Citrus grandis Osbeck, commonly known as “pomelo” or “shaddock,” is the largest citrus fruit, the peel of which is a well‐known agricultural residual waste. Pomelo peel offers a wide range of components such as essential oils, polysaccharides, and phytochemicals with potential food applications. Utilization of pomelo peel to recover these components is an important step toward agricultural sustainability. This review covers pomelo peel utilization opportunities beyond conventional composting and animal feed production, and critically examines value‐added uses via the recovery of potentially bioactive components. The peel of pomelo accounts for approximately 30% of the total fruit weight and contains phytochemicals, including aroma‐active volatiles, pectin, flavonoids, phenolic acids, carotenoids, coumarins, and polysaccharides. Recovery of these phytochemicals offers an opportunity for value‐added utilization such as the development of enriched or functional foods and nutraceuticals. The health‐promoting and therapeutic potential of pomelo peel extracts and isolated pure compounds have been evaluated through numerous in vitro and in vivo studies that revealed a wide range of bioactivities, including hypolipidemic, hypoglycemic, antioxidant, antimicrobial, anti‐inflammatory, and anticancer effects. Preclinical evidence highlights multifaceted molecular and signaling events that possibly underlie the said bioactive potential. Overall, the pomelo processing industry offers a great opportunity to recover or produce valuable products from the large amounts of residual wastes it generates. It is envisaged that a thorough understanding of the bioactive components of pomelo peel, their functional and nutraceutical applications, and mode of actions will benefit the food industry.
In the Philippines, indigenous vegetables like ‘alugbati’ (Basella alba L.) can be utilized to address micronutrient deficiencies, such as vitamin A deficiency (VAD). This study aimed to develop fresh egg noodles with higher vitamin A content through the utilization of ‘alugbati’ leaves powder. Powder from ‘alugbati’ leaves was produced through dehydration of fully expanded leaves. The resultant powder was used to create three formulations of fresh egg noodles at 10%, 15%, and 20% substitution levels, with 100% wheat flour serving as the control. All formulations and the control were subjected to a water disintegration test and preference ranking test. The most preferred formulation was further evaluated for proximate composition, total carotenoid content (TCC), color, physical characteristics, and consumer acceptability. Data from triplicate experiments were statistically analyzed (p ≤ 0.05). Results showed that all samples were resistant to water disintegration (20 min in boiling water) and egg noodle with 15% substitution level was the most preferred. This sample had significantly higher ash (2.27 ± 0.28), fiber (1.77 ± 0.38), and protein (11.50 ± 0.11) contents than the control. A significantly higher TCC (1550 µg/g) compared to the control (610 µg/g) also signified that substituting with ‘alugbati’ leaves powder increased the vitamin A content of the noodles. From this, consuming 5–10 g of ‘alugbati’ egg noodles will be able to provide the vitamin A requirement of 400–800 µg retinol equivalent (RE). The egg noodles with a 15% substitution level also had a significantly darker green color and significantly lower elasticity. Moreover, this formulation was generally acceptable with mean Hedonic scores ranging from 7.20 (Like Moderately) to 7.80 (Like Very Much). This study demonstrated that fresh egg noodles with ‘alugbati’ leaves powder can be a good source of vitamin A. Clinical studies should be conducted to determine the role of the product in alleviating VAD especially in children and pregnant women.
Probiotics in ale beer may be attractive to health-conscious consumers. However, beer conditions may decrease probiotic viability. Powder produced from durian (Durio zibethinus) rind, a by-product that is currently unutilized, can be used for the immobilization of probiotics. MRS medium was incubated with Lactobacillus brevis and periodically sampled to obtain the growth curve. Ale beer with free L. brevis and cells immobilized in durian rind powder was produced and separately assessed during storage at 21 °C for 24 days. The physico-chemical parameters of both beers did not differ significantly. Durian rind powder conferred protection up to 12 days of storage with the immobilized cells in the beer having a significantly higher count than the free cells, which can be due to the acid detergent fiber content (19.67%). Free and immobilized cells remained viable with counts of 4.89 and 5.00 log CFU/mL of beer, respectively, at the end of the storage period. Both treatments had approximate counts of 5 log CFU/mL after 120 min in simulated gastric and intestinal fluids. The predominant bacterial species present at the end of storage were L. brevis and L. farciminis. This study suggests that ale beer could be a potential delivery system for free and immobilized probiotic bacteria. This is one of the few studies demonstrating the use of probiotic lactic acid bacteria in beer brewing.
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