Effectiveness of vitamin D supplementation in Swedish children may be negatively impacted by BMI and serum fructose

Research output: Contribution to journalArticle

Abstract

In regions where sunlight exposure is limited, dietary vitamin D intake becomes important for maintaining status. However, Swedish children have been shown to have deficient or marginal status during the winter months even if the recommended dietary intake is met. Since low vitamin D status has been associated with several disease states, this study investigated the metabolic changes associated with improved vitamin D status due to supplementation. During the 3 winter months, 5–7-year-old children (n=170) in northern (Umeå, 63° N) and southern (Malmö, 55° N) Sweden were supplemented daily with 2 (placebo), 10 or 25 μg of vitamin D. BMI-for-age z-scores (BAZ), S-25(OH)D concentrations, insulin concentrations and the serum metabolome were assessed at baseline and follow-up. S-25(OH)D concentrations increased significantly in both supplementation groups (P<.001). Only arginine and isopropanol concentrations exhibited significant associations with improvements in S-25(OH)D. Furthermore, the extent to which S-25(OH)D increased was correlated with a combination of baseline BAZ and the change in serum fructose concentrations from baseline to follow up (P=.012). In particular, the change in S-25(OH)D concentrations was negatively correlated (P=.030) with the change in fructose concentrations for subjects with BAZ ≥0 and consuming at least 20 μg vitamin D daily. These results suggest that although the metabolic changes associated with improved vitamin D status are small, the effectiveness of dietary supplementation may be influenced by serum fructose concentrations.

Details

Authors
  • Shannon McClorry
  • Carolyn M. Slupsky
  • Torbjörn Lind
  • Pia Karlsland Åkeson
  • Olle Hernell
  • Inger Öhlund
Organisations
External organisations
  • University of California, Davis
  • Umeå University
Research areas and keywords

Subject classification (UKÄ) – MANDATORY

  • Nutrition and Dietetics

Keywords

  • H NMR, 25-Hydroxy-vitamin D, Children, Fructose, Metabolomics
Original languageEnglish
Article number108251
JournalJournal of Nutritional Biochemistry
Volume75
Publication statusPublished - 2020
Publication categoryResearch
Peer-reviewedYes