Development, characterization, and consumer acceptance evaluation of thermally stable capsule beads containing mixed extracts of green tea and turmeric.

The aim of this study was to investigate the ability of shell (coating) formulations comprised of alginate and glucono delta lactone (GDL) to encapsulate a mixture of green tea and turmeric extracts. Three concentrations of alginate and GDL were used at 0.5%, 0.75%, and 1%, w/v and their solid ratio was varied using a factorial design. A response surface model was applied to optimize the retention of catechin and curcuminoid contents, to determine encapsulation efficiency, and to minimize undesirable flavor and taste. Increasing the concentration of alginate and GDL significantly increased the retention of catechin and curcuminoid contents, encapsulation efficiency, and consumer acceptance (p < 0.05). The encapsulating solution containing 1% of each alginate and GDL performed the best against each criterion. The thermal treatment carried out at the boiling point of water for 15 min had a significant impact on the retention of catechin and curcuminoid content which, in the thermally-treated beads, was 5.15 and 3.85 times higher than unencapsulated, respectively. The consumer acceptance of the encapsulated beads after thermal treatment was higher than that of the unencapsulated formulations as they exhibited lesser pungent flavor and bitterness. The innovative process of thermally stable microencapsulation can produce anti-cancer activity compounds involved in functional food industrial sectors.

Investigating the relative merits of using a mixed reality context for measuring affective response and predicting tea break snack choice.

Sensory evaluation for the investigation of food consumption is often conducted in a controlled laboratory environment, which does not reflect consumption behaviour in real world. Here, we compared the effect of consumption setting (traditional sensory booth, mixed reality projection café, and a café) on consumer affective responses, and to investigate the effectiveness of using Microsoft HoloLens technology, an Augmented Mixed Reality device, as an ecologically valid alternative to natural consumption eating for sensory evaluation. Participant [(n = 120): 86 females/34 males, aged 18-65 years] affective response (overall liking, attribute liking, emotional response, and snack choice) towards two commercially available tea break snacks (caramel slice and chocolate digestive biscuit) was assessed in three different consumption settings using a balanced crossover design. There were no significant differences for most affective ratings between data obtained from the HoloLens evoked café and real café (p ≥ 0.10), suggesting that mixed reality could provide an ecologically valid context for consumer research. However, response differences were observed between these two contexts and the sensory booths. For example, interested, joy, enthusiastic emotion terms were rated slightly higher in the evoked café in comparison to the booth context and slightly higher emotional engagement was observed for joy in the café compared to the booths (all p < .10). This study highlights key considerations for deciding where consumer testing should be conducted and the importance of using a combination of overall liking, attribute liking and emotional response to obtain data representative of real-world environments in consumer studies.

Sugar reduction without compromising sensory perception. An impossible dream?

Sugar reduction is a major technical challenge for the food industry to address in response to public health concerns regarding the amount of added sugars in foods. This paper reviews sweet taste perception, sensory methods to evaluate sugar reduction and the merits of different techniques available to reduce sugar content. The use of sugar substitutes (non-nutritive sweeteners, sugar alcohols, and fibres) can achieve the greatest magnitude of sugar and energy reduction, however bitter side tastes and varying temporal sweet profiles are common issues. The use of multisensory integration principles (particularly aroma) can be an effective approach to reduce sugar content, however the magnitude of sugar reduction is small. Innovation in food structure (modifying the sucrose distribution, serum release and fracture mechanics) offers a new way to reduce sugar without significant changes in food composition, however may be difficult to implement in food produced on a large scale. Gradual sugar reduction presents difficulties for food companies from a sales perspective if acceptability is compromised. Ultimately, a holistic approach where food manufacturers integrate a range of these techniques is likely to provide the best progress. However, substantial reduction of sugar in processed foods without compromising sensory properties may be an impossible dream.