Lipids, 2018, Volume 53; Issue 2: Pages 235 - 249.

Dietary High-Oleic Acid Soybean Oil Dose Dependently Attenuates Egg Yolk Content of n-3 Polyunsaturated Fatty Acids in Laying Hens Fed Supplemental Flaxseed Oil.

Elkin, R.G. Kukorowski, A.N. Ying, Y. Harvatine, K.J.

Key Findings

This study found feeding chickens high-oleic soy oil could decrease levels of omega-3 in their eggs. Oleic acid has been linked to heart health benefits. In this study, the authors could not be certain whether lower omega-3 absorption was due to the oleic acid itself, or whether it was specific to high-oleic soy oil. They suggested that ALA and oleic acid may have competed for absorption in the intestine. The study suggests the possibility that oleic acid, the main fatty acid found in olive oil, could reduce the benefits of consuming foods and supplements high in omega-3s.  When chickens were fed increased amounts of flaxseed oil, the chickens produced eggs with up to 9.4 times more total omega-3 content than controls and up to 2.2 times more heart healthy long chain omega-3 polyunsaturated fatty acids (PUFAs). The findings may also have implications for humans, as many elements of the fat digestion and absorption process are similar in humans and chickens

ABSTRACT

Chickens can hepatically synthesize eicosapentaenoic acid (20:5 n-3) and docosahexaenoic acid (22:6 n-3) from α-linolenic acid (ALA; 18:3 n-3); however, the process is inefficient and competitively inhibited by dietary linoleic acid (LNA; 18:2 n-6). In the present study, the influence of dietary high-oleic acid (OLA; 18:1 n-9) soybean oil (HOSO) on egg and tissue deposition of ALA and n-3 polyunsaturated fatty acids (PUFA) synthesized from dietary ALA was investigated in laying hens fed a reduced-LNA base diet supplemented with high-ALA flaxseed oil (FLAX). We hypothesized that reducing the dietary level of LNA would promote greater hepatic conversion of ALA to very long-chain (VLC; >20C) n-3 PUFA, while supplemental dietary HOSO would simultaneously further enrich eggs with OLA without influencing egg n-3 PUFA contents. Nine 51-week-old hens each were fed 0, 10, 20, or 40 g HOSO/kg diet for 12 weeks. Within each group, supplemental dietary FLAX was increased every 3 weeks from 0 to 10 to 20 to 40 g/kg diet. Compared to controls, dietary FLAX maximally enriched the total n-3 and VLC n-3 PUFA contents in egg yolk by 9.4-fold and 2.2-fold, respectively, while feeding hens 40 g HOSO/kg diet maximally attenuated the yolk deposition of ALA, VLC n-3 PUFA, and total n-3 PUFA by 37, 15, and 32%, respectively. These results suggest that dietary OLA is not neutral with regard to the overall process by which dietary ALA is absorbed, metabolized, and deposited into egg yolk, either intact or in the form of longer-chain/more unsaturated n-3 PUFA derivatives.

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