高碘地区妊娠晚期妇女与育龄妇女甲状腺功能的比较

探讨妊娠和高碘对妇女甲状腺功能及甲状腺自身免疫功能的影响.选择高碘地区(27.69±4.73)岁孕妇210例和(30.62±6.01)岁育龄妇女290例;采集空腹晨尿及静脉血,砷-铈催化分光光度法测定尿碘浓度,化学发光法测定血清游离三碘甲腺原氨酸(FT3)、游离甲状腺素(FT4)及灵敏促甲状腺激素(sTSH),放射免疫法测定血清甲状腺过氧化物酶抗体(TPOAb)和甲状腺球蛋白抗体(TGAb).孕妇和育龄妇女尿碘中位数分别为1 240.70μg/L和949.21μg/L,有94.3%的孕妇和81.0%的育龄妇女碘过量.孕妇和育龄妇女甲状腺疾病总患病率为22.9%和30.3%,孕妇甲状腺功能亢进症(甲亢)、亚临床甲亢、甲状腺功能减退症(甲减)、亚临床甲减的患病率分别为0.5%、1.9%、0.5%和20.0%.育龄妇女的甲亢、亚临床甲亢、甲减及亚临床甲减的患病率分别为2.8%、0.3%、0.3%和26.9%.孕妇的FT3、FT4水平低于育龄妇女[(4.03±0.59对4.71±1.04)pmol/L,(13.35±1.59对14.27±3.63)pmol/L,均P＜0.01],TGAb阳性率低于育龄妇女(7.1%对14.1%,P=0.014).高碘地区妇女甲状腺疾病患病率及甲状腺自身抗体阳性率较高,妊娠使孕妇甲状腺激素水平及TGAb阳性率较育龄妇女降低,建议育龄妇女及孕妇控制碘摄入,并加强甲状腺功能和甲状腺自身抗体的监测.

Abstract：

To explore the influences of pregnancy and iodine intake on thyroid function and immune functions, 210 pregnant women and 290 fertile women were chosen from iodine excess area, and the average ages of them were (27. 69±4. 73 )and (30. 62±6. 01 )years respectively. Fasting blood and urine were collected in the morning. The urinary iodine level was determined by arsenic-cerium catalytic contact. Serum free triiodothyronine ( FT3 ), free thyroxine ( FT4 ), and sensitive thyroid-stimulating hormone ( sTSH ) levels were measured by chemiluminescence.Thyroid peroxidase antibody (TPOAb)and thyroglobulin antibody (TGAb)were measured by radioimmunoassay. The median urinary iodine in the pregnant and fertile women were I 240. 70 and 949. 21 μg/L, respectively. There were 84. 3% pregnant women and 81.0% fertile women admitting excess iodine intake. The prevalence of overall thyroid diseases was 22. 9% in the pregnant women and 30. 3% in the fertile women. The prevalence of hyperthyroidism,subclinical hyperthyroidism, hypothyroidism, and subclinical hypothyroidism was0. 5%, 1.9%, 0. 5%, and 20. 0% in the former group, and 2. 8%, 0. 3%, 0. 3%, and 26. 9% in the latter. Both FT3 and FT4 levels of the pregnant women were lower than those of fertile women [(4. 03±0. 59 vs 4. 71 ± 1.04)pmol/L, ( 13. 35 ± 1.59 vs 14. 27 ±3.63 )pmol/L,both P＜0. 01], and the positive rate of TGAb of pregnant women was also lower than that of fertile women (7. 1% vs14. 1%, P=0. 014). The prevalence of thyroid diseases and positive rate of thyroid autoantibodies is high in women with excess iodine intake. Compared with fertile women, pregnancy may lead to decreas~s in level of thyroid hormones and positive rate of TGAb. Their iodine intake should be controlled, and the thyroid function and autoimmunity antibodies should be monitored.     

