Cyclic Mechanism Affects Lumbar Spine Creep Response

Ann Biomed Eng. 2024 Aug 4. doi: 10.1007/s10439-024-03595-w. Online ahead of print.

Abstract

Purpose: This study aims to explore how cyclic loading influences creep response in the lumbar spine under combined flexion-compression loading.

Methods: Ten porcine functional spinal units (FSUs) were mechanically tested in cyclic or static combined flexion-compression loading. Creep response between loading regimes was compared using strain-time histories and linear regression. High-resolution computed tomography (µCT) visualized damage to FSUs. Statistical methods, ANCOVA and ANOVA, assessed differences in behavior between loading regimes.

Results: Cyclic and static loading regimes exhibited distinct creep response patterns and biphasic response. ANCOVA and ANOVA analyses revealed significant differences in slopes of creep behavior in both linear phases. Cyclic tests consistently showed endplate fractures in µCT imaging.

Conclusion: The study reveals statistically significant differences in creep response between cyclic and static loading regimes in porcine lumbar spinal units under combined flexion-compression loading. The observed biphasic behavior suggests distinct phases of tissue response, indicating potential shifts in load transfer mechanisms. Endplate fractures in cyclic tests suggest increased injury risk compared to static loading. These findings underscore the importance of considering loading conditions in computational models and designing preventive measures for occupations involving repetitive spinal loading.

Keywords: Combined loading; Creep response; Cyclic loading; Lumbar spine; Mechanical testing.