Objective:To estimate the iodine nutrition level of pregnant women and children in Xinjiang.Methods:Using cluster random sampling method, from March to September in 2018, in the whole district, county (city, district) was treated as a unit to conduct sampling; each county (city, district) was divided into five areas (east, west, south, north, middle), 40 children aged 8 - 10 and 20 pregnant women in each area were randomly selected, salt samples and urine samples were collected to measure iodine content, and B-ultrasound method was used to detect thyroid volume in children.Results:Among 94 counties (cities, districts), 18 859 salt samples were collected from children and 9 070 salt samples from pregnant women. The median salt iodine (interquartile range) for children was 26.65 (23.70, 29.80) mg/kg, and the median salt iodine (interquartile range) for pregnant women was 26.60 (23.80, 29.80) mg/kg. Totally 17 736 qualified iodized salt samples and 109 non-iodized salt samples consumed by children were tested, the coverage rate of iodized salt was 99.42% (18 750/18 859), qualified rate of iodized salt was 94.59% (17 736/18 750), the consumption rate of qualified iodized salt was 94.05% (17 736/18 859), and the non-iodized salt rate was 0.58% (109/18 859). Totally 8 533 qualified iodized salt samples and 57 non-iodized salt samples consumed by pregnant women were tested, the coverage rate of iodized salt was 99.37% (9 013/9 070), the qualified rate of iodized salt was 94.67% (8 533/9 013), the consumption rate of qualified iodized salt was 94.08% (8 533/9 070), and the non-iodized salt rate was 0.63% (57/9 070). Twelve counties (cities, districts) had a consumption rate of qualified iodized salt lower than 90% for children, and 14 counties (cities, districts) had a consumption rate of qualified iodized salt lower than 90% for pregnant women. Totally 18 862 8 - 10 years old children's urine samples were detected, median urinary iodine was 227.0 μg/L, no county (city, district) was found with median urinary iodine < 100 μg/L. A total of 9 070 pregnant women's urine samples were detected, median urinary iodine was 182.0 μg/L, and 23 counties (cities, districts) had a median urinary iodine less than 150 μg/L. B ultrasound was used to detect thyroid volume in 18 787 children aged 8 - 10 years, 231 children had goiter, and the goiter rate was 1.23%, ranged from 0 to 12.05%, and 2 counties (cities, districts) had goiter rate > 5%.Conclusions:There are still some areas in Xinjiang with the consumption rate of qualified iodized salt < 90%. Children's iodine nutrition is greater than the appropriate amount (200 - 299 μg/L), pregnant women's iodine nutrition is appropriate (150 - 249 μg/L), and children's goiter rate generally meets national elimination and control standards (< 5%). Monitoring of iodized salt should be strengthened, and iodine nutrition levels in children and pregnant women should be continuously monitored.

Objective:To understand the iodine nutritional status of pregnant women in the early, middle and late pregnancy in historical iodine deficiency areas (South Xinjiang) and non historical iodine deficiency areas (North Xinjiang) in Xinjiang, so as to provide scientific basis for the prevention and control of iodine deficiency disorders in pregnant women and the formulation of appropriate prevention and control measures.Methods:From March to June 2019, using cluster yandom sampling, each county (city, district, county for short) in the whole region was divided into five sampling areas according to the east, west, south, north and middle direction. Twenty pregnant women were selected from each area, and the iodine content was determined by taking household salt samples and random urine samples.Results:A total of 9 461 salt samples were collected from pregnant women's families in 96 counties, of which 9 099 were qualified iodized salts, 22 were non iodized salts, the rate of non iodized salt was 0.23%, the coverage rate of iodized salts was 99.77% (9 439/9 461), the consumption rate of qualified iodized salts was 96.17% (9 099/9 461), and the median of salt iodine was 27.42 mg/kg. A total of 9 456 urine samples of pregnant women were tested. The median of urinary iodine was 187.30 μg/L, ranging from 0.30 to 1 300.00 μg/L. The median of urinary iodine of pregnant women in 12 counties (North Xinjiang) was < 150 μg/L. The medians of urinary iodine of pregnant women in the early, middle and late pregnancy in historical iodine deficiency areas were 215.85, 208.10 and 196.60 μg/L, respectively, while that in the non historical iodine deficiency areas were 179.10, 180.70 and 179.15 μg/L, respectively, the differences were statistically significant ( P < 0.01). There was a significant difference in the urinary iodine content of pregnant women in the early, middle and late pregnancy in historical iodine deficiency areas ( H = 8.85, P < 0.05), but there was no significant difference in the non historical iodine deficiency areas ( H = 0.28, P > 0.05). Conclusions:Some pregnant women in North Xinjiang are in iodine deficiency. The contents of urinary iodine in the early, middle and late pregnancy in historical iodine deficiency areas are higher than those in non historical iodine deficiency areas. The distribution of urinary iodine in the early, middle and late pregnancy of pregnant women in the historical iodine deficiency areas is different.

