme pH and temperatures. The potential use of this bacteriocin in food preservation was demonstrated using the L. monocytogenes infected pork bologna. The anticancer activity of Pediocin PA-1 was also investigated on some cancer cells using MTT assay. RESULTS: We established the yeast P. pastoris X33::ped capable of producing pediocin PA-1 with antimicrobial activity against L. monocytogenes and some other harmful bacteria. Pediocin PA-1 was stable at 100ËC and resistant against pH 1-12 for 1 h, but susceptible to trypsin, α-chymotrypsin, and proteinase K. This peptide could reduce the number of L. monocytogenes in pork bologna by 3.59 log CFU/g after 7 days of storage at 4ËC. Finally, Pediocin PA-1 (25 µg/ml) inhibited the proliferation of A549 and Hela cancer cells. CONCLUSION: We succeeded in producing active Pediocin PA-1 from P. pastoris and demonstrated its potential use in food preservation and pharmaceutical industry.
Subject(s)
Food Preservation , Listeria monocytogenes , Pediocins , Pediocins/pharmacology , Pediocins/genetics , Animals , Food Preservation/methods , Listeria monocytogenes/drug effects , Listeria monocytogenes/genetics , Humans , Anti-Bacterial Agents/pharmacology , Cloning, Molecular , Swine , Microbial Sensitivity Tests , Bacteriocins/pharmacology , Bacteriocins/genetics , Bacteriocins/metabolism , Pediococcus acidilactici/genetics , Pediococcus acidilactici/metabolism , Gene Expression , Saccharomycetales/genetics , Saccharomycetales/metabolism , Saccharomycetales/drug effectsABSTRACT
This study synthesizes magnetic iron oxide nanoparticles from agro-waste sweet pepper extract, exploring their potential as antioxidant additives and in food preservation. Iron (III) chloride hexahydrate is the precursor, with sweet pepper extract as both a reducing and capping agent at pH 7.5. Characterization techniques, including microscopy and spectroscopy, analyze the sweet pepper extract-magnetic iron oxide nanoparticles. Antioxidant capacities against 2,2-diphenyl-1-picrylhydrazyl are assessed, incorporating nanoparticles into banana-based bioplastic for grape preservation. Microscopy reveals cubic and quasi-spherical structures, and spectroscopy confirms functional groups, including Fe-O bonds. X-ray diffraction identifies cubic and monoclinic magnetite with a monoclinic hematite presence. Sweet pepper extract exhibits 100% inhibitory activity in 20 min, while sweet pepper extract-magnetic iron oxide nanoparticles show an IC50 of 128.1 µg/mL. Furthermore, these nanoparticles, stabilized with banana-based bioplastic, effectively preserve grapes, resulting in a 27.4% lower weight loss rate after 144 h compared to the control group (34.6%). This pioneering study encourages institutional research into the natural antioxidant properties of agro-waste sweet pepper combined with magnetic iron and other metal oxide nanoparticles, offering sustainable solutions for nanopackaging and food preservation. Current research focuses on refining experimental parameters and investigating diverse applications for sweet pepper extract-magnetic iron oxide nanoparticles in varied contexts.
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This study aimed to produce spray dried acerola juice microparticles with different protein carriers to be incorporated into edible starch films. The microparticles were evaluated for solids recovery, polyphenol retention, solubility, hygroscopicity, particle size distribution, X-ray diffraction, phytochemical compounds and antioxidant activity. Acerola microparticles produced with WPI/hydrolysed collagen carriers (AWC) with higher solids recovery (53.5 ± 0.34% w/w), polyphenol retention (74.4 ± 0.44% w/w), high solubility in water (85.2 ± 0.4% w/w), total polyphenol content (128.45 ± 2.44 mg GAE/g) and good storage stability were selected to produce starch-based films by casting. As a result, cassava films with water vapour permeability of 0.29 ± 0.07 g mm/m2 h KPa, polyphenol content of 10.15 ± 0.22 mg GAE/g film and DPPH radical scavenging activity of 6.57 ± 0.13 µM TE/g film, with greater migration of polyphenol to water (6.30 ± 0.52 mg GAE/g film) were obtained. Our results show that the incorporation of phytochemical-rich fruit microparticles is a promising strategy to create biodegradable edible films.
