Dr Suwimol Chockchaisawasdee

The Australian native foods, despite high phytochemical composition, are severely underutilized in research and on the commercial market. One of these plants is the Davidson plum (Davidsonia jerseyana), a nutrient-dense and sustainable food ingredient. The study aimed to develop functional fruit sorbets incorporating freeze-dried Davidson plum powder (0–20% w/w) and evaluate their physicochemical, antioxidant, and sensory properties. Sorbets were created using strawberry, raspberry, pomegranate, and Davidson plum bases and analyzed for nutritional content, color, melting rate, texture, and antioxidant capacity (Total Phenolic Content (TPC), Total Flavonoid Content (TFC), Ferric Reducing Antioxidant Power (FRAP), Cupric Reducing Antioxidant Capacity (CUPRAC), 2,2-Diphenyl-1-picrylhydrazyl (Radical Scavenging Assay (DPPH)), total proanthocyanin and anthocyanin content. Sensory evaluation was also conducted using a semi-trained panel. The results showed that increasing Davidson plum concentration led to higher antioxidant activity and slower melting rates. Sorbets containing 10% and 15% Davidson plum demonstrated the highest levels of phenolic and flavonoid compounds. However, sensory analysis indicated that sorbets with 5% and 10% Davidson plum, particularly those made with a strawberry base were the most acceptable in terms of flavour, texture, and overall appeal. These findings suggest that incorporating Davidson plum into frozen desserts, especially at lower concentrations, can enhance both the functional and sensory qualities of sorbets while offering potential health benefits.

Faba bean husks (FBH) are a high-fibre waste product of faba beans and are primarily used as animal feed with the potential of becoming a fibre supplement. In this study, different levels and particle sizes of FBH flour were used to enhance the fibre content of gluten free bread. Bread properties were evaluated by measuring specific volume, colour (crust and crumb), and crumb texture. The sensory characteristics of breads were assessed by a group of untrained panellists (n = 66) on appearance, aroma, flavour, texture, aftertaste, willingness to buy, and overall acceptability using a nine-point hedonic scale. Volume of bread was affected by the level and particle size of FBH added. Texture analysis showed the importance of level of FBH, and of its particle size in establishing hardness, gumminess, and chewiness (p < 0.05). The added FBH influenced the colour of the crust and crumb. Two formulations of FBH-enriched gluten free bread (particle sizes of 212–300 μm at 5% wheat flour weight substitution, and particle sizes of smaller than 212 μm at 15% wheat four weight substitution) increased the fibre content of the bread, while had no negative impact on sensory evaluation in comparison to control treatment (p < 0.05).

This study aimed to produce and characterize of a powder mixture from tilapia (Oreochromis niloticus) bone resulting from the addition to hydroxyapatite (HA) of various acids (lactic acid, citric acid, and malic acid). Structured hydroxyapatite lactate compound (SHA-Lac) and SHA-citrate malate compound (SHA-CiMa) were water-soluble and Ca and P were the most abundant minerals contained in those compounds had main elements in Ca and P. FT-IR indicated that COOH played an important role for Ca2+ binding. XRD patterns indicated these compounds were amorphous crystal. For bioavailability on preosteoblast MC3T3-E1 cells, all samples at 100 μg/mL showed no cytotoxicity, no change in morphology, and no cell apoptosis, with the percentage of cell viability higher than 80%. For ability of mineral deposition at 7, 14, and 21 days of culture, all samples significantly increased the mineralization of MC3T3-E1osteoblast cells, thereby resulting in rising of the proliferation and differentiation during the early stages.
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Industrial-scale food manufacturing generates high quantity of fruit-and-vegetable solid by-product and waste streams (FVSW) which have become a challenge to the environment post-production. Due to this, proposals for a better use of resources to reduce the environmental burden and to promote a circular economy have been introduced. Reintroducing discarded materials back into the production through the recovery of valuable components or through the conversion into value-added ingredients is one approach attracting strong interest in research. FVSW is rich in lignocellulosic materials which can be reused to produce bioactive ingredients. This review highlights the potential use of FVSW as low-cost raw materials and describes the valorisation of FVSW for the production of functional oligosaccharides. The focus is on the production technologies of the main functional oligosaccharides, namely pectic-oligosaccharides, inulin and fructooligosaccharides, xylooligosaccharides, and isomaltooligosaccharides.

The fruit of date palm tree Phoenix dactylifera is among the most abundant fruits, and it is rich in essential nutrients. Quality-wise, not all cultivated date fruits meet the commercial standards, and tons of date fruit that are immature, or of poor appearance but with no reduced nutritive value are treated as date by-product and are being used for animal feed or are discarded during processing by the relevant industries. Together with the rejected fruit, date seed which is the inedible part, and the trimmed fronds of the date palm, they are all discarded, resulting in an environmental problem, and an economical loss. The objective of this review is to identify current practices on the uses of low-grade date, seed, and frond in the industry. The literature shows date fruit of low quality is typically processed to make date paste and date syrup, and both are well utilized in the food sector. The chemical composition of date seed, and increasingly of other parts are well known, and fully exploited in many industrial applications.