Objective To investigate iodine nutritional status of key population in Puhui Town,Korla Xinjiang.Methods In 2018,totally 29 samples of factory water,peripheral water and self-prepared well water from centralized water supply in Puhui Town were collected,and urine samples,salt samples and blood samples were collected from 200 children aged 8 to 10 years old and 100 women of childbearing age (including pregnant women)in Puhui Town.Arsenic-cerium catalytic spectrophotometric method was used for determination of iodine in water and urine;the salt iodine was determined using direct titration and the thyroid was examined by ultrasound.The assessment was conducted according to the standard of "Delineation of Water-source Areas and Endemic Areas of High Iodine Goiter" (GB/T 19380-2016).Results In this survey,the median of water iodine in Puhui town (n =29)was 76.1 μg/L,and the median of salt iodine (n =175) was 27.76 mg/kg;the rate of iodized salt was 98.29％ (172/175);the consumption rate of qualified iodized salt was 96.00％ (168/175);the medians of urinary iodine of children aged 8 to 10 years old (n =208),women of childbearing age (n =73),and pregnant women (n =25) were 292.47,248.23,and 246.36 μg/L,respectively.The thyroid enlargement rate was 1.9％ (4/208) in children aged 8-10 years old,no swelling of women of childbearing age and pregnant women.Conclusions Iodine nutrition of pregnant women is in an appropriate state;both the children aged 8 to 10 years old and the women of childbearing aged are in excess of the appropriate level;goiter rate is lower in children.According to the national standards,Puhui Town does not belong to waterborne high iodine area.

Objective:To learn about the iodine nutritional status and thyroid function of pregnant women in the areas of oral lipiodol pills in Xinjiang Uygur Autonomous Region (Xinjiang).Methods:In October 2019, using the probability proportionate to size sampling (PPS sampling) method, Aksu Prefecture (Aksu) of Xinjiang was divided into 5 sampling areas according to the directions of east, west, south, north and middle. One county was selected from each area, one township was selected from each county according to the directions of east, west, south, north and middle, and 20 pregnant women were selected from each township. The general demographic data of pregnant women were collected by questionnaires, and 24-hour urine samples, household salt samples and drinking water samples were collected for iodine detection, and serum samples were collected for thyroid function index detection.Results:A total of 555 pregnant women were investigated, including 121, 234 and 200 women in the early, middle and late pregnancy, with an average age of 26 years. Among them, the median of urinary iodine of women in early, middle and late pregnancy was 209.53, 204.27 and 225.29 μg/L, respectively, which was all in the appropriate state. The median of salt iodine was 24.70, 26.00 and 26.20 mg/kg, respectively, and the median of water iodine was 4.85, 3.30 and 4.85 μg/L, respectively. There were no significant difference in urinary iodine, salt iodine and water iodine during different pregnancy ( H= 1.61, 4.38, 2.63, P > 0.05). The prevalence rate of subclinical hypothyroidism, subclinical hyperthyroidism and hyperthyroidism in pregnant women was 4.32% (24/555), 0.54% (3/555) and 0.36% (2/555), respectively; and the highest prevalence rate was in the middle pregnancy, which was 7.26% (17/234), 1.28% (3/234) and 0.85% (2/234), respectively. The positive rate of autospecific antibody in pregnant women with normal thyroid function was 13.15% (73/555). The positive rate of thyroid peroxidase antibody (TPOAb) and thyroglobulin (TgAb) was 11.35% (63/555), 8.11% (45/555), respectively. After excluding the pregnant women with positive thyroid autospecific antibody, the range ( P2.5- P97.5) of thyroid stimulating hormone (TSH) in different pregnancy were close to or slightly higher than the recommended reference value in the "Guideline on Diagnosis and Management of Thyroid Diseases During Pregnancy and Postpartum (2nd ed)". Except that the P2.5 value of free thyroxine (FT 4) in early pregnancy was lower than the reference value, the FT 4 range in other pregnancy showed the same trend as that of TSH. The results of Spearman correlation analysis showed that free triiodothyronine (FT 3) and FT 4, TPOAb and TgAb, TgAb and FT 4 were positively correlated ( r= 0.497, 0.504, 0.216, P < 0.05), and TSH and FT 3 was negatively correlated ( r = - 0.194, P < 0.05) in the early pregnancy; FT 3 and FT 4, TPOAb