可生物降解和钛质骨固定系统的机械强度和刚度

Mechanical strength and stiffness of biodegradable and titanium osteofixation systems.

作者信息

Buijs Gerrit J, van der Houwen Eduard B, Stegenga Boudewijn, Bos Rudulf R M, Verkerke Gijsbertus J

机构信息

Department of Oral and Maxillofacial Surgery, University Medical Center Groningen, University of Groningen, Groningen, The Netherlands.

出版信息

J Oral Maxillofac Surg. 2007 Nov;65(11):2148-58. doi: 10.1016/j.joms.2007.04.010.

DOI:10.1016/j.joms.2007.04.010

PMID:17954307

Abstract

PURPOSE

To present relevant mechanical data to simplify the selection of an osteofixation system for situations requiring immobilization in oral and maxillofacial surgery.

MATERIALS AND METHODS

Seven biodegradable and 2 titanium osteofixation systems were investigated. The plates and screws were fixed to 2 polymethylmethacrylate (PMMA) blocks to simulate bone segments. The plates and screws were subjected to tensile, side bending, and torsion tests. During tensile tests, the strength of the osteofixation system was monitored. The stiffness was calculated for the tensile, side bending, and torsion tests.

RESULTS

The 2 titanium systems (1.5 mm and 2.0 mm) presented significantly higher tensile strength and stiffness compared with the 7 biodegradable systems (2.0 mm, 2.1 mm, and 2.5 mm). The 2.0 mm titanium system showed significantly higher side bending and torsion stiffness than the other 8 systems.

CONCLUSION

Based on the results of the current study, it can be concluded that the titanium osteofixation systems were (significantly) stronger and stiffer than the biodegradable systems. The BioSorb FX (Linvatec Biomaterials Ltd, Tampere, Finland), LactoSorb (Walter Lorenz Surgical Inc, Jacksonville, FL), and Inion (Inion Ltd, Tampere, Finland) 2.5 mm systems have high mechanical device strength and stiffness compared with the investigated biodegradable osteofixation systems. With the cross-sectional surface taken into account, the Biosorb FX system (with its subtle design) proves to be the far more superior system. The Resorb X (Gebrüder Martin GmbH & Co, Tuttlingen, Germany) and MacroPore (MacroPore Biosurgery Inc, Memphis, TN) systems present to be, at least from a mechanical point of view, the least strong and stiff systems in the test.

摘要

目的

提供相关力学数据，以简化口腔颌面外科手术中需要固定时骨固定系统的选择。

材料与方法

研究了7种可生物降解和2种钛质骨固定系统。将板和螺钉固定在2个聚甲基丙烯酸甲酯（PMMA）块上以模拟骨段。对板和螺钉进行拉伸、侧弯和扭转试验。在拉伸试验期间，监测骨固定系统的强度。计算拉伸、侧弯和扭转试验的刚度。

结果

与7种可生物降解系统（2.0 mm、2.1 mm和2.5 mm）相比，2种钛质系统（1.5 mm和2.0 mm）的拉伸强度和刚度明显更高。2.0 mm钛质系统的侧弯和扭转刚度明显高于其他8种系统。

结论

根据本研究结果，可以得出结论，钛质骨固定系统比可生物降解系统（明显）更强、更硬。与所研究的可生物降解骨固定系统相比，BioSorb FX（芬兰坦佩雷林瓦特克生物材料有限公司）、LactoSorb（美国佛罗里达州杰克逊维尔沃尔特·洛伦兹外科公司）和Inion（芬兰坦佩雷Inion有限公司）2.5 mm系统具有较高的机械装置强度和刚度。考虑到横截面，BioSorb FX系统（因其精妙设计）被证明是更为优越的系统。Resorb X（德国图特林根格布勒·马丁有限公司）和MacroPore（美国田纳西州孟菲斯MacroPore生物外科公司）系统至少从力学角度来看是试验中强度和刚度最低的系统。

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可生物降解和钛质骨固定系统的机械强度和刚度

Mechanical strength and stiffness of biodegradable and titanium osteofixation systems.

作者信息

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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