In a new study (doi: 10.1186/s43014-023-00215-3) featured in Food Production, Processing and Nutrition on 28 February 2024, researchers from Memorial University of Newfoundland have identified antioxidative compounds in Northern shrimp (Pandalus borealis), marking a significant breakthrough for the food and pharmaceutical industries. The research not only emphasizes the nutritional value of shrimp but also uncovers novel compounds with promising health benefits.
In this research, ethanol stood out as the premier solvent for isolating antioxidant elements from shrimp by-products, particularly the shells, which demonstrated superior levels of total phenolic content (TPC) and total carotenoid content (TCC). This finding not only underscores ethanol’s extraction prowess but also unveils the substantial antioxidative qualities inherent in shrimp waste. Through sophisticated chromatographic methods and mass spectrometry, the study unearthed phenolic compounds, achieving a significant milestone in the exploration of shrimp’s nutritional value. The detailed analysis and isolation processes, involving silica gel column chromatography and thin-layer chromatography (TLC), led to the identification of groundbreaking compounds, notably 7-(3-butenyl)-2-hydroxy-6-(1,2,5,6-tetrahydropyridin-2-yl) quinoline. This compound, along with its dihydroquinoline variant, reveals intricate antioxidative mechanisms within shrimp, paving the way for further scientific inquiry and potential health-related applications. By highlighting the rich, albeit underexploited, antioxidant sources in shrimp by-products, the study invites a broader examination of seafood waste, suggesting promising directions for future nutritional and pharmaceutical innovations.
Dr. Fereidoon Shahidi, a co-author of the study, emphasized the importance of these findings, stating, “The discovery of these unique heterocyclic phenolic compounds not only provides insights into the antioxidative properties of shrimp but also opens new avenues for the utilization of shrimp by-products, aligning with sustainable and waste-reducing practices in the seafood industry.” He also emphasizes that structural conformation would benefit from 3D NMR and other modern techniques that are now commonplace since the work was originally carried out.
This breakthrough not only shines a light on the untapped potential of shrimp processing waste but also introduces novel compounds with significant implications for health, offering potential anti-inflammatory, anticancer, and anti-aging benefits. Moreover, it champions a sustainable approach to seafood processing, turning waste into valuable health-promoting agents.
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References
DOI
Original Source URL
https://doi.org/10.1186/s43014-023-00215-3
Funding information
The Natural Science and Engineering Research Council (NSERC) of Canada for financial support (RGPIN-2016-04468).
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The Food Production, Processing and Nutrition journal aims to provide a unique dedicated forum for publication of the highest quality and novel contributions in the field. Both fundamental research and applied areas are of interest and these extend to food production with respect to variety improvement and selection as well as green processing. Food safety, elimination of contaminants, and retention of nutrients and bioactive components that play a role in health promotion of consumers, are important aspects that will be covered. The journal publishes articles that deal with topics on food production and processing from farm to fork, and their influence on nutrition and health. Production technologies, absorption, bioavailability and personalized nutrition with consideration of gut microbiota are also of interest to the journal. Results may be communicated in the form of original research and reviews.