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DSM study points to importance of adequate intake of vitamin E when dietary PUFA is increased

Kaiseraugst, CH, 24 Aug 2015 10:00 CEST

DSM has today published a new paper to further examine vitamin E function and requirements in relation to polyunsaturated fatty acids (PUFAs)1. The aim of the manuscript, which is published in the British Journal of Nutrition, is to review the published evidence on the function and requirements of α-tocopherol in relation to the amount of PUFAs in the human diet. It argues that vitamin E requirement will increase with a rise in PUFA consumption and with the degree of unsaturation of the PUFA in the diet. High intake of PUFAs accompanied by a very low intake of vitamin E may lead to symptoms of vitamin E deficiency.  

Vitamin E (α-tocopherol) is recognized as a key essential lipophilic antioxidant in humans, and plays a key role in protecting lipoproteins and cellular and intracellular membranes from damage. The paper highlights that the presence of vitamin E is of key importance in cellular membranes rich in highly unsaturated fatty acids such as docosahexaenoic acid (DHA) and arachidonic acid (ARA). It has been shown that when vitamin E accumulates in DHA-rich, rather unstructured domains, it stabilizes the membrane and protects DHA from oxidative damage2.

Current daily vitamin E intakes are below recommended levels in more than 90% of North Americans as well as in some European countries3. To quantify the vitamin E need, a basal vitamin E level plus an additional vitamin E requirement for dietary PUFAs is often considered. PUFAs are involved in a wide range of processes that are related to physical and mental health in humans, including brain and visual functioning throughout the life course.

The ratio of vitamin E to PUFA in the human diet is critical and requires deeper examination,” says Dr Daniel Raederstorff, principal scientist, DSM Nutritional Products, Human Nutrition & Health. “However, so far, there has been no consensus on the exact vitamin E to PUFA ratio to determine the vitamin requirement, as it might not be applicable to all types of diet and health status.

The published human data for a diet with an average content of PUFAs indicates that the additional vitamin E requirement ranges from 0.4 to 0.6 mg RRR-α-tocopherol/g of PUFA in the diet. Using the proposed average of 0.5 mg, the estimated requirement for vitamin E varied from 12 to 20 mg/day for a typical range of dietary PUFA intake.

Even if more research is needed to precisely define the vitamin E requirement in humans, it is important in view of the critical interactions between vitamin E and PUFAs to ensure adequate intake,” adds Professor Manfred Eggersdorfer, Senior Vice President, Nutrition, Science & Advocacy at DSM and Professor for Healthy Ageing at Groningen University.

DSM has partnered with a number of leading scientific experts to launch a series of webinars on the latest science on vitamin E and benefits to human health, such as combating non-alcoholic fatty liver. To access the presentations, please visit www.brighttalk.com/channel/12499.

Vitamins in Motion

Vitamins play an essential role for health, wellness and disease prevention throughout the lifecycle. They are key to solving our global nutritional challenges. DSM, a global leader in health and nutrition science, is leading an initiative - Vitamins in Motion - to highlight the important role of vitamins. The campaign advocates for increased access, through innovative solutions, to the essential vitamins all people need to be healthy and well-nourished. To learn more, visit www.vitaminsinmotion.com.

1 http://journals.cambridge.org/bjn/PUFA
2 Atkinson J, Harroun T, Wassall SR, Stillwell W, Katsaras J. The location and behavior of alpha-tocopherol in membranes. Mol. Nutr. Food Res. 2010;54(5):641-51. doi: 10.1002/mnfr.200900439.
3 Troesch B, Hoeft B, McBurney M, Eggersdorfer M, Weber P. Dietary surveys indicate vitamin intakes below recommendations are common in representative Western countries. Br. J. Nutr. 2012;108(4):692-8. doi: 10.1017/s0007114512001808.