Introduction

Chronic low back pain (LBP) is a crippling condition that affects quality of life and is a significant burden to the health care system and the workforce. The mechanisms of LBP are poorly understood, however it is well known that loss of intervertebral disc (disc) height due to degeneration is a common cause of chronic low back and referred pain. Gross disc injury such as herniation can be caused by sudden overload or by damage accumulation via repetitive loading, which is a cause of acute LBP and an accelerant of disc degeneration. The aim of this study was to determine for the first time the relationship between combined repetitive compression, flexion and axial rotation motion of degenerated cadaver lumbar spine segments, and the progression of three-dimensional (3D) internal disc strains that may lead to disc herniation and macroscopic tissue damage.