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Objective:To understand the contents of edible salt iodine and urinary iodine of children and pregnant women in Yunnan Province, and to evaluate the iodine nutrition status, so as to provide a basis for scientific prevention and treatment of iodine deficiency disorders (IDD).Methods:From November to December 2020, one county (city) was selected from each prefecture (city), two townships (towns and streets) were selected from each county (city) and two villages (neighborhood committees) were selected from each township (town and street) from each of the 16 prefectures (cities) in Yunnan Province as the investigation sites. A total of 20 non-boarding children (male and female balanced) aged 8 - 10 years old were selected from each primary school in each village (neighborhood committee) to collect salt and urine samples. A total of 80 children were investigated in each county (city). A total of 20 pregnant women were selected from each township (town and street) to collect salt and urine samples. A total of 40 pregnant women were investigated in each county (city). All salt samples and urine samples were tested for iodine contents.Results:A total of 2 009 salt samples and 2 041 urine samples (1 375 for children, 666 for pregnant women) were collected from children aged 8 - 10 years old and pregnant women in 16 counties (cities) of Yunnan Province. Among them, the median salt iodine was 26.0 mg/kg, the coverage rate of iodized salt was 100.0% (2 009/2 009), the qualified rate of iodized salt was 98.7% (1 982/2 009), and the consumption rate of qualified iodized salt was 98.7% (1 982/2 009). The difference of salt iodine content in key populations in different counties (cities) was statistically significant ( H = 258.98, P < 0.01). The median urinary iodine of children aged 8 - 10 years old was 188.5 μg/L. There was statistically significant difference in urinary iodine content among children of different ages ( H = 29.45, P < 0.01), but there was no statistically significant difference in urinary iodine content among children of different genders ( H = 1.43, P > 0.05). In addition, the median urinary iodine of pregnant women was 141.9 μg/L, 52.1% (347/666) was < 150 μg/L. There was statistically significant difference in urinary iodine content of pregnant women in different counties (cities, H = 88.32, P < 0.01). Conclusions:The qualified rate of iodized salt, the coverage rate of iodized salt and the consumption rate of qualified iodized salt in key populations of Yunnan Province are more than 90%, and the iodized salt supply is good. Iodine nutrition of children aged 8 - 10 years old is at an appropriate level (100 - 199 μg/L); iodine nutrition of pregnant women is in an state of iodine deficiency ( < 150 μg/L). It is suggested to strengthen IDD monitoring and health education among key populations, improve residents' awareness of disease prevention, and make scientific iodine supplementation.
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Objective:To accurately grasp the current status of water iodine distribution in environmental of Yunnan Province, and provide a basis for scientific iodine supplementation.Methods:In 2017, according to the "National Drinking Water Iodine Content Survey Program", a survey of water iodine content was conducted in townships. In 2018, a search survey was carried out for administrative villages with water samples of iodine content > 40 μg/L in drinking water found in previous surveys. In centralized water supply villages, 2 samples of end water were collected. In decentralized or partially decentralized water supply villages, each village was divided into 5 parts: east, south, west, north and center. In villages with more than 50 water sources, 10% of the water sources were selected from each part; villages with less than 50 water sources, one water source was selected from each part; villages with less than 5 water sources, all the water sources were selected to determine the water iodine content. At the same time, the mode of water supply and demographic data were investigated.Results:At the township level water iodine survey, a total of 24 589 water samples were collected from 1 389 townships in 129 counties of 16 prefectures (cities). The median water iodine content of township was 1.3 μg/L, ranging 0.0 - 9.3 μg/L. The population covered by the survey accounted for 53.94% (25 013 804/46 371 207) of the total population of the province. According to the survey results of high iodine villages, 93 administrative villages in 68 townships of 37 counties in 12 prefectures (cities) were surveyed, covering 40 940 households and 208 880 people. A total of 761 samples of drinking water were tested, and the median water iodine content of administrative villages was 1.3 μg/L (ranging 0.0 - 196.8 μg/L). There were 2 administrative villages with iodine higher than 100 μg/L, which were Xiaobona Administrative Village (145.8 μg/L) in Liuchang Township, Xiangyun County, and Dasongshu Administrative Village (196.8 μg/L) in Yangchang Township, Xuanwei City.Conclusions:The iodine content of water in Yunnan Province is generally low, which belongs to the area of environmental iodine deficiency. For the high iodine villages, further investigation should be carried out to clarify the prevention and control measures.
