Alginate- and gellan-based edible films for probiotic coatings on fresh-cut fruits.

Alginate- (2% w/v) or gellan-based (0.5%) edible films, containing glycerol (0.6% to 2.0%), N-acetylcysteine (1%), and/or ascorbic acid (1%) and citric acid (1%), were formulated and used to coat fresh-cut apple and papaya cylinders. Water vapor permeability (WVP) was significantly higher (P < 0.05) in alginate films (0.30 to 0.31 x 10(-9) g m/Pa s m2) than in the gellan ones (0.26 to 0.27 x 10(-9) g m/Pa s m2). Addition of 0.025% (w/v) sunflower oil decreased WVP of gellan films (0.20 to 0.22 x 10(-9) g m/Pa s m2). Water solubility of gellan and alginate films at 25 degrees C (0.47 to 0.59 and 0.74 to 0.79, respectively) and their swelling ratios (2.3 to 2.6 and 1.6 to 2.0, respectively) indicate their potential for coating high moisture fresh-cut fruits. Fresh-cut apple and papaya cylinders were successfully coated with 2% (w/v) alginate or gellan film-forming solutions containing viable bifidobacteria. WVP in alginate (6.31 and 5.52 x 10(-9) g m/Pa s m2) or gellan (3.65 and 4.89 x 10(-9) g m/Pa s m2) probiotic coatings of papaya and apple, respectively, were higher than in the corresponding cast films. The gellan coatings and films exhibited better water vapor properties in comparison with the alginate coatings. Values > 10(6) CFU/g B. lactis Bb-12 were maintained for 10 d during refrigerated storage of fresh-cut fruits, demonstrating the feasibility of alginate- and gellan-based edible coatings to carry and support viable probiotics on fresh-cut fruit.

[Microbiological stability study of minimally processed cantaloupe (Cucumis melo L) by vacuum]. / Estudio de la estabilidad microbiológica del melón (Cucumis melo L) mínimamente procesado por impregnación al vacío.

In order to design a minimal process for cantaloupe, the water activity of the fruit was reduced until 0.976 through vacuum osmotic dehydration and the optimum combination of microbial preservatives (100 ppm sodium sulfite, 600 ppm potassium sorbate, 0.5% L-ascorbic acid and 1% citric acid), that contributed to minimize (p < 0.05), the content of aerobic mesophilic bacteria, molds and yeast, was determined through a 2k multifactorial design. In the second experimental stage, the conditions previously mentioned were tested together with the application of fruit's blanching (98 degrees C/3 min) with saturated steam and product storage in three different modified atmospheres (6% O2-6% CO2, 5% O2-10% CO2 and atmospheric air). In such sense, the application of microbial preservatives together with fruit's blanching and atmospheric air in high barrier packages (30 mu nylon) contributed to extent the shelf life of the cantaloupe minimally processed during 14 days on the basis of aerobic mesophilic bacteria, psychrotrophic bacteria, acid lactic bacteria, enterobacteria, molds, yeast and the sensory attributes color, odour, taste and texture.