辽宁省大连市健康体检人群甲状腺结节性疾病及其相关因素分析

Objective To investigate the characteristics about the prevalence of thyroid nodules detected on color Doppler uhrasonography(US) in people residing in Dalian City who undergo regular physical examinations, as well as its relative factors. Methods All thyroid sonographic and questionair procedures were performed in the 6020 people above 18-year-old living in the four districts of Dalian City for at least 5 years, who were examined at the department of health medical center of Dalian Municipal Central Hospital from May 2006 to March 2007. Urinary iodine concentration was measured in 2039 healthy adults selected by age layers in our study population. Moreover, urinary iodine concentrations were determined in 220 children aged 8-10 years old who were randomly chosen from four communities (55 children per elementary school from each community). The analysis of logistic regression was conducted for the risk factors linked to thyroid nodules. Results The prevalence of thyroid nodules in the 6020 adults was 38.5%(2319/6020), in which nodules sized between 0.3 and up to 0.5 cm were found in 17.1% (1030/6020), and those above 0.5 cm in 21.4% (1289/6020). Ultrsonography revealed solitary nodules in 17.2% (1036/6020), multinodular goiter in 21.3% (1283/6020). Fifty-four point nine percent (1272/2319) thyroid nodules showed solid internal echographic structures, 30.2%(701/2319) mixed and 14.9%(346/2319). The thyroid nodule detected rate in female individuals was 46.1% (1102/2393), among whom multinodular goiter [59.1% (651/1102)] was more than solitary nodules[40.9(451/1102)] in female; while only 33.6%(1217/3627) of male were detected to have thyroid nodule, there was a difference between the genders (χ2=95,079,P<0.01). The mediam urinary iodine concentration(MUI) was 184.32 μg/L in children and 216.75 μg/L in the health adults, moreover, it was 216.55 μg/L and 217.00 μg/L in the people with thyroid nodules and those without nodules without a significant difference (P>0.05). The rate of thyroid nodules gradually increased with age(χ2=344.998, P<0.01). The occurance of thyroid nodules was significant associated with gender and age(P<0.01). Conclusions The nutritional iodine intake in the four communities of Dalian City are adequate. The prevalence of thyroid incidentalomas is relatively high in this group of people receiving medical examination.     

2010年福建省厦门市小嶝海岛儿童碘营养状况调查

目的 了解厦门市小嶝海岛儿童碘营养状况,为补碘提供科学依据.方法 2010年3月,对厦门市小嶝海岛小嶝小学全部6～12岁儿童,采用触诊法检查甲状腺,测定尿碘和智商水平,同时检测家中食用盐的含碘量.选择20户居民户,检测饮用水含碘量.结果 共对156名儿童进行甲状腺触诊检查和智商检测,儿童触诊甲状腺肿大率为1.28%(2/156),儿童智商均值为110,采集尿样154份,尿碘中位数为219.1μg/L,共对153名儿童家中食用盐进行检测,居民合格碘盐食用率为87.58%(134/153),居民均饮用自来水,自来水含碘量均值为4.52μg/L.结论 海岛居民碘营养状况较好,且不存在碘过量问题.

Abstract：

Objective To find out the iodine nutritional status of children in Xiamen island, and to provide the scientific basis for iodine supplimentation. Methods On March 2010, thyroids of all children aged 6to 12, from primary school on the Xiaodeng island of Xiamen were examined by palpation, urinary iodine, iodine content of salt athome and IQ level were tested, and were collected 20 households, iodine content of drinking water was tested randomly. Results IQ testing and thyroid palpation were carried out among a total of 156 children, the goiter rate of children was 1.28% (2/156), the mean IQ was 110; 154 urine samples were taken, the median urinary iodine was 219.1 μg/L; a total of 153 salt samples were tested, and the qualified rate of iodized salt was 87.58%(134/153), and the mean iodine content in the tap water was 4.52 μg/L Conclusions Iodine nutritional status of the island residents is better, and there are no such problems as excessive iodine.     

重庆市碘缺乏病高危地区重点人群碘营养状况调查与分析

Objective To investigate the iodine nutritional status of targeted population in the high-risk areas of iodine deficiency disorders in Chongqing, so as to provide scientific evidence for establishing prevention and remedial measures. Methods Six towns were selected in Chengkou and Wuxi Counties to found suspected dementia patients born after first Jan, 1997. Two hundred children aged 8-10 years were investigated in every town. The thyroid volume, intelligence quotient(IQ) and urinary iodine of the children were examined. Forty women (pregnant and nursing women) were investigated in every town. The iodine content of salt from their home was measured. The thyroid volume was examined by palpation and B-uhrasound. IQ was measured by combined Raven Test in China(CRT-RC2). Urinary iodine was determined using the acid digest arsenic-cerium contacting method, and iodined salt was detected using direct titration method. Results Six suspected dementia patients were found in the local town hospital. Five eases were excluded. There was 1 case born in other place. The rates of goiter by palpation and B-ultrasound were 9.58%(92/960) and 8.89%(65/731), respectively. The median of urinary iodine of children and women was 319.15 μg/L and 248.42 μg/L, respectively. The mean of IQ of the children was 103.32. The coverage rate of iodine salt from residents was 98.82%(336/340). Conclusions The iodine nutrition of children was good and there is no newly occurred cretinism in Chengkou and Wuxi Counties. Goiter rate and median of urinary iodine aged 8-10 years and of women, coverage rate of iodine salt from resident has meet the standard set for basical elimination iodine deficiency disorders.     

