助手标题  
全文文献 工具书 数字 学术定义 翻译助手 学术趋势 更多
查询帮助
意见反馈
   前庭唇 的翻译结果: 查询用时:0.299秒
图标索引 在分类学科中查询
所有学科
更多类别查询

图标索引 历史查询
 

前庭唇
相关语句
  vestibular lip
     Aqp 3 in the spiral limb, vestibular lip, internal and external sulci, basilar membrane and basilar membrane crest, endolymphatic sac and duct, membranous semicircular canal and utricle and saccular macula;
     Aqp 3在螺旋韧带、前庭唇、内、外螺旋沟、基底膜和基底膜嵴、内淋巴囊和内淋巴管、膜半规管和椭圆囊、球囊斑等处显示荧光染色。
短句来源
     Aqp 7 in the stria vascularis, basilar membrane, Reissner′s membrane, utricle and saccule and their maculae; Aqp 9 in the spiral limb, vestibular lip internal and external sulci, Reissner′s membrane, membranous semicircular canal, saccule and its macula.
     Aqp 7在血管纹、基底膜、前庭膜、椭圆囊和球囊及其囊斑有反应染色 ,而Aqp 9在螺旋缘、前庭唇、内、外螺旋沟、前庭膜、膜半规管和球囊及其囊斑有较强染色。
短句来源
  “前庭唇”译为未确定词的双语例句
     Study on physiological form of oral vestibule's buccal and labial surfaces
     口腔前庭唇颊面生理形态研究
短句来源
     The expression and distribution of Aqp-2 in the rat inner ear were examined by SP immunohistochemical technique. Result:Aqp-2 were observed mainly in endolymphatic sac, stria vascularis and spiral ganglion.
     结果 :Aqp 2在大鼠的内淋巴囊、血管纹、螺旋神经节有较强表达 ,在Corti器、基底膜、螺旋缘的前庭唇和鼓唇、盖膜、螺旋凸也有表达。
短句来源
     Objective To study the physiological form of oral vestibule's buccal and labial surfaces.
     目的研究口腔前庭唇颊面生理形态并讨论义齿磨光面唇颊面外形。
短句来源
  相似匹配句对
     Vestibular recruitment
     前庭重振
短句来源
     Lip Conservation
     上春色
短句来源
     Study on physiological form of oral vestibule's buccal and labial surfaces
     口腔前庭颊面生理形态研究
短句来源
     Innervation of vestibular sensory cells
     前庭感觉细胞的神经分布
短句来源
     Carcinoma of the lips developing in discoid lupus erythematosus
     盘状红斑狼疮和
短句来源
查询“前庭唇”译词为用户自定义的双语例句

    我想查看译文中含有:的双语例句
例句
为了更好的帮助您理解掌握查询词或其译词在地道英语中的实际用法,我们为您准备了出自英文原文的大量英语例句,供您参考。
  vestibular lip
Involution is seen especially in the membranous wall of the cochlea and in the system of spiral vessels of the basilar membrane and vestibular lip.
      


Objective To examine the distribution of various subtypes of water channel protein (aquaporin, Aqp) in various structures of the mouse inner ear. Methods Thirty mice with white color were used in this study and were cardiacally perfused. The temporal bones were taken out and were processed and sectioned by paraffin embedded technique. The sections were labeled with fluorescent antibody by immunohistochemical method. The distribution of Aqp 1, 3, 4, 5, 7, 9 were confirmed in the inner ear of mouse. Results...

