We evaluated the effect of maternal vitamin E supplementation on the α-tocopherol concentrations of colostrum, transitional milk and mature milk of women who had given birth prematurely. This longitudinal randomised-controlled trial divided eighty-nine women into two groups: a control group and a supplemented group. Blood and breast milk were collected from all the participants after delivery. Next, each woman in the supplemented group received 400 IU of RRR-α-tocopheryl acetate. Further breast milk samples were collected 24 h after the first collection, as well as 7 and 30 d after delivery. α-Tocopherol concentrations were determined by HPLC. The baseline α-tocopherol concentrations in the maternal serum of the two groups were similar: 1159·8 (SD 292·4) μg/dl (27·0 (SD 6·8) μmol/l) for the control group and 1128·3 (SD 407·2) μg/dl (26·2 (SD 9·5) μmol/l) for the supplemented group. None of the women was vitamin E deficient. Breast milk α-tocopherol concentrations increased by 60 % 24 h after supplementation in the intervention group and did not increase at all in the control group. α-Tocopherol concentration of the transitional milk in the supplemented group was 35 % higher compared with the control group. α-Tocopherol concentrations of the mature milk in both groups were similar. Maternal supplementation with 400 IU of RRR-α-tocopherol increased the vitamin E concentrations of the colostrum and transitional milk, but not of the mature milk. This study presents relevant information for the design of strategies to prevent and combat vitamin E deficiency in the risk group of preterm infants.
Vitamin E is important because of its antioxidant activity in situations of oxidative stress, especially postnatally. Hence, the objective was to verify whether maternal alpha-tocopherol level is associated with the alpha-tocopherol levels of the newborn and colostrum. This is a cross-sectional study of 58 women and their term newborns from a public hospital. Blood and colostrum were collected to measure alpha-tocopherol levels by high-performance liquid chromatography. Mothers with serum alpha-tocopherol levels <16.2 mmol L(-1) and newborns <11.6 mmol L(-1) were indicative of deficiency or low levels. Mothers were divided into two groups: <16.2 mmol L(-1) and those with levels ≥16.2 mmol L(-1) . The mean (95% confidence interval) serum alpha-tocopherol levels of mothers, umbilical cords and colostrum were 28 (24-32), 6 (5-8) and 39 mmol L(-1) (32-45), respectively (P < 0.001); 19% of the women and 90% of the newborns had low alpha-tocopherol levels. Maternal alpha-tocopherol level was associated with that of the umbilical cord. Newborns from mothers at risk of deficiency had low alpha-tocopherol levels (P < 0.001). Colostrum levels of vitamin E were not influenced by maternal serum. Maternal deficiency influenced the vitamin E level of the umbilical cord but does not in the colostrum, evidencing distinct transfer mechanisms via the mammary gland.
OBJECTIVE: To evaluate and compare the levels of α-tocopherol in colostrum and in the serum
of healthy and diabetic mothers.METHODS: This cross-sectional study enrolled 51 volunteer mothers, 20 with the diagnosis
of gestational diabetes mellitus and 31 without associated diseases. Serum and
colostrum samples were collected in fasting in the immediate postpartum period and
α-tocopherol was analyzed by high performance liquid chromatography (HPLC). In
order to define the nutritional status of vitamin E, the cutoff point for the
serum (697.7µg/dL) was adopted. Student's t-test for independent variables
compared the average concentrations of α-tocopherol in the serum and in the
colostrum between control and gestational diabetes mellitus groups. Pearson's
correlation was used to assess the relationship between the concentration of
α-tocopherol in serum and colostrum for both groups. Differences were considered
significant when p<0.05.RESULTS: The α-tocopherol concentration in colostrum was 1,483.1±533.8µg/dL for Control
Group and 1,368.8±681.8µg/dL for diabetic women, without differences between
groups (p=0.50). However, α-tocopherol concentration in the serum
was 1,059.5±372.7µg/dL in the Control Group and 1,391.4±531.5µg/dL in the diabetic
one (p<0.01). No correlation was found between the
concentration of α-tocopherol in the serum and in the colostrum for control and
diabetic groups. CONCLUSIONS: The groups had adequate nutritional status of vitamin E. Gestational diabetes was
not associated with changes in α-tocopherol concentration in colostrum.
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