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Cell-cultivated aquatic food products: emerging production systems for seafood
Summary
This review examines cell-cultivated seafood, a new approach to producing fish protein by growing fish cells in a lab rather than catching or farming fish. One potential benefit is avoiding the microplastic contamination found in wild and farmed fish, since the production environment can be controlled. As concerns grow about microplastics accumulating in seafood, lab-grown alternatives could offer a way to reduce human exposure to microplastics through diet.
The demand for fish protein continues to increase and currently accounts for 17% of total animal protein consumption by humans. About 90% of marine fish stocks are fished at or above maximum sustainable levels, with aquaculture propagating as one of the fastest growing food sectors to address some of this demand. Cell-cultivated seafood production is an alternative approach to produce nutritionally-complete seafood products to meet the growing demand. This cellular aquaculture approach offers a sustainable, climate resilient and ethical biotechnological approach as an alternative to conventional fishing and fish farming. Additional benefits include reduced antibiotic use and the absence of mercury. Cell-cultivated seafood also provides options for the fortification of fish meat with healthier compositions, such as omega-3 fatty acids and other beneficial nutrients through scaffold, media or cell approaches. This review addresses the biomaterials, production processes, tissue engineering approaches, processing, quality, safety, regulatory, and social aspects of cell-cultivated seafood, encompassing where we are today, as well as the road ahead. The goal is to provide a roadmap for the science and technology required to bring cellular aquaculture forward as a mainstream food source.
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