Gallo J, Raska M, Mrázek F, Petrek M
Department of Orthopaedics, I.P. Pavlova 6, Olomouc, Czech Republic.
Physiol Res. 2008;57(3):339-349. doi: 10.33549/physiolres.931140. Epub 2007 Apr 25.
Bone remodeling is a tightly coupled process consisting of repetitive cycles of bone resorption and formation. Both processes are governed by mechanical signals, which operate in conjunction with local and systemic factors in a discrete anatomic structure designated a basic multicellular unit (BMU). The microenvironment around total joint arthroplasty is a dynamic and complex milieu influenced by the chemical and physical stimuli associated with servicing the prosthesis. A key factor limiting the longevity of the prosthesis is polyethylene wear, which induces particle disease, and this may lead to increased and prolonged activity of BMUs resulting in periprosthetic osteolysis. Several pathways regulating BMU function have been reported in the past, including RANKL/RANK/OPG/TRAF6, TNF-alpha/TNFR/TRAF1, and IL-6/CD126/JAK/STAT. Moreover, the expression and functional activity of all these molecules can be affected by variations in their genes. These may explain the differences in severity of bone defects or prosthetic failure between patients with similar wear rates and the same prosthesis. Simultaneously, this data strongly support the theory of individual susceptibility to prosthetic failure.
骨重塑是一个紧密耦合的过程,由骨吸收和形成的重复循环组成。这两个过程均受机械信号调控,这些信号与局部和全身因素共同作用于一个被称为基本多细胞单位(BMU)的离散解剖结构中。全关节置换周围的微环境是一个动态且复杂的环境,受到与假体维护相关的化学和物理刺激的影响。限制假体使用寿命的一个关键因素是聚乙烯磨损,其会引发颗粒疾病,这可能导致BMU的活性增加和持续时间延长,进而导致假体周围骨溶解。过去已报道了几种调节BMU功能的途径,包括RANKL/RANK/OPG/TRAF6、TNF-α/TNFR/TRAF1和IL-6/CD126/JAK/STAT。此外,所有这些分子的表达和功能活性都可能受到其基因变异的影响。这可能解释了磨损率相似且使用相同假体的患者之间骨缺损严重程度或假体失败情况的差异。同时,这些数据有力地支持了个体对假体失败易感性的理论。
