Rutllant J, López-Béjar M, Santolaria P, Yániz J, López-Gatius F
Department of Anatomy and Embryology, Autonomous University of Barcelona, School of Veterinary Medicine, Bellaterra, Spain.
J Anat. 2002 Jul;201(1):53-60. doi: 10.1046/j.1469-7580.2002.00069.x.
The properties of cervical-vaginal fluid are under strict hormonal control: and in mammals in which semen is deposited in the anterior vagina, changes produced in these properties can result in a lower or higher resistance to sperm motion. The aim of this study was to determine whether the structural organization of bovine vaginal fluid is related to its rheological properties. Vaginal fluid samples were collected from 41 cows at oestrus: 20 at the middle of oestrus (between 8 and 12 h after starting) and 21 at the end of oestrus (between 18 and 22 h). Flow behaviour was determined using a viscosimeter, and the ultrastructural analysis was performed by scanning electron microscopy. Six samples showed newtonian behaviour: three collected at the middle and three collected at the end of oestrus. Newtonian samples had dense and compact matrices arranged as membranes with rough, irregular surfaces, and sparse, thin filaments (< 150 nm). Non-newtonian samples collected at the end of oestrus (n = 18) had a higher (P = 0.016) consistency index (K = 944 +/- 229 mPa.s(n)) than those collected at the middle of oestrus (n = 17; K = 237 +/- 84 mPa.s(n)). Thick filaments (> 700 nm) that were either randomly arranged with thinner filaments forming a mesh or heavily cross-linked by thin filaments (50-150 nm) were observed in all non-newtonian samples collected at the end of oestrus, while medium-diameter filaments (between 200 and 500 nm) forming loose networks were observed in non-newtonian samples collected at the middle of oestrus. These findings indicate a close relationship between the molecular organization of the structural elements of bovine vaginal fluid and its rheological behaviour. Vaginal fluid dramatically reduces its mechanical barrier effect during the course of oestrus but always appears to maintain its three-dimensional filamentous structure. The images of vaginal fluid showing newtonian behaviour would appear to support previous results, suggesting that this property may be related to bovine infertility.
在精液存于阴道前部的哺乳动物中,这些特性的变化会导致对精子运动的阻力降低或升高。本研究的目的是确定牛阴道液的结构组织是否与其流变学特性相关。在发情期从41头奶牛采集阴道液样本:20份在发情中期(开始后8至12小时之间)采集,21份在发情末期(18至22小时之间)采集。使用粘度计测定流动行为,并通过扫描电子显微镜进行超微结构分析。六个样本表现出牛顿流体行为:三个在发情中期采集,三个在发情末期采集。牛顿流体样本具有致密且紧密的基质,排列成具有粗糙、不规则表面的膜,以及稀疏、细丝状(<150纳米)的结构。在发情末期采集的非牛顿流体样本(n = 18)的稠度指数(K = 944 +/- 229毫帕·秒(n))高于发情中期采集的样本(n = 17;K = 237 +/- 84毫帕·秒(n))(P = 0.016)。在发情末期采集的所有非牛顿流体样本中均观察到粗丝(>700纳米),它们要么与较细丝随机排列形成网状结构,要么被细丝(50 - 150纳米)大量交联,而在发情中期采集的非牛顿流体样本中观察到中等直径的细丝(200至500纳米)形成松散网络。这些发现表明牛阴道液结构成分的分子组织与其流变学行为之间存在密切关系。在发情过程中,阴道液显著降低其机械屏障作用,但似乎始终保持其三维丝状结构。显示牛顿流体行为的阴道液图像似乎支持先前的结果,表明这种特性可能与牛的不育有关。