1)fluorosis[英][,flu:?'r?usis][美][,flu?'ros?s]氟中毒
1.Analyses of chemical components in water for endemic fluorosis region in basin of Aksu river;阿克苏河流域地方性氟中毒区的水化学分析
2.The Fluoride Transference Characteristics of Air Pollution type Fluorosis in Pingxiang Region;萍乡地区空气污染型氟中毒的氟化物转移特点
3.Effect of skeletal fluorosis caused by fluoride in coal on OPG and OPGL;燃煤型氟中毒对大鼠骨保护素及配体表达影响
英文短句/例句
1.Study of Selenium on Liver Toxicity Induced by Exposure to Fluoride on Chicken硒颉颃氟中毒鸡肝脏毒性作用的研究
2.Analysis of water fluoride content for endemic fluorosis areas in Shandong Province山东省地方性氟中毒病区水氟检测结果分析
3.INVESTIGATION OF THE COAL FLUORIDE IN COAL-BURNING TYPE FLUOROSIS AREAS IN CHONGQING重庆市燃煤型氟中毒病区煤氟调查分析
4.ANALYSIS OF THE RELATIONSHIP BETWEEN THE URINARY FLUORIDE AND TOTAL FLUORIDE INTAKE IN COAL-BURNING FLUOROSIS AREAS IN CHONGQING重庆市燃煤型氟中毒病区人体氟摄入和尿氟的调查
5.Relationship between the fluorosis and hydrogeochemical characteristics in the fluorosis area,Tongyu County通榆县氟中毒病区水文地球化学特征与氟中毒的关系
6.Study of Abnormality and Mutation of Experimental Chronic Fluorosis in Chicks;鸡实验性慢性氟中毒致畸致变的研究
7.Research Progress in the Relationship between Nutrient Intake and Fluorosis营养素摄入与氟中毒关系的研究进展
8.Exploration on the Combined Role and the Mechanism of Fluorine and Aluminum on Hippocampus Neural Cell Apoptosis in Rats Induced by Tea-type Fluorosis氟和铝在茶型氟中毒大鼠海马神经细胞凋亡中的联合作用及机制
9.The Occurrence of FST(Fluorine Spot Tooth) in Burning Coal Toxication and Nutrition Factors燃煤型氟中毒氟斑牙患病与营养因素的调查分析
10.Influence of High Fluorine Environment on Crops and Humans in Spa Areas;温泉型氟中毒地区环境本底高氟对农作物及人体健康的影响
11.Studies on Anti-fluorine Mechanism of Compound Danggui Powders in Chronic Fluorosis Rats;复方当归散对慢性氟中毒大鼠的抗氟作用机理研究
12.The relationship between endemic fluorosio and the content of fluorine in drinking water乾安县地方性氟中毒与饮水氟的质量浓度关系简析
13.Epidemioligcal Features of Skeletal Fluorosis by Tea Drinking and Related Factors in Sichuan四川省饮茶型氟中毒成人氟骨症流行特征及影响因素
14.Evaluation on the 16-year surveillance of fluorosis after oven renovation in Hubei湖北省燃煤污染型氟中毒区改炉降氟后16年监测结果分析与评价
15.Studies on ultrastructures of nucleus raphe magnus in rats with chronic fluorosis慢性氟中毒大鼠中缝大核超微结构的研究
16.Evaluation on the Effects of Water Defluoridation Measures in China-Meta Analysis;中国饮水型氟中毒改水干预措施效果的Meta分析
17.Effect of endoplasmic reticulum stress in renal injury of fluorosis rats内质网应激在氟中毒大鼠肾损害中的作用
18.The levels of OPG、RANKL、IL-1βand TNFαin serums of the fluorosis model of rats慢性氟中毒大鼠血清中OPG、RANKL、IL-1β和TNFα的变化
相关短句/例句
endemic fluorosis氟中毒
1.The analysis of the erythrocyte membrane protein ingredients of patients with endemic fluorosis;地方性氟中毒患者红细胞膜蛋白组分的分析
2.The fluorine sources in the endemic fluorosis areas,western Guizhou;贵州西部氟中毒地区氟来源地质背景研究
3.Study on the changes in the state of endemic fluorosis by coal-burning pollution in Guizhou Province贵州省燃煤污染型地方性氟中毒重点病区病情变化研究