Whey/collagen protein blend AWC was the best wall material for acerola encapsulation.Spray dried protein-acerola particles were used to formulate edible films.Water soluble phenolic-rich AWC films with antioxidant properties were produced.Acerola phenolics from starch films migrated more to water than to acid media.
Subject(s)
Edible Films , Ascorbic Acid , Phytochemicals , Polyphenols , StarchABSTRACT
Films based on poly(vinyl alcohol) (PVA) and cationic starch (CS) were combined with different percentages of sorbitol (S; 15.0, 22.5, and 30.0% w v-1) to assess the effect of plasticizer on the films. Spectroscopic analyses confirmed the interaction between them. However, micrographs indicated the formation of sorbitol crystals on the surface of the films, especially at higher sorbitol concentrations. The blends presented low water vapor transmission rate values, reaching (7.703 ± 0.000) g h-1 m-2 (PVA75CS25S15), and low solubility values for the films containing higher CS amounts. The lack of statistical differences in most parameters suggests that no significant gain comes from increasing the amount of sorbitol at percentages higher than 15%. As a coating, the blend PVA75CS25S15 successfully decreased the loss of moisture content in acerolas by 1.15 times (compared to the control), confirming the suitability of this matrix as a fruit coating.
Subject(s)
Polyvinyl Alcohol , Starch , Starch/chemistry , Polyvinyl Alcohol/chemistry , Plasticizers/chemistry , Spectrum Analysis , Ethanol , SorbitolABSTRACT
ABSTRACT Tray dryers are usually designed with simplistic scaling rules that do not account for all the transport phenomena associated with drying. The use of computational fluid dynamics coupled with response surface methodology can be a powerful tool to evaluate how different tray dryer design parameters affect the drying process. In this work, two tray dryers, one with a lateral air inlet and another with a bottom air inlet, were parameterized for the position of the air inlet, the dryer length, and the distance between the trays. A central composite design was chosen to determine the sample points, and the average turbulence viscosity and effective thermal conductivity as well as the homogeneity index were calculated. With these values, a response surface curve was constructed. The effective thermal conductivity and its homogeneity index were improved (80 % and 11 %, respectively) with an increased distance between trays and an air inlet located in the middle of the inlet face in the best scenario. In addition, the reductions in effective thermal conductivity outcomes were minimal due to the scale-up process in terms of the dryer length.
RESUMEN Los secadores de bandejas se suelen diseñar con reglas de escala simplistas, que no tienen en cuenta todos los fenómenos de transporte, asociados con el secado. El uso de dinámica de fluidos computacional junto con la metodología de superficie de respuesta puede ser una herramienta poderosa, para evaluar cómo los diferentes parámetros de diseño del secador de bandeja afectan el proceso de secado. En este trabajo se parametrizaron dos secadores de bandeja, uno con entrada de aire lateral y otro con entrada de aire inferior, variando la posición de la entrada de aire, la longitud del secador y la distancia entre las bandejas. Se eligió un diseño compuesto central, para determinar los puntos de muestra y se calcularon la viscosidad de turbulencia promedio y la conductividad térmica efectiva, así como el índice de homogeneidad. Con estos valores se construyó una curva de superficie de respuesta. Se mejoró la conductividad térmica efectiva y su índice de homogeneidad (80 y 11 %, respectivamente), con una mayor distancia entre platos y una entrada de aire, ubicada en el medio de la cara de entrada en el mejor escenario. Además, las reducciones en los resultados de la conductividad térmica efectiva fueron mínimas, debido al proceso de ampliación en términos de la longitud del secador.
