Piedad Santiago scite author profile

The benefits of iodine supplements during pregnancy remain controversial in areas with a mild-to-moderate iodine deficiency. The aim of the present study was to determine the effect of improving iodine intakes, with iodised salt (IS) or iodine supplements, in pregnant Spanish women. A total of 131 pregnant women in their first trimester were randomly assigned to three groups: (1) IS in cooking and at the table, (2) 200 mg potassium iodide (KI)/d or (3) 300 mg KI/d. No differences were found in thyroid-stimulating hormone (TSH), free thyroxine (FT4), free triiodothyronine (FT3) or thyroid volume (TV) between the three groups. Regardless of the group in which women were included, those who had been taking IS for at least 1 year before becoming pregnant had a significantly lower TV in the third trimester (P¼0·01) and a significantly higher urinary iodine in the first (173·7 (SD 81·8) v. 113·8 (SD 79·6) mg/l, P¼0·001) and third trimesters (206·3 (SD 91·2) v. 160·4 (SD 87·7) mg/l, P¼0·03). Also, no differences were seen in TSH, FT4 or FT3. Children's neurological development was not significantly associated with the consumption of IS for at least 1 year before becoming pregnant and no differences were found according to the treatment group. In conclusion, in pregnant women with insufficient iodine intake, the intake of IS before becoming pregnant was associated with a better maternal thyroid function. The form of iodide intake was not associated with maternal thyroid function or children's neurological development.

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Iodine concentration in cow’s milk and its relation with urinary iodine concentrations in the population☆

Soriguer

Gutiérrez-Repiso

González-Romero

et al. 2011

Clinical Nutrition

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Iodine intakes of 100–300 μg/d do not modify thyroid function and have modest anti-inflammatory effects

et al. 2011

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Little information is available as to whether doses of iodide similar to those recommended in clinical practice for the prevention of iodine deficiency in pregnant women affect thyroid function. The aim of the present study was to analyse whether doses of iodide can affect thyroid function in adults, and evaluate its effect on plasma markers of oxidative stress, inflammation and acute-phase proteins. A total of thirty healthy volunteers (ten men and twenty women) with normal thyroid function were randomly assigned to three groups (n 10). Each group received a daily dose of 100, 200 or 300 mg of iodide in the form of KI for 6 months. Free tetraiodothyronine (FT4) levels at day 60 of the study were higher in the groups treated with 200 and 300 mg (P¼0·01), and correlated with the increase in urinary iodine (r 0·50, P¼0·007). This correlation lost its significance after adjustment for the baseline FT4. The baseline urinary iodine and FT4 correlated positively with the baseline glutathione peroxidase. On day 60, urinary iodine correlated with C-reactive protein (r 0·461, P¼ 0·018), and free triiodothyronine correlated with IL-6 (r 20·429, P¼0·025). On day 60, the changes produced in urinary iodine correlated significantly with the changes produced in a1-antitrypsin (r 0·475, P¼ 0·014) and ceruloplasmin (r 0·599, P¼ 0·001). The changes in thyroid-stimulating hormone correlated significantly with the changes in a1-antitrypsin (r 20·521, P¼0·005) and ceruloplasmin (r 20·459, P¼ 0·016). In conclusion, the administration of an iodide supplement between 100 and 300 mg/d did not modify thyroid function in a population with adequate iodine intake. The results also showed a slight anti-inflammatory and antioxidative action of iodide.

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Iodine status and thyroid function among Spanish schoolchildren aged 6–7 years: the Tirokid study

et al. 2016

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I deficiency is still a worldwide public health problem, with children being especially vulnerable. No nationwide study had been conducted to assess the I status of Spanish children, and thus an observational, multicentre and cross-sectional study was conducted in Spain to assess the I status and thyroid function in schoolchildren aged 6-7 years. The median urinary I (UI) and thyroid-stimulating hormone (TSH) levels in whole blood were used to assess the I status and thyroid function, respectively. A FFQ was used to determine the consumption of I-rich foods.

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Piedad Santiago

Effect of Iodine Prophylaxis during Pregnancy on Neurocognitive Development of Children during the First Two Years of Life

Infant neurocognitive development is independent of the use of iodised salt or iodine supplements given during pregnancy

Iodine concentration in cow’s milk and its relation with urinary iodine concentrations in the population☆

Iodine intakes of 100–300 μg/d do not modify thyroid function and have modest anti-inflammatory effects

Iodine status and thyroid function among Spanish schoolchildren aged 6–7 years: the Tirokid study

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