骨整合
超声波
碱性磷酸酶
骨钙素
成骨细胞
钛
超声
表面粗糙度
润湿
生物医学工程
骨形态发生蛋白2
材料科学
植入
生物物理学
化学
体外
复合材料
医学
外科
生物化学
冶金
放射科
色谱法
生物
酶
作者
Janina Sedlaczek,Christoph H. Lohmann,Ethan M. Lotz,Sharon L. Hyzy,Barbara D. Boyan,Zvi Schwartz
摘要
OBJECTIVE: Low-frequency ultrasound is widely used in the treatment of chronically infected wounds. To investigate its feasibility as a method for in situ restoration of metal implant surfaces in cases of peri-implantitis, we evaluated how low-frequency ultrasound affected surface properties of and response of human osteoblast-like MG63 cells to titanium (Ti). MATERIAL AND METHODS: . Substrate roughness, chemical composition, and wettability were analyzed before and after ultrasound application. Osteoblastic maturation of cells on sonicated disks was compared to cells on untreated disks. RESULTS: Ultrasound treatment altered the topography of all surfaces. Contact angles were reduced, and chemical compositions were altered by ultrasound on PT and SLA surfaces. Cell response to sonicated PT was comparable to untreated PT. Alkaline phosphatase was increased on sonicated SLA compared to untreated SLA, whereas DNA, osteocalcin, BMP2, osteoprotegerin, and VEGF-A were unchanged. Cells produced less osteocalcin and BMP2 on sonicated mSLA than on untreated mSLA, but no other parameters were affected. CONCLUSIONS: These results show that low-frequency ultrasound altered Ti surface properties. Osteoblasts were sensitive to the changes induced by ultrasound treatment. The data suggest that the effect is to delay differentiation, but it is unclear whether this delay will prevent osseointegration. These results suggest that low-frequency ultrasound may be useful for treating implant surfaces in situ leading to successful re-osseointegration of implants affected by peri-implantitis.
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