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ABSTRACT Staphylococcus aureus is a foodborne bacterium frequently isolated from cheeses, and it is responsible for causing food poisoning. The purpose of this study was to develop a secondary model to assess the growth of S. aureus in costeño cheese packaged with an active film. Costeño cheese samples were inoculated with S. aureus and covered with an active film made from an aqueous extract of Schinopsis balansae. Subsequently, the cheese samples were stored at temperatures of 6, 12, 18, and 21 °C. The Huang model was applied to the experimental data of S. aureus to determine growth parameters. The maximum growth rate (µmax) was then used as a function of temperature to create the secondary model using a polynomial equation. The results indicate that the application of the active film of S. aureus had a significant influence on growth parameters of S. aureus such as µmax, lag-phase (λ), and maximum cell population (Ymax) in Costeño cheese. The validation process included measuring the indices: accuracy factor (Af), bias factor (Bf), and root mean square error (RMSE). The secondary model exhibited Af and Bf factors close to one, suggesting that the polynomial models are viable to predict S. aureus growth in cheese packaged with active film, considering temperature and storage time.
RESUMEN Staphylococcus aureus es una bacteria de origen alimentario aislada frecuentemente de quesos responsables de causar intoxicaciones alimentarias. El objetivo de este estudio fue construir un modelo secundario para evaluar el crecimiento de S. aureus en queso costeño, empacado con película activa. Las muestras de queso costeño se inocularon con S. aureus y se cubrieron con la película activa, elaborada con extracto acuoso de Schinopsis balansae. Luego, las muestras de queso se almacenaron a 6, 12, 18 y 21 °C. El modelo de Huang fue ajustado a los datos experimentales de S. aureus, para obtener parámetros de crecimiento. Después, se usó la tasa de crecimiento máxima (µmáx) en función de la temperatura para construir el modelo secundario, usando una ecuación polinomial. La aplicación de película activa de S. balansae tuvo una influencia significativa en los parámetros de crecimiento de S. aureus, como la tasa de crecimiento máxima (μmax), la fase de latencia (λ) y la población celular máxima (Ymax), en el queso costeño. El proceso de validación se realizó midiendo los índices: factor de exactitud (Af), factor de sesgo (Bf) y error cuadrático medio (ECM). El modelo secundario tenía factores Af y Bf cercanos a uno, lo que indica que los modelos obtenidos son viables para predecir el crecimiento de S. aureus en queso envasado con película activa, tomando en consideración la temperatura y el tiempo de almacenamiento.
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Propolis has numerous biological properties and technological potential, but its low solubility in water makes its use quite difficult. With the advent of nanotechnology, better formulations with propolis, such as nanopropolis, can be achieved to improve its properties. Nanopropolis is a natural nanomaterial with several applications, including in the maintenance of food quality. Food safety is a global public health concern since food matrices are highly susceptible to contamination of various natures, leading to food loss and transmission of harmful foodborne illness. Due to their smaller size, propolis nanoparticles are more readily absorbed by the body and have higher antibacterial and antifungal activities than common propolis. This review aims to understand whether using propolis with nanotechnology can help preserve food and prevent foodborne illness. Nanotechnology applied to propolis formulations proved to be effective against pathogenic microorganisms of industrial interest, making it possible to solve problems of outbreaks that can occur through food.
Subject(s)
Foodborne Diseases , Propolis , Humans , Foodborne Diseases/prevention & control , Foodborne Diseases/microbiology , Anti-Bacterial Agents , Antifungal Agents , Food MicrobiologyABSTRACT
Strawberries are highly consumed around the world; however, the post-harvest shelf life is a market challenge to mitigate. It is necessary to guarantee the taste, color, and nutritional value of the fruit for a prolonged period of time. In this work, a nanocoating based on chitosan and ZnO nanoparticles for the preservation of strawberries was developed and examined. The chitosan was obtained from residual shrimp skeletons using the chemical method, and the ZnO nanoparticles were synthesized by the close-spaced sublimation method. X-ray diffraction, scanning electron microscopy, electron dispersion analysis, transmission electron microscopy, and infrared spectroscopy were used to characterize the hybrid coating. The spaghetti-like ZnO nanoparticles presented the typical wurtzite structure, which was uniformly distributed into the chitosan matrix, as observed by the elemental mapping. Measurements of color, texture, pH, titratable acidity, humidity content, and microbiological tests were performed for the strawberries coated with the Chitosan/ZnO hybrid coating, which was uniformly impregnated on the strawberries' surface. After eight days of storage, the fruit maintained a fresh appearance. The microbial load was reduced because of the synergistic effect between chitosan and ZnO nanoparticles. Global results confirm that coated strawberries are suitable for human consumption.
