Introduction. Nutrition has a significant impact on human health, performance, well-being, and lifespan. The research objective was to develop formulations for functional compositions of seafood cryoconcentrates.
Study objects and methods. The study featured concentrates obtained by cryotechnology from carcasses of Pacific squid (Todarodes pacificus), muscular shell of cucumaria (Cucumaria japonica), scallop mantle (Mizuhopecten yessoensis), octopus skin (Octopus dofleini), milt of Pacific herring (Pacific herring), and Japanese kelp (Laminaria japonica), as well as their multicomponent mixes. The content of biologically active substances was determined by the spectrophotometric method. The safety and biological value were biotested on Tetrahymena pyriformis.
Results and discussion. The dry seafood concentrates had a high content of protein, minerals, and biologically active components, i.e. hexosamines, triterpene glycosides, carotenoids, nucleic acids, etc. The seafood cryoconcentrate mixes were divided into fortifying, restoring, immunomodulating, and mineral. Their chemical composition varied greatly, depending on the functional aim of the mix. For instance, the protein content varied from 28.8 to 57.6%, lipids – from 3.1 to 6.9%, carbohydrates – from 15.0 to 35.9%, minerals – from 10.9 to 22.9%, and hexosamines – from 2.2 to 5.6%. The experiments made it possible to substantiate the composition of the dry mixes. The compilation principle was based on the chemical profile of the raw material, as well as on the choice of biologically active substances. All the dry seafood concentrates showed a high relative biological value. However, the values differed, depending on the type of raw material: from 65.5% for the scallop mantle sample to 86.3% for the octopus skin sample. The difference could be explained by the chemical composition of the cryopowders and their availability to ciliate enzymes.
Conclusion. The research resulted in formulations and functional mixes of dry seafood concentrates obtained by cryotechnology. The dry seafood concentrates can be used both independently and as functional compositions. The developed mixes demonstrated rather high content of animal proteins, minerals, and biologically active substance, e.g. hexosamines, triterpene glycosides, carotenoids, nucleic acids, etc. Their functional compositions proved to have excellent sensory properties; they are biologically safe for human consumption and have a high relative biological value.
