Physicochemical properties of iodine and selenium biofortified Sparus aurata and Cyprinus carpio during frozen storage.

Fish biofortification with natural ingredients like iodine-rich macroalgae and selenized-yeast is an excellent strategy to enhance the nutritional quality of farmed fish. This study aimed to assess the effect of frozen storage during 12-months on physicochemical quality of biofortified seabream (Sparus aurata) and carp (Cyprinus carpio). Frozen storage reduced iodine content in biofortified seabream fillets (17%), as well as selenium content in biofortified carp fillets (24%). Yet, biofortified fillets still presented enhanced iodine and selenium contents at the end of the storage period. Increased lipid oxidation (3.45 mg MDA kg-1 for seabream and 2.41 mg MDA kg-1 for carp) and decreased water holding capacity (23-29% for seabream and 14-23% for carp) was observed during storage, whereas major changes in colour and texture occurred after 45 days (seabream) and 225 days (carp) of storage. In general, biofortified fish fillets maintained their nutritional value and quality after 360 days of frozen storage.

Effects of steaming on health-valuable nutrients from fortified farmed fish: Gilthead seabream (Sparus aurata) and common carp (Cyprinus carpio) as case studies.

Fish fortification with iodine-rich macroalgae (Laminaria digitata) and Selenium-rich yeast is expected to promote nutritional added value of this crucial food item, contributing to a healthy and balanced diet for consumers. However, it is not known if steaming can affect these nutrient levels in fortified fish. The present study evaluates the effect of steaming on nutrients contents in fortified farmed gilthead seabream (Sparus aurata) and common carp (Cyprinus carpio). Fortified seabream presented enhanced I, Se and Fe contents, whereas fortified carp presented enhanced I, Se and Zn contents. Steaming resulted in increased I and Se contents in fortified seabream, and increased Fe and Zn levels in fortified carp, with higher elements true retention values (TRVs >90%). The consumption of 150 g of steamed fortified seabream contributes to a significant daily intake (DI) of I (up to 12%) and Se (up to >100%). On the other hand, steamed fortified carp contributes to 19-23% of I DI and 30%-71% of Se DI. These results demonstrate that steaming is a healthy cooking method, maintaining the enhanced nutritional quality of fortified fish. Moreover, the present fortification strategy is a promising solution to develop high-quality farmed fish products to overcome nutritional deficiencies.

Enriched feeds with iodine and selenium from natural and sustainable sources to modulate farmed gilthead seabream (Sparus aurata) and common carp (Cyprinus carpio) fillets elemental nutritional value.

Developing tailor-made fortified farmed fish is a promising solution to overcome nutritional deficiencies and increase consumer confidence in these products. This study evaluated the supplementation of three fortified diets with I-rich seaweed and selenised-yeast on essential and toxic elements levels in gilthead seabream (Sparus aurata) and common carp (Cyprinus carpio). Fortified diets resulted in increased I, Se and Fe in fish muscle. Biofortified seabream and carp revealed lower Cu and Br. The reduction of fishmeal and fish oil in fortified diets resulted in lower Hg and Cd in seabream muscle. Contrarily, fortified diets increased As and Hg in carp fillets. The consumption of 150 g of fortified seabream enabled a significantly higher contribution to the daily recommended intake (DRI) of I (10%) and Se (76%) than non-fortified fish, whereas fortified carp fulfilled 23% of I DRI and 91% of Se DRI. Moreover, the exposure to Pb decreased with the consumption of biofortified seabream (23-82% BMDL01) and carp (26-92% BMDL01). These results support the strategy of developing eco-innovative biofortified farmed fish using sustainable, natural, safe and high-quality ingredients in feeds, to enable consumers to overcome nutritional deficiencies without significantly increased feed costs.

[Mineral elements in diet of pregnant and breast-feeding women. Part I. Macro minerals: calcium, magnesium, phosphorus, sodium, potassium, chloride]. / Skladniki mineralne w diecie kobiet ciezarnych i karmiacych. Czesc 1. Makromineraly: wapn, magnez, fosfor, sód, potas, chlor.

During pregnancy and lactation the need not only for the energy intake increases but also for some mineral elements. The basic source of mineral elements and other chemical elements for the human organism is food. For the increased need for minerals, proper selection of food products is vital and sometimes extremely difficult to do. The article covers some of the reasons for increased need for mineral elements of pregnant and feeding women. In the first part we described the proper sources of macro minerals such as Ca, Mg, P, Na, K, CIland highlighted the factors that determine their bioavailability.

[Mineral elements in diet of pregnant and breast-feeding women. Part II. Micro minerals: iron, zinc, copper, selenium, iodine, fluorine, manganese, molybdenium, chromium]. / Skladniki mineralne w diecie kobiet cieiarnych i karmiacych. Czesc II. Mikromineraly: zelazo, cynk, mied , selen, jod, fluor, mangan, molibden, chrom.

The first article describes in detail problems connected with the role of macro minerals: Ca, Mg, P, Na, K, Cl in the diet of pregnant and breast feeding women. We concentrated on the choice of good natural sources of micro minerals: Fe, Zn, Cu, Se, I, F, Mn, Mo and Cr. The amounts of the elements in some of the food products are listed and factors that decide on their bioavailability are described. We mentioned pernicious effects of inadequate intake of micro minerals on the health of pregnant women and newborn babies.