2007年重庆市与西藏林芝地区碘缺乏病高危地区病情调查结果对比分析

目的 调查重庆市与西藏林芝地区碘缺乏病高危地区病情现状,为制订预防控制方案提供依据.方法 2007年由国家统一制订方案并抽样,重庆市调查城口和巫溪县,西藏林芝地区调查林芝、波密、米林和朗县4个县;林芝县抽查5个乡,其余县抽查3个乡;每个乡抽1所乡小学和2所村小学,以触诊和B超法同时检查8～10岁儿童甲状腺,同时检测尿碘;每个乡抽取2个村,每个村检测30户居民家庭食用盐含碘量,同时检测30名育龄妇女尿碘;搜索克汀病病例.结果 调查居民碘盐,重庆市调查340户,碘盐覆盖率98.82%(336/340);林芝地区调查915户,碘盐覆盖率为66.34%(607/905),重庆市高于林芝地区(x2=139.56,P＜0.01).儿童甲状腺容积触诊和B超检查,重庆市儿童甲状腺肿大率分别为9.27%(89/960)和8.34%(61/731);林芝地区儿童甲状腺肿大率分别为7.80%(102/1308)和5.53%(69/1248),两地触诊法检查肿大率比较差异无统计学意义(x2=1.37,P＞0.05),B超法重庆市高于林芝地区(x2=5.51,P＜0.05);儿童尿碘中位数,重庆市为319.15μg/L,其中城口县为345.75μg/L,巫溪县为281.39 μg/L;林芝地区为189.81 μg/L,其中林芝县为207.81μg/L、波密县为161.12μg/L、米林县为131.83 μg/L、朗县为334.60μg/L;育龄妇女尿碘中位数重庆市为248.42μg/L,林芝地区为121.25μg/L,儿童和育龄妇女尿碘均以重庆市为高;重庆市和林芝地区均未发现新发克汀病病例.结论 重庆市和林芝地区碘缺乏病高危地区儿童甲状腺肿大率降至10%以下,未发现新发克汀病,防治成效显著.重庆市存在碘过量;西藏林芝县和朗县儿童存在碘过量,妇女存在碘不足,其原因有待进一步调查,波密和米林均存在碘不足.重庆市应降低食盐加碘量,林芝地区在进一步调查基础上调整补碘措施.

Abstract：

Objective To investigate iodine deficiency disorders(IDD) in Chongqing and Linzhi, and to provide scientific basis for IDD control and prevention. Methods According to the national program developed in 2007, investigation was conducted in Chengkou and Wuxi county in Chongqing municipality, and Linzhi, Bomi,Milin and Langxian county in Linzhi prefecture. Five towns were sampled in Linzhi county, and 3 in other counties.In each town, one township primary school and two village primary schools were selected to inspect thyroid by B ultrasound and palpation, and urinary iodine of children aged 8 to 10 years was tested in these schools. Meanwhile,2 villages were selected in each town for test of salt iodine level and urinary iodine of childbearing age women and search cretin cases. Results Three hundred and forty families in Chongqing and 915 families in Linzhi were investigated. The coverage of iodized salt in Chongqing was 98.82%(336/340), which was significantly higher than that in Linzhi[66.34%(607/905), x2 = 139.56, P ＜ 0.01]. Goiter rate of children in Chongqing was 9.27%(89/960) by palpation and 8.34% (61/731) by B ultrasound, while goiter rate of children in Linzhi was 7.80%(102/1308) by palpation and 5.53% (69/1248) by B ultrasound. The difference of goiter rate by palpation between Chongqing and Linzhi was not statistically significant (x2 = 1.37, P ＞ 0.05 ). But goiter rate of children by B ultrasound in Chongqing was higher than that in Linzhi (x2= 5.51, P ＜ 0.05). In Chongqing, the median urinary iodine was 319.15 μg/L, and 345.75 μg/L in Chengkou county and 281.39 μg/L in Wuxi county. In Linzhi prefecture, the median urinary iodine was 189.81 μg/L, and 207.81 μg/L in Linzhi county, 161.12 μg/L in Bomi county, 131.83 μg/L in Milin county and 334.60 μg/L in Langxian county. The median urinary iodine in childbearing women were 248.42 μg/L in Chongqing and 121.25 μg/L in Linzhi. The median urinary iodine in Chongqing both in children and women were higher than those in Linzhi. No new cretin case was found in these two areas. Conclusions Goiter rate in high risk areas of IDD in Chongqing and Linzhi has decreased to less than 10%.No new cretin case is found in these areas. It can be concluded that the work of control and prevention is effective.There is excess iodine in Chongqing. In Linzhi county and Langxian county, iodine is excess in children and deficient in women. Further investigation should be conducted to find out the reason. Population iodine is excess in Bomi and Milin counties. The concentration of salt iodine should be decreased in Chongqing. In Linzhi prefecture,adding iodine measures should be adjusted based on further investigation.     