Objective To examine the distribution of various subtypes of water channel protein (aquaporin, Aqp) in various structures of the mouse inner ear. Methods Thirty mice with white color were used in this study and were cardiacally perfused. The temporal bones were taken out and were processed and sectioned by paraffin embedded technique. The sections were labeled with fluorescent antibody by immunohistochemical method. The distribution of Aqp 1, 3, 4, 5, 7, 9 were confirmed in the inner ear of mouse. Results The constant and clear fluorescent reaction could be observed in the inner ear tissue with the first antibody concentration of 1∶200 for Aqp 1 and 1∶100 for Aqp 3, 7, 9. But the reaction of Aqp 4 and 5 could not be found with the concentration of 1∶50, even 1∶30. Aqp 1 was labeled in the round window membrane, spiral ligament, endolymphatic sac and duct, utricle and saccule and the wall of inner ear blood vessel; Aqp 3 in the spiral limb, vestibular lip, internal and external sulci, basilar membrane and basilar membrane crest, endolymphatic sac and duct, membranous semicircular canal and utricle and saccular macula; Aqp 7 in the stria vascularis, basilar membrane, Reissner′s membrane, utricle and saccule and their maculae; Aqp 9 in the spiral limb, vestibular lip internal and external sulci, Reissner′s membrane, membranous semicircular canal, saccule and its macula. Conclusion Aqp 1, 3, 7, 9 were extensively distributed in various tissues of mouse inner ear. Their distribution sites and reaction degree were different, and mainly located in the structures related to the endolymph.

目的 检测水通道蛋白 (waterchannelprotein ;aquaporin ,Aqp)亚型在小鼠内耳不同部位的分布和各亚型所在的部位。方法 使用成年小鼠 30只 ,经活体灌注 ,切取双侧颞骨 ,按石蜡包埋技术处理和切片。使用免疫组织化学方法标记确认小鼠内耳组织中水通道蛋白亚型 1、3、4、5、7、9分布情况。结果 Aqp 1为 1∶2 0 0和Aqp 3、7、9为 1∶10 0的一抗浓度可以看到它们在内耳不同部位稳定、清晰的染色反应 ,但Aqp 4和 5使用 1∶5 0甚至 1∶30也未观察到染色。Aqp 1在圆窗膜、螺旋韧带、内淋巴囊和内淋巴管、椭圆囊和球囊以及内耳血管壁等处被标记 ;Aqp 3在螺旋韧带、前庭唇、内、外螺旋沟、基底膜和基底膜嵴、内淋巴囊和内淋巴管、膜半规管和椭圆囊、球囊斑等处显示荧光染色。Aqp 7在血管纹、基底膜、前庭膜、椭圆囊和球囊及其囊斑有反应染色 ,而Aqp 9在螺旋缘、前庭唇、内、外螺旋沟、前庭膜、膜半规管和球囊及其囊斑有较强染色。结论 水通道蛋白亚型 1、3、7、9广泛分布于小鼠内耳不同组织中 ,其分布部位和反应强弱存在差异 ,主要存在与内淋巴...

目的 检测水通道蛋白 (waterchannelprotein ;aquaporin ,Aqp)亚型在小鼠内耳不同部位的分布和各亚型所在的部位。方法 使用成年小鼠 30只 ,经活体灌注 ,切取双侧颞骨 ,按石蜡包埋技术处理和切片。使用免疫组织化学方法标记确认小鼠内耳组织中水通道蛋白亚型 1、3、4、5、7、9分布情况。结果 Aqp 1为 1∶2 0 0和Aqp 3、7、9为 1∶10 0的一抗浓度可以看到它们在内耳不同部位稳定、清晰的染色反应 ,但Aqp 4和 5使用 1∶5 0甚至 1∶30也未观察到染色。Aqp 1在圆窗膜、螺旋韧带、内淋巴囊和内淋巴管、椭圆囊和球囊以及内耳血管壁等处被标记 ;Aqp 3在螺旋韧带、前庭唇、内、外螺旋沟、基底膜和基底膜嵴、内淋巴囊和内淋巴管、膜半规管和椭圆囊、球囊斑等处显示荧光染色。Aqp 7在血管纹、基底膜、前庭膜、椭圆囊和球囊及其囊斑有反应染色 ,而Aqp 9在螺旋缘、前庭唇、内、外螺旋沟、前庭膜、膜半规管和球囊及其囊斑有较强染色。结论 水通道蛋白亚型 1、3、7、9广泛分布于小鼠内耳不同组织中 ,其分布部位和反应强弱存在差异 ,主要存在与内淋巴密切相关的组织结构中

Objective:To study the distribution of aquaporin-2(water channel protein; Aqp-2)in various structures of the SD rat inner ear.Method:Fifteen SD rat were used in this experiment and were cardically perfused. The temporal bones were taken out, fixed in 4% paraformaldehyde, processed and sectioned by paraffin-embedded technique. The expression and distribution of Aqp-2 in the rat inner ear were examined by SP immunohistochemical technique.Result:Aqp-2 were observed mainly in endolymphatic sac, stria vascularis...

