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Micro-Brillouin Scattering Measurements in Mature and Newly Formed Bone Tissue Surrounding an Implant

Abstract : The evolution of implant stability in bone tissue remains difficult to assess because remodeling phenomena at the bone-implant interface are still poorly understood. The characterization of the biomechanical properties of newly formed bone tissue in the vicinity of implants at the microscopic scale is of importance in order to better understand the osseointegration process. The objective of this study is to investigate the potentiality of micro-Brillouin scattering techniques to differentiate mature and newly formed bone elastic properties following a multimodality approach using histological analysis. Coin-shaped Ti-6Al-4V implants were placed in vivo at a distance of 200 mu m from rabbit tibia leveled cortical bone surface, leading to an initially empty cavity of 200 mu m x 4.4 mm. After 7 weeks of implantation, the bone samples were removed, fixed, dehydrated, embedded in methyl methacrylate, and sliced into 190 mu m thick sections. Ultrasonic velocity measurements were performed using a micro-Brillouin scattering device within regions of interest (ROIs) of 10 mu m diameter. The ROIs were located in newly formed bone tissue (within the 200 mu m gap) and in mature bone tissue (in the cortical layer of the bone sample). The same section was then stained for histological analysis of the mineral content of the bone sample. The mean values of the ultrasonic velocities were equal to 4.97 x 10(-3) m/s in newly formed bone tissue and 5.31 x 10(-3) m/s in mature bone. Analysis of variance (p = 2.42 x 10(-4)) tests revealed significant differences between the two groups of measurements. The standard deviation of the velocities was significantly higher in newly formed bone than in mature bone. Histological observations allow to confirm the accurate locations of the velocity measurements and showed a lower degree of mineralization in newly formed bone than in the mature cortical bone. The higher ultrasonic velocity measured in newly formed bone tissue compared with mature bone might be explained by the higher mineral content in mature bone, which was confirmed by histology. The heterogeneity of biomechanical properties of newly formed bone at the micrometer scale may explain the higher standard deviation of velocity measurements in newly formed bone compared with mature bone. The results demonstrate the feasibility of micro-Brillouin scattering technique to investigate the elastic properties of newly formed bone tissue. [DOI: 10.1115/1.4003131]
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Submitted on : Tuesday, May 1, 2012 - 3:27:22 PM
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V. Mathieu, K. Fukui, M. Matsukawa, M. Kawabe, Romain Vayron, et al.. Micro-Brillouin Scattering Measurements in Mature and Newly Formed Bone Tissue Surrounding an Implant. Journal of Biomechanical Engineering-Transactions of the ASME, 2011, 133 (2), ⟨10.1115/1.4003131⟩. ⟨hal-00692850⟩



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