本文概述运用形态学、超微结构、荧光显影、组织化学、生物化学及生物物理学等技术对输卵管结构和功能研究的情况。一、输卵管的功能及解剖:输卵管分伞部、壶腹部、峡部和间质部。各功能部分结构、超微结构和生理上综合功能与其多种复杂功能相适应。雌激素对输卵管结构、超微结构、肌活动、分泌液质量、受精卵输送方式和速率都有作用。 (一)输卵管粘膜:从壶腹至峡部高度渐增,皱褶渐少,壁内部粘膜成低崤状。由纤毛细胞、无纤毛细胞和楔形细胞组成。伞端和漏斗部纤毛细胞数量最多。楔形细胞呈长杆状,核黑色,近腔表面 This article outlines the use of morphology, ultrastructure, fluorescence imaging, histochemistry, biochemistry and biophysics techniques to study the structure and function of fallopian tubes. First, the function and anatomy of the fallopian tube: Tubal sub-umbrella, ampulla, isthmus and interstitial. Each functional part of the structure, ultrastructure and physiological functions and a variety of complex functions to adapt to its complex. Estrogen on tubal structure, ultrastructure, muscle activity, secretion quality, fertilized egg delivery mode and rate have a role. (A) tubal mucosa: from the ampulla to the isthmus height gradually increased, less wrinkles, the wall of the mucosa into a low 崤 like. By ciliated cells, ciliated cells and wedge-shaped cells. Umbrella end and funnel ciliated cells the largest number. Wedge cells were long rod-shaped, black nucleus, near the surface of the cavity