ABSTRACT
A pesquisa busca técnicas alternativas para expansão da vida de prateleira dos alimentos, isto tem impulsionado estudos sobre a utilização de conservantes naturais, tais como as bacteriocinas e óleos essenciais, que são considerados agentes antimicrobianos naturais. No entanto estes antimicrobianos naturais, não são adicionados diretamente em produtos alimentícios, devido a alterações sensoriais e em suas características físico e química. Com avanço tecnológico da microencapsulação, tem sido um potencial em fornecer sistemas que garantem estabilidade para os antimicrobianos naturais desta forma podendo compor a matriz de alimentos. Portanto, o objetivo desse trabalho foi microencapsular a enterocina produzida por Enterococcus durans MF5 e óleo de orégano usando leitelho. Para a microencapsulação, foram realizados três tratamentos: T1 controle leitelho, T2 leitelho/enterocina (LE), e T3 leitelho/enterocina/óleo (LEO). O material foi submetido ao processo de spray dryer e foram realizados ensaios para determinar a atividade antimicrobiana do material encapsulado contra as bactérias Listeria monocytogenes, Listeria innocua e Listeria ivanovi. O rendimento da microencapsulação foi de 13,01% e 11,63% para LE e LEO, respectivamente. Os resultados apresentados nos microencapsulados LE e LEO mostraram inibição contra todas as bactérias teste, foi constatado que a microencapsulação de enterocina e óleo de orégano mantiveram seu poder antimicrobiano. A efetividade da microencapsulação foi realizada por (FTIR), onde picos de intensidade entre as amostras na região 1000 a 930 cm-¹ e 1800 a 1500 cm-¹ foram observadas. Os resultados apontam para mudança no perfil químico das amostras encapsuladas, corroborando com a hipótese que o leitelho apresentou papel encapsulante da bactericiona e óleo de orégano.Portanto a microencapsulação aumenta a eficácia antimicrobiana dos antimicrobianos.
The research seeks alternative techniques for expanding the shelf life of foods, this has driven studies on the use of natural preservatives, such as bacteriocins and essential oils, which are considered natural antimicrobial agents. However, these natural antimicrobials are not directly added to food products due to sensory changes and their physical and chemical characteristics. With technological advancement of microencap- sulation, it has been a potential to provide systems that ensure stability for natural anti- microbials in this way can compose the food matrix. Therefore, this study has an objective microencapsulated the interocin and essencial oil, used buttermilk as a encapsulating ma- terial where, T1 Buttermilk Control, T2 buttermilk/enterocin (LE), e T3 Buttermilk/en- terocin/oil (LEO). The product has been submitted to spray drier process, were conducted trials to determine antimicrobial activity. Was observed with mass yield 13,01% e 11,63% para LE e LEO. These results the microencapsulate indicate then LE e LEO there was inihibiton against bacteria tests. Was observed that the microencapsulated between enter- ocin and essential oil oregano maintained antimicrobial power. The effectiveness of the microencapsulated was performed by Fourier transform infrared (FTIR) analysis, where a sample in the region 1000 to 930 cm-¹ and 1800 to 1500 cm-¹ was observed. Therefore microencapsulation increases antimicrobial efficacy of antimicrobials.
La investigación busca técnicas alternativas para ampliar la vida útil de los alimentos, esto ha impulsado estudios sobre el uso de conservantes naturales, como las bacteriocinas y los aceites esenciales, que se consideran agentes antimicrobianos naturales. Sin embargo, estos antimicrobianos naturales no se añaden directamente a los productos alimentarios debido a los cambios sensoriales y a sus características físicas y químicas. Con el avance tecnológico de la microencapsulación, ha sido un potencial para proporcionar sistemas que garanticen la estabilidad de los antimicrobianos naturales de esta manera puede componer la matriz alimentaria. Por lo tanto, este estudio tiene como objetivo microencapsular la interocina y el aceite esencial, utilizando suero de leche como material encapsulante donde, T1 Suero de leche Control, T2 Suero de leche/enterocina (LE), e T3 Suero de leche/enterocina/aceite (LEO). El producto ha sido sometido al proceso de secado por pulverización, se realizaron ensayos para determinar la actividad antimicrobiana. Se observó con rendimiento de masa 13,01% e 11,63% para LE e LEO. Estos resultados indican que el microencapsulado LE e LEO fue inhibido contra las pruebas bacterianas. Se observó que el microencapsulado entre enterocina y aceite esencial de orégano mantuvo el poder antimicrobiano. La eficacia del microencapsulado fue realizada por análisis de infrarrojo transformado de Fourier (FTIR), donde fue observada una muestra en la región de 1000 a 930 cm-¹ y de 1800 a 1500 cm-¹. Por lo tanto, la microencapsulación aumenta la eficacia antimicrobiana de los antimicrobianos. PALABRAS CLAVE: Bacteriocina; Enterococcus durans; Suero de Leche; Origanum vulgare; Spray Dryer.