and TgAb were positively correlated in the middle and late pregnancy ( r = 0.188, 0.527, 0.177, 0.623, P < 0.05); TSH was negatively correlated with FT 3 in the late pregnancy ( r = - 0.165, P < 0.05); there was no correlation between urinary iodine and thyroid function indexes ( P > 0.05). Conclusions:The water iodine in the outer environment of the oral lipiodol pills area Aksu in Xinjiang is low, and the iodine nutrition level of pregnant women is appropriate. Except that the P2.5 value of FT 4 in the early pregnancy is lower than the reference value, the TSH range close to or of women during each pregnancy and the FT 4 range of women in the middle and late pregnancy are slightly higher than the reference value, which still need continuous monitoring.

Objective:To evaluate the effect of oral iodized oil pills on iodine nutrition and thyroid function of pregnant women in Xinjiang Uygur Autonomous Region (Xinjiang).Methods:From May to July 2017, one county was selected from Ili Prefecture without taking iodized oil pills, Aksu Prefecture taking iodized oil pills once a year, and Kashgar Prefecture taking iodized oil pills twice a year in Xinjiang as survey sites, respectively; 100 pregnant women (evenly distributed in early, middle and late pregnancy) were selected from each survey county, the general data, urine and blood samples were collected, and urinary iodine and thyroid function indicators [free triiodothyronine (FT 3), free thyroxine (FT 4), thyrotropin (TSH), anti thyroglobulin antibody (TgAb), and anti thyroid peroxidase antibody (TPOAb)] were tested. Results:A total of 308 pregnant women were investigated, and 289 were finally included in the analysis, with an average age of 25 years; the body mass index (BMI) was (22.69 ± 3.07) kg/m 2. The occupation distribution was mainly farmer, accounting for 93.77% (271/289); most of them had junior high school education or below, accounting for 71.97% (208/289). The median urinary iodine of early, middle and late pregnant women in Kashgar Prefecture was 712.87, 604.50 and 656.23 μg/L, respectively, which were in iodine excess state. The iodine nutrition level of early pregnant women in Ili Prefecture and Aksu Prefecture was in iodine super suitability state, and the iodine nutrition level of middle and late pregnant women was in the iodine suitability state. The difference of median urinary iodine in early, middle and late pregnancy women between different regions was statistically significant ( Z = 53.02, 49.60, 44.66, P < 0.001). In addition, the urinary iodine of women in Kashgar Prefecture during each pregnancy period was significantly higher than that in Ili Prefecture and Aksu Prefecture ( P < 0.05). There were statistically significant differences in the levels of FT 3 among women in early pregnancy, FT 4 and TSH among women in middle pregnancy between different regions ( F = 4.59, 10.92, Z = 8.61, P < 0.05 or < 0.001). Among them, the level of FT 3 in early pregnancy in Kashgar Prefecture was lower than that in Ili Prefecture ( P < 0.05); the level of FT 4 in Kashgar Prefecture during middle pregnancy was higher than that in Ili Prefecture, and the level of TSH was lower than that in Ili Prefecture ( P < 0.05). There was no significant difference in TgAb positive rate, TPOAb positive rate and double antibody positive rate of early, middle and late pregnant women between different regions ( P > 0.05). The detection rates of hypothyroxinemia in early pregnant women in Ili Prefecture, Aksu Prefecture and Kashgar Prefecture were 13.9% (5/36), 3.2% (1/31) and 0 (0/33), respectively, and there was a statistically significant difference between different regions ( P = 0.036). The detection rates of subclinical hyperthyroidism in middle pregnant women were 0 (0/35), 0 (0/40), 17.6% (6/34), respectively, and there was a statistically significant difference between different regions ( P = 0.001). Conclusions:The results of urinary iodine in the three regions are in line with the iodine nutrition distribution under their respective iodine supplement strategies. Pregnant women in Kashgar Prefecture present iodine excess status after taking iodized oil pills; at the same time, the serum FT 3, FT 4 and TSH levels of pregnant women in Kashgar Prefecture are affected by iodine nutrition levels. Although it is scientific and effective to implement the intensified iodine supplement measures for pregnant women, it is still necessary to further study the suitability of oral iodine oil pills to ensure that pregnant women are at an suitability iodine nutrition level.

