ABSTRACT
Objective:To investigate the urinary iodine and thyroid volume of children aged 8 to 10 years in Linhai City Zhejiang Province, and evaluate the iodine nutrition level of children so as to provide a basis for formulating intervention measures to eliminate iodine deficiency disorders.Methods:In 2019, a systematic sampling method was adopted to select 1 township (street) central primary school in each of the 5 areas in the east, west, south, north, and middle of Linhai City. At least 40 children aged 8 to 10 years were selected from each of the central primary schools in each township (street) to collect family edible salt samples and one-time urine samples during the day for salt iodine and urinary iodine testing, respectively, as well as thyroid B-ultrasound examination.Results:A total of 215 salt samples were collected. The median salt iodine was 21.0 mg/kg, the coverage rate of iodized salt was 57.2% (123/215), the qualified rate of iodized salt was 91.9% (113/123), and the consumption rate of qualified iodized salt was 52.6% (113/215). A total of 215 urine samples were collected. The median urinary iodine was 166.0 μg/L, and the proportion of urinary iodine < 50 μg/L accounted for 5.1% (11/215). A total of 215 children were examined, and the goiter rate was 4.7% (10/215).Conclusion:The overall iodine nutrition level of children aged 8 to 10 years in Linhai City is at an appropriate level (100-199 μg/L), and the goiter rate is within the standard limit for the elimination of iodine deficiency disorders (5%), but the coverage rate of iodized salt and the consumption rate of qualified iodized salt are seriously low.
ABSTRACT
Objective To investigate the iodine nutritional status of 8 to 10 years old school children in Linhai City, and to provide a theoretical basis for prevention and treatment of iodine deficiency. Methods From 2016 to 2018, in the townships and sub-district offices under the jurisdiction of Linhai City, one town (street) was selected according to its geographical distribution in the east, west, south, north, and middle five directions, and one central primary school was selected in each town (street). In each central primary school, 40 children aged 8 to 10 years were selected, 5 to 10 ml of urine samples were collected, and urinary iodine level was determined by arsenic cerium catalytic spectrophotometry. Results A total of 620 urine samples were detected in children, and the median urinary iodine was 172.5 μg/L. In 2016, 200 samples were tested, the median urinary iodine was 191.5 μg/L, 14.00% (28/200) for < 100 μg/L, and 20.00% (40/200) for ≥300 μg/L; in 2017, 210 samples were tested, the median urinary iodine was 174.5 μg/L, 18.10% (38/210) for < 100 μg/L, 11.90% (25/210) for ≥300 μg/L; in 2018, 210 samples were tested, the median urinary iodine was 149.0 μg/L, 24.29% (51/210) for < 100 μg/L, and 9.05%(19/210) for ≥300 μg/L. The differences in urinary iodine concentration between the three years were statistically significant (H = 20.831, P < 0.05). A total of 310 boys were tested urinary iodine level, with a median of 147.5 μg/L, and 310 girls were tested with a median of 119.5 μg/L. The difference in urinary iodine concentration between boys and girls was statistically significant (Z = 2.766, P < 0.05). Conclusion The iodine nutritional level of 8 to 10 years old school children in Linhai City is within the appropriate range (100 - 199 μg/L), but the monitoring of urinary iodine should continue.
ABSTRACT
Objective@#To investigate the iodine nutritional status of 8 to 10 years old school children in Linhai City, and to provide a theoretical basis for prevention and treatment of iodine deficiency.@*Methods@#From 2016 to 2018, in the townships and sub-district offices under the jurisdiction of Linhai City, one town (street) was selected according to its geographical distribution in the east, west, south, north, and middle five directions, and one central primary school was selected in each town (street). In each central primary school, 40 children aged 8 to 10 years were selected, 5 to 10 ml of urine samples were collected, and urinary iodine level was determined by arsenic cerium catalytic spectrophotometry.@*Results@#A total of 620 urine samples were detected in children, and the median urinary iodine was 172.5 μg/L. In 2016, 200 samples were tested, the median urinary iodine was 191.5 μg/L, 14.00% (28/200) for < 100 μg/L, and 20.00% (40/200) for ≥300 μg/L; in 2017, 210 samples were tested, the median urinary iodine was 174.5 μg/L, 18.10% (38/210) for < 100 μg/L, 11.90% (25/210) for ≥300 μg/L; in 2018, 210 samples were tested, the median urinary iodine was 149.0 μg/L, 24.29% (51/210) for < 100 μg/L, and 9.05% (19/210) for ≥300 μg/L. The differences in urinary iodine concentration between the three years were statistically significant (H=20.831, P < 0.05). A total of 310 boys were tested urinary iodine level, with a median of 147.5 μg/L, and 310 girls were tested with a median of 119.5 μg/L. The difference in urinary iodine concentration between boys and girls was statistically significant (Z=2.766, P < 0.05).@*Conclusion@#The iodine nutritional level of 8 to 10 years old school children in Linhai City is within the appropriate range (100-199 μg/L), but the monitoring of urinary iodine should continue.