1. ObjectivesTo study the effect of iodineexcess on thyroid stereology at rats.
目的观察大鼠长期摄入过量碘时甲状腺的形态和体视学变化。
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2. Objective To study the effect of Iodineexcess on TSH cells in postnatal Wistar rats.
目的探讨碘过量对仔鼠垂体TSH细胞的影响。
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3. Conclusion Iodineexcess may interfere with the reproduction and memory ability in rats.
结论碘过量会降低雌鼠的生殖力及仔鼠学习记忆力。
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4. Conclusions the iodineexcess areas of Hebei Plain were mostly located in the southeast of Hebei Plain.
结论河北平原水源性高碘地区主要分布在河北平原的东南部。
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5. Conclusion Effects of iodine deficiency on TSH cells were greater than those of iodine excess on TSH cells.
结论碘缺乏对垂体tsh细胞的影响大于碘过量对TSH细胞所造成的影响。
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6. The result showed that iodineexcess did not affect brain development, but increased the rate of metabolism.
揭示高碘不影响脑发育但可使代谢率增加。
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7. Objective To study the effect of iodine excess on the store and content of thyroid globulin in rats and mice.
目的研究高碘饮食对不同鼠种甲状腺球蛋白的储存及含量的影响。
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8. Iodineexcess had no significant effects on level of T4, T3 in the serum and the antioxidizing ability of thyroid.
碘过多对大鼠血清T4、T3水平和甲状腺的抗氧化能力无明显影响。
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9. Results iodineexcess can cause goiter, but the extent of goiter was significantly lower than that of iodine deficiency.
结果碘过多可导致大鼠甲状腺肿大,但肿大程度明显低于碘缺乏。
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10. Conclusion: The decreased activities of CB and CD were one of reasons of thyroid colloid retention resulted from iodineexcess.
结论CB和CD活性的下降是过量碘导致的甲状腺胶质潴留的重要原因之一。
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11. Iodineexcess affects physical and mental health as well. Iodine excess could induce autoimmune thyroid disease, iodine-induced hyperthyroidism and hypothyroidism.
碘过量同样影响人们的身心健康,碘过量可诱发自身免疫性甲状腺疾病,碘甲亢以及甲状腺机能减退。
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12. Objective: To study the influence of iodine excess intake on thyroid hormones metabolism in cerebrum of progeny of mice and adequate dosage of selenium intervention.
目的研究高碘摄入对小鼠仔鼠脑组织甲状腺激素的影响及硒的干预作用。
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13. Objective Observe the morphological changes of spleen of rat with iodine overtaken of various dosages, to investigate the effects of iodine excess on immunity of rats.
目的对摄入不同剂量过量碘的大鼠脾脏进行形态学研究,探讨碘过量对大鼠机体免疫功能的影响。
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14. Objective to reproduce animal models of iodineexcess (HI) and iodine deficiency (li) compared with iodine adequate group (ni) and to observe their IO dine metabolism.
目的以适碘动物为对照(NI),复制碘缺乏(LI)与碘过量(HI)大鼠动物模型并观察其碘代谢的变化。
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15. Conclusions Long-term ingestion of excessive iodine is correlated with increasing prevalence of hypothyroidism in severe iodine excess area. We should reduce daily intake of iodine.
结论碘过量的长期摄入与居民甲减患病率和检出率明显增多有关,应当降低碘过量地区居民碘的摄入量。
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16. Objective :To observe the effect of Iodine-rich Chinese herbal compound(Haizao Yuhu Decoction)on thyroid function and morphology in hyperthyroidism Wistar rats due to iodine excess.
目的:观察富碘中药复方海藻玉壶汤对甲亢动物甲状腺功能和形态的影响,探求海藻玉壶汤治疗甲亢的机理。
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17. Currently, the common positive findings on the effects of chronic, long-term iodineexcess on thyroid function, structure, specific genes transcription and translation are not clear-cut or available.
目前关于长期、慢性碘过量对甲状腺机能、结构以及特异性基因转录、翻译的影响研究较少。
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18. Objective: to observe the effect of excess iodine caused by supplying iodine during different gestation period on the neuron apoptosis and gene expression of filial rats.
目的:观察不同孕期补碘所引起的高碘对子鼠脑凋亡及调节基因表达的影响情况。
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19. Two kinds of goiters were formed in mice by feeding with iodine-deficient and iodine-excess foods in our laboratory.
在同一实验室用高碘和低碘饲料对同一种动物成功地诱发了高碘和低碘甲状腺肿。
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20. Objective To investigate the effect of selenium on the activities of liver type I deiodinase (IDI) in iodine-excess mice.
目的研究碘过量摄入对小鼠肝脏I型脱碘酶(IDI)活性的影响及硒的干预作用。
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21. Chlorine ion did not interfere at up to 1200 fold excess. Iodine ion could be eliminated before the assay by bubbling nitrogen through the solution under mild oxidizing conditions.
氯离子在高于溴离子1200倍时仍不影响测定,碘离子可在温和氧化的条件下预先通氮气除去。
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22. Chlorine ion did not interfere at up to 1200 fold excess. Iodine ion could be eliminated before the assay by bubbling nitrogen through the solution under mild oxidizing conditions.
