Broom Neil D, Ngo Thuy, Tham Evelyn
Biomaterials Laboratory, Department of Chemical and Materials Engineering, University of Auckland, New Zealand.
J Anat. 2005 Jan;206(1):55-67. doi: 10.1111/j.0021-8782.2005.00371.x.
Cartilage taken from the osteoarthritic bovine patellae was used to investigate the progression of change in the collagenous architecture associated with the development of fibrillated lesions. Differential interference contrast optical microscopy using fully hydrated radial sections revealed a continuity in the alteration of the fibrillar architecture in the general matrix consistent with the progressive destructuring of a native radial arrangement of fibrils repeatedly interconnected in the transverse direction via a non-entwinement-based linking mechanism. This destructuring is shown to occur in the still intact regions adjacent to the disrupted lesion thus rendering them more vulnerable to radial rupture. Two contrasting modes of surface rupture were observed and these are explained in terms of the absence or presence of a skewed structural weakening of the intermediate zone. A mechanism of surface rupture initiation based on simple bi-layer theory is proposed to account for the intensification of surface ruptures observed in the intact regions on advancing towards the fibrillation front. Focusing specifically on the primary collagen architecture in the cartilage matrix, this study proposes a pathway of change from intact to overt disruption within a unified structural framework.
取自骨关节炎牛髌骨的软骨用于研究与纤维状病变发展相关的胶原结构变化进程。使用完全水化的径向切片的微分干涉对比光学显微镜显示,一般基质中纤维结构的改变具有连续性,这与天然径向排列的纤维通过基于非缠绕的连接机制在横向反复相互连接的渐进性解构一致。这种解构显示发生在与破裂病变相邻的仍完整区域,从而使它们更容易发生径向破裂。观察到两种不同的表面破裂模式,并根据中间区域是否存在倾斜结构弱化来解释。提出了一种基于简单双层理论的表面破裂起始机制,以解释在完整区域中朝着纤维化前沿推进时观察到的表面破裂加剧现象。本研究特别关注软骨基质中的主要胶原结构,提出了在统一结构框架内从完整到明显破坏的变化途径。