Browsing by Subject "Viscosity"

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    Hydrostatic high pressure treatment of casein to generate defined particle and gel structures
    (2006) Merel-Rausch, Eva; Hinrichs, Jörg
    The focus of the work was to study the influence of pressure treatment conditions on pressure-induced casein structures in detail. The influence of process parameters like pressure build-up, pressure level, holding time and release rate but also temperature, ionic strength and casein concentration were determined. This work showed that the structure formation of casein under high pressure treatment depends on numerous factors. Sols but also gels can be formed and could be used for different applications particularly with the choice of the release rate and the milieu conditions, even if pressure conditions and casein concentration are kept constant.
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    Structure formation in fruit preparations by fruit fermentates produced with exopolysaccharide-forming lactic acid bacteria
    (2025) Festini, Silvan; Zipori, Dor; Wallisch, Marc; Weiss, Agnes; Neidhart, Sybille; Schmidt, Herbert; Jekle, Mario
    Fruit preparations are intermediate food products that are primarily used in the dairy industry for the production of fruit yogurt or frozen desserts. Typically, they are stabilized by added hydrocolloids like pectins. The objective of this study was to investigate the potential replacement of conventional stabilizers by structure-forming fermentates produced by exopolysaccharides (EPS)-forming lactic acid bacteria (LAB). Peach puree was selected as fermentation matrix. Prior to 72 h of incubation, it was inoculated with either the heterofermentative LAB strain Levilactobacillus brevis TMW 1.2112 or the homofermentative LAB strain Pediococcus parvulus strain LTH 1110, both being known to produce EPS in form of β-D-glucan. The lyophilized fermentates were applied as stabilizers to produce strawberry fruit preparations. Flow curves, viscoelastic behaviour and shear stability were measured to investigate the effect of fermentate incorporation on the rheological properties of the products. A fermentatively induced effect was observed in terms of a 1.3-fold increase in viscosity of strawberry model fruit preparations with 10 % fermentate of Lv. brevis TMW 1.2112 compared to the addition of the same dose of fermentate blank. Further, increasing the fermentate blank dose from 10 % to 15 % resulted in a 2.4-fold viscosity increase of the model fruit preparations. High shear stability was found in all model strawberry fruit preparations. However, fermentation had no clear benefit in terms of viscoelastic behaviour and shear stability of the fruit preparations. Although the fermentatively induced thickening potential was limited, production of viscosity-increasing peach fermentate with minor changes in the sugar and amino acid profiles of the fruit proved to be feasible.