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Antimicrobial packaging system for optimization of electron beam irradiation of fresh produceHan, Jaejoon 30 October 2006 (has links)
This study evaluated the potential use of an antimicrobial packaging system in
combination with electron beam irradiation to enhance quality of fresh produce.
Irradiated romaine lettuce up to 3.2 kGy showed negligible (p > 0.05) changes in color,
but texture and sensory attributes were less acceptable with increased dose.
We established the antimicrobial effectiveness of various active compounds
incorporated into the low-density polyethylene (LDPE)/polyamide films to increase
radiation sensitivity of surrogate bacteria (Listeria innocua and Escherichia coli). All
films showed inhibition zones in an agar diffusion test. In the liquid culture test, the
active compounds reduced the specific growth rate and decreased final cell concentration
of strains. Films incorporated with active compounds increased the radiation sensitivity
of the tested strains, demonstrating their potential to reduce the dose required to control
microbial contamination using electron beam technology. The active compounds
maintained their antimicrobial activity by exposure to ionizing radiation up to 3 kGy. Antimicrobial activity of LDPE/polyamide films incorporated with transcinnamaldehyde
was tested with fresh-cut romaine lettuce. Total aerobic plate counts
(APC) and yeast and mold counts (YMC) were determined as a function of dose (0, 0.5,
and 1.0 kGy) for 14 days of storage at 4ðC. Irradiation exposure significantly lowered
APCs of lettuce samples by 1-log CFU/g compared to the non-irradiated controls;
however, it only slightly reduced YMCs. The effectiveness of using irradiation with
antimicrobial films was enhanced with increased radiation dose and transcinnamaldehyde
concentration.
Electron beam irradiation up to 20 kGy did not affect the tensile strength and
toughness of the polymeric films. The filmâÂÂs flexibility and barrier properties were
significantly improved by exposure to 20 kGy. The addition of an active compound did
not affect the tensile strength and barrier properties of the films, but decreased the
percent elongation-at-break and toughness, making them slightly more brittle.
Ionizing radiation affected the release kinetics of the antimicrobial agent from the
packaging material into a model food system. Irradiated films exhibited slower release
rates than non-irradiated film by 69%. In addition, release rate was lower at 4úC by
62.6% than at 21-35úC. The pH of the simulant solution affected release rate with pH 4
yielding higher rates than pH 7 and 10.
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Tilapia skin Gelatin: Alternative for obtaining films with antimicrobial property by nanosilver incorporation / Gelatina de pele de tilÃpia: Alternativa para obtenÃÃo de filmes com propriedade antimicrobiana por incorporaÃÃo de nanoparticulas de prataMaria do Livramento Linhares Rodrigues 10 February 2015 (has links)
CoordenaÃÃo de AperfeiÃoamento de NÃvel Superior / An alternative for the recovery of industrial fish waste is the production of films, which can be applied in food packaging. However, a major challenge is to obtain films with antimicrobial properties aiding in increased food shelf life as well as films with good mechanical properties and barriers. Therefore, in order to improve these limitations, silver nanoparticles were used due to its potential antimicrobial in food, and tannic acid (TA) as crosslinker in order to improve the mechanical and barrier properties. This study focuses in the extraction of gelatin from the Nile tilapia skin (Oreochromisniloticus) in order to produce gelatin films with embedded nanosilver (AgNPs) generated by green process and evaluate the addition of tannic acid (TA) in synthesis of AgNPs and mechanical properties of the films and barrier. A