The individual and interactive impacts of guar gum and glycerol on the pea-starch-based edible film characteristics were examined using three factors with three-level Box-Behnken response surface design (BBD). The results showed that density and elongation at break were only significantly (p<0.05) affected by pea starch and guar gum in a positive linear fashion. The quadratic regression coefficient of pea starch showed a significant effect (p<0.05) on thickness, density, puncture force, water vapor permeability, and tensile strength, while tensile strength and Young's modulus were affected by the quadratic regression coefficient of glycerol and guar gum, respectively. The results were analyzed using Pareto analysis of variance (ANOVA) and the developed predictive equations for each response variable presented reliable and satisfactory fit with high coefficient of determination (R-2) values (0.96). The optimized conditions with the goal of maximizing mechanical properties and minimizing water vapor permeability were 2.5g pea starch, 0.3g guar gum, and 25% w/w glycerol based on the dry film matter in 100mL of distilled water.

The influence of process variables (pea starch, guar gum and glycerol) on the viscosity (V), solubility (SOL), moisture content (MC), transparency (TR), Hunter parameters (L, a, and b), total color difference (ΔE), yellowness index (YI), and whiteness index (WI) of the pea starch based edible films was studied using three factors with three level Box–Behnken response surface design. The individual linear effect of pea starch, guar and glycerol was significant (p<0.05) on all the responses. However, a value was only significantly (p<0.05) affected by pea starch and guar gum in a positive and negative linear term, respectively. The effect of interaction of starch×glycerol was also significant (p<0.05) on TR of edible films. Interaction between independent variables starch×guar gum had a significant impact on the b and YI values. The quadratic regression coefficient of pea starch showed a significant effect (p<0.05) on V, MC, L, b, ΔE, YI, and WI; glycerol level on ΔE and WI; and guar gum on ΔE and SOL value. The results were analyzed by Pareto analysis of variance (ANOVA) and the second order polynomial models were developed from the experimental design with reliable and satisfactory fit with the corresponding experimental data and high coefficient of determination (R2) values (>0.93). Three-dimensional response surface plots were established to investigate the relationship between process variables and the responses. The optimized conditions with the goal of maximizing TR and minimizing SOL, YI and MC were 2.5g pea starch, 25% glycerol and 0.3g guar gum. Results revealed that pea starch/guar gum edible films with appropriate physical and optical characteristics can be effectively produced and successfully applied in the food packaging industry.

Background: Sweet Cherries (Prunus avium L.) are a nutritious fruit which are rich in polyphenols and have high antioxidant potential. Most sweet cherries are consumed fresh and a small proportion of the total sweet cherries production is value added to make processed food products. Sweet cherries are highly perishable fruit with a short harvest season, therefore extensive preservation and processing methods have been developed for the extension of their shelf-life and distribution of their products.

Scope and approach: In this review, the main physicochemical properties of sweet cherries, as well as bioactive components and their determination methods are described. The study emphasises the recent progress of postharvest technology, such as controlled/modified atmosphere storage, edible coatings, irradiation, and biological control agents, to maintain sweet cherries for the fresh market. Valorisations of second-grade sweet cherries, as well as trends for the diversification of cherry products for future studies are also discussed.

Key findings and conclusions: Sweet cherry fruit have a short harvest period and marketing window. The major loss in quality after harvest include moisture loss, softening, decay and stem browning. Without compromising their eating quality, the extension in fruit quality and shelf-life for sweet cherries is feasible by means of combination of good handling practice and applications of appropriate postharvest technology. With the drive of health-food sector, the potential of using second class cherries including cherry stems as a source of bioactive compound extraction is high, as cherry fruit is well-known for being rich in health-promoting components.

The mechanical properties and moisture sorption at relative humidity (RH) range of 11-94%, water vapor permeability (WVP), solubility in water and color of the pea starch films as a function of glycerol were examined. The results showed that increasing the concentration of plasticizer resulted in improvement of the tensile strength of the films at RH <43%, the percent elongation as well as the deformation at break at RH <84%. Increasing plasticizer content and RH also resulted in films with lower Young's modulus, lower puncture force, but higher puncture deformation. Furthermore, increasing plasticizer content led to the films with more opaque appearance. Films prepared with 15 and 25% glycerol had lower WVP in comparison with unplasticized film. This study provides information regarding the advantageous or disadvantageous of possible application of pea starch films in food packaging industry.
Practical ApplicationStarch edible films have been utilized for packaging technologies and edible coatings. Pea starch has been found to produce the films with improved physical and mechanical properties in comparison with films prepared from other starches due to high amount of amylose. The development of pea starch film with improved functions affects its application. Pea starch edible films may find practical applications in the poultry, meat, seafood, fruit, vegetable, grains and candies industries.

The moisture sorption isotherm of pea starch films prepared with various glycerol contents as plasticizer was investigated at different storage relative humidities (11%-96% RH) and at 5 +/- 1, 15 +/- 1, 25 +/- 1 and 40 +/- 1 degrees C by using gravimetric method. The results showed that the equilibrium moisture content of all films increased substantially above a(w) = 0.6. Films plasticized with glycerol, under all temperatures and RH conditions (11%-96%), adsorbed more moisture resulting in higher equilibrium moisture contents. Reduction of the temperature enhanced the equilibrium moisture content and monolayer water of the films. The obtained experimental data were fitted to different models including two-parameter equations (Oswin, Henderson, Brunauer-Emmitt-Teller (BET), Flory-Huggins, and Iglesias-Chirife), three-parameter equations Guggenhiem-Anderson-deBoer (GAB), Ferro-Fontan, and Lewicki) and a four-parameter equation (Peleg). The three-parameter Lewicki model was found to be the best-fitted model for representing the experimental data within the studied temperatures and whole range of relative humidities (11%-98%). Addition of glycerol increased the net isosteric heat of moisture sorption of pea starch film. The results provide important information with estimating of stability and functional characteristics of the films in various environments.