2008年福建省厦门市水源性高碘村及相邻村流行病学调查

Objective To investigate the current conditions of water iodine,childrens'iodine nutrition and residents'edible circumstance of iodized salt in the villages with high iodine in drinking water and the adjacent three villages in Xiamen city of Fujian province.Methods Four natural villages of Qianbian,Donglian,Dazhong and Dongshan of Xiangan county were chosen as survey spots in 2008.In each village,one running water sample and all well water samples were collected to obtain the benchmark for each location.All children aged 7-13 year in the four villages underwent thyroid palpation and were selected to measure the urine iodine and the salt iodine.The water iodine and urine iodine were determined by As3+-Ce4+ catalytic spectrophotometry digestion,salt iodine was determined by direct titration.Results In four investigated villages,iodine of four running water samples were all 1.5μg/L.The range of 237 well water iodine samples was from 0.1 μg/L to 506.0 μg/L.There were 18.6% (44/237)specimens in which the well water iodine less than 10 μg/L,73.4%(174/237)between 10 μg/L and 150 μg/L and 8%(19/237)more than 150μg/L.The median of urinary iodine was 153.3 μg/L in 79 urine samples,which was 114%(9/79)more than 200μg/L and less than 300μg/L,12.7%(10/79)equal or more than 300 μg/L and less than 500μg/L,7.6%(6/79)equal or more than 500μg/L and less than 800 μg/L in all samples.Seventy-nine students were examined by palpation and the total goiter rate of children measured was 11.4% (9/79).Seventy-one samples of iodine salt were detected and the coverage rate of iodized salt was 77.5%(55/71).Conclusions The well water iodine contents have a wide distribution in the investigated villages.We should enhance the community awareness by educating them on the damage of iodine excess and iodine deficiency.     

2008年福建省厦门市水源性高碘村及相邻村流行病学调查

Objective To investigate the current conditions of water iodine,childrens'iodine nutrition and residents'edible circumstance of iodized salt in the villages with high iodine in drinking water and the adjacent three villages in Xiamen city of Fujian province.Methods Four natural villages of Qianbian,Donglian,Dazhong and Dongshan of Xiangan county were chosen as survey spots in 2008.In each village,one running water sample and all well water samples were collected to obtain the benchmark for each location.All children aged 7-13 year in the four villages underwent thyroid palpation and were selected to measure the urine iodine and the salt iodine.The water iodine and urine iodine were determined by As3+-Ce4+ catalytic spectrophotometry digestion,salt iodine was determined by direct titration.Results In four investigated villages,iodine of four running water samples were all 1.5μg/L.The range of 237 well water iodine samples was from 0.1 μg/L to 506.0 μg/L.There were 18.6% (44/237)specimens in which the well water iodine less than 10 μg/L,73.4%(174/237)between 10 μg/L and 150 μg/L and 8%(19/237)more than 150μg/L.The median of urinary iodine was 153.3 μg/L in 79 urine samples,which was 114%(9/79)more than 200μg/L and less than 300μg/L,12.7%(10/79)equal or more than 300 μg/L and less than 500μg/L,7.6%(6/79)equal or more than 500μg/L and less than 800 μg/L in all samples.Seventy-nine students were examined by palpation and the total goiter rate of children measured was 11.4% (9/79).Seventy-one samples of iodine salt were detected and the coverage rate of iodized salt was 77.5%(55/71).Conclusions The well water iodine contents have a wide distribution in the investigated villages.We should enhance the community awareness by educating them on the damage of iodine excess and iodine deficiency.     

