M.-J. Drittij scite author profile

The effect of maternal phylloquinone supplementation on vitamin K in breast milk was studied to establish: (1) if phylloquinone is the source of menaquinone-4 in breast milk; (2) the dose-effect relationship between intake and obtainable levels. Four groups of lactating mothers with a full-term healthy infant participated and took oral phylloquinone supplements of 0.0 (n 8), 0.8 (n 8), 2.0 (n 8), and 4.0 (n 7) mg/d for 12d, starting at day 4 post-partum. Milk samples were collected on days 4, 8, 16, and 19. Blood samples were collected on days 4 and 16. Vitamin K and vitamin E concentrations, the latter for reason of comparison, were assayed. Phylloquinone and menaquinone-4 were present in all milk samples: 5.84 (SD 2.31) and 2.98 (SD 1.51) nmol/l (n 31) respectively, in colostrum (day 4 sample). A strong correlation between the vitamers was found (r 0.78, P<0.001). Breast-milk phylloquinone levels were raised in a dose-dependent manner: 4-, 12-, and 30-fold on day 16 for the 08, 2.0, and 4.0 mg group respectively. In addition, menaquinone-4 levels were higher: 2.5- (P<0.05) and 7-fold (P<0.001) in the 2.0 and 4.0 mg groups respectively. Plasma of supplemented subjects contained 3-, 5-, and 10-fold higher phylloquinone levels on day 16. Detectable menaquinone-4 was found in ten of thirty-one day 4 plasma samples. All day 16 plasma samples of the 4mg supplemented group contained the vitamin. There was no correlation between the K-vitamers in plasma. Vitamin E and phylloquinone appear to differ in their distribution in breast milk, milk:plasma concentration ratios were < or =1 and 3-5 for vitamin E and phylloquinone respectively. The milk:plasma concentration ratio of menaquinone-4 was >10. In conclusion, dietary phylloquinone is a source of menaquinone-4 in breast milk. Phylloquinone supplementation to lactating mothers may be of benefit to the newborn infant, since both phylloquinone and menaquinone-4 are raised by supplementation.

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Menaquinone-4 in breast milk is derived from dietary phylloquinone

Thijssen

Drittij

Vermeer

et al. 2002

Br J Nutr

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The effect of maternal phylloquinone supplementation on vitamin K in breast milk was studied to establish: (1) if phylloquinone is the source of menaquinone-4 in breast milk; (2) the doseeffect relationship between intake and obtainable levels. Four groups of lactating mothers with a full-term healthy infant participated and took oral phylloquinone supplements of 0·0 (n 8), 0·8 (n 8), 2·0 (n 8), and 4·0 (n 7) mg/d for 12 d, starting at day 4 post-partum. Milk samples were collected on days 4, 8, 16, and 19. Blood samples were collected on days 4 and 16. Vitamin K and vitamin E concentrations, the latter for reason of comparison, were assayed. Phylloquinone and menaquinone-4 were present in all milk samples: 5·84 (SD 2·31) and 2·98 (SD 1·51) nmol/l (n 31) respectively, in colostrum (day 4 sample). A strong correlation between the vitamers was found (r 0·78, P,0·001). Breast-milk phylloquinone levels were raised in a dose-dependent manner: 4-, 12-, and 30-fold on day 16 for the 0·8, 2·0, and 4·0 mg group respectively. In addition, menaquinone-4 levels were higher: 2·5-(P,0·05) and 7-fold (P,0·001) in the 2·0 and 4·0 mg groups respectively. Plasma of supplemented subjects contained 3-, 5-, and 10-fold higher phylloquinone levels on day 16. Detectable menaquinone-4 was found in ten of thirtyone day 4 plasma samples. All day 16 plasma samples of the 4 mg supplemented group contained the vitamin. There was no correlation between the K-vitamers in plasma. Vitamin E and phylloquinone appear to differ in their distribution in breast milk, milk:plasma concentration ratios were #1 and 3 -5 for vitamin E and phylloquinone respectively. The milk:plasma concentration ratio of menaquinone-4 was .10. In conclusion, dietary phylloquinone is a source of menaquinone-4 in breast milk. Phylloquinone supplementation to lactating mothers may be of benefit to the newborn infant, since both phylloquinone and menaquinone-4 are raised by supplementation.

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The flavonoid monoHER promotes the adaption to oxidative stress during the onset of NAFLD

Lemmens

Wier

Koek

et al. 2015

Biochemical and Biophysical Research Communications

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M.-J. Drittij

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Altered pharmacokinetics of R - and S -acenocoumarol in a subject heterozygous for CYP2C9*3

Menaquinone-4 in breast milk is derived from dietary phylloquinone

Menaquinone-4 in breast milk is derived from dietary phylloquinone

The flavonoid monoHER promotes the adaption to oxidative stress during the onset of NAFLD

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