ASTM F2694-07 PDF

Standard No.: ASTM F2694-07
Release Date: 2007
Published By: American Society for Testing and Materials (ASTM)
Status: Be replaced
Replace By: ASTM F2694-07(2013)
Latest: ASTM F2694-16(2020)

Scope

Total Facet Prosthesis Components8212;The total facet replacement may comprise a variety of shapes and configurations. Its forms may include, but are not limited to, ball and socket articulating joints, joints having a free-floating or semi-constrained third body, metallic load-bearing surfaces, and spring and dampening mechanisms. Additionally, it may be a unilateral or bilateral design.

Spinal Testing Apparatus:

Test Chambers8212;In case of a multispecimen machine, each chamber shall be isolated to prevent cross-contamination of the test specimens. The chamber shall be made entirely of corrosion resistant materials, such as acrylic plastic or stainless steel, and shall be removable from the machine for thorough cleaning between tests.

Component Clamping/Fixturing8212;Since the purpose of the test is to characterize the wear and kinematic function of the total facet prosthesis, the method for mounting components in the test chamber shall not compromise the accuracy of assessment of the weight loss or stiffness variation during the test. For example, prostheses having complicated superior and inferior surfaces for contacting bone (for example, sintered beads, hydroxylapatite (HA) coating, plasma spray) may be specially manufactured to modify that surface in a manner that does not affect the wear simulation.

The device should be securely (rigidly) attached at its bone-implant interface to the mating test fixtures.

The motion of the superior test fixture (more posterior fixture in Figs. 1 and 2) relative to the inferior testing fixture shall be constrained in three-dimensional space except for the components in the direction of specified test motions/loads.

Load and Motion:

Facet loads (f_x) are initially applied in the direction of the positive X-axis.

Flexion load and motion are positive moment and rotation about the Y-axis.

Extension load and motion are negative moment and rotation about the Y-axis.

Lateral bend load and motion are positive and negative moments and rotations about the X-axis.

Axial rotation load and motion are positive and negative moments and rotations about the Z-axis.

Frequency8212;Test frequency is to be determined and justified by the user of this practice, and shall not exceed 2 Hz without adequate justification ensuring that the applied motion (load) profiles remain within specified tolerances and that the total facet prosthesis’s wear and functional characteristics are not significantly affected. See X1.6.

Cycle Counter8212;One complete motion is the entire range from starting position through the range of motion (or load when in load control) and returning to the starting position (load). Cycles are to be counted using an automated counting device.

Note8212;This setup would require two rotational actuators and one translational actuator.

FIG. 1 Diagrams of Possible Test Apparatus for Allowing Simultaneous Lateral Bending and Axial Rotation Motions
with Anterior-Posterior Directed Facet Loading

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ASTM F2694-07 history

2020 ASTM F2694-16(2020) Standard Practice for Functional and Wear Evaluation of Motion-Preserving Lumbar Total Facet Prostheses
2016 ASTM F2694-16 Standard Practice for Functional and Wear Evaluation of Motion-Preserving Lumbar Total Facet Prostheses
2007 ASTM F2694-07(2013) Standard Practice for Functional and Wear Evaluation of Motion-Preserving Lumbar Total Facet Prostheses
2007 ASTM F2694-07 Standard Practice for Functional and Wear Evaluation of Motion-Preserving Lumbar Total Facet Prostheses

ASTM F2694-07Standard Practice for Functional and Wear Evaluation of Motion-Preserving Lumbar Total Facet Prostheses

ASTM F2694-07 history

ASTM F2694-07
Standard Practice for Functional and Wear Evaluation of Motion-Preserving Lumbar Total Facet Prostheses