Effect of iodine intake on serum thyroglobulin——A five-year prospective epidemiological study

Objective To clarify the effect of iodine intake on serum thyroglobulin (Tg). Methods A 5-year prospective study was conducted in the 3 different iodine intake areas in China [Panshan (miht deficiency) ,Zhangwu (more than adequate) and Huanghua (excess)]. A total of 3 099 people with normal serum levels of Tg in 1999 were followed and 2 448 of these participants were feasible to be observed in 2004 and included in the present study. The serum levels of Tg, thyraglobulin antibody(TgAb), thyroid peroxidase antibody(TPOAb) and TSH, thyroid volume, family and personal histories of thyroid diseases were measured and inquried. The general linear model (GLM) was used to explore the determinants of Tg. Results Among the study population at baseline, serum Tg were significantly different in three areas [7.5 (4.4-13. 1) μg/L at Panshan, 6.8 (3.6-11.2)μg/L at Huanghua, 5.9 (3.2-10.7) μg/L at Zhangwu, P<0.01]. They were associated with age, sex and the rate of positive TgAb, abnormal thyroid volume, abnormal TSH and positive personal history of thyroid diseases, in order to control the effects of confounding factors, the data from 1856 subjects with thyroid-related indexes all in normal range and without personal history of thyroid diseases were analyzed to clarify the effect of iodine intake on Tg. The serum Tg among three areas were significantly different in both 1999 and 2004, they were all increased in 5 years with significant augment (△ Tg) among the three areas[3.1 (-0.2-8.0) μg/L at Panshan, 3.5 (0.5-9.0)μg/L at Huanghua vs 2. 5(0.3-6.1) μg/L at Zhangwu,P<0.01]. The GLM analysis revealed that age, Tg and TSH levels at baseline were the determinants of △Tg in addition to iodine intake. Conclusion Iodine intake is a dominant determinant of serum Tg. Age and TSH should also be considered while indicating iodine intake by serum Tg.     

Effect of iodine intake on serum thyroglobulin——A five-year prospective epidemiological study

Objective To clarify the effect of iodine intake on serum thyroglobulin (Tg). Methods A 5-year prospective study was conducted in the 3 different iodine intake areas in China [Panshan (miht deficiency) ,Zhangwu (more than adequate) and Huanghua (excess)]. A total of 3 099 people with normal serum levels of Tg in 1999 were followed and 2 448 of these participants were feasible to be observed in 2004 and included in the present study. The serum levels of Tg, thyraglobulin antibody(TgAb), thyroid peroxidase antibody(TPOAb) and TSH, thyroid volume, family and personal histories of thyroid diseases were measured and inquried. The general linear model (GLM) was used to explore the determinants of Tg. Results Among the study population at baseline, serum Tg were significantly different in three areas [7.5 (4.4-13. 1) μg/L at Panshan, 6.8 (3.6-11.2)μg/L at Huanghua, 5.9 (3.2-10.7) μg/L at Zhangwu, P<0.01]. They were associated with age, sex and the rate of positive TgAb, abnormal thyroid volume, abnormal TSH and positive personal history of thyroid diseases, in order to control the effects of confounding factors, the data from 1856 subjects with thyroid-related indexes all in normal range and without personal history of thyroid diseases were analyzed to clarify the effect of iodine intake on Tg. The serum Tg among three areas were significantly different in both 1999 and 2004, they were all increased in 5 years with significant augment (△ Tg) among the three areas[3.1 (-0.2-8.0) μg/L at Panshan, 3.5 (0.5-9.0)μg/L at Huanghua vs 2. 5(0.3-6.1) μg/L at Zhangwu,P<0.01]. The GLM analysis revealed that age, Tg and TSH levels at baseline were the determinants of △Tg in addition to iodine intake. Conclusion Iodine intake is a dominant determinant of serum Tg. Age and TSH should also be considered while indicating iodine intake by serum Tg.     