Objective:Through the detection of iodine nutrition level and thyroid function of pregnant women in Xinjiang Uygur Autonomous Region (Xinjiang), to preliminary study the pregnant women's iodine nutrition level, thyroid function status and the relationship between the two and influencing factors.Methods:From March to June in 2020, stratified cluster random sampling method was adopted. Two counties (cities) in Southern and Northern Xinjiang were selected as survey sites, and about 100 pregnant women (a total of 412) were selected from each county (city) as survey subjects. Random urine samples and blood samples were collected to detect urinary iodine and serum thyroid function indicators [thyroid stimulating hormone (TSH), free triiodothyronine (FT 3), free thyroxine (FT 4), anti-thyroglobulin antibody (Tg-Ab) and anti-thyroid peroxidase antibody (TPO-Ab)]. Results:The median and interquartile range [ M ( Q1, Q3)] of pregnant women's urinary iodine was 228.4 (143.15, 327.95) μg/L. Serum FT 3, FT 4 and TSH levels [ M ( Q1, Q3)] were 4.22 (3.92, 4.61), 13.79 (12.63, 15.26) pmol/L and 1.82 (1.26, 2.52) mU/L, respectively. The overall positive rates of Tg-Ab and TPO-Ab were 5.61% (23/412) and 11.95% (49/412), respectively. The positive rates of Tg-Ab and TPO-Ab in Southern and Northern Xinjiang were 4.78% (10/209), 10.05% (21/209), 6.40% (13/203) and 13.79% (28/203), respectively. The positive rates of Tg-Ab and TPO-Ab in Northern Xinjiang were higher than those in Southern Xinjiang, but the difference was not statistically significant (χ 2 = 1.31, 2.17, P > 0.05). The positive rate of TPO-Ab in pregnant women was the influencing factor of abnormal thyroid function, and the odds ratio ( OR) [95% confidence interval ( CI)] was 3.22 (1.31 - 7.93). Conclusions:Pregnant women in Xinjiang are generally at an appropriate level of iodine, but the state of thyroid function still needs continuous attention. In addition, it is necessary to strengthen the thyroid function examination of pregnant women with positive thyroid autoantibodies to prevent and control the occurrence of abnormal thyroid function in pregnant women.

