Abstract
This manuscript reports on the main problems decreasing productivity of dairy cows (e.g. fatty liver syndrome and poor fertility) and how antioxidants could enhance it. High producing dairy cows are prone to oxidative stress, and the situation can be exacerbated under certain environmental, physiological, and dietary conditions. Antioxidants have important effects on the expression of genes involved in the antioxidant status, which may enhance animal health and reproduction. Moreover, antioxidants may contribute to decrease the incidence of spontaneous oxidized flavour in milk enriched in polyunsaturated fatty acids. Plant lignans are strong antioxidants and flax is the richest source of plant lignans. Flax lignans are converted in the mammalian lignans enterolactone and enterodiol. The main mammalian lignan in milk is enterolactone and flax lignans are converted in enterolactone mainly under the action of ruminal microbiota. Therefore, ruminal microbiota may be the most important flora to target for plant lignan metabolism in order to increase concentration of mammalian lignan antioxidants in milk of dairy cows. However, more research is required to improve our knowledge on metabolism of other antioxidants in dairy cows and how they can contribute in decreasing milk oxidation.
Highlights
The transition period, from 3 wk before to 3 wk after parturition, has important effects on health, production, and profitability of dairy cows
Greater net production of ED than EL by ruminal microbiota was observed at 6 h of incubation, suggesting that the first step in mammalian lignan production by ruminal microbiota from SECO was ED, the precursor leading to EL production
Mammalian lignan EL is more likely concentrated in urine and milk than in ruminal fluid and blood. These results demonstrate that the main site for metabolism of flax lignans in dairy cows is the rumen
Summary
ABSTRACT - This manuscript reports on the main problems decreasing productivity of dairy cows (e.g. fatty liver syndrome and poor fertility) and how antioxidants could enhance it. The main mammalian lignan in milk is enterolactone and flax lignans are converted in enterolactone mainly under the action of ruminal microbiota. Ruminal microbiota may be the most important flora to target for plant lignan metabolism in order to increase concentration of mammalian lignan antioxidants in milk of dairy cows. A principal lignana mamífera no leite é a enterolactona e as lignanas da linhaça são convertidas em enterolactona principalmente sob a ação da flora ruminal. A flora ruminal pode ser a mais importante flora objetivando o metabolismo de lignanas vegetais para aumentar a concentração de antioxidantes como lignanas mamíferas no leite de vacas. Mais pesquisas são necessárias para melhorar nosso conhecimento sobre o metabolismo de outros antioxidantes em vacas leiteiras e como eles podem contribuir na diminuição da oxidação do leite
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