Effect of iodine intake on serum thyroglobulin——A five-year prospective epidemiological study

Objective To clarify the effect of iodine intake on serum thyroglobulin (Tg). Methods A 5-year prospective study was conducted in the 3 different iodine intake areas in China [Panshan (miht deficiency) ,Zhangwu (more than adequate) and Huanghua (excess)]. A total of 3 099 people with normal serum levels of Tg in 1999 were followed and 2 448 of these participants were feasible to be observed in 2004 and included in the present study. The serum levels of Tg, thyraglobulin antibody(TgAb), thyroid peroxidase antibody(TPOAb) and TSH, thyroid volume, family and personal histories of thyroid diseases were measured and inquried. The general linear model (GLM) was used to explore the determinants of Tg. Results Among the study population at baseline, serum Tg were significantly different in three areas [7.5 (4.4-13. 1) μg/L at Panshan, 6.8 (3.6-11.2)μg/L at Huanghua, 5.9 (3.2-10.7) μg/L at Zhangwu, P<0.01]. They were associated with age, sex and the rate of positive TgAb, abnormal thyroid volume, abnormal TSH and positive personal history of thyroid diseases, in order to control the effects of confounding factors, the data from 1856 subjects with thyroid-related indexes all in normal range and without personal history of thyroid diseases were analyzed to clarify the effect of iodine intake on Tg. The serum Tg among three areas were significantly different in both 1999 and 2004, they were all increased in 5 years with significant augment (△ Tg) among the three areas[3.1 (-0.2-8.0) μg/L at Panshan, 3.5 (0.5-9.0)μg/L at Huanghua vs 2. 5(0.3-6.1) μg/L at Zhangwu,P<0.01]. The GLM analysis revealed that age, Tg and TSH levels at baseline were the determinants of △Tg in addition to iodine intake. Conclusion Iodine intake is a dominant determinant of serum Tg. Age and TSH should also be considered while indicating iodine intake by serum Tg.     

2008年浙江省舟山市海岛地区甲状腺疾病流行病学调查

目的 调查浙江省舟山市海岛地区食用非加碘盐的居民患甲状腺疾病状况及致甲状腺疾病的相关影响因素.方法 2008年在浙江省舟山市岱山县对737名食用非加碘盐的居民进行流行病学问卷调查、甲状腺B超检查、甲状腺功能及尿碘测定;同时抽查了183名8～10岁儿童(均为食用非加碘盐居民的子女)的尿碘.结果 舟山市岱山县食用非加碘盐的居民尿碘中位数(MUI)为122.2 μg/L,8～10岁儿童MUI为123.7μg/L;甲状腺肿、甲状腺癌、甲状腺功能亢进(简称甲亢)、亚临床甲状腺功能亢进(简称亚临床甲亢)和亚临床甲状腺功能减退(简称亚临床甲减)的患病率分别为39.9%、0.4%、0.4%、0.7%和0.8%.logistic回归分析显示,甲状腺肿患病率无性别差异(P>0.05),而年龄是甲状腺肿发生的危险因素(P<0.05);甲状腺肿、甲亢患病情况与饮食史、吸烟史、饮酒史、饮茶史、尿碘水平均无明显相关关系(P均>0.05).结论 舟山市海岛地区食用非碘盐居民碘摄入适量,但甲状腺肿和甲亢患病率较高.     

轻度碘缺乏城市食盐加碘后甲状腺疾病流行病学调查研究

 目的 评价轻度碘缺乏城市贵阳食盐加碘25年后的碘营养状态及各种甲状腺疾病的患病情况。
方法 采用分层整群抽样方法,抽取贵阳市云岩区宅吉社区20岁及以上居民1509人,测定其血清促甲状腺素（TSH）、游离T₃、游离T₄、甲状腺过氧化物酶抗体（TPOAb）、甲状腺球蛋白抗体（TgAb）水平、尿碘水平及甲状腺B超检查;同时抽取8~10岁学龄儿童80名,测定其尿碘水平。
结果 8~10岁儿童尿碘中位数为228.7 μg/L。成人临床甲状腺功能减退症（甲减）、亚临床甲减、临床甲状腺功能亢进症（甲亢）及亚临床甲亢的患病率分别为1.79%、14.12%、1.52%及1.06%,亚临床甲减的患病率显著高于临床甲减（P < 0.05）;TPOAb及TgAb的阳性率分别为14.38%及 13.59%,自身免疫性甲状腺炎的患病率为4.44%。甲状腺肿大患病率为1.06%,其中,弥漫性甲状腺肿（0.86%）较结节性甲状腺肿（0.20%）多见（P < 0.05）。
结论 食盐加碘25年后,贵阳市处于碘超足量状态,成人临床甲减、亚临床甲减、甲状腺自身抗体阳性及自身免疫性甲状腺炎的患病率均较高。     

Low incidence rate of overt hypothyroidism compared with hyperthyroidism in an area with moderately low iodine intake.

