山东省黄河下游冲积平原地区地方性氟中毒流行病学调查

云中杰; 陈培忠; 边建朝; 王玉涛; 高杰; 马爱华; 刘源; 李亨祥

Abstract

云中杰,陈培忠,边建朝,王玉涛,高杰,马爱华,刘源,李亨祥.山东省黄河下游冲积平原地区地方性氟中毒流行病学调查[J].Chinese journal of Epidemiology,2010,31(11):1280-1283

山东省黄河下游冲积平原地区地方性氟中毒流行病学调查

Epidemiological investigation on endemic fluorosis along the Yellow River alluvial plain of Shandong province

Received:April 26, 2010

DOI：

KeyWord: 地方病氟中毒,牙氟骨症黄河冲积平原

English Key Word: Endemic diseases Fluorosis, dental Osteofluorosis Yellow River alluvial plain

FundProject:中央补助地方公共卫生专项资金地方病防治项目(2008)

Author Name	Affiliation	E-mail
YUN Zhong-jie	Shandong Institute of Prevention and Control for Endemic Disease,Jinan 250014, China	yunzj0531@163.com
CHEN Pei-zhong	Shandong Institute of Prevention and Control for Endemic Disease,Jinan 250014, China
BIAN Jian-chao	Shandong Institute of Prevention and Control for Endemic Disease,Jinan 250014, China
WANG Yu-tao	Shandong Institute of Prevention and Control for Endemic Disease,Jinan 250014, China
GAO Jie	Shandong Institute of Prevention and Control for Endemic Disease,Jinan 250014, China
MA Ai-hua	Shandong Institute of Prevention and Control for Endemic Disease,Jinan 250014, China
LIU Yuan	Shandong Institute of Prevention and Control for Endemic Disease,Jinan 250014, China
LI Heng-xiang	Shandong Institute of Prevention and Control for Endemic Disease,Jinan 250014, China

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Abstract:

目的了解山东省黄河下游冲积平原地区地方性氟中毒流行现状。方法按照国家《2008年地方病防治项目技术实施方案》要求, 选择16个县, 每个县选择3个村,测定饮用水含氟量, 检查8~12岁儿童氟斑牙和>16岁人群氟骨症, 并抽查尿氟含量。水、尿氟含量测定采用氟离子选择电极法, 8~12岁儿童氟斑牙诊断采用Dean’s法, 氟骨症诊断执行《地方性氟骨症诊断》标准(WS192-2008)。结果调查26个改水村, 其中水氟均值在1.00mg/L的村19个(73.08%), >1.00mg/L的村7个(26.92%);水氟最大值为3.73mg/L。调査22个未改水村, 其中水氟均值<1.00mg/L的村5个(22.73%), >1.00mg/L的村17个(77.27%);水氟最大值为3.38mg/L。8-12岁儿童氟斑牙总患病率为52.18%(1042/1997), 氟斑牙指数为1.17, 缺损率为8.01%(160/1997);儿童尿氟均值>1.40mg/L的人数占65.00%(845/1300), 最高值为18.53mg/L;>16岁人群氟骨症临床和X线检出率分别为4.35%(丨121/25781)和11.36%(5/44)。成年人尿氟均值>1.60mg/L的人数占63.92%(606/948), 最高值为21.35111&^。结论山东省黄河下游冲积平原地区地方性氟中毒尚未得到有效控制。

English Abstract:

Objective To investigate the current prevalent status of endemic fluorosis in the floodplain area of the lower Yellow River in Shandong province. Methods According to “The National Technical Scheme for Endemic Disease Control in 2008”, 16 counties were chosen to carry out the epidemiological survey of endemic fluorosis. Three villages were chosen in each county, to determine the fluoride content of drinking water and to check the dental fluorosis of children aged 8 to 12 year old, the skeletal fluorosis of adults over 16 years of age. Both children and adults were tested for urine fluoride. The content of fluoride in drinking water and urine was determined by F-ion selective electrode while dental fluorosis of children aged 8 to 12 years old was diagnosed by Dean’s method and adults skeletal fluorosis by the National Standard for “Diagnosis of endemic skeletal fluorosis” (WS 192-2008). Results The investigation was taken place in 26 4improved-water- quality, villages in 16 counties, among which 19 villages had water fluoride content 彡 1.00 mg/L and accounted for 73.08% (19/26), 7 villages had water fluoride content >1.00 mg/L and accounted for 26, 92% (7/26), with the highest water fluoride content as 3.73 mg/L. In 22 ‘yet to improve-water quality’ villages in 16 counties, 5 villages had water fluoride content ^1.00 mg/L (accounted for 22.73%), 17 villages had water fluoride content >1.00 mg/L (accounted for 1121%), with the highest water fluoride content as 3.38 mg/L. The overall rate of dental fluorosis among children aged 8 to 12 years old was 52.18% (1042/1997), with the index of dental fluorosis as 1.17 and the rate of dental damage as 8.01% (160/1997). The urinary fluoride values above 1.40 mg/L were found in 65.00% (845/1300) of children aged 8 to 12 years old, with the highest urinary fluoride concentrations as 18.53 mg/L. The rate of skeletal fluorosis by clinic and X-rays in adults older than 16 years old were 4.35%( 1121/25 781) and 11.36%(5/44), respectively. The urinary fluoride values above 1.60 mg/L were found as 63.92%(606/948) in adults older than 16 years old, with the highest urinary fluoride concentrations as 21.35 mg/L. Conclusion The status of endemic fluorosis had not been effectively controlled and the situation for endemic fluorosis control was still critical in the floodplain area of the lower Yellow River in Shandong province, suggesting that the preventive approaches on endemic fluorosis control should be strengthened.

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