Objective:To study the distribution of aquaporin-2(water channel protein; Aqp-2)in various structures of the SD rat inner ear.Method:Fifteen SD rat were used in this experiment and were cardically perfused. The temporal bones were taken out, fixed in 4% paraformaldehyde, processed and sectioned by paraffin-embedded technique. The expression and distribution of Aqp-2 in the rat inner ear were examined by SP immunohistochemical technique.Result:Aqp-2 were observed mainly in endolymphatic sac, stria vascularis and spiral ganglion.In addition, Aqp-2 were also labeled in Corti's organ, basilar membrane, vestibular lip and tympanic lip of spiral limus, tectorial memberane and spiral prominence.Conclusion:Aqp-2 distributed in the rat inner ear tissues closely related with endolymph metabolism: the endolymphatic sac and stria vascularis. Its expression in the Corti's organ gave another explanation for the handicap hearing along with endolymphatic hydrops, and the distribution of Aqp-2 in the spiral ganglion indicated its possible role in the maintainence of hearing.

目的 :探讨水通道蛋白 2 (Aqp 2 )在大鼠内耳中的定位 ,分析其在内耳水代谢中的作用机制。 方法 :使用正常成年SD大鼠 15只 ,制备颞骨组织标本 ,采用SP免疫组织化学技术 ,检测Aqp 2蛋白在大鼠内耳的表达情况。结果 :Aqp 2在大鼠的内淋巴囊、血管纹、螺旋神经节有较强表达 ,在Corti器、基底膜、螺旋缘的前庭唇和鼓唇、盖膜、螺旋凸也有表达。结论 :Aqp 2主要分布在与内淋巴代谢有关的结构 (内淋巴囊和血管纹 ) ,它在Corti器的表达为膜迷路积水时伴有的听力下降提供了又一解释 ;Aqp 2在螺旋神经节的表达 ,提示它可能与正常听觉的维持有关

Objective To study the physiological form of oral vestibule's buccal and labial surfaces. Methods 17 normal adults were strictly selected and the impression of vestibule's space was obtained with silicon rubber.The curve of the impression transversection was expressed with a second derivation. “a" is bigger than zero, and it is convex.“a" is less than zero, and it is concave.Results The value of 438 transversections is bigger than zero; the value of 38 transversections is less than zero. Conclusion More than...

Objective To study the physiological form of oral vestibule's buccal and labial surfaces. Methods 17 normal adults were strictly selected and the impression of vestibule's space was obtained with silicon rubber.The curve of the impression transversection was expressed with a second derivation. “a" is bigger than zero, and it is convex.“a" is less than zero, and it is concave.Results The value of 438 transversections is bigger than zero; the value of 38 transversections is less than zero. Conclusion More than 90 percent of physiological form of buccal and labial vestibule is convex.

目的研究口腔前庭唇颊面生理形态并讨论义齿磨光面唇颊面外形。方法选择17名正常成人,用硅橡胶取得前庭间隙的形态,并把模型横段面曲线线形拟合成函数,用计算机处理数据得a值,根据a值判断曲线的凹凸性。结果476个横段面中438个横段面的a值大于0,即为凸形;38个a值小于0,即为凹形。结论90%以上唇颊侧生理形态为凸形,这对义齿磨光面的制作有指导意义。

 
图标索引 相关查询

 


 
CNKI小工具
在英文学术搜索中查有关前庭唇的内容
在知识搜索中查有关前庭唇的内容
在数字搜索中查有关前庭唇的内容
在概念知识元中查有关前庭唇的内容
在学术趋势中查有关前庭唇的内容
 
 

CNKI主页设CNKI翻译助手为主页 | 收藏CNKI翻译助手 | 广告服务 | 英文学术搜索
版权图标  2008 CNKI-中国知网
京ICP证040431号 互联网出版许可证 新出网证(京)字008号
北京市公安局海淀分局 备案号:110 1081725
版权图标 2008中国知网(cnki) 中国学术期刊(光盘版)电子杂志社