In areas with relatively high iodine intake, the incidence rate of hypothyroidism is several-fold higher than that of hyperthyroidism. Recently, we found a similarly high prevalence rate of subclinical hypothyroidism compared with hyperthyroidism in a high iodine intake area, while a relatively low prevalence of subclinical hypothyroidism was observed in a low iodine intake area. In the present study we compared the incidence rate (newly diagnosed in primary care and at hospital) of overt hypothyroidism with that of hyperthyroidism in a well-defined geographical area in Jutland, Denmark, with an iodine intake around 60 microg/day. The number of personsxyears studied was 569,108. Data on hyperthyroidism have been published previously. The overall incidence of hypothyroidism was 13.5/100,000 per year (F/M 22.9/3.6), hyperthyroidism 38.7/100.000 per year (F/M 63.0/13.0). The incidence of hypothyroidism was steadily increasing with age up to 80/100,000 per year in subjects older than 70 years of age, but apart from congenital hypothyroidism it was lower than that of hyperthyroidism at all ages. The majority of patients (79%) was diagnosed to have spontaneous autoimmune hypothyroidism (16% with goiter, 84% with no thyroid visible or palpable). In conclusion, in an area with moderately low iodine intake, hypothyroidism was considerably less common than hyperthyroidism. This is in contrast to findings in high iodine intake areas. The iodine intake of an area seems to be of major importance for the pattern of thyroid disorders observed.     

碘致甲状腺功能减退症的流行病学对比研究

目的：研究不同碘摄入量人群的临床甲减和亚临床甲减患病率,方法：选择盘山,彰武和黄骅3个农村社区（分别为低碘,适碘和高碘地区（）,在入户问卷调查的基础上行采样调查,共问卷调查16287人,采样3761人,所有采样对象接受体格检查,,测定血清TSH,甲状腺过氧化的酶抗体（TPOAb),甲状腺球蛋白抗体（TGAb)和甲状腺球蛋白（TG）,测定尿碘浓度及进行甲状腺B超检查,TSH异常者测定FT4,FT3和TSH受体抗体（TRAb)。结果：盘山,彰武和黄骅社区成人尿碘水平分别为103．1ug/L,374.8ug/L和614.6ug/L,盘山,彰武和黄骅社区临床甲减患病率分别为0．27％,0．95％和2．05％, 临临床甲减的患病率分别为0．91％,2．90％,和5．96％,引起临床甲减的主要原因是自身免疫性甲状腺炎,亚临床甲减中三分之一患者甲状腺自身抗体阳性,结论：横断面的流行病学对比研究证实碘摄入量增加有可能导致甲状腺功能减退症患病率增加。     

Graves病多发家系成员甲状腺自身免疫状况及碘摄入量对其发病率的影响

目的：确定在Graves病（GD）多发家系成员中,甲状腺自身免疫及甲状腺功能异常的发生情况,并研究碘摄入量对GD发病率的影响。方法：对全部家系成员做甲状腺疾病病史询问,体格检查,甲状腺功能及甲状腺自身抗体测定,并测定空腹尿碘含量。结果：GD患者一级亲属的亚临床甲亢,临床甲状,亚临床甲状的患病率分别为5．2％,1．0％和1．4％,这三种疾病患者的甲状腺自身抗体均为阳性,甲状腺功能正常一级亲属的甲状腺自身抗体阳性率为68．6％,尿碘水平500－599ug/L时,GD的发病率显著增高（P＜0．05）,。结论：在GD多发家系中,GD患者一级亲属发生甲状腺功能异常的原因均为自身免疫甲状腺病,尿碘水平500－599ug/L是GD发病率增高的危险因素。     