pre-treatment was conducted to obtain gelatin followed by a collagen denaturing. The characterization was done by gel strength, isoelectric point, electrophoretic analysis, fourier transform infrared (FTIR) and thermogravimetric analysis (TGA). The incorporation was performed by in situ method, the films were obtained with and without the presence of TA and AgNO3 concentrations were 0, 45, 90 and 180 mmol.L-1.The films were characterized by UV-Vis, FTIR, TGA, Mechanical properties (tensile strength and elongation at break), water vapor permeability (WVP), scanning electron microscopy (SEM) and antimicrobial analysis. It was possible to use gelatin as a reducing agent and stabilizer in the reduction of silver nanoparticles. Films produced with the addition of AT showed more suitable properties for the usage as packaging material for food, showing better WVP, water solubility and were more resistant to applied loads. In addition, they presented better antimicrobial activity. Therefore, it was possible to obtain the green AgNPs method through the incorporationof thegelatin matrix and to obtain films with excellent properties after the TA addition. / Uma alternativa de valorizaÃÃo de resÃduo de pescado produzidos por indÃstrias à a produÃÃo de filmes, que pode ser aplicados em embalagens para alimentos. PorÃm, um dos grandes desafios à obter filmes com propriedades antimicrobianas, auxiliando no aumento da vida de prateleira dos alimentos, bem como obter filmes com boas propriedades mecÃnicas e de barreiras. Para isso, a fim de melhorar essas limitaÃÃes, nanopartÃculas de prata foram utilizadas devido a sua potencial aÃÃo antimicrobiana em alimentos, e Ãcido tÃnico (AT) como agente reticulante a fim de melhorar as propriedades mecÃnicas e de barreiras. Nesse estudo objetivou-se fazer a extraÃÃo da gelatina a partir de pele de tilÃpia do Nilo (Oreochromis niloticus), visando a produÃÃo de filmes de gelatina incorporados com nanopartÃculas de prata (NPAg) geradas por processo verde e avaliar a adiÃÃo de Ãcido tÃnico (AT) na sÃntese das NPAg e nas propriedades mecÃnicas e de barreira dos filmes. Para a obtenÃÃo da gelatina foram feitos prÃ-tratamentos e em seguida a desnaturaÃÃo do colÃgeno. A caracterizaÃÃo foi feita por ForÃa de Gel, Ponto IsoelÃtrico, DistribuiÃÃo de Massa Molar, Espectroscopia no Infravermelho pro Transformada de Fourrier (FTIR) e AnÃlise TermogravimÃtrica (TGA). A incorporaÃÃo foi feita pelo mÃtodo in situ, Os filmes foram obtidos sem e com a presenÃa de AT e as concentraÃÃes de AgNO3 foram 0, 45, 90 e 180 mmol.L-1. Os filmes foram caracterizados por: UV-Vis, FTIR, TGA, Ensaios MecÃnicos, Permeabilidade ao Vapor de Ãgua (PVA), Microscopia EletrÃnica de Varredura (MEV) e AnÃlise Antimicrobiana. Foi possÃvel utilizar a gelatina como agente redutor e estabilizante na reduÃÃo de nanopartÃculas de prata. Os filmes produzidos com a adiÃÃo de AT apresentaram propriedades mais adequadas para uso como embalagem para alimentos, apresentando melhores PVA, solubilidade em Ãgua e mostraram-se mais resistentes a esforÃos aplicados. AlÃm de apresentarem melhor atividade antimicrobiana. Logo, foi possÃvel, obter pelo mÃtodo verde a incorporaÃÃo de NPAg na matriz de gelatina, alÃm, de se obter filmes com excelentes propriedades apÃs a adiÃÃo de AT.
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Novel antimicrobial films based on ethylene-vinyl alcohol copolymers for food packaging applicationMuriel Galet, Virginia 16 January 2016 (has links)
Tesis por compendio / This PhD dissertation thesis has been focus on the development and characterization of
antimicrobial packaging films based on the incorporation in the polymer matrix or on
the attachment to the film surface of naturally occurring antimicrobial compounds with
the purpose of inhibiting the proliferation of microorganisms and extend the microbiological
shelf life of packaged food products.
