Consumer acceptability of no added sugar pound cakes under blind and informed testing conditions.

Stevia is an emerging natural high-intensity sweetener. There are negative perceptions of zero-calorie sweeteners, but studies that provide knowledge of these sweeteners improve their perception. This study evaluated consumer acceptability of a zero-sugar bakery product under blind and informed conditions (n = 96) along with physicochemical analysis of the products. Rebaudioside A (Reb A) and the new types of stevia (Rebs D and M) with sugar as a control were used to formulate pound cakes. Panelists evaluated the overall hedonic impressions (aroma, texture, flavor, and aftertaste) and intensity (sweetness and bitterness) of the cakes under blind and informed conditions with an enforced 2-week break between evaluations. During the informed session, a document was provided prior to evaluating samples that included stevia's health benefits and the nutritional facts panels for the cakes. The cakes underwent volatile profile (electronic nose [e-nose]) and water activity (aw ) analysis. Overall, stevia cakes showed an increase in flavor and texture liking during the informed session when compared to the blind session, but only Reb A showed a significant difference (p < 0.05). The increase in liking scores indicated that information positively affected the consumer's perception of the stevia-sweetened cakes attributes. The e-nose confirmed differences in aroma. There was a significant difference in aw of the samples Rebs A, D, M versus sucrose (p < 0.05). No significant differences were observed among the Rebs (p > 0.05). This study illustrates that stevia, despite non-browning or fermenting, can be used in a practical baking application, and product-related information impacts consumer acceptability. PRACTICAL APPLICATION: This study demonstrates that product-related information may have an impact on the consumer acceptability of the product. Through potential labeling improvements, overall consumer perception and acceptability of zero-sugar added or low-sugar products could be improved. This study also illustrates that stevia, despite being a non-browning or fermenting sugar alternative, can be used in a practical baking application.

Molecularly Imprinted Chemiresistive Sensor for Specific Recognition of Furaneol as a Biomarker of Strawberry Flavor Conditions.

This work introduces the concept of a molecularly imprinted gas sensor to monitor the condition of naturally ripened strawberries. Furaneol, 2,5-dimethyl-4-hydroxy-3(2H)-furanone, is considered as an important biomarker related to the strawberry flavor. Identification of furaneol concentration is still a challenge because of its weak adsorption, nonpolar, and unreactive properties. Therefore, no study has been reported yet to measure furaneol gases via a simple chemiresistive mechanism. Herein, we demonstrate the sensor based on molecularly imprinted polymer (MIP)-based polyaniline (PANI). The sensitive and selective detection of furaneol gas with a MIP-PANI gas sensor was observed at room temperature and under different humidity conditions. The comparison between MIP and the nonimprinted (NIP)-based PANI shows a strong interaction between furaneol and the molecularly imprinted polymer. The furaneol gas sensing mechanism is explained based on the interaction between the gas molecules and the charge carriers of MIP-PANI, which results in the functional group change in the carboxylic group. Furthermore, the developed MIP-chemiresistive sensor for real strawberries was compared with a commercial e-nose system. The results show the potential to offer a rapid and cost-effective platform for specific recognition of furaneol.

Recent Applications of Potentiometric Electronic Tongue and Electronic Nose in Sensory Evaluation.

Electronic tongue (e-tongue) and electronic nose (e-nose) have been widely used to determine food products' taste, aroma, and flavor profiles. Several researchers and industries have recently attempted to find relationships between these e-senses and human sensory panels to ultimately replace sensory panels or use them as a viable alternative to timeconsuming and expensive traditional sensory evaluation (e.g., consumer acceptance testing or descriptive sensory analysis). This study investigated the recent applications of e-tongue and e-nose in the food and beverages sectors and their relationships with human sensory panels, including a trained sensory panel and naïve consumers. According to several studies, the e-tongue, e-nose, or a combination of e-tongue and e-nose can be an effective and powerful tool for rapid assessment of sensory profiles and quality detection with significant correlations with human sensory data. These instruments are also often reported to be more sensitive to detect subtle changes/differences that the human panel cannot detect. Future trends and projections of the e-tongue and e-nose with limitations are also discussed.