舟山海岛居民碘营养状况调查与分析

目的了解舟山市人群碘营养状况,为制定和完善科学补碘策略提供依据。方法随机抽取舟山市2县区中2个居委会（村）419名当地常住居民,共采集60份碘盐、7份水样、412份尿样分别进行盐碘、水碘、尿碘浓度检测,并对调查对象开展甲状腺超声检查,采集血样进行甲状腺功能检测。结果盐碘浓度的中位数为1．72mg／kg,仅有21份为合格碘盐,合格碘盐食用率为35％;水碘浓度均数为12．00μg/L;尿碘中位数为126．76μg/L;甲状腺异常73人,总异常率20．28％;甲状腺功能异常人数132人,总异常率为31．50％。结论舟山市居民的尿碘水平处于较适宜的水平,孕妇的尿碘水平明显低于WHO／UNICEF／ICCIDD推荐的标准。人群甲状腺异常率略高于省内平均水平,甲状腺功能异常率与全省水平无明显差异。     

舟山海岛孕妇碘营养状况调查与分析

目的了解舟山海岛孕妇碘营养状况,为制定和完善科学补碘提供依据。方法抽取舟山市2个县、区中2个居委会（村）的105名当地不同孕期的常住居民,共采集碘盐、水样、尿样分别进行盐碘、水碘、尿碘浓度检测,并对调查对象开展甲状腺超声检查,采集血样进行甲状腺功能检测。结果盐碘浓度的中位数为0mg/kg、均数10．21m∥kg,合格碘盐食用率为17．47％;水碘浓度均数为11．55μg∥L;尿碘中位数为98．72μg∥L;甲状腺超声检查总异常率35．53％;甲状腺功能总异常率为58．10％。结论舟山海岛孕妇的尿碘水平明显低于wH0／uNIcEF／IccIDD推荐的标准,甲状腺超声检查异常率、甲状腺功能异常率明显高于全省水平。     

天津市食盐加碘后甲状腺肿大率与碘营养状况的调查

目的：调查和研究食盐加碘后天津市居民的甲状腺肿大率和碘营养状况,方法：在6个区共调查居民31530人,7－14岁在校儿童4415人,对调查对象进行甲状腺肿大率,尿碘浓度,食盐碘含量等项目的调查。结果：（1）食盐加碘后天津市居民的平均甲状腺肿大率为5．5％,8－10岁儿童平均甲状腺肿大率为19．7％,甲状腺肿大率较食盐加碘以前有了明显下降,但下降的速度较缓慢,（2）天津市食盐加碘以后各区居民的平均尿碘中位数为287．2ug/L,各区儿童尿碘中位数平均为271．6u/L,证明总体人群碘营养充足,（3）天津市居民总体盐碘含量超过20mg/kg水平,各区居民户盐含碘量有9．9％－41．1％超过60mg/kg,说明碘盐的含碘是偏高是一个新的现象。结论：经过3年左右的食盐加碘防治工作,天津市碘缺乏情况已得到控制。     

Thyroid Dysfunction during Late Gestation Is Associated with Excessive Iodine Intake in Pregnant Women

Context: Adequate iodine intake during pregnancy is essential for both the synthesis of maternal thyroid hormones and the maintenance of normal fetal brain development. Scant evidence is available on the effects of excessive iodine intake during pregnancy. Objective: The study assesses the relationship between iodine nutritional status and thyroid function of pregnant women with excessive iodine intake during late gestation. Design and Participants: A cross-sectional study of 384 pregnant women was carried out in Tianjin and Haixing from April to October in 2010. Main Outcome Measures: Morning urine samples and blood samples were obtained from all subjects. Serum levels of free T(3), free T(4), and sensitive TSH and urinary iodine concentration were measured. Results: The median urinary iodine concentration of pregnant women with excessive iodine intake was significantly higher than those with adequate iodine intake (P < 0.001). The prevalence of thyroid disease, especially subclinical hypothyroidism, in pregnant women with excessive iodine intake was significantly higher than in those with adequate iodine intake (P < 0.05). Subclinical hypothyroidism was the most frequent pattern of thyroid disease for pregnant women and those with positive or negative thyroid autoantibodies. Living with high water iodine content and having urinary iodine concentration higher than 250 μg/liter are associated risk factors for subclinical hypothyroidism in pregnant women (OR(1) = 41.822, OR(2) = 6.202; P < 0.05, where OR(1) is the odds ratio for living with high water iodine content and hypothyroidism and OR(2) is the odds ratio for urinary iodine concentration >250 μg/liter and hypothyroidism). Conclusions: Excessive iodine intake during late pregnancy may lead to maternal thyroid dysfunction, particularly subclinical hypothyroidism. The appropriate measurements should be performed to monitor the onset of hypothyroidism in pregnant women with excessive iodine intake.