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Objective To understand the current situation on coal-burning-borne endemic fluorosis control and prevention in Yunnan Province,timely discover problems in prevention and control of the disease,and achieve the "13th Five-Year Plan" objectives as scheduled.Methods Simple random sampling method was adopted to conduct investigations in Weixin County,Daguan County of Zhaotong City,and Fuyuan County of Qujing City in the key diseased areas of Yunnan Province in 2017.Three townships from each endemic fluorosis area were randomly selected,and 2 villages of each township were randomly selected.The use of improved stoves (types of stoves,integrity rate and correct use),knowledge and behavior changes of endemic fluorosis prevention among local grade five pupils and housewives or household heads and the condition of endemic fluorosis (dental fluorosis and urinary fluoride situation in children) were investigated in above mentioned villages.Results A total of 532 households were investigated.The consumption rate of self-produced corn and pepper were 53.4% (284/532) and 44.7% (238/532),respectively.Totally 81.0% (431/532) of households burned coal,the average annual coal burning time per household was 6.3 months.Totally 44.5% (237/532) of the households used the improved iron stove,89.5% (476/532) used the electric cooker to cook rice,84.2% (448/532) used the induction cooker to cook,and 36.7% (195/532)used the portable open stove.The integrity rate of improved stoves and the correct usage rate were 86.9% (206/237) and 84.0% (199/237),respectively,among the 237 households using improved stoves.The awareness rate of the prevention and control of coal-burning-borne fluorosis in grade five pupils and housewives or household heads were 85.8% (921/1 074) and 17.7% (283/1 596),respectively.The correct drying rates of edible corn and peppers were 66.5% (189/284) and 52.9% (126/238),respectively.A total of 3 333 children aged 8-12 years old were examined and the dental fluorosis positive rate was 11.28% (376/3 333).Totally 377 samples of immediate urine samples were detected,the geometric mean of urinary fluoride content of children was 0.37 (0.06-2.14) mg/L.Conclusions The situation of coal-burning-borne endemic fluorosis in Yunnan Province is effectively controlled,but the correct use rate of improved stoves,the correct drying rate of edible com and peppers are low,and do not meet the requirements of the "13th Five-Year Plan".
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Objective To understand the situation of iodine deficiency disorders and iodine nutrition of children in Yunnan Province after the implementation of new standard of salt iodine,and provide the basic data for prevention and control of iodine deficiency disorders.Methods Using multistage sampling method,Yunnan provincial evaluations for iodine deficiency disorders elimination were carried out.According to the comparative analysis of 2010 (pre-adjustment) and 2015 (post-adjustment) evaluation results,the changes of the median of salt iodine,the coverage rate of iodized salt,the qualified rate of iodized salt,the rate of qualified iodized salt consumption,goiter rate of school children aged 8-10 and the median of urinary iodine were evaluated.Salt iodine was tested using the "Salt Industry General Test Method for Determination of Iodine" (GB/T 13025.7-1999);thyroid volume examination of children using B-scan ultrasonography,thyroid volume calculation and enlargement judgment using "Diagnostic Criteria for Endemic Goiter" (WS 276-2007);and urinary iodine detection using "Urinary Iodine Arsenic Cerium Catalytic Spectrophotometry" (WS/T 107-2006).Results The medians of salt iodine in 2010 and 2015 were 30.6 and 22.4 mg/kg,respectively,the difference was statistically significant (U =317 503.50,P < 0.01).The coverage rates of iodized salt in 2010 and 2015 were 99.6% (1 681/1 688) and 98.9% (2 592/2 622),the qualified rates of iodized salt were 98.6% (1 657/1 681) and 89.7% (2 325/2 592),and the rates of qualified iodized salt consumption were 98.2% (1 657/1 688) and 88.7% (2 325/2 622),and the differences were statistically significant (x2 =6.42,125.11,130.18,P < 0.01);the rates of children goiter in 2010 and 2015 were 0.8% (25/3 272) and 1.4%(44/3 245),respectively;the medians of urinary iodine of children were 289.0 and 157.3 μg/L,respectively,the difference was statistically significant (U =1 121 669.50,P < 0.01).Conclusion After decreasing of salt iodine level starting from 2012 in Yunnan Province,the children iodine nutrition condition is in a more proper level.