The studied active films are based on the use of ethylene vinyl copolymers (EVOH) containing
29% (EVOH29) or 44% (EVOH44) molar percentage of ethylene as polymeric vehicle
for the incorporation of several antimicrobial compounds -oregano essential oil (OEO),
citral, ethyl lauroyl arginate (LAE), epsilon-polylysine (EPL), green tea extract (GTE) and
lysozyme. These antimicrobial agents have been incorporated in the film-forming solution
or immobilized to the film surface by covalent bonding.
Prior to the preparation of the active films, the antimicrobial activity of the selected compounds
against selected microorganism was demonstrated, confirming that they could be
good candidates to be used as preservatives for active food packaging applications, and
an alternative to synthetic additives. The effect of the incorporation of the antimicrobial
agents on relevant functional properties of the developed EVOH films was studied.
In general, the polymer properties as materials for food packaging were not relevantly
affected.
In order to evaluate the potential of EVOH matrices as sustain release systems of active
compounds, the release kinetics of the active compounds from the film to different media
was evaluated; for that the agent release rate and extend into food simulants was
monitored, and it was concluded that the agent concentration, release temperature, type
of EVOH, interaction of EVOH with the food simulant, and the solubility of the active
compound in the release media were the main controlling factors.
EVOH matrices have also shown good properties to be used for the attachment of active
molecules. In this regard, lysozyme was successfully immobilized on the film surface of
EVOH.
Several experiments were conducted to determine the antimicrobial properties of the
resulting films in vitro against different microorganisms responsible for foodborne illness
and in vivo with real foods –minimally-process salad, infant milk, surimi sticks and chicken
stock- to enhance their preservation. All the materials presented a strong in vitro antimicrobial
activity. Although the results obtained through in vivo tests showed activity
reductions caused by food matrix effects, all materials presented significant microbial
inhibition and, therefore, great potential to be used in the design of active food packaging.
They can be applied as an inner coating of the packaging structure, releasing the active
agent or acting by direct contact, producing a great protection against contamination
with a prolongation of the microbiological food shelf life. / Muriel Galet, V. (2015). Novel antimicrobial films based on ethylene-vinyl alcohol copolymers for food packaging application [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/48522 / Premios Extraordinarios de tesis doctorales / Compendio
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Mélanges de polymères biodégradables immiscibles : influence de la morphologie sur le contrôle de la libération de substances actives ou modèles / Immiscible biodegradable polymer blends : influence of the morphology on the control of the release of active substances or modelsKhalil, Fadi 09 July 2015 (has links)
Dans le but de développer des matériaux actifs antimicrobiens biodégradables à libération contrôlée, des mélanges de deux polymères biodégradables incompatibles ont été mis en oeuvre par les voies classiques de transformation des matériaux plastiques (extrusion). L'originalité de ces mélanges réside dans la recherche d'une stratégie de contrôle de la libération d'espèces actives incorporées dans l'une des phases du système et générée par la tortuosité/disponibilité de chemins de diffusion sélectifs obtenue en jouant sur les proportions relatives des 2 polymères en présence. Les systèmes binaires étudiés sont : [amidon de maïs plastifié, PLS et poly(butylène succinate-co-adipate) ou PBSA] et un système référence [(poly(oxyethylène) PEO et PBSA]. Dans ces mélanges, les polymères polaires (PLS ou PEO) jouent le rôle de matrice hôte pour solubiliser les migrants actifs ou modèles, souvent polaires et le polymère semipolaire,le PBSA, compense la faiblesse des propriétés mécaniques et barrières à l'eau de la phase amylacée et /ou hydrophile tout en présentant une température de fusion basse (85°C) compatible avec une stratégie à plus long terme d'incorporation d'actifs peu thermostables. Les systèmes obtenus sont caractérisés afin de corréler les différentes morphologies obtenues en jouant sur la composition des mélanges (phase dispersées dans une matrice continue, ou continuité partielle ou totale, systèmes pseudo-multicouches) aux phénomènes de transport de diverses molécules. Les caractérisations effectuées ont alors pour objectif d'élucider les morphologies obtenues par i) extraction sélective par voie solvant (ou hydrolyse) enrichie par des observations microscopiques ii) par utilisation de sondes gazeuses via les propriétés de transport de vapeur d'eau (qui privilégiera les chemins offerts par la matrice polaire) ou de l'oxygène (qui, lui, privilégiera les chemins de diffusions offerts par le PBSA) iii) par la réalisation des isothermes et cinétiques de sorption d'eau et enfin iv) par l'étude de la libération dans l'eau de migrants actifs ou modèles préalablement incorporés dans la phase polaire (fluorescéinate de sodium, acides organiques, glycine, di-glycine). Il a ainsi pu être montré pour les mélanges PLS/PBSA que les phénomènes de diffusion sont contrôlés par la tortuosité générée par la présence de PBSA dans le cas du relargage de la fluorescéine et par l'hydratation limitée de la phase polaire en présence de fortes teneurs en PBSA dans le mélange pour les phénomènes de sorption d'eau. Ainsi, la diffusion de la fluorescéine, par exemple, est nettement plus influencée que celle de l'eau par la tortuosité (elle-même gouvernée par la composition du mélange), très probablement en raison de sa plus grande masse moléculaire. Pour les mélanges PEO/PBSA, des comportements distincts ont été mis en évidence selon la composition des mélanges. Pour les mélanges à faibles teneurs ou teneurs intermédiaires en PBSA, un transport rapide se produit principalement via la dissolution du PEO. La morphologie ne semble pas influencer les cinétiques de libération. Pour des teneurs élevées en PBSA, la cinétique de libération est cette fois dépendante de la morphologie présente un temps de latence caractéristique d'une cinétique de perméation (libération proportionnelle au temps). En conclusion, les matériaux élaborés par les voies migrants polaires tels que des conservateurs pour élaborer par exemple des emballages actifs antimicrobiens / In order to develop biodegradable and active materials s, blends of two incompatible biodegradable polymers have been implemented by conventiona plastic material processing (extrusion). The originality of these blends lies in the search for a strategy to control the release of active species included in one of the phases of the system. Therefore, the tortuosity / availability of selective diffusion paths obtained by varying the relative proportions of the two polymers involved will be exploited. Studied binary systems consist of: [plasticized corn starch, PLS and poly (butylene succinate-co-adipate) or PBSA] and a reference system [(poly (oxyethylene) PEO and PBSA]. In these blends, polar polymers (PLS or PEO) play the role of host matrix to solubilize the active migrants or model molecules which are often polar, and the semi-polar polymer (PBSA) compensates for the weakness of the mechanical properties of the starchy and / or hydrophilic phase while having a low melting temperature (85 ° C) consistent with a longer-term strategy of incorporation of thermostable active molecules such as lysozyme or nisin. The resulting systems were characterized to correlate the different morphologies obtained by varying the composition of the blends (dispersed phase in a continuous matrix, partial or total continuity, or pseudo-layer systems) to the transport phenomena of various molecules. The performed characterizations aim to elucidate the morphologies by i) selective solvent extraction method (or hydrolysis) enriched by microscopical observations ii) using gaseous probes via the determination of water vapor transport properties (water will favor the paths provided by the polar matrix) or oxygen transport properties (O2 will favor the diffusion paths provided by the PBSA matrix) iii) by determining water sorption isotherms and kinetics and finally iv) by the study of the release in water of active or model migrants previously incorporated in the polar phase (sodium fluoresceinate, organic acids, glycine, diglycine). It has been observed that the diffusion phenomena in PLS / PBSA blends are controlled by the tortuosity generated by the presence of PBS and by the limited hydration of the polar phase at high PBSA contents in the blends for water sorption phenomena. Thus, the diffusion of fluorescein, for example, is much more influenced by the tortuosity (itself governed by the composition of the blends) than that of water, which is likely due to its higher molecular weight. For PEO / PBSA blends, distinct behaviors were observed according to the blends composition. For the blends with low or intermediate content of PBSA, rapid transport occurs mainly via the dissolution of the PEO. The morphology did not seem to influence the release kinetics. For high contents of PBSA, the release kinetics were dependent on the morphology and a time lag which is characteristic of permeation kinetics (release proportional to time) appeared. In conclusion, the multiphasic materials prepared by plastic processing look promising for the controlled release of polar migrants such as food preservatives to develop antimicrobial active packaging
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Incorporation of selected plant extracts into edible chitosan films and the effect on the antiviral, antibacterial and mechanical properties of the materialAmankwaah, Collins 08 August 2013 (has links)
No description available.
