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The growing demand for cellulosic pulp presents an opportunity to explore alternatives to this material, focusing on utilizing agro-industrial residues. Mango's tegument is a rich source of cellulose, making it a valuable raw material for manufacturing single-use articles or blends with biopolymers. In this sense, employing conventional alkaline and acid chemical treatments, the mango's tegument was treated to obtain cellulosic pulp. The teguments were subjected to treatment with alkaline solutions (2% and 4% NaOH w/v) at 80 °C for 1 or 2 h or with an acetic acid solution (1:1 or 1:2 CH3COOH:H2O2) at 60-70 °C for 1 or 2 h. After treatment, an evaluation was conducted to assess the yield, color, chemical analysis, and structural, thermal, and morphological properties. The alkali treatments produced cellulosic pulps with a light color with 37-42% yield and reduced hemicellulose content. The acid treatments produced orange-brown cellulosic pulp with 47-48% yield and higher hemicellulose content. The acid pulps were thermally more stable (maximum decomposition at 348-357 °C) than the alkali pulps (maximum decomposition at 316-321 °C). The crystallinity index demonstrated that both treatments increased the crystallinity of the cellulose pulps compared with the untreated tegument. The thermal stability of cellulosic pulp at the processing temperatures of disposable tableware (50-120 °C) revealed that plates, bowls, trays, and cups could be produced. Another potential application is as a component of blends with biopolymers to make straws or rigid food packaging (trays) with reinforced structures.

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Quercetin-3-O-rutinoside (rutin), quercetin-3-O-glucoside (isoquercetin) and quercetin have shown antioxidant, cytoprotective, vasoprotective, antiproliferative and antiinflammatory properties. The aim of this work was to determine the conversion of rutin to isoquercetin and quercetin during the production of poly(l-lactic acid) films with potential to deliver these flavonoids toward tissues, pharmaceuticals or food matrices. Three poly(l-lactic acid) formulations with 17.7, 39.6 and 39.1mg/g of rutin were prepared by the extrusion process. Processing temperatures (130-165°C) promoted the deglycosylation of rutin to produce isoquercetin and subsequently quercetin, identified by high performance liquid chromatography coupled to mass spectrometry. The effect of the process on the antioxidant activity of the films was determined by measuring the capacity to scavenge 2,2 diphenyl-1-picrylhydrazyl radicals. The material with the highest proportion of quercetin showed the highest antioxidant activity which could be used to produce delivering devices of the flavonoids to tissues, pharmaceuticals or food matrices.

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Background: One of the aims of food packaging is to protect the product from environmental factors that can cause a reduction in quality. Surface growth of microorganism is one of the leading causes of food spoilage. One option is to use antimicrobial packaging to provide an increased margin of safety and quality. Objectives: The aim of this study was evaluate the effect of active packaging with eugenol on growth of Pseudomonas and aerobic mesophilic bacteria in fresh chicken pieces. Methods: Three batches of low-density polyethylene (LDPE) film, containing 0, 9.0 and 7.7, mg g-1 eugenol (control, AAF1 and AAF2, respectively), were extruded in a pilot-plant scale blown-extrusion machine. The films with eugenol lost 42.7% and 36.8% (AAF1 and AAF2, respectively) of eugenol during processing and absorbed UV-visible light at 300-261 nm. The kinetics of eugenol release from the AAF1 into the air at 5°C and 25ºC displayed Fick's behavior, and a diffusion coefficient of 10-8 cm2 s-1 was calculated. Results: Eugenol showed antimicrobial activity on in vitro, using paper discs with 1.74, 0.87 and 0.36 mg eugenol on 108 CFU mL-1 of Pseudomonas fluorescens in Muller-Hinton agar. Chicken thighs were wrapped in the AAF2 film, and the effects on the growth of Pseudomonas and aerobic mesophilic bacteria (AMB) were evaluated after storage for 5 d at 5°C. The AAF2 showed a moderately antimicrobial effect in reducing the growth of Pseudomonas (1.1 x 106 CFU g-1) relative to growth in the control film (6.0 x 106 CFU g-1) (P < 0.05). The film with eugenol was effective in reducing the growth of AMB (9.0 x 105 CFU g-1) relative to growth in the control film (1.7 x 106 CFU g-1) (P < 0.05). Conclusions: Despite the high losses of eugenol during the extrusion of the films, they showed an antimicrobial effect during contact with fresh chicken under commercial conditions. This study shows the potential use of eugenol for application in LDPE antimicrobial packaging film.

