View clinical trials related to Vitamin K-status.
Filter by:The overall purpose of this study is to determine how variation in the CYP4F2 gene modulates the synthesis of vitamin K-dependent clotting factors. We propose that the CYP4F2*3 gene variant increases short- and long-term vitamin K concentrations in the liver by reducing the efficiency of vitamin K metabolism. The investigators will study the effect of vitamin K supplementation on two biomarkers of hepatic vitamin K concentration in groups with defined CYP4F2*3 genotype. Specifically, the investigators will test for an association between our novel biomarkers of long-term (plasma Factor II proteoforms) and short-term (urinary K-Acid catabolites) hepatic vitamin K concentration and CYP4F2*3 following a 10-day period of vitamin K supplementation in healthy volunteers.
In this study, the beneficial effect of a nutrient enriched dairy product will be investigated on vitamin K-status. To achive this benefit, the study product contains extra vitamin K2. In addition, extra dairy minerals have been added to the study product that may support general health.
Earlier studies have shown that high vitamin K-intake leads to improved bone and vascular health by increased carboxylation of Gla-proteins in these tissues. From all K-vitamins, Menaquinone-7 (MK7) has been identified as the most effective cofactor for the carboxylation reaction of Gla-proteins such as osteocalcin and matrix-gla protein. The question remains which dosage of MK7 leads to optimal carboxylation levels of these proteins. The primary objective of this double-blind randomized intervention study is to establish the optimal dose of MK7 for carboxylation of the vitamin K-dependent proteins osteocalcin in bone and matrix-gla protein in the vessel wall. The optimal dose will be the concentration at which osteocalcin and matrix-gla protein are > 90% in the active (=carboxylated) form.