像日本等许多地方,人们通过食用海鲜、海藻得到碘,以及从生长在高碘土壤里的蔬菜中获取碘,或者从吃那种土壤中生长的草的动物中获取碘。
In many places, like Japan, people get iodine from seafood, seaweed, and vegetables grown in iodine-rich soil or animals that eat grass grown in that soil.
查明高碘高氟病区的分布及其危害。
To explore the distribution of high iodine and fluorine areas.
血脂为高碘接触的最敏感指标。
Serum TC level is a sensitive contacting biomarker of excessive iodine.
高碘组中胰岛分布有相互融合现象。
There are some phenomenon that pancreatic island is distributed in mix together.
高碘水的含碘量与水井深度呈正相关。
There was a positive relationship between content of high iodine water and its depth of well.
在高碘地区应尽快停供碘盐。
So it must stop supplying iodized salt in high-iodine areas.
同时考查了高碘蛋生产阶段鹑的生产性能。
揭示高碘不影响脑发育但可使代谢率增加。
The result showed that iodine excess did not affect brain development, but increased the rate of metabolism.
目的了解河北平原水源性高碘地区分布特征。
Objective To investigate the features of distribution of the areas with excessive iodine in drinking water in Hebei Plain.
揭示高碘和低碘一样,对儿童智力有严重影响。
It indicated that high Iodine drinking water seriously affect children's intelligence as same as low Iodine drinking water.
同时考查了高碘蛋生产阶段乌骨鸡的生产性能。
山东省黄河下游流域是山东省高碘地甲病重病区。
The downstream region of the Yellow River in Shandong province is serious illness area of endemic fluorosis.
高碘高氟是引起发病的原因,防治的根本措施是改水。
High iodine and fluorine is the main cause of morbidity, To improve the quality of water is a fundamental preventive method.
目的观察多不饱和脂肪酸对高碘所致胚胎损害的拮抗作用。
Objective to observe the antagonism function of polyunsaturated fatty acid (PUFA) on embryotoxicity in high iodine group.
目的探讨河北省高碘地区儿童碘营养和甲状腺肿的影响因素。
Objective to investigate the factors affecting children's iodine nutrition and thyroid goiter in iodine excessive regions in Hebei Province.
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。
Conclusions the iodine excess areas of Hebei Plain were mostly located in the southeast of Hebei Plain.
停止饮用高碘水和加碘盐的供应可以防止高碘性甲肿的流行。
To prevent and cure high iodine goiter, drinking high-iodine water and taking iodized-salt should be ceased.
目的观察高碘对小鼠额皮质及海马NOS阳性神经元的影响。
To study the effect of excessive iodine on NOS positive neurons in frontal cortex and hippocampus of mice.
本试验未发现日粮中高铁高碘之间具有互相协同或互相颉颃作用。
It was not found that there were coordination or antagonism between dietary high-iron and high-iodine.
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。
Objective To study the effect of iodine excess on the store and content of thyroid globulin in rats and mice.
西南部地区的高碘水几乎都是浅层,西北部的高碘水则以深层居多。
Water of high content iodine existed in shallow depth in the northeast area, while it did in deep depth in the southeast area.
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。
Objective To study the influence of excessive iodine intake on thyroid hormones in cerebrum of filial mice and intervention of selenium.
各组分别饮用自来水、高碘水、加硒水和高碘加硒水,饲以纯系鼠饲科。
The mice were given drinking water including some dosage of iodine or selenium.
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。
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.
据此提出了该地区高碘性甲肿的主要预防措施为停止饮用高碘水和食用碘盐。
We put forward the way to prevent and cure the high iodine goiter by stopping drinking high-iodine water and taking iodized-salt.
目的研究高碘、低碘对孕鼠孕期生长发育、仔鼠生长发育和体能发育的影响。
Objective To observe the effects of high and low iodine on the growth development of pregnant mice and on growth and physical ability development of young mice.
目的:研究高碘摄入对小鼠子代脑甲状腺激素代谢的影响及硒干预的适宜剂量。
Objective To study the apoptosis and the mechanism in rat cortical neural cells induced by high iodine and to detect the effect of this method.
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。
Two kinds of goiters were formed in mice by feeding with iodine-deficient and iodine-excess foods in our laboratory.
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。
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。
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.
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