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Objective To understand the implementation of preventive measures for iodine deficiency disorders among residents in Yunnan Province.Methods Iodized salt monitoring database and reports from states (cities) of Yunnan Province from 2011 to 2015 were collected,and the coverage rate of iodized salt,the quality of iodized salt,the rate of qualified iodized salt consumption were evaluated.Results From 2011 to 2015,at the province level,the coverage rate of iodized salt was > 98%.The rate of qualified iodized salt consumption was > 97% from 2011 to 2012,and kept at higher than 95% from 2013 to 2015.At the county level,the county (city,district) coverage rate of qualified iodized salt that ≥90% accounted for 99.22% (128/129),98.44% (126/128),91.47% (118/129),92.25% (119/129) and 99.22% (128/129).The constitute ratio of salt containing 18-33 mg/kg iodine increased year by year,from 64.07% (24 297/37 923) in 2011 to 95.15% (36 930/38 813) in 2015.Conclusions In recent years,measures for control of iodine deficiency disorders are implemented well in Yunnan Province.After production of new standard iodized salt in 2012,the rate of qualified iodized salt consumption is decreased.After the four-year transition period,the new standard iodized salt has covered over the whole province.To rectify salt market,improve quality of iodized salt and enhance monitoring quality in order to consolidate the control achievements is the focus of prevention work in the future.
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Objective To analyze the iodine nutritional status in the key populations before and after the adjustment of iodized salt in Yunnan Province,and to provide scientific basis for adjusting the strategy of prevention and treatment timely.Methods The probability proportional to size sampling method was employed in the investigation.In the pre-adjustment period (2011) and the post-adjustment period (2014),the changes in the residents' iodized salt,the urinary iodine and goiter prevalence of children aged 8-10,the urinary iodine of pregnant women and lactating women were analyzed.Results Before and after adjusting the salt iodine concentration,the coverage rate of iodized salt was 99.1% (1 196/1 207) and 99.2% (1 532/1 545),respectively,the mean of salt iodine after the adjustment (23.6 mg/kg) was significantly lower than that of before (30.1 mg/kg,F =17.287,P < 0.01).There was significant difference in the iodine nutritional status of children from 271.4 to 180.9 μg/L (Z=-12.883,P < 0.01).The difference of iodine nutritional status in pregnant women between pre-adjustment (217.3 μg/L) and postadjustment (143.7 μg/L) was also significant (Z =9.997,P < 0.01).The thyroid goiter rate of children had inceased from 1.7% (21/1 207) to 2.1% (33/1 549),the difference was not statistically significant between the groups (x2=0.539,P > 0.05).Conclusions After adjusting the salt iodine concentration in Yunnan Province,iodine nutrition of children has decreased from more than adequate level to adequate level,thyroid goiter rate of children has remained at the low level,and iodine nutrition of pregnant women is sightly lower than adequate level,but iodine deficiency of pregnant women is at a low risk because of the good iodized salt coverage.The new standard of iodized salt is appropriate,and it is more favorable to health in Yunnan Province.
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<p><b>OBJECTIVE</b>In order to understand the iodine nutritional status, after the salt-iodine content was showed a reduction in 2012 and to evaluate the current situation after the new standards was brought into force to the general population in an experimental community of Yunnan province.</p><p><b>METHODS</b>Randomly sampled urine and salt were collected, to test the iodine concentration in the study-site. Pre-and post-levels of the iodized salt under the provision of the new standards, were identified.</p><p><b>RESULTS</b>of this study were gathered upon 3 weeks or 3 months, respectively. Results Data from the three randomly chosen study sites showed that the urine iodine concentration in the general populations was reducing gradually. In the general population, medians of Urine Iodine (MUI) were 279.71 µg/L, 239.64 µg/L and 226.26 µg/L, respectively. Proportion of the urine iodine value for 100-199 µg/L increased but ≥300 µg/L decreased, after the new standard was put into practice. Both homogeneity and stability of the new standard on iodized salt seemed to be good.</p><p><b>CONCLUSION</b>Iodine nutrition in general population appeared reasonable under the use of newly set salt-iodine standards in general population living in Yunnan province.</p>