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Envases activos portadores de microorganismos para la bioconservación de alimentosSettier Ramírez, Laura 29 October 2021 (has links)
Tesis por compendio / [ES] La presente tesis doctoral plantea distintas estrategias para el
desarrollo y aplicación de envases activos portadores de agentes de
biocontrol, con el fin de inhibir la proliferación de microorganismos
como bacterias y hongos patógenos y alterantes y así, conseguir
aumentar la seguridad y prolongar la vida útil de los alimentos.
El desarrollo de envases activos antibacterianos se llevó a cabo
incorporando bacterias ácido lácticas productoras de bacteriocinas,
Lactococcus lactis y Lactobacillus sakei en diferentes matrices
formadoras de películas. Previa a la preparación de las películas activas,
se estudió la actividad antimicrobiana de los agentes naturales
seleccionados frente a Listeria monocytogenes. Los resultados
sugirieron que, a partir de una determinada concentración inicial de
bacterias viables, estos microorganismos son buenos candidatos para
ser utilizados como aditivos naturales en materiales de envasado de
alimentos, siendo una alternativa al uso de aditivos de origen sintético.
En este trabajo se observó que la viabilidad inicial de las bacterias ácido
lácticas (LAB) es esencial para obtener una buena capacidad
antibacteriana por lo que la optimización de la composición de las
películas o recubrimientos fue crucial para su aplicación con éxito.
El polímero escogido como base para hacer las películas y
recubrimientos mediante la técnica de casting, fue el alcohol polivinílico,
(PVOH) mezclado con diferentes proteínas, gelatina y caseinato sódico
y sus versiones hidrolizadas añadidas en diferentes proporciones.
En este estudio L. lactis demostró tener una mayor resistencia a la
deshidratación durante la preparación y almacenamiento de las
películas que L. sakei. Las películas de PVOH mezcladas con gelatina
hidrolizada y caseína hidrolizada dotaron de protección a las bacterias
ácido lácticas durante el secado y demostraron tener una mayor
efectividad antilisteria. Por último, se varió la proporción de caseína
hidrolizada obteniendo una mayor viabilidad de las bacterias en las
películas prolongada en el tiempo a mayor proporción de HCas.
Para desarrollar un envase activo antilisteria, se adaptaron las
matrices para ser aplicadas como recubrimiento sobre ácido poliláctico (PLA) con el objetivo de desarrollar bolsas activas antilisteria para crema
de setas y como separadores de lonchas de jamón cocido. Los
recubrimientos demostraron tener una efectividad similar a la obtenida
con las películas in vitro. Sin embargo, su eficacia disminuyó
ligeramente al ser aplicadas en la crema de champiñones y el jamón
cocido debido a la complejidad de las matrices alimentarias utilizadas,
pero siendo una buena herramienta para, junto a otras estrategias de
conservación, asegurar la salubridad de los alimentos. Se llevaron a
cabo ensayos sensoriales con consumidores y se obtuvo una buena
aceptación de ambos productos. Sin embargo, los consumidores
percibieron una alteración del sabor debido a la generación de ácido
láctico en la crema de champiñones, acidez que puede ser controlada
mediante correctores de acidez sin modificar la efectividad
antimicrobiana.