Objective:To investigate the influencing factors of thyroid volume in school-age children aged 8 - 10 years in Xinjiang Uygur Autonomous Region (Xinjiang for short).Methods:In 2020, counties (cities, districts) were taken as the units in the whole region of Xinjiang. Each county (city, district) was divided into 5 sampling areas according to the orientation of east, west, south, north, and middle, one township/street was selected from each area, and one primary school was selected from each township/street, 40 non-boarding children aged 8 - 10 years were selected from each primary school as the investigation subjects. Height and weight of children were measured, and body mass index (BMI) and body surface area were calculated; 24 h mixed urine samples of children and household edible salt samples were collected to detect the contents of urinary iodine and salt iodine; thyroid volume of children was measured by B-ultrasonography. Pearson correlation analysis was used to analyze the correlation between thyroid volume and age, height, weight, body surface area, BMI, urinary iodine content, and salt iodine content. Univariate and multiple linear regression analyses were used to evaluate the correlation variables affecting thyroid volume.Results:A total of 18 334 children aged 8 - 10 years were investigated. The median urinary iodine was 237.88 μg/L. There were 132 children with goiter, and the rate of goiter was 0.72%. Of these, 9 249 (50.45%) were girls and 9 085 (49.55%) were boys. Girls' thyroid volume was positively correlated with age, height, weight, body surface area, BMI, urinary iodine content, and salt iodine content ( r = 0.125, 0.135, 0.167, 0.167, 0.154, 0.031, 0.019, P < 0.05); boys' thyroid volume was positively correlated with age, height, weight, body surface area, and BMI ( r = 0.132, 0.326, 0.156, 0.149, 0.146, P < 0.05), and there was no correlation with urinary iodine content and salt iodine content ( r = 0.019, 0.017, P > 0.05). Univariate linear regression analysis showed that age, height, weight, BMI, body surface area and urinary iodine content were the influencing factors of thyroid volume ( t = 14.92, 12.54, 20.98, 17.98, 20.25, 4.28, P < 0.01). Further multiple linear regression analysis showed that age, BMI, body surface area and urinary iodine content had significant independent effects on thyroid volume ( t = 9.61, 8.57, 7.76, 4.89, P < 0.01), the coefficient of determination ( R2) of the model was 0.278 2. According to the regression coefficient (β), the body surface area (β = 0.522 6) had the greatest influence on thyroid volume. Conclusions:The iodine nutrition of children aged 8 - 10 years in Xinjiang is sufficient. Thyroid volume is affected by age, BMI, body surface area and urinary iodine content.

Objective:To learn about the status of thyroid function and intelligence quotient (IQ) of children in areas with different iodine nutrition levels in Xinjiang Uygur Autonomous Region, and to explore the health risk of children with median urinary iodine of 200 - 299 μg/L, and to provide a basis for scientific iodine supplementation.Methods:In May 2019, in Xinjiang Uygur Autonomous Region, Altay Prefecture and Kashgar Prefecture were selected, where the median urinary iodine of children aged 8 to 10 years were 100 - 199 and 200 - 299 μg/L for three consecutive years (2017 - 2019). A stratified random sampling method was used to select 400 children aged 8 to 10 years in each of the two regions, urine and blood samples were collected to detect urinary iodine and thyroid function [thyrotropin stimulating hormone (TSH), free thyroxine (FT 4), free triiodothyronine (FT 3), anti-thyroglobulin antibody (TgAb), and anti-thyroperoxidase antibody (TPOAb)]. At the same time, children's IQ was measured and determined by Second Revision of Combined Raven's Test (CRT-C2) in China and Second Revision of Combined Raven's Test for Children-the Rural, in China (CRT-RC2). Results:The median urinary iodine of children aged 8 to 10 years in Altay Prefecture and Kashgar Prefecture was 188.6 and 250.1 μg/L, respectively. There was no statistically significant difference in thyroid function indexes TSH and FT 3 levels between the two regions ( Z = - 0.58, t = 0.49, P > 0.05), while there was statistically significant difference in FT 4 level ( t = 60.08, P < 0.001). There was no statistically significant difference in TgAb positive rate [3.6% (14/394), 4.0% (16/399)] between the two regions (χ 2 = 0.11, P = 0.736), but the difference of TPOAb positive rate [9.6% (38/394), 30.6% (122/399)] was statistically significant (χ 2 = 53.93, P < 0.001), while the difference of dual antibody positive rate [0.8% (3/394), 2.0% (8/399)] was not statistically significant ( P = 0.134). There was no statistically significant difference in the detection rates of subclinical hypothyroidism [8.9% (35/394), 11.0% (44/399)], subclinical hyperthyroidism [1.0% (4/394), 1.3% (5/399)] and hyperthyroidism [0.3% (1/394), 0.8% (3/399)] in children between the two regions ( P > 0.05). The IQ results of children in the two regions were 96.55 ± 11.36 and 89.57 ± 12.35, respectively, and there was no significant difference between them ( t = 2.79, P = 0.095). Conclusions:The thyroid function status of children is similar in the two regions with median urinary iodine of 100 - 199 μg/L and 200 - 299 μg/L in children aged 8 to 10 years, but the TPOAb positive rate is significantly different. Children whose iodine nutritional level is at or above the appropriate level have no obvious changes in intelligence. It is suggested that median urinary iodine at 200 - 299 μg/L is a relatively safe iodine nutrition state.