Biomomentum manch-1 生物力学 椎间融合器的测试
时间:2021-03-17 阅读:524
5.1 Intervertebral body fusion device assemblies are generally simple geometric-shaped devices which are often porous or hollow in nature. Their function is to support the anterior column of the spine to facilitate arthrodesis of the motion segment. This test method outlines materials and methods for the characterization and evaluation of the mechanical performance of different intervertebral body fusion device assemblies so that comparisons can be made between different designs.
5.2 This test method is designed to quantify the static and dynamic characteristics of different designs of intervertebral body fusion device assemblies. These tests are conducted in vitro to allow for analysis and comparison of the mechanical performance of intervertebral body fusion device assemblies to specific force modalities.
5.3 The forces applied to the intervertebral body fusion assemblies may differ from the complex loading seen in vivo, and therefore, the results from these tests may not directly predict in vivo performance. The results, however, can be used to compare mechanical performance of different intervertebral body fusion device assemblies.
5.4 Since the environment may affect the dynamic performance of intervertebral body fusion device assemblies, dynamic testing in a saline environment may be considered. Fatigue tests should first be conducted in air (at ambient temperature) for comparison purposes since the environmental effects could be significant. If a simulated in vivo environment is desired, the investigator should consider testing in a saline environmental bath at 37°C (for example, 0.9-g NaCl per 100-mL water) at a rate of 1 Hz or less. A simulated body fluid, a saline drip or mist, distilled water, or other type of lubrication at 37°C could also be used with adequate justification.
5.5 If the devices are known to be temperature and environment dependent, testing should be conducted in physiologic solution as described in 5.4. Devices that require physiologic solution for testing should be tested in the same type solution for comparison purposes.
5.6 The location within the simulated vertebral bodies and position of the intervertebral body fusion device assembly with respect to the loading axis will be dependent upon the design, the manufacturer’s recommendation, or the surgeon’s preferred method for implant placement.
5.7 It is well known that the failure of materials is dependent upon stress, test frequency, surface treatments, and environmental factors. Therefore, when determining the effect of changing one of these parameters (for example, frequency, material, or environment), all others must be kept constant to facilitate interpretation of the results.
5.1椎间融合器组件通常是简单的几何形状的设备,本质上通常是多孔或空心的。它们的功能是支撑脊柱的前柱,以促进运动节段的关节固定。该测试方法概述了用于表征和评估不同椎间融合器组件机械性能的材料和方法,以便可以在不同设计之间进行比较。
5.2此测试方法旨在量化椎间融合器组件不同设计的静态和动态特性。这些测试是在体外进行的,可以分析和比较椎间融合器组件的机械性能与特定的力模态。
5.3椎体融合组件上施加的力可能不同于体内看到的复杂载荷,因此,这些测试的结果可能无法直接预测体内性能。然而,该结果可用于比较不同椎骨间融合装置组件的机械性能。
5.4由于环境可能会影响椎间融合器组件的动态性能,因此可以考虑在盐环境中进行动态测试。为了进行比较,应先在空气中(在环境温度下)进行疲劳测试,因为这可能会对环境造成重大影响。如果需要模拟的体内环境,研究人员应考虑在37°C的盐水环境浴(例如,每100 mL水中0.9 g NaCl)中以1 Hz或更低的速率进行测试。也可以在充分的理由下使用模拟的体液,盐水或雾滴,蒸馏水或其他在37°C下进行的润滑。
5.5如果已知设备取决于温度和环境,则应按照5.4所述在生理溶液中进行测试。需要生理溶液进行测试的设备应在相同类型的溶液中进行测试,以进行比较。
1.1本测试方法涵盖了椎间融合器组件,旨在促进给定脊柱运动节段的关节固定术的脊柱植入物的静态和动态测试的材料和方法。
biomomentum多轴机械测试仪Mach-1
Mach-1多轴机械测试仪是模块化集成压缩,拉伸,剪切,摩擦,扭转和3D压痕映射、电位分布等测试设备
biomomentum至1999年以来,专注用于测试生物材料,组织和关节软骨机-电特性产品的设计、开发、制造和商业化的创新解决方案20余年。
其mach-1多轴向多功能组织材料机械特性测试分析系统已经成为组织材料机械-电位测试分析的黄金标准。
1、多功能、多轴向,适用样品范围广:
•1.1、从骨等硬组织材料到脑组织、眼角膜等极软的组织材料
•1.2、从粗的椎间盘的样品到极细的单纤维丝
2、力学类型测试分析功能齐全:
2.1、模块化集成压缩、张力、剪切、摩擦、扭转、穿刺、摩擦和非平面压痕、3D厚度、3D表面轮廓等各种力学类型支持,微观结构表征及动态力学分析研究
2.2、多物理场耦合加载测试
•3、通高量压痕、压缩测试分析(48孔板中压痕测试分析)
•4、高精度、高分辨率:
•4.1、位移分辨率达0.1um
•4.2、力分辨率达0.025mN
•4.3、样品直径小25um
•5、行程范围广:50-250mm
•6、体积小巧、可放入培养箱内
•7 、DIC (Digital Image Correlation)数字图像相关法非接触式的高精度位移、应变测量
•9、活性组织电位分布测试分析
•10、产品成熟,文献量达上千篇
材料力学性能简介:
材料力学性能是指材料在不同环境(温度、介质、湿度)下,承受各种外加载荷(拉伸、压缩、弯曲、扭转、冲击、交变应力等)时所表现出的力学特征。
可以放进标准培养箱里进行培养;
测试意义及适用范围:
材料力学性能可以应用到生产的任何阶段,从测试原材料质量直到检查制成品的耐用性。 测试可对广泛多样的生物样品、材料和产品进行,包括软组织、软骨组织、皮肤组织、凝胶组织、高分子材料、生物产品、医学鉴定和水凝胶等。力学性能测试可帮助企业向客户证明其产品的力学性能、稳定性和安性,从而获得基础数据和竞争势。
1、多功能、多轴向,适用样品范围广:
1.1、从骨等硬组织材料到脑组织、眼角膜等极软的组织材料
1.2、从粗的椎间盘的样品到极细的单纤维丝
2、力学类型测试分析功能齐全:
2.1、模块化集成压缩、张力、剪切、摩擦、扭转、穿刺、摩擦和非平面压痕、3D厚度、3D表面轮廓等各种力学类型支持,微观结构表征及动态力学分析研究
2.2、多物理场耦合加载测试