Iodine in commercial edible iodized salts and assessment of iodine exposure in Sri Lanka
| Autor: | Yohan Jayawardhana, Lakshika Weerasundara, Prasanna Kumarathilaka, Meththika Vithanage, Tharanga Bandara, S. S. Mayakaduwa, S. S. Achinthya, Indika Herath |
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| Jazyk: | angličtina |
| Rok vydání: | 2016 |
| Předmět: |
0301 basic medicine
Inadequate iodine intake medicine.medical_specialty Fortification level Iodide Population chemistry.chemical_element 030209 endocrinology & metabolism Excessive iodine intake Iodate Iodine Exposure Toxicology 03 medical and health sciences Universal Salt Iodization (USI) 0302 clinical medicine Iodine Deficiency Disorders (IDD) Hypothyroidism Internal medicine medicine Edible salts education Nutrition Risk assessment chemistry.chemical_classification education.field_of_study 030109 nutrition & dietetics Iodine Induced Hyperthyroidism (IIH) business.industry Research Public Health Environmental and Occupational Health medicine.disease Micronutrient Iodine deficiency Iodised salt Endocrinology chemistry business |
| Zdroj: | Archives of Public Health |
| ISSN: | 2049-3258 0778-7367 |
| Popis: | Background Iodine is an essential micronutrient used by the thyroid gland in the production of thyroid hormones. Both excessive and insufficient iodine intakes can cause thyroid diseases thus harmful to the human body. Inadequate iodine intake by human body causes Iodine Deficiency Disorders (IDD) and hypothyroidism. Excessive iodine intake causes Iodine Induced Hyperthyroidism (IIH). Universal Salt Iodization (USI) is the most effective way of preventing IDD. This study determined the concentrations of iodine species in commercial edible salt products, the stability of iodine at different conditions and iodine exposure at the consumer level. Methods The iodine contents of six commercial edible iodized salts were determined qualitatively and quantitatively for both iodide and iodate. Thereafter, the first three products of highest iodine contents, the stability of iodide at exposed to air and heat was measured after 24 hours. Risk assessment of exposure was done at four levels considering the WHO estimation. Results Results revealed that all of the salt products have excess iodine that is above the fortification level of 15–30 mg kg−1 level in Sri Lanka. Iodide stability was reduced at the average percentages of 13.1, 10.7 and 11.3. The iodate loss percentages were 0, 5.7 and 0 at open air. The iodide loss percentages at the temperature of 50 °C were 4.6, 7.8 and 8.6 while at 100 °C, loss percentages were 11.1, 11.4 and 15.9 for the same salt products. The iodine exposure at lower consumption during cooking ranged 244.4–432.2 μg/day while 325.9–576.3 μg/day for medium consumption, 407.4–720.4 μg/day for moderate high salt consumptions and 488.8–864.4 μg/day for high salt consumptions. As a total 95.8 % cases can cause IIH and only 4.1 % of them can provide optimal iodine nutrition in a population. Iodine exposure without cooking ranged 305.5–540.3 μg/day for low salt consumption, 407.4–720.4 μg/day for medium consumption and 509.2–900.5 μg/day for moderate high consumption and 611.1–1080.6 μg/day for high salt consumptions. Conclusions All of the incidents (100 %) of consumption without cooking at the household level can cause excessive iodine intake and IIH in a population. |
| Databáze: | OpenAIRE |
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