Para desarrollar envases que aumentaran la vida útil, se trabajó
para ampliar el espectro de acción de L. lactis frente a las bacterias
Gram-negativas, normalmente responsables de la descomposición de
los alimentos. Combinar el agente de biocontrol productor de nisina, L.
lactis, con una baja concentración de ácido fítico, sustancia quelante y
desestabilizadora de la membrana bacteriana, amplió el espectro
antimicrobiano de L. lactis frente a las bacterias Gram-negativas
obteniendo una nueva herramienta para garantizar la seguridad
alimentaria y prolongar la vida útil de los alimentos. / [CA] La present tesi doctoral planteja diferents estratègies per al
desenvolupament i aplicació d'envasos actius portadors d'agents de
biocontrol, amb la finalitat d'inhibir la proliferació de microorganismes
com a bacteris i fongs patògens i alteradors i així, aconseguir augmentar
la seguretat i prolongar la vida útil dels aliments.
El desenvolupament d'envasos actius antibacterians, es va dur a
terme incorporant bacteris àcid làctics productores de bacteriocines,
Lactococcus lactis i Lactobacillus sakei en diferents matrius formadores
de pel·lícules. Prèvia a la preparació de les pel·lícules actives, es va
estudiar l'activitat antimicrobiana dels agents naturals seleccionats
enfront de Listeria monocytogenes. Els resultats van suggerir que, a
partir d'una determinada concentració inicial de bacteris viables,
aquests microorganismes són bons candidats per a ser utilitzats com a
additius naturals en materials d'envasament d'aliments, sent una
alternativa a l'ús d'additius d'origen sintètic. En aquest treball es va
observar que la viabilitat inicial dels bacteris àcid làctics (LAB) és
essencial per a obtindre una bona capacitat antibacteriana pel que
l'optimització de la composició de les pel·lícules o recobriments va ser
crucial per a la seua aplicació amb èxit.
El polímer triat com a base per a fer les pel·lícules i recobriments
mitjançant la tècnica de càsting, va ser l'alcohol polivinílic, (PVOH)
mesclat amb diferents proteïnes, gelatina i caseinat sòdic i les seues
versions hidrolitzades afegides en diferents proporcions.
En aquest estudi L. lactis va demostrar tindre una major
resistència a la deshidratació durant la preparació i emmagatzematge
de les pel·lícules que L. sakei. Les pel·lícules de PVOH mesclades amb
gelatina hidrolitzada i caseina hidrolitzada van dotar de protecció als
bacteris àcid làctics durant l'assecat i van demostrar tindre una major
efectivitat antilistèria. Finalment, es va variar la proporció de caseïna
hidrolitzada obtenint una millor resposta de les pel·lícules no sols des
d'un punt de vista antimicrobià, sinó també de les propietats
fisicoquímiques de les pel·lícules, a major proporció de caseïna
hidrolitzada.Per a desenvolupar un envàs actiu antilistèria, es van adaptar les matrius per a ser aplicades com a recobriment sobre àcid
polilàctic (PLA) amb l'objectiu de desenvolupar bosses actives
antilistèria per a crema de bolets i com a separadors de rodanxes de
pernil cuit. Els recobriments van demostrar tindre una efectivitat similar
a l'obtinguda amb les pel·lícules in vitro. No obstant això, la seua eficàcia
va disminuir lleugerament en ser aplicades en la crema de xampinyons
i el pernil cuit a causa de la complexitat de les matrius alimentàries
utilitzades, però sent una bona eina per a, al costat d'altres estratègies
de conservació, assegurar la salubritat dels aliments. Es van dur a terme
assajos sensorials amb consumidors i es va obtindre una bona
acceptació de tots dos productes, però una alteració del sabor degut a
la generació d'àcid làctic en la crema de xampinyons corregible
mitjançant correctors d'acidesa sense modificació de l'efectivitat
antimicrobiana.
