membranous labyrinth

1. Objective To probe role of MRI in diagnosing malformation of internal-ear membranous labyrinth, as well as in pre-operation assessment for artificial cochlea implantation.
   目的探讨MR内耳水成像技术对内耳畸形诊断及人工耳蜗植入术的术前评估价值。
2. Role of MRI in diagnosing malformation of internal-ear membranous labyrinth
   MR内耳水成像在内耳畸形中的诊断价值
3. Methods The membranous labyrinth of human embryo ( 4~ 7 months) was taken out. Human Embryo Cochlear Antigen ( HEC-Ag) was prepared.
   方法取胎龄为4～7月的膜迷路制备人类胚胎耳蜗抗原（HumanembryocochlearAg，HEC-Ag）。
4. Results Anatomic structures of membranous labyrinth and internal auditory meatus were well demonstrated in three-dimensional reconstructed images of MIP in all volunteers. All three semicircular ducts, utricle, saccule, cochlear duct and internal auditory meatus produced high intensity signal.
   结果MIP三维重建能满意显示两侧内耳膜迷路及内耳道的解剖结构，其中3个膜半规管、椭圆囊、球囊、蜗管及内耳道呈高信号。
5. Conclusion: The major components of the membranous labyrinth has formed when the mouse is born. Postnatal development takes the form of the structures it takes 2 weeks after birth to achieve full development.
   结论：小鼠在出生时，其耳蜗膜迷路的大部分结构成份已经形成，出生后则需进一步的分化发育，至出生后2周时才完全发育成熟。
6. Conclusion MRI is able to display stereo anatomy of internal ear membranous labyrinth, and to clearly show state of passage, playing an important role in diagnosing malformation of internal ear and pre-operation assessment for artificial cochlea implantation.
   结论MR内耳水成像不仅可以显示内耳膜迷路的立体解剖结构，而且可以清晰显示其通畅程度，对于内耳畸形的诊断及人工耳蜗植入术的术前评估具有重要价值。
7. Identification of the human serum antibodies to the membranous labyrinth protein of the inner ear
   血清抗内耳膜迷路蛋白抗体的判定
8. Electrophoresis analysis of membranous labyrinth proteins of guinea pig
   豚鼠内耳膜迷路蛋白电泳分析
9. Extraction and electrophoresis analysis of membranous labyrinth proteins in inner ears of human foetuses
   胎儿内耳膜迷路蛋白的提取及电泳分析
10. Results: All cases of membranous labyrinth of inner ear, facial nerve and acoustic nerve were clearly displayed.
    结果：所有内耳膜迷路、面神经及位听神经结构均得到了良好显示。
11. Objective To define the components of membranous labyrinth proteins which take part in the development of autoimmunity in experimental animals with autoimmune inner-ear disease ( AIED).
    目的为明确哪几种膜迷路蛋白成分参与了实验性自身免疫性内耳病（autoimmuneinner-eardisease，AIED）的形成。
12. To study MRI technique of membranous labyrinth of normal inner ear, and evaluate the ability of MRI on displaying these structures.
    目的探讨内耳膜迷路的MRI成像技术及评价对正常内耳膜迷路的显示能力。
13. Objective: To establish a sensitive and reliable method of mtDNA detection in the membranous labyrinth of rat inner ear.
    建立灵敏、可靠的大鼠内耳膜迷路线粒体DNA（mtDNA）提取和检测方法。
14. Objective TO study the technical and clinical application of MRI of internal auditory canal and inner ear membranous labyrinth by means of 3D-FIESTA Sequence.
    目的探讨3D-FIESTA序列在内听道和内耳膜迷路的MR成像技术及临床应用。

noun

1. the sensory structures of the inner ear including the labyrinthine receptors and the cochlea