A Guide to ASTM F2077-18, Characterization and Fatigue of Spinal Intervertebral Body Fusion Devices
- ASTM F2077
- High Cycle Fatigue
Written by Toby Lane
Intervertebral Body Fusion devices are used to promote arthrodesis of a spinal motion segment, following disc degeneration. The implant acts as a support of the anterior column whilst the two vertebral discs grow together and fuse the spine. Intervertebral Body Fusion is an alternative technique to that of Intervertebral Disc replacement.
- Torsion Testing
We recommend that you review the standard to fully understand its requirements. An alternative test for intervertebral body fusion devices is specified in ASTM-F2267.
Challenges of ASTM F2077 Testing:
- Machining/manufacture of test blocks to match specimen shape
- Monitoring of intradiscal height during test
- Assessment of mechanical failure during test
- Avoidance of self-heating in test blocks
- Maintaining load peaks at high frequency
- Test duration for in vivo tests
An axial-torsion system is required to encompass all test types from this standard and will allow manufacturers and researchers to conduct both static and fatigue testing on a range of implant designs with a single test system. The ElectroPuls® E3000 and E10000 Linear-Torsion All-Electric Dynamic Test Instruments, as well as the 8874 servohydraulic Dynamic test frame, all offer the necessary capabilities for testing to this standard with the use of specialised fixtures. Each system can be combined with a temperature controlled bath for simulation of in vivo conditions and Instron’s range of Biaxial Dynacell™ load cells can be mounted on the end of the moving axial-torsional actuator providing automatic compensation for errors caused by inertial loading.
For both the Axial-compression and Compression shear tests the same fixture is used. This fixture connects to the system actuator via a universal joint and features a pushrod with an additional minimal friction sphere joint at its other end. The pushrod must be at least 38cm in length between the centre of each joint so as to compensate for any misalignment in the loadstring.
For the Torsion testing, the fixture is similar, with the lower joint type being the only difference. In this case, a spherical gimbal mechanism is used so that both a compressive force and moment can be applied to the specimen simultaneously.
For each test the specimen is held between two test blocks that are machined to match the specimens form and are rigidly attached to the fixture and test frame. The test blocks for the shear tests are machined such that the sample is held at the desired angle with respect to the table plane so that a shear force is created when an axial load is applied.
For static tests, the blocks are manufactured from metal and can be re-used. For the dynamic tests, blocks are manufactured from polyacetal and are single use.
|Static Tests||Dynamic Tests|
A simple Load vs. Displacement plot is used to characterise each sample for the Static tests.
Static Test Results Table (ASTM F2077)
|Specimen ID||Stiffness (N/mm)||Yield Displacement (mm)||Yield Load (N)||Ultimate Displacement (mm)||Ultimate Load (N)|
For the Static torsion tests, a torque vs. angle curve is produced instead with a similar table providing the same mean and standard deviation values.
For the Dynamic tests, an SN curve with a minimum of 6 points is required for each specimen type, the aim being to identify the endurance life stress.
Dynamic Test Results Table (ASTM F2077)
|Specimen ID||Maximum Load (N)||Minimum Load (N)||Number of Cycles Achieved||Failure Mode|
|Sample 3||3,000||300||5,000,000||Pass without Fracture|
|Sample 4||2,000||200||5,000,000||Pass without Fracture|
|Sample 5||1,000||100||5,000,000||Pass without Fracture|
The data point from each sample can be used to produce a plot of Stress vs. No. of cycle to failure.
ElectroPuls instruments are state-of-the-art electrodynamic test systems for dynamic and static tests on materials and components. Powered entirely from a single-phase mains supply, they feature the latest in testing technology and a host of other user-oriented features.
The ElectroPuls E3000 is a state-of-the-art, all-electric test instrument designed for dynamic and static testing on a wide range of materials and components. It includes Instron advanced digital control electronics, Dynacell™ load cell, Console software, and the very latest in testing technology–hassle-free tuning based on specimen stiffness, electrically operated crosshead lifts, a T-slot table for flexible test set ups and a host of other user-orientated features. Powered from a single-phase supply it requires no additional utilities for basic machine operation (for example, pneumatic air, hydraulics, or water).
The ElectroPuls® E10000 is a state-of-the-art, all-electric test instrument designed for dynamic and static testing on a wide range of materials and components. It includes Instron® advanced digital control electronics, bi-axial Dynacell™ load cell, Console software, and the very latest in testing technology – hassle-free tuning based on specimen stiffness, electrically operated crosshead lifts, a T-slot table for flexible test set ups and a host of other user-orientated features. Powered from a single-phase supply it requires no additional utilities for basic machine operation (for example, pneumatic air, hydraulics, or water).