氟骨癥 的英文怎麼說
中文拼音 [fúgǔzhēng]
氟骨癥
英文
crippling fluorosis-
Diagnosis of clinical classification for endemic skeletal fluorosis
地方性氟骨癥臨床分度診斷Radiologic diagnosis of skeletal fluorosis
氟骨癥x線診斷Methods the domestic and foreign latest documents and information collected through modern information techniques and the internet were treated with aggregate analysis
方法應用現代信息技術,通過網際網路等,收集有關文獻資料,對目前國內外有關氟骨癥最新論著進行綜合分析。Diagnosis and treatment of thoracic spinal stenosis due to osteofluorosis
氟骨癥性胸椎管狹窄癥的診治Conclusion prevalence states of dental fluorosis and skeletal fluorosis are still serious, more effectual preventive and control measure shall be used
結論織金縣氟斑牙和氟骨癥患病情況依然嚴重,宜採取更加有效的措施加以控制。Objective to explore the prevalence satate of children in burning coal endemic fluorosis in zhijin county of guizhou province, provide the scientific basis for the prevention of skeletal fluorosis
摘要目的了解織金縣燃煤型氟病區兒童氟骨癥的患病情況,為該病的早期預防提供科學的依據。Objective to compare the advantage and defect of two decompression techniques using bone knife or not for treatment of thoracic spinal stenosis of skeletal fluorosis
摘要目的比較氟骨癥性胸椎管狹窄癥後路減壓手術中,應用骨刀和非骨刀兩種減壓方式。Conclusion the present results show that to acquire the same improve rate, posterior decompress using bone knife is a better choice
結論對于氟骨癥性胸椎管狹窄癥行後路減壓手術,在獲得相同療效下應用骨刀減壓比非骨刀減壓更能減少術中出血量,縮短手術時間。Results total prevalence rate of dental fluorosis was 96. 42 %, prevalence rate of skeletal fluorosis was 7. 49 %, constrictive skeletal fluorosis was main type in zhijin county guizhou province
結果氟斑牙總患病率為96 . 42 % ,氟骨癥患病率為7 . 49 % ,氟骨癥以硬化型為主。Conclusions omni - posterior decompression procedure is proved to be an effective way to treat thoracic spinal stenosis due to osteofluorosis
結論全椎板減壓術是治療氟骨癥性胸椎管狹窄癥有效的手術方式。Objective to retrospectively analysis the diagnosis method and evaluate the effects of omini - posterior decompression procedure on thoracic spinal stenosis due to osteofluorosis
摘要目的探討氟骨癥性胸椎管狹窄癥的診斷及早期全椎板減壓術治療的療效。Conclusion it may play an important role in the early prophylaxis and control measures studying the molecular mechanism of endemic fluorosis skeletal fluorosis especially in children
結論深入研究氟骨癥的分子發病機制,尤其是小兒氟骨癥的分子發病機制,對于制定氟骨癥的早期預防和控制措施具有重要的意義。In humans excessive intake ( for adults, over 4 milligrams per day ) over many years can lead to skeletal fluorosis, a well - defined skeletal disorder, and in some plant species, fluoride is more toxic than ozone, sulfur dioxide, or pesticides
人類過量的攝入(成人每天超過4毫克)多年以後會導致骨骼氟中毒,一種容易識別的骨骼混亂(病癥) ,而且在某些植物中,氟化物的毒性要比臭氧、二氧化硫或者殺蟲劑都大。分享友人