Antecedentes: Uno de los principales objetivos del envasado de alimentos es protegerlo de factores que puedan afectar y causar una reducción en la calidad. El desarrollo de microorganismos en la superficie es uno de las causas principales del deterioro de los alimentos. Una opción es el empleo de envases con propiedades antimicrobianas. Objetivos: El objetivo del presente estudio fue evaluar el efecto de un envase antimicrobiano conteniendo eugenol en el desarrollo de Pseudomonas y bacterias mesofílicas aerobias (BMA) en piezas de pollo. Métodos: Tres lotes de película de polietileno de baja densidad (PEBD) conteniendo 0, 9.0 y 7.7 mg g-1 de eugenol (control, AAF1, AAF2, respectivamente) fueron obtenidas por extrusión-soplo utilizando un extrusor a nivel planta piloto. Se calculó la cinética de liberación del eugenol de la AAF1 hacia el aire a 5°C y 25°C. Se evaluó la capacidad antimicrobiana in vitro del eugenol sobre 108 UFC mL-1 de Pseudomona fluorescens utilizando discos de papel conteniendo 1.74, 0.87 y 0.36 mg de eugenol en agar Muller-Hinton. Las piezas de pollo fueron envueltas en la película AAF2 y almacenadas a 5°C evaluando a los 5 días el efecto de la película en el desarrollo de Pseudomonas y en BMA. Resultados: El eugenol mostró actividad antimicrobiana inhibiendo el crecimiento de P. fluorescens. Las películas conteniendo eugenol perdieron durante el proceso de extrusión 42.7% y 36.8% (AAF1 y AAF2 respectivamente) del total añadido mostrando un comportamiento fickiano con un coeficiente de difusión de 10-8 cm2 s-1. Las AAF2 mostraron un efecto moderado en la reducción del desarrollo de Pseudomonas (1.1 x 106 CFU g-1) comparadas con el control (6.0 x 106 CFU g-1) (P < 0.05). Las películas con eugenol (AAF2) fueron efectivas al reducir el desarrollo de las BMA (9.0 x 105 CFU g-1) comparadas con la película control (1.7 x 106 CFU g-1) (P < 0.05). Conclusiones: A pesar de las pérdidas del eugenol durante el proceso de extrusión para la obtención de las películas, estas mostraron un efecto antimicrobiano sobre las piezas de pollo. Por lo tanto, este estudio muestra el uso potencial del eugenol para la aplicación en envases antimicrobianos elaborados a base de PEBD.

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El sabor de la leche está estrechamente relacionado con su composición, especialmente con su contenido graso. Factores como la luz, los materiales de envase y las condiciones de almacenamiento pueden favorecer la oxidación de la grasa y alterar las características sensoriales del producto. El presente estudio buscó evaluar el efecto de los envases activos multicapa con diferentes antioxidantes en su capa más interna: butilhidroxitolueno, butil hidroxianisol, alfa-tocoferol y una mezcla de butil hidroxianisol-alfa-tocoferol, sobrela calidad sensorial de la leche entera deshidratada. El entrenamiento de un panel sensorial permitió la evaluación del atributo de sabor oxidado en la leche y la correlación de estos resultados con la producción de pentanal, hexanal y heptanal, cuantificados mediante cromatografía gaseosa usando microextracción enfase sólida. Los análisis sensoriales revelaron cambios en las características de sabor oxidado en las muestras de leche. La correlación general de estos datos y las concentraciones de volátiles cuantificadas permitieron encontrar una correlación moderada pero significativa entre el sabor oxidado y los volátiles pentanal, hexanal y heptanal. En general, los envases activos con butil hidroxianisol-alfa-tocoferol y alfa-tocoferol obtuvieron una menor calificación en cuanto a su sabor oxidado y, en consecuencia, representan una alternativa viable para la conservación de las propiedades sensoriales de la leche.

Milk flavor is highly related with ITS components, especially with fat content. Factors such as light, packaging material and storage conditions can produce lipid oxidation and favor changes in the sensorial characteristics of product. The aim of this study was to evaluate the effect of active packaging with different antioxidants: butylated hydroxyanisole, butylated hydroxytoluene and alfa-tocopherol, on sensorial quality of whole milk powder. The panel members were trained to recognize the taste and smell of oxidized fat in milk and these results to be correlated with volatile compounds pentanal, heptanal and hexane quantified in milk samples using gas chromatography with solid phase microextraction. Sensorial tests showed changes in oxidized fat flavor in milk. The general correlation of these data and volatiles concentration allowed finding a moderate but significant correlation between oxidized fat flavor and thepentanal, hexanal and heptanal volatiles. In general, the active packaging with alfa-tocopherol-butylatedhidroxyanisole and alfa-tocopherol presented low score in oxidized fat flavor, representing a viable alternativefor the conservation of sensorial properties in milk during storage time.

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Effects of heat processing, storage time, and temperature on migration of bisphenol A (BPA) from an epoxy type can coating to an acid food simulant and jalapeño peppers were determined. Commercial jalapeño pepper cans (8 oz, dimensions 211 x 300) were stored at 25 degrees C for 40, 70, and 160 days. A solution of 3% acetic acid was canned in 211 x 300 cans from the same batch used for jalapeño peppers. Heat processing was applied to two-thirds of the cans, and the remaining cans were not heat processed. Cans were stored at 25 and 35 degrees C for 0, 40, 70, and 160 days. Results showed that there is a minimal effect of heat treatment. An effect of storage time on migration of BPA during the first 40 days at 25 degrees C was observed. An increase on migration of BPA was observed with storage time at 35 degrees C. The highest level of migration was 15.33 microg/kg of BPA at 160 days at 35 degrees C. A correction factor of approximately 0.4 was calculated for migration under simulating conditions of storage compared to the real ones. The highest level of BPA found in jalapeño peppers cans, surveyed from three supermarkets, was 5.59 +/- 2.43 microg/kg. Migration of BPA, performed according to the European and Mercosur conditions, was 65.45 +/- 5.29 microg/kg. All the migration values found in this study were below those legislation limits (3 mg/kg).

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Se reporta un caso de cardiomiopatía diabética por primera vez en la República Dominicana y se hace una revisión de la literatura sobre esta patología

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