医学研究与教育
醫學研究與教育
의학연구여교육
MEDICAL RESEARCH AND EDUCATION
2013年
4期
50-53
,共4页
张进国%王彦辉%孙晓丽%李铁库%刘建华%付兰娥
張進國%王彥輝%孫曉麗%李鐵庫%劉建華%付蘭娥
장진국%왕언휘%손효려%리철고%류건화%부란아
食用盐新标准%8~10岁儿童%尿碘%监测
食用鹽新標準%8~10歲兒童%尿碘%鑑測
식용염신표준%8~10세인동%뇨전%감측
new standard of edible salt%children 8 to 10 years old%urinary iodine%monitoring
目的了解2012年易县8~10岁学龄儿童尿碘水平。方法全县按东西南北中5个方位各随机抽取1个乡镇,每个乡镇随机抽取1所小学,每所小学随机抽取20人份以上8~10岁儿童尿样,采用尿碘砷铈催化分光光度法测定尿碘含量。结果…2012年检测学龄儿童尿样240份,尿碘中位数为256.67μg/L,100μg/L 以下的比率<50%,50μg/L 以下的比率<20%。总体尿碘峰值保持在100~400μg/L,呈向右拖尾的正偏态分布。不同年龄、性别、民族、区域学龄儿童尿碘水平比较,差异无统计学意义(P>0.05)。结论易县学龄儿童尿碘中位数处在适宜范围。为达到理想范围,今后应继续执行食用盐新标准,并加强尿碘的监测和干预。
目的瞭解2012年易縣8~10歲學齡兒童尿碘水平。方法全縣按東西南北中5箇方位各隨機抽取1箇鄉鎮,每箇鄉鎮隨機抽取1所小學,每所小學隨機抽取20人份以上8~10歲兒童尿樣,採用尿碘砷鈰催化分光光度法測定尿碘含量。結果…2012年檢測學齡兒童尿樣240份,尿碘中位數為256.67μg/L,100μg/L 以下的比率<50%,50μg/L 以下的比率<20%。總體尿碘峰值保持在100~400μg/L,呈嚮右拖尾的正偏態分佈。不同年齡、性彆、民族、區域學齡兒童尿碘水平比較,差異無統計學意義(P>0.05)。結論易縣學齡兒童尿碘中位數處在適宜範圍。為達到理想範圍,今後應繼續執行食用鹽新標準,併加彊尿碘的鑑測和榦預。
목적료해2012년역현8~10세학령인동뇨전수평。방법전현안동서남북중5개방위각수궤추취1개향진,매개향진수궤추취1소소학,매소소학수궤추취20인빈이상8~10세인동뇨양,채용뇨전신시최화분광광도법측정뇨전함량。결과…2012년검측학령인동뇨양240빈,뇨전중위수위256.67μg/L,100μg/L 이하적비솔<50%,50μg/L 이하적비솔<20%。총체뇨전봉치보지재100~400μg/L,정향우타미적정편태분포。불동년령、성별、민족、구역학령인동뇨전수평비교,차이무통계학의의(P>0.05)。결론역현학령인동뇨전중위수처재괄의범위。위체도이상범위,금후응계속집행식용염신표준,병가강뇨전적감측화간예。
Objective To know the urinary iodine levels of school-age children at 8-10 years old in Yixian in 2012. Methods Five towns were selected at random in the range of the county according to azimuth (east, west, south, north and center). One elementary school was randomly chosen in every town of the ifve. And 20 urine samples of children at 8-10 years old were randomly drawn in every school selected and the iodine contents were determined through arsenic cerium catalytic spectrophotometric method. Results 240 urine samples of school-age children in 2012 were detected, The median urinary iodine was 256.67μg/L. The urinary iodine contents of the samples below 100μg/L were less than 50%, and the ones below 50μg/L were less than 20%. Overall, the highest values of urinary iodine stayed at between 100-400μg/L, showing positively skewed distribution that was skewed to the right. There was no great disparity in the urinary iodine levels of school aged children from different ages, genders, ethnic and area groups (P>0.05). Conclusion The median urinary iodine is at an appropriate range on school-age children in Yixian. We should continue implementation the new standards of edible salt, and continually strengthen the monitoring and intervention of urinary iodine to achieve the desirable range.