Subject(s)
Oils, Volatile , Origanum , Drug Compounding , Buttermilk , Bacteriocins , Butter , Enterococcus , Spray Drying , Listeria monocytogenes , Anti-Infective AgentsABSTRACT
A pesquisa busca técnicas alternativas para expansão da vida de prateleira dos alimentos, isto tem impulsionado estudos sobre a utilização de conservantes naturais, tais como as bacteriocinas e óleos essenciais, que são considerados agentes antimicrobianos naturais. No entanto estes antimicrobianos naturais, não são adicionados diretamente em produtos alimentícios, devido a alterações sensoriais e em suas características físico e química. Com avanço tecnológico da microencapsulação, tem sido um potencial em fornecer sistemas que garantem estabilidade para os antimicrobianos naturais desta forma podendo compor a matriz de alimentos. Portanto, o objetivo desse trabalho foi microencapsular a enterocina produzida por Enterococcus durans MF5 e óleo de orégano usando leitelho. Para a microencapsulação, foram realizados três tratamentos: T1 controle leitelho, T2 leitelho/enterocina (LE), e T3 leitelho/enterocina/óleo (LEO). O material foi submetido ao processo de spray dryer e foram realizados ensaios para determinar a atividade antimicrobiana do material encapsulado contra as bactérias Listeria monocytogenes, Listeria innocua e Listeria ivanovi. O rendimento da microencapsulação foi de 13,01% e 11,63% para LE e LEO, respectivamente. Os resultados apresentados nos microencapsulados LE e LEO mostraram inibição contra todas as bactérias teste, foi constatado que a microencapsulação de enterocina e óleo de orégano mantiveram seu poder antimicrobiano. A efetividade da microencapsulação foi realizada por (FTIR), onde picos de intensidade entre as amostras na região 1000 a 930 cm-¹ e 1800 a 1500 cm-¹ foram observadas. Os resultados apontam para mudança no perfil químico das amostras encapsuladas, corroborando com a hipótese que o leitelho apresentou papel encapsulante da bactericiona e óleo de orégano.Portanto a microencapsulação aumenta a eficácia antimicrobiana dos antimicrobianos.
The research seeks alternative techniques for expanding the shelf life of foods, this has driven studies on the use of natural preservatives, such as bacteriocins and essential oils, which are considered natural antimicrobial agents. However, these natural antimicrobials are not directly added to food products due to sensory changes and their physical and chemical characteristics. With technological advancement of microencap- sulation, it has been a potential to provide systems that ensure stability for natural anti- microbials in this way can compose the food matrix. Therefore, this study has an objective microencapsulated the interocin and essencial oil, used buttermilk as a encapsulating ma- terial where, T1 Buttermilk Control, T2 buttermilk/enterocin (LE), e T3 Buttermilk/en- terocin/oil (LEO). The product has been submitted to spray drier process, were conducted trials to determine antimicrobial activity. Was observed with mass yield 13,01% e 11,63% para LE e LEO. These results the microencapsulate indicate then LE e LEO there was inihibiton against bacteria tests. Was observed that the microencapsulated between enter- ocin and essential oil oregano maintained antimicrobial power. The effectiveness of the microencapsulated was performed by Fourier transform infrared (FTIR) analysis, where a sample in the region 1000 to 930 cm-¹ and 1800 to 1500 cm-¹ was observed. Therefore microencapsulation increases antimicrobial efficacy of antimicrobials.
La investigación busca técnicas alternativas para ampliar la vida útil de los alimentos, esto ha impulsado estudios sobre el uso de conservantes naturales, como las bacteriocinas y los aceites esenciales, que se consideran agentes antimicrobianos naturales. Sin embargo, estos antimicrobianos naturales no se añaden directamente a los productos alimentarios debido a los cambios sensoriales y a sus características físicas y químicas. Con el avance tecnológico de la microencapsulación, ha sido un potencial para proporcionar sistemas que garanticen la estabilidad de los antimicrobianos naturales de esta manera puede componer la matriz alimentaria. Por lo tanto, este estudio tiene como objetivo microencapsular la interocina y el aceite esencial, utilizando suero de leche como material encapsulante donde, T1 Suero de leche Control, T2 Suero de leche/enterocina (LE), e T3 Suero de leche/enterocina/aceite (LEO). El producto ha sido sometido al proceso de secado por pulverización, se realizaron ensayos para determinar la actividad antimicrobiana. Se observó con rendimiento de masa 13,01% e 11,63% para LE e LEO. Estos resultados indican que el microencapsulado LE e LEO fue inhibido contra las pruebas bacterianas. Se observó que el microencapsulado entre enterocina y aceite esencial de orégano mantuvo el poder antimicrobiano. La eficacia del microencapsulado fue realizada por análisis de infrarrojo transformado de Fourier (FTIR), donde fue observada una muestra en la región de 1000 a 930 cm-¹ y de 1800 a 1500 cm-¹. Por lo tanto, la microencapsulación aumenta la eficacia antimicrobiana de los antimicrobianos. PALABRAS CLAVE: Bacteriocina; Enterococcus durans; Suero de Leche; Origanum vulgare; Spray Dryer.
