High-Dose Vitamin E Supplementation Can Alleviate the Negative Effect of Subacute Ruminal Acidosis in Dairy Cows

Abstract: The aim of this trial was to assess whether the supplementation of vitamin E (VE) in high-concentrate diets could improve the fermentation and blood metabolism in the rumen of dairy cows, thereby modulating the degree of the subacute ruminal acidosis (SARA) response and improving the performance. Seven Holstein cows (four fitted with ruminal cannulas) were fed three diets (total mixed rations) during three successive periods (each lasted for 18 d): (1) the control diet (CON); (2) a high-grain (HG) diet, which … Show more

“…According to a study conducted by Wu et al [107], high-dose vitamin E supplementation (12,000 IU/head/day) was found to have a positive impact on rumen fermentation and blood metabolism in dairy cows. This effect was achieved by modulating the relative abundance of rumen microorganisms, which helped to mitigate a range of adverse effects that are typically associated with subacute ruminal acidosis.…”

A Century of Vitamin E: Early Milestones and Future Directions in Animal Nutrition

“…According to a study conducted by Wu et al [107], high-dose vitamin E supplementation (12,000 IU/head/day) was found to have a positive impact on rumen fermentation and blood metabolism in dairy cows. This effect was achieved by modulating the relative abundance of rumen microorganisms, which helped to mitigate a range of adverse effects that are typically associated with subacute ruminal acidosis.…”

A Century of Vitamin E: Early Milestones and Future Directions in Animal Nutrition

Mild synergistic effects of a dietary source of polyphenols (Ceratonia siliqua L.) and vitamin E on light lambs’ rumination activity, nutritional status, and gastrointestinal redox-immune markers

A high concentrate diet inhibits forkhead box protein A2 expression, and induces oxidative stress, mitochondrial dysfunction and mitochondrial unfolded protein response in the liver of dairy cows