Univ Lyon, Université Claude Bernard Lyon 1, IFSTTAR, LBMC UMR_T9406, F69622 Lyon, France; Univ Lyon, CNRS UMR 5220, Inserm U1206, INSA Lyon, Université Claude Bernard Lyon 1, Creatis, F69621 Villeurbanne Cedex, France.
Univ Lyon, Université Claude Bernard Lyon 1, INSERM, LYOS UMR1033, F69008 Lyon, France.
Bone. 2018 Jul;112:202-211. doi: 10.1016/j.bone.2018.04.024. Epub 2018 May 3.
Human cortical bone fracture processes depend on the internal porosity network down to the lacunar length scale. Recent results show that at the collagen scale, the maturation of collagen cross-links may have a negative influence on bone mechanical behavior. While the effect of pentosidine on human cortical bone toughness has been studied, the influence of mature and immature enzymatic cross-links has only been studied in relation to strength and work of fracture. Moreover, these relationships have not been studied on different paired anatomical locations. Thus, the aim of the current study was to assess the relationships between both enzymatic and non-enzymatic collagen cross-links and human cortical bone toughness, on four human paired anatomical locations. Single Edge Notched Bending toughness tests were performed for two loading conditions: a quasi-static standard condition, and a condition representative of a fall. These tests were done with 32 paired femoral diaphyses, femoral necks and radial diaphyses (18 women, age 81 ± 12 y.o.; 14 men, age 79 ± 8 y.o.). Collagen enzymatic and non-enzymatic crosslinks were measured on the same bones. Maturation of collagen was defined as the ratio between immature and mature cross-links (CX). The results show that there was a significant correlation between collagen cross-link maturation and bone toughness when gathering femoral and radial diaphyses, but not when considering each anatomical location individually. These results show that the influence of collagen enzymatic and non-enzymatic cross-links is minor when considering human cortical bone crack propagation mechanisms.
人类皮质骨骨折过程取决于内部孔隙网络,直至腔隙长度尺度。最近的研究结果表明,在胶原尺度上,胶原交联的成熟可能对骨力学行为产生负面影响。虽然已经研究了戊糖对人皮质骨韧性的影响,但成熟和不成熟酶交联对骨强度和断裂功的影响仅在相关研究中进行了研究。此外,这些关系尚未在不同的配对解剖位置上进行研究。因此,本研究的目的是评估在四个配对的人皮质骨解剖位置上,两种酶和非酶胶原交联与皮质骨韧性之间的关系。对两种加载条件下的单边缺口弯曲韧性测试进行了测试:准静态标准条件和代表跌倒的条件。这些测试是在 32 对股骨骨干、股骨颈和桡骨干(18 名女性,年龄 81±12 岁;14 名男性,年龄 79±8 岁)上进行的。对相同的骨骼进行胶原酶和非酶交联的测量。胶原交联的成熟度定义为不成熟交联与成熟交联的比值(CX)。结果表明,当收集股骨和桡骨干时,胶原交联成熟度与骨韧性之间存在显著相关性,但当分别考虑每个解剖位置时则不存在相关性。这些结果表明,在考虑人类皮质骨裂纹扩展机制时,胶原酶和非酶交联的影响较小。