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Growing consumer awareness of the potential negative health effects of synthetic antibiotics has prompted the search for more natural preservatives that can improve the safety and quality of food. In this study we report the enzymatic synthesis of N-α-[Carbobenzyloxy]-Ile-Gln (Z-IQ) which is the precursor of Ile-Gln (IQ), a new antibacterial dipeptide, using an aqueous-organic biphasic system formed by 50% (v/v) ethyl acetate in 0.1 M Tris - HCl buffer pH 8. A partially purified proteolytic extract from the fruits of Solanum granuloso leprosum, named granulosain, proved to be a robust biocatalyst for the synthesis of Z-IQ, eliciting 71 ± 0.10% maximal peptide yield in the above described conditions. After cleaving and purifying IQ dipeptide, antimicrobial activity was assayed against Staphylococcus aureus ATCC 25923, Staphylococcus hominis A17771, and Staphylococcus aureus C00195, and MIC values between 118 ± 0.01 µg/mL and 133.7 ± 0.05 µg/mL were obtained. In addition, IQ showed MIC of 82.4 ± 0.01 µg/mL and 85.0 ± 0.00 µg/mL against Escherichia coli ATCC 25922 and Escherichia coli A17683, respectively. IQ did not show inhibitory activity against single-drug resistance (SDR) strains, such as Klebsiella oxytoca A19438 (SDR) and Pseudomonas aeruginosa C00213 (SDR), and against multidrug-resistant Enterococcus faecalis I00125 (MDR). IQ also caused growth inhibition of Helicobacter pylori NCTC 11638 and three wild-type H. pylori strains, which are sensitive to AML, MTZ, LEV and CLA (H. pylori 659), resistant to LEV (H. pylori 661 SDR), and resistant to MTZ (H. pylori 662 SDR). Finally, this study contributes with a new dipeptide (IQ) that can be used as an antimicrobial agent for food preservation or as a safe ingredient of functional foods.
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Conching is a processing stage of industrial chocolate manufacture that is essential to the development of the sensory and rheological properties of the finished product. It promotes the physicochemical changes leading to flavor, aroma, and flowability refinement by continuously heating, aerating, shearing, and homogenizing chocolate mass during an extended time length. Conching duration is a key processing parameter that depends on the type of chocolate, the quality of primary ingredients, the conche's configuration, and the desired sensory outcome in the chocolate. Shorter cycles are often beneficial to manufacturers, due to increased productivity and reduced energy consumption, but they may be insufficient to fully develop chocolate's desired sensory properties. The present study aimed to shed light on the trade-off between product quality and process efficiency by assessing if varying conching durations were associated with statistically significant differences in the sensory profile and consumer acceptance of milk chocolates with freeze-dried blueberry. Samples were produced under an alternative method of conching prior to ball mill refining, with times investigated being 6, 12, 24, 36, 48, and 72â h, and were subsequently submitted to Quantitative Descriptive Analysis and consumer acceptance test. No statistically significant differences in either sensory profiles or consumer acceptance ratings of samples were observed, with the exception of hedonic values for aroma, indicating that a 6-h conching cycle was already enough to develop the sensory properties of the milk chocolate with freeze-dried blueberry. The feasibility of shorter conching times suggests a potential for energy saving and increased productivity in the production of milk chocolates following the conching prior to ball mill refining concept.
