Effect of fermentation on biological functionality of cookies from fermented whole grain sorghum

Abstract This study aimed to obtain sorghum doughs subjected to two fermentation processes (backslopping and spontaneous fermentation techniques) with enhanced biological properties and to assess their influence on the bioaccessibility of phenolic compounds and Ferulic Acid (FA) of cookies formulated from fermented sorghum doughs. The best contents of Total Phenols (TP) (µgGAE/g) were 700.9 ± 7.6/36 h and 484.3 ± 6.1/48 h in sorghum doughs fermented by the backslopping and spontaneous fermentation techniques, respectively. The FA values (µg/g) in sorghum doughs fermented by backslopping techniques were significantly higher than those in spontaneous fermentation (21.2 ± 0.27/20 h versus 18.14 ± 0.12/12 h). Cookies formulated from selected sorghum-fermented doughs showed higher bioaccessibility of TP and FA than cookies formulated from nonfermented doughs. High bioaccessibility values for TP were found in cookie digests formulated from sorghum doughs fermented by backslopping and spontaneous processes at 36 h and 12 h, respectively. In contrast, high bioaccessibility values for FA were found in cookie digests formulated from sorghum doughs fermented by backslopping and spontaneous processes at 20 h and 48 h, respectively. The formulation of cookies with fermented sorghum doughs could be a suitable methodology for the prevention of several chronic nontransmissible diseases

Technologies applied to sorghum (Sorghum bicolor L. Moench): changes in phenolic compounds and antioxidant capacity

Abstract The search for foods with biological potential for the prevention of chronic diseases has highlighted sorghum, and numerous studies have been conducted to determine the best processing conditions without compromising the nutritional, functional or sensory qualities. We conducted a review of the scientific literature on the techniques used in sorghum and their effects on phenolic compounds and antioxidant capacity. This review allowed us to conclude that the type and content of phenolic compounds in the different varieties of sorghum must be considered for the selection of adequate technologies that allow the retention of phenolic compounds with improved bioaccessibility and biological potential. The available information has been mostly focused on the content of total phenols and the antioxidant activity of sorghum, while the digestibility, absorption, utilization and excretion of phenolic compounds have been poorly studied. In this regard, there is a clear need for further studies on sorghum with the aim of including sorghum as part of a healthy diet

Consumption of sprouts and perceptions of their health properties in a region of northwestern Mexico

This article belongs to the Special Issue Trends in Grain-Based Foods.There is a lack of information about consumer understanding of functional foods. Sprouts provide beneficial compounds that can help counteract chronic noncommunicable diseases. The population of a region in Northwestern Mexico has a high prevalence of chronic degenerative disease, and there is a need to promote strategies to increase the consumption of foods that provide health benefits, including sprouts. However, there is a lack of information regarding the sale, consumption and perception of sprouts’ healthy properties. A computer-assisted web-based survey (CAWI) was developed and distributed through social media to understand consumer knowledge of these foods’ health effects and their consumption. The survey of people with diverse sociodemographic profiles indicated a 1–3 times per week consumption and they knew the health benefits of consuming sprouts. A total of 82% of respondents were conscious that sprout consumption could prevent chronic diseases, which may be related to education level (χ2: 0.001, p < 0.05). In order to expand on our findings, it is important to investigate the communication strategies used by sprout manufacturers, dieticians, nutritionists and health professionals about the health benefits of sprout products to promote their consumption.The costs of the open access publication were covered by publications funds from the Universidad de Sonora, Mexico.Peer reviewe

Optimization of the duration and intensity of UV-A radiation to obtain the highest free phenol content and antioxidant activity in sprouted sorghum (Sorghum bicolor L. Moench)

Technologies such as UV-A radiation applied to sprouted sorghum can stimulate the synthesis or release of phenolic compounds. Since the optimal conditions for stimulating the formation of these compounds in sorghum sprouts are unknown, we used the response surface methodology to identify the optimal conditions of irradiation duration and intensity to obtain the highest free phenol content and antioxidant activity in sprouted sorghum. The results showed that, compared with nonirradiated sorghum sprouts, sprouts irradiated under the optimal duration of 11.7 h and the optimal intensity of 5.4 µW/cm2 had a significantly higher phenol content (26.3%) and antioxidant activity as measured by DPPH (28.3%) and TEAC (21.1%) assays. Our findings suggest that UV-A radiation can help develop sorghum sprouts with high biological potential that can be used to produce healthy foods for human consumption.A. A. Ruiz Hernández received a scholarship from CONACyT (National Research and Technology Council), Mexico.Peer reviewe

Bioprocessing of wheat (Triticum aestivum cv. Kronstad) bran from Northwest Mexico: effects on ferulic acid bioaccessibility in breads

Evaluating the biological potential of wheat grain cultivated in northwestern Mexico is important because it mainly varies according to the cultivar and production area. The aim of the present study was to evaluate ferulic acid (FA) bioaccessibility in breads supplemented with bioprocessed bran. Bran that was bioprocessed with xylanase enzyme (EB), yeast fermentation (FB), and a combination of both treatments (FEB) showed a higher total phenol content and antioxidant capacity compared with native bran (NB), and the majority of these components were found in a bound fraction. For NB and bioprocessed bran, FA was found at higher levels compared to the other hydroxycinnamic acids evaluated. Bioprocessing increased the free FA content six-fold compared to NB. The % bioaccessibility of FA in different breads increased in the following order: FEB<NB<FB<EB. The addition of bioprocessed bran is may be the simple way to increase the amount of bioactive compounds in a bread product

Contribution and Interactions of Hydroxycinnamic Acids Found in Bran and Wholegrain Sorghum (Sorghum bicolor L. Moench): Effects on the Antioxidant Capacity and Inhibition of Human Erythrocyte Hemolysis

An imbalance between free radicals and antioxidants is known as oxidative stress, and it promotes cellular aging and the development of chronic noncommunicable diseases. The bioactive compounds present in food play an important role in preventing oxidative stress. The aim of this study was to determine the contributions and interactions of the hydroxycinnamic acids found in the bran and whole grain of sorghum and to evaluate their effects on the antioxidant capacity and inhibition of the hemolysis of human erythrocytes. Results showed that the caffeic acid, p-coumaric acid, and ferulic acid found in sorghum contributed to the scavenging of DPPH and ABTS radicals in various proportions. Ferulic acid, which was present in bound form in the bran and wholegrain sorghum, significantly inhibited the AAPH radical-induced oxidation of the erythrocyte membranes by 78.0 and 4.3%, respectively. Combinations of two, three, or four hydroxycinnamic acids may interact in an antagonistic or synergistic manner, thereby altering each other’s bioactivities. The various interactions between the different sorghum bioactives can have a significant impact on their potential bioactivities. These results can be useful in the design of functional foods that aim to deliver bioactives to mitigate cellular aging or noncommunicable diseases