Your search keyword '"Constantina Tzia"' showing total 5 results

1. Thermooxidative Stability of Fennel Oleoresin Microencapsulated in Blended Biopolymer Agents

Author

Constantina Tzia and Charikleia Chranioti

Subjects

food.ingredient, Chemistry, Maltodextrin, Modified starch, Chitosan, chemistry.chemical_compound, food, Lipid oxidation, Gum arabic, Organic chemistry, Thermal stability, Oleoresin, Peroxide value, Food Science

Abstract

UNLABELLED In this work, the oxidative and thermal stabilities of 4 different encapsulating agents (chitosan [CH], modified starch [MS], gum arabic [GA], and maltodextrin [MD]) used in fennel oleoresin microencapsulation by the freeze-drying technique were evaluated both individually and in blends (binary and ternary ones). The oxidative stability of the encapsulated products was assessed by gas chromatography/mass spectrometry analysis of the secondary oxidation volatiles along with the use of oxidation markers (peroxide value, PV), while a differential scanning calorimetery analysis was conducted. Gum arabic, both plain and its mixtures, exhibited the lowest protection against lipid oxidation, presenting high PVs. However, good microencapsulation efficiency along with the best oxidative stability in terms of PV and thermal stability indicated that the formulations of MS-CH and MS-MD-CH could be suggested as alternative encapsulating agents. PRACTICAL APPLICATION Herbal oleoresins including fennel can provide various nutritional benefits; however, they are sensitive to oxidation and should be microencapsulated. Therefore, there is a need for encapsulating agents that provide good microencapsulation efficiency and enhance at the same time oxidative and thermal stability.

Published

2014

2. Isolation of Tomato Seed Meal Proteins with Salt Solutions

Author

C. D. Thomopoulos, George N. Liadakis, Vassiliki Oreopoulou, and Constantina Tzia

Subjects

chemistry.chemical_classification, Meal, Central composite design, Chemistry, Plant protein, Yield (chemistry), Extraction (chemistry), Botany, Protein purification, Salt (chemistry), Water extraction, Food science, Food Science

Abstract

Salt solutions were used in isolating tomato seed meal proteins. Na 2 SO 3 and NaCl solutions at different concentrations, and pH were included in a central composite design to find optimum conditions of protein isolation. The highest total protein yield was achieved with water extraction (no salt present). Salt extraction at pH 7.5 produced Isolates with protein content of 93.4% (NaCl 5% w/v) and 77.1% (Na 2 SO 3 0.5% w/v). Observed values were in good agreement with predicted values. Isolates extracted with different salt solutions ranged from less soluble but very resistant to heat and Ca 2+ , to very surface active with functional properties comparable to commercial soy isolates.

Published

1998

3. Thermooxidative stability of fennel oleoresin microencapsulated in blended biopolymer agents

Author

Charikleia, Chranioti and Constantina, Tzia

Subjects

Chitosan, Hot Temperature, Plant Extracts, Drug Compounding, Starch, Gum Arabic, Biopolymers, Freeze Drying, Drug Stability, Foeniculum, Polysaccharides, Food Preservation, Humans, Oxidation-Reduction

Abstract

In this work, the oxidative and thermal stabilities of 4 different encapsulating agents (chitosan [CH], modified starch [MS], gum arabic [GA], and maltodextrin [MD]) used in fennel oleoresin microencapsulation by the freeze-drying technique were evaluated both individually and in blends (binary and ternary ones). The oxidative stability of the encapsulated products was assessed by gas chromatography/mass spectrometry analysis of the secondary oxidation volatiles along with the use of oxidation markers (peroxide value, PV), while a differential scanning calorimetery analysis was conducted. Gum arabic, both plain and its mixtures, exhibited the lowest protection against lipid oxidation, presenting high PVs. However, good microencapsulation efficiency along with the best oxidative stability in terms of PV and thermal stability indicated that the formulations of MS-CH and MS-MD-CH could be suggested as alternative encapsulating agents.Herbal oleoresins including fennel can provide various nutritional benefits; however, they are sensitive to oxidation and should be microencapsulated. Therefore, there is a need for encapsulating agents that provide good microencapsulation efficiency and enhance at the same time oxidative and thermal stability.

Published

2013

4. Protein Isolation from Tomato Seed Meal, Extraction Optimization

Author

George N. Liadakis, Constantina Tzia, Vassiliki Oreopoulou, and C. D. Thomopoulos

Subjects

Chromatography, Central composite design, Plant protein, Chemistry, Yield (chemistry), Extraction (chemistry), Botany, Protein purification, Water extraction, Raw material, Legume, Food Science

Abstract

Water extraction of tomato seed meal proteins was studied to find optimal conditions for protein extraction and isolation. A central composite design including temperature, pH, time and water/solids was used and second order models were employed. Optimum conditions were: 5O”C, pH 11.5, 20 min and water/solids = 30/l (v/w). Experimental values were: extraction yield (extracted protein to that in raw material) 66.1%, protein content of product 72.0%, and total protein yield (protein in isolated product to that in raw material) 43.6%. Estimated values were in good agreement with experimental values. Optimum conditions were confirmed by a larger scale experiment.

Published

1995

5. Staling of cereal bran enriched cakes and the effect of an endoxylanase enzyme on the physicochemical and sensorial characteristics

Author

Constantina Tzia and Dimitra M. Lebesi

Subjects

Dietary Fiber, Male, Water activity, Retrogradation (starch), Avena, Chemical Phenomena, Food storage, Sensation, Shelf life, Phase Transition, chemistry.chemical_compound, Food Preferences, Humans, Food science, Mechanical Phenomena, Endo-1,4-beta Xylanases, Bran, Moisture, Greece, Chemistry, food and beverages, Water, Oryza, Starch, Starch analysis, Kinetics, Food Storage, Models, Chemical, Amylopectin, Food, Fortified, Fast Foods, Female, Food Additives, Edible Grain, Food Science

Abstract

The staling of cakes enriched with untreated brans and endoxylanase-treated brans was evaluated by monitoring the changes in physicochemical, thermal, and sensorial properties of cakes during 7-d storage. Oat and rice bran were treated with different levels (0, 70, and 700 ppm) of an endoxylanase enzyme and added to cakes on 30% flour weight basis. Moisture losses, water activity, crumb firmness, starch retrogradation, and sensorial characteristics were used as staling indicators. Avrami-type equations were efficiently used for modeling the starch retrogradation kinetics, while linear models most adequately described crumb firming kinetics. Cake staling induced an increase in crumb firmness and enthalpy of amylopectin retrogradation, and a decrease in crumb moisture and sensory quality and acceptability scores of cakes. Oat bran-containing cakes better maintained their characteristics compared to the ones containing rice bran along the 7-d storage. Endoxylanase treatment of brans delayed the changes naturally induced during staling in crumb moisture content, amylopectin retrogradation enthalpy, and crumb firmness in the respective cakes. Deterioration of the sensorial characteristics was slower for the cakes containing endoxylanase-treated brans, as well. The level of endoxylanase treatment did not differentiate significantly (P < 0.05) any of the staling indicators. Overall, this study demonstrated that addition of endoxylanase-treated brans can result in cakes with improved nutritional characteristics and increased shelf life. Practical Application: The results of the study show the potential of using enzymes to modify underutilized food sources that can be properly incorporated in baked goods, improving their nutritional value, their quality characteristics, and providing longer shelf life. The developed procedure and results can be utilized by the bakery industry to make high fiber and low cost bakery products with improved sensorial characteristics that are appealing to the consumers.

Published

2012