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Introdução: a contaminação microbiológica dos alimentos se apresenta como um grande problema para a indústria, agências reguladoras e consumidores. Os métodos de conservação utilizados como garantia da inocuidade dos alimentos bem como de extensão da vida de prateleira garantem uma redução significativa do número de células viáveis e/esporos. Entretanto, em virtude da aplicação de técnicas como calor, frio, redução da atividade de água e adição de conservantes, parte da população microbiana pode apresentar células com danos letais bem como danos reversíveis, tornando-se injuriadas. Objetivo: realizar uma revisão bibliográfica acerca da ocorrência de injúrias microbianas decorrentes da aplicação de métodos de conservação em alimentos. Metodologia: consulta das bases de dados Pubmed e Scielo, com seleção de artigos publicados entre os anos de 2000 e 2019. Revisão de literatura: os microrganismos se tornam injuriados após sobreviverem a condições estressantes e perderem parte de suas características funcionais, o que justifica um maior período para multiplicação nos alimentos, assim como em meios de cultura tradicionais. Cabe ressaltar que, caso estes microrganismos sejam expostos à ambientes favoráveis, é possível a recuperação dos danos sofridos. Uma vez regenerados, estes agentes representam um perigo potencial, visto a capacidade de se multiplicarem novamente no alimento, oferecendo riscos aos consumidores e acelerando a deterioração de produtos alimentícios. Conclusão: diante da ocorrência de injúrias microbianas, percebe-se a necessidade de incorporação de procedimentos adequados para recuperação de danos celulares aos métodos oficiais empregados para detecção e enumeração de microrganismos, a fim de garantir a qualidade e inocuidade de alimentos.
Introduction: Microbiological contamination of food is a major problem for industry, regulatory agencies and consumers. Preservation methods used to guarantee the safety of food as well as extending the shelf life ensure a significant reduction in the number of viable cells and/or spores. However, due to the application of techniques such as heat, cold, reduction of water activity and addition of preservatives, part of the microbial population may present cells with lethal damage as well as reversible damage, becoming injured. Objective: to carry out a literature review about the occurrence of microbial injuries resulting from the application of preservation methods in food. Methodology: pubmed and Scielo databases were consulted, with a selection of articles published between 2000 and 2019. Literature review: microorganisms become injured after surviving stressful conditions and losing part of their functional characteristics, which justifies a longer period for multiplication in food, as well as in traditional culture media. It should be noted that, if these microorganisms are exposed to favourable environments, it is possible to recover from the damage suffered. Once regenerated, these agents represent a potential hazard, given their ability to multiply again in food, posing risks to consumers and accelerating the deterioration of food products. Conclusion: in view of the occurrence of microbial injuries, it is necessary to incorporate adequate cell damage recovery procedures to the official methods used for detection and enumeration of microorganisms, in order to guarantee the quality and safety of food.
Subject(s)
Food Microbiology , Food PreservationABSTRACT
It is well-known that some bacteria can promote human and animal health. Bacteria of the genus Carnobacterium, while underexplored, have demonstrated significant probiotic and bioprotective potential. In this review, the recent scientific advances in this area are discussed. There are several requirements for a strain to be considered a probiotic or bioprotective agent, including the absence of antimicrobial resistance and the ability to colonize the gastrointestinal tract. Several researchers have reported such features in Carnobacterium bacteria, especially with regard to the production of antimicrobial substances. Research into animal production has advanced, especially in the aquaculture field, wherein inhibitory activity has been demonstrated against several important pathogens (for example Vibrio), and improvement in zootechnical indexes is evident. With respect to human health-related applications, research is still in the early stages. However, excellent in vitro results against pathogens, such as Candida albicans and Pseudomonas aeruginosa, have been reported. Carnobacterium bacteria have been assessed for a variety of applications in food, including direct application to the matrix and application to smart packaging, with proven effectiveness against Listeria monocytogenes. However, there is a lack of in vivo studies on Carnobacterium applications, which hinders its applications in various industries despite its high potential.
