Erschienen in:
21.12.2016 | Original Contribution
Determinants of folate and vitamin B12 plasma levels in the French E3N-EPIC cohort
verfasst von:
Jordi de Batlle, Marco Matejcic, Veronique Chajes, Hortensia Moreno-Macias, Amina Amadou, Nadia Slimani, David G. Cox, Françoise Clavel-Chapelon, Guy Fagherazzi, Isabelle Romieu
Erschienen in:
European Journal of Nutrition
|
Ausgabe 2/2018
Einloggen, um Zugang zu erhalten
Abstract
Purpose
Impaired B vitamin status has been identified as a risk factor for major chronic diseases. This study aims at examining the determinants of plasma folate and vitamin B12 concentrations, considering lifestyle factors and MTHFR polymorphisms.
Methods
A total of 988 women aged 40–65 years from the French E3N cohort were investigated. Intakes of folate and vitamin B12 were assessed using food frequency questionnaires, and plasma concentrations were measured by microbiological assay. Dietary scores were computed to summarize folate and vitamin B12 dietary sources. MTHFR-C677T and MTHFR-A1298C were determined by Kaspar assay. Pearson’s partial correlation coefficients and multivariable linear regression models were used to assess correlations between main determinants and plasma folate and vitamin B12 levels.
Results
The partial correlation coefficient between dietary intakes and plasma folate was 0.19 (p value <0.001) and 0.08 (p value = 0.008) for vitamin B12. Dietary scores were the main determinant of B vitamin plasma concentrations with a percent change per unit increase of 12.64% (p value <0.001) for folate and 7.6% (p value <0.001) for vitamin B12. Homozygous (T/T) or heterozygous (C/T) women for MTHFR-C677T had lower plasma folate concentrations [C/T: −6.48% (p value = 0.038) and T/T: −15.89% (p value <0.001)] compared to women carrying the C/C genotype. Other determinants of B vitamin plasma concentration include: smoking status for folate, and age and hormone replacement therapy for vitamin B12.
Conclusions
We confirmed previous findings on the role of diet as main determinant of folate and vitamin B12 plasma concentrations. However, the impact of genetic polymorphisms and lifestyle factors on plasma B vitamin concentrations should not be neglected.