Subject(s)
Origanum , Drug Compounding/instrumentation , Buttermilk , Bacteriocins/analysis , Oils, Volatile/analysis , Clinical Trials as Topic/methods , Enterococcus , Food Preservatives/analysis , Spray Drying , Listeria , Anti-Infective Agents/analysisABSTRACT
Abstract Hydrocotyle umbellata L., Araliaceae, is a species that is recommended in Ayurvedic medicine for its effects on the central nervous system, such as anxiolytic and memory-stimulant effects. Despite the medicinal potential of this species, its phytopharmaceutical and technological potential to produce standardized extracts has not been investigated. This study analyzes the influence of spray drying parameters on the contents of the chemical markers (total phenolic, total flavonoid, and hibalactone) and the functional properties of H. umbellata extract. The optimization of drying conditions was performed using a central composite design combined with response surface methodology and desirability function approach. The mathematical models fitted to experimental data indicated that all the evaluated drying parameters significantly influenced the chemical contents. The optimal conditions were: inlet temperature of 120 °C, feed flow rate of 4 mL min-1, and colloidal silicon dioxide:maltodextrin ratio of 16%:4%. Under these conditions, the powder samples had spherical particles and desirable physicochemical and functional properties, such as low water activity and moisture content, good product recovery, reconstitution, and flowability. Thus, spray drying might be a promising technique for processing standardized H. umbellata extracts.
Subject(s)
Plants, Medicinal/adverse effects , Araliaceae/classification , Process Optimization , Medicine, Ayurvedic , Spray Drying , Phytotherapy/instrumentationABSTRACT
Abstract In the work the andrographolide (AG)-solid dispersions (SDs) were prepared by the spray-drying method, using polyethylene glycol 8000 (PEG8000), Poloxamer188, polyvinylpyrrolidone K30 (PVPK30), Soluplus® as carrier materials. The effect of different polymers as carrier materials on the properties of the AG-SDs were studied. The results showed obvious differences in intermolecular interaction, thermal stability, drug state, powder properties, dissolution behavior, and so on of AG-SDs prepared using different polymers as carrier materials. AG-PEG8000-SD was a partial-crystalline and partial-amorphous powder with smaller surface area and pore volume, but it was easy to wetting and did not swell in contact with dissolved medium. AG-Soluplus®-SD was completely amorphous powder with larger specific surface area and pore volume, but it swelled in contact with water. Therefore, the dissolution profile of AG in AG-PEG8000-SD was similar to that in AG-Soluplus®-SD. Soluplus® and PEG8000 were suitable polymers to design AG-SDs, considering both physicochemical properties and dissolution behaviors. The results of this reseach showed that when selecting carrier materials for SD, we should not only consider the state of drugs in SD and the powder properties of SD, but also consider whether there is swelling when the carrier materials are in contact with the dissolution medium.
Subject(s)
Polyethylene Glycols/adverse effects , Dissolution , Methods , Polymers/analysis , Pharmaceutical Preparations/analysis , Water , Spray DryingABSTRACT
Aiming to solve the poor compactibility of the alcoholic extract of Zingiberis Rhizoma(ZR), this study explored the feasibility of its physical modification using co-spray drying with a small amount of hydroxypropyl methyl cellulose(HPMC). Based on the univariate analysis, the influence of two independent variables(the HPMC content in the product and the solid content of spray material) on the powder properties and tablet properties of the dried product was investigated by the central composite design. With the tensile strength and disintegration time of the tablets as the evaluation indexes, the optimal prescription was determined as follows: the HPMC content was 15% and the solid content of spray material was 25.6%. The accuracy of the regression model established for predicting tensile strength and disintegration time of tablets was verified, and the results revealed that the measured values were close to the predicted ones with deviations of 0.47% and-8.2%, indicating good prediction and reproducibility of the model. The tensile strength(4.24 MPa) of tablets prepared with the optimal prescription was 3.59 times that(1.18 MPa, far lower than the baseline of 2 MPa for qualified tablets) with the spray-dried powder of the ZR. On the other hand, due to the addition of HPMC, the disintegration time of tablets increased from 7.3 min to 24.6 min. On the whole, this study provided a new strategy to solve the common problem of poor compactibility of raw Chinese medicinal materials, which facilitated the successful preparation of Chinese medicinal tablets with high drug loads.