Subject(s)
Carnobacterium , Listeria monocytogenes , Animals , Humans , Food Quality , Food Safety , Food MicrobiologyABSTRACT
Enzymatic browning is a major problem in minimally processed banana puree; it reduces consumer's acceptability and affects nutritional quality. The objective of this work was to evaluate the effects ultrasound (40â kHz/10â min), microwave (800â W/ 25â s) and UV-C radiation (1.97â kJ/m2) applied to banana puree. Colour parameters (L*, a*, b*, chroma and hue), browning index (BI), polyphenol oxidase (PPO) and peroxidase (POD) activities, total phenolic compounds (TPC), antioxidant capacity (AOC) and microbiological counts were monitored throughout storage at 4 °C. Ultrasound (US) and microwave (MW) treatments achieved a significant (p < 0.05) reduction in PPO activity and BI; moreover, ultrasound effectively retained phenolic compounds content (75% of initial value). The AOC was in coincidence with TPC values. POD activity was partially inhibited by UV-C while MW and US increase its activity. Although UV-C treatment was not effective to control browning development, it was effective to maintain microbiological stability after 20 days of storage (1.48 ± 0.01 log CFU/g). The evaluated treatments have the advantage of being less aggressive than conventional thermal treatments while maintaining fresh characteristics of the product.
Subject(s)
Musa , Microwaves , Ultraviolet Rays , Ultrasonics , Catechol Oxidase , Antioxidants , Phenols/analysisABSTRACT
RESUMEN Objetivo Evaluar y establecer la correlación estadística de la calidad sanitaria y micro-biológica del suero ácido. Métodos Las muestras de suero fueron obtenidas de empresas lácteas en Belén, Boyacá, Colombia. Se realizaron auditorías de calidad y se determinaron recuentos microbiológicos que fueron analizados en gráficos de control de calidad para evaluar el cumplimiento y la variabilidad. Se establecieron análisis de correlación entre los resultados microbiológicos y los criterios de buenas prácticas de manufactura (BPM). Resultados Los promedios de las variables microbiológicas en los momentos de evaluación evidenciaron incumplimiento de la norma en las empresas. El recuento de aerobios mesófilos y coliformes totales es diferente (p<0,05) antes y después del plan de mejoras. Los recuentos de coliformes termotolerantes, mohos y levaduras presentaron diferencias significativas en la prueba de Kruskal Wallis, pero no en el Test de Wilcoxon (p>0,05), esto indica que las UFC/mL son constantes en la línea de proceso. De acuerdo con el Invima, el porcentaje mínimo aprobatorio para el cumplimiento de las BPM es >60 %. En la primera auditoria, el 42 % de los criterios de BPM registraron conceptos desfavorables y el 67 % de las empresas obtuvieron un puntaje por encima del 60 % e inferior al 80 %. Se registraron correlaciones negativas al comparar los recuentos microbiológicos y el cumplimiento de los criterios de BPM. El criterio "aseguramiento y control de la calidad" obtuvo el mayor número de correlaciones negativas y deja ver un déficit en la eficacia y verificación de las BPM. Conclusiones Los recuentos de microorganismos indicadores de calidad sanitaria en el lactosuero ácido tienden a prevalecer y aumentar debido a las falencias en el cumplimiento de las BPM y condicionan la calidad del suero para usos posteriores.
ABSTRACT Objective To evaluate and establish the statistical correlation of the sanitary and microbiological quality of acid whey. Methods Whey samples were obtained from dairy companies in Belén, Boyacá, Colombia. Quality audits were performed, and microbiological counts were determined. Both were analyzed by quality control charts to assess compliance and variability. Correlation analyses between the microbiological results and Good Manufacturing Practices (GMP) were established. Results The averages of microbiological variables at the time of evaluation showed that companies did not comply with the standard. The aerobic mesophiles and total coliform counts were different (p<0.05) before and after the improvement plan. Thermo-tolerant coliforms, mold, and yeast counts showed significant differences in the Kruskal Wallis test, but not in the Wilcoxon test (p>0.05). This indicates that CFU/mL are constant in the process line. According to INVIMA, the minimum pass rate for GMP compliance is >60 %. In the first audit, 42 % of the GMP criteria obtained unfavorable concepts, and 67 % of the companies were above 60 % and below 80 %. Negative correlations were found when comparing microbiological counts and the GMP compliance requirements. The "quality assurance and control" obtained the highest number of negative correlations and showed a deficit in the effectiveness and verification of GMP. Conclusions Health-quality indicator microorganism counts in acid whey tend to prevail and increase due to deficiencies in GMP; they also condition the quality of whey for subsequent uses.