3)Fluoride[英]['fl?:ra?d][美]['fl?'ra?d]氟中毒
1.Investigation of the Osteoarthritis Sick State in Middle-aged and Old people Lived in Drinking Water Type Fluoride Area in Gaomi City;高密市饮水型氟中毒地区中老年人骨关节炎患病情况调查
2.Effect of fluoride exposure on synaptic structure of brain areas related to learning memory in mice;氟中毒对小鼠学习记忆相关脑区突触结构的影响
3.To investigate the effects of fluoride on the infrastructure of thyroid mitochondria in chicks ,250 one-day chicks were randomly divided into 5 groups ,50 for each .结果表明,成功地复制出了不同程度的鸡慢性氟中毒模型,氟化物对甲状腺滤泡细胞线粒体的结构,尤其是膜结构造成了严重的损伤。
4)fluorine poisoning氟中毒
1.According to fluorine free-radical theory, this paper summarizes the latest research results about fluorine poisoning harm on intestines and stomach, liver kidney, thyroid gland, adrenal gland, pancreas islet, brain, reproductive system.根据新近提出的氟自由基理论 ,围绕氟中毒对胃肠道、肝、肾、甲状腺、甲状旁腺、肾上腺、胰岛、脑、生殖系统等非骨相损害的最新研究成果作了较为全面的论述 ,为人们提供了除骨损伤以外的更多的有关氟中毒的信息 ,为有效防治本病 ,确保人类健康水平和动物生产水平的改善提高指点迷
5)fluoride poisoning氟中毒
6)fluorosis area氟中毒区
1.Content and distribution of fluorine in rock,clay and water in fluorosis area Zhaotong,Yunnan Province;云南昭通氟中毒区煤、土和水中氟的含量与分布
2.Content of arsenic,selenium,mercury in the coal,food,clay and drinking water in the Zhaotong fluorosis area,eastern Yunnan Province;云南昭通氟中毒区煤、烘烤粮食、黏土和饮用水中砷、硒、汞的含量
延伸阅读
氟中毒氟中毒fluorinepoisoning食物、水或空气中的氟或氟化合物进入人体引起的中毒。以慢性者多见。氟对各器官的损害氟化物对皮肤、粘膜有强烈的局部刺激作用,可引起难以愈合的皮肤溃疡、急性支气管炎、肺水肿及肺出血。过量的氟化物被食入,可引起胃溃疡,甚至胃出血而致死。氟化物与胃酸结合生成氟氢酸后,可腐蚀消化道粘膜。脂肪能阻抑氟化物的吸收。氟能妨碍许多酶的合成,抑制酶的活性。氟可增加肌纤维膜的通透性,使血液中肌酸磷酸酶(CPK)增高,后者能敏感地反映肌营养不良程度。持续大量摄入氟,则可引起肾小球和肾小管的形态和功能损害。氟对其他系统均可引起不同程度的损害,可影响肝代谢,降低其解毒作用,使血浆白蛋白降低,肝脏的库普弗氏细胞可发生广泛脂性变,称为氟肝病。过多的氟化物沉积于骨骼中可引起骨硬化,影响骨髓的造血功能。氟中毒是否会引起甲状腺肿,意见不一。中毒的方式和临床表现生产和使用氟及氟化物,特别是炼铝、制造磷肥时可排放出大量的含氟烟尘,污染周围大气、水源和土壤。氟及氟化物主要以气体及粉尘形态经呼吸道和消化道进入体内,氢氟酸则可经完整的皮肤少量吸收。氟及氟化物的急性毒性,主要在于遇水生成氟化氢和氢氟酸,两者对粘膜和皮肤均有强烈的刺激和腐蚀作用。接触和吸入含氟气体或氟化氢时可迅速出现眼、鼻及上呼吸道粘膜的刺激症状,如眼刺痛、流泪、流涕、打喷嚏、咽痒及刺痛、声音嘶哑、咳嗽、胸闷等,同时可反射性地产生恶心、呕吐、腹痛等。吸入浓度高时可产生化学性肺炎和中毒性肺水肿。骤然吸入极高浓度时甚至可引起反射性窒息。皮肤接触低浓度(<20%)的氢氟酸,当时不感觉疼痛,但可在几小时后形成皮肤轻度烧伤,烧伤的皮肤外观苍白、肿胀,可有水泡,伴刺痛和烧灼感。浓度超过60%的氢氟酸可立即引起严重的烧伤,皮肤由苍白迅速变成暗紫色,疼痛剧烈,肌肉组织坏死,腐蚀可深达骨骼,指甲受侵犯时,往往甲床发炎,有剧痛伴指甲破坏。长期接触低浓度的氟和氟化物,可产生慢性鼻炎、咽喉炎、支气管炎及牙齿酸蚀症,形成氟斑牙,牙釉质失去光泽,牙面粗糙,有黄褐色或棕褐色色素沉着,且易磨损折断。氟斑牙主要见于切牙、单尖牙的唇侧面。工业性慢性氟中毒,长期饮用含氟高的饮水(氟>1毫克/升)以及食用高氟土壤地区的蔬菜食物,可产生地方性氟病,其主要病变部位为骨骼,称氟骨症。治疗急性吸入中毒时吸氧,给予止咳化痰等对症药物,抗生素预防继发感染。口服或静注肾上腺皮质激素防止肺水肿。较常应用的抗氟中毒药物有镁剂、铝剂和硼剂。氢氟酸灼伤时应立即用水冲洗,不少于5分钟,用5%碳酸氢钠液或2%氨水浸泡或湿敷皮肤灼伤处,此后可敷20%氧化镁甘油软膏,也可采用氧化镁和硫酸镁制成的镁乳合剂。烧伤部位涂敷皮质激素软膏,也有良好的消炎止痛效果。10%葡萄糖酸钙静脉注射,直流电钙离子透入,也有良好的止痛效果。预防为预防氟中毒,生产管线及容器应使用耐氟腐蚀材料(如耐酸陶瓷、不锈钢和塑料等),加强贮存和运输的安全管理、进入氟浓度高的场所应戴防毒面具。从事接触氢氟酸的操作和生产应在良好的通风情况下进行,穿戴防毒服和手套。污染的衣服用碳酸氢钠溶液清洗,污染的工具设备先用石灰水中和后,再用水清洗。生产场所空气中氟化氢及氟化物(换算成F)的最高容许浓度为1毫克/立方米。进行就业前和定期的健康检查,氟作业的就业禁忌症为明显的心肺疾患、神经和骨骼疾患。为预防氟骨症、氟斑牙,对饮水中含氟量也有一定标准。