Per a desenvolupar envasos que augmentaren la vida útil, es va
treballar per a ampliar l'espectre d'acció de L. lactis enfront dels bacteris
Gram-negatives, normalment responsables de la descomposició dels
aliments. Combinar l'agent de biocontrol productor de nisina, L. lactis,
amb una baixa concentració d'àcid fític, substància quelant i
desestabilitzadora de la membrana bacteriana, va ampliar l'espectre
antimicrobià de L. lactis enfront dels bacteris Gram-negatives obtenint
una nova eina per a garantir la seguretat alimentària i prolongar la vida
útil dels aliments. / [EN] This doctoral thesis proposes different strategies for the
development and application of active packaging containing biocontrol
agents, to inhibit the proliferation of microorganisms such as
pathogenic and spoilage bacteria and fungi, thus increasing the safety
and increasing the shelf life of foodstuffs.
The development of antibacterial active packaging was carried
out by incorporating bacteriocin-producing lactic acid bacteria,
Lactococcus lactis and Lactobacillus sakei in different film-forming
matrices. Prior to the preparation of the active films, the antimicrobial
activity of the selected natural agents against Listeria monocytogenes
was studied. The results suggested that, from a certain initial
concentration of viable bacteria, these microorganisms are good
candidates to be used as natural additives in food packaging materials,
being an alternative to the use of additives of synthetic origin. In this
work it was observed that the initial viability of lactic acid bacteria (LAB)
is essential to obtain a good antibacterial capacity, so the optimization
of the composition of the films or coatings was crucial for their
successful application.
The polymer chosen as a base to make the films and coatings by
casting technique was polyvinyl alcohol (PVOH) mixed with different
proteins, gelatin and sodium caseinate and their hydrolysed versions
added in different proportions. In this study L. lactis showed higher
resistance to dehydration during film preparation and storage than L.
sakei. PVOH films mixed with hydrolysed gelatin and hydrolysed casein
provided protection to lactic acid bacteria during drying and were
shown to have a greater antilisteria effectiveness. Finally, the proportion
of hydrolysed casein was varied, obtaining a better response of the films
not only from an antimicrobial point of view, but also from the
physicochemical properties of the films, the higher the proportion of
HCas.
To develop an antilisteria active packaging, the matrices were
adapted to be applied as a coating on polylactic acid (PLA) with the objective of developing antilisteria active bags for cream of mushroom
soup and as separator liner for cooked ham slices. The coatings showed
similar effectiveness to that obtained with in vitro films. However, their
effectiveness decreased slightly when applied to mushroom soup and
cooked ham due to the complexity of the food matrices used, but being
a good tool to, together with other preservation strategies, ensure food
wholesomeness. Sensory tests were carried out with consumers and a
good acceptance of both products was obtained. However, an
alteration of taste due to the generation of lactic acid was detected in
the mushroom soup that could be corrected by means of acidity
correctors without modifying the antimicrobial effectiveness.
Finally, life cycle analysis of conventional and active packaging
for pastry cream was studied. In any case, despite the limitations
regarding the waste product estimation, shelf-life extension through
packaging innovation could significantly reduce the environmental
impacts of the entire food packaging system.
In the present thesis, the potential use of indigenous yeasts with
antifungal capacity for the control of Penicillium expansum and the
control of the mycotoxin they generate, called patulin, was also
explored. In the present investigation, three new yeast strains isolated
from the surface of apples were selected for their efficacy against P.
expansum. The yeasts were identified as Metschnikowia pulcherrima
being 3 different strains. The ability of these yeasts for patulin
biodegradation was also demonstrated. Then, different studies on the
viability of the yeast and its antifungal effectiveness on different films
made with biopolymers naturally present in apples (pectin, cellulose
ethers, and apple pomace) were carried out. / The authors acknowledge the financial support of the Spanish
Ministry of Economy and Competitiveness (AGL2015-64595-R and RTI2018-093452-B-I00). / Settier Ramírez, L. (2021). Envases activos portadores de microorganismos para la bioconservación de alimentos [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/175807 / Compendio
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