Tensile behaviour of individual fibre bundles in the human lumbar anulus fibrosus.

Disc degeneration is a common medical affliction whose origins are not fully understood. An improved understanding of its underlying mechanisms could lead to the development of more effective treatments. The aim of this paper was to investigate the effect of (1) degeneration, (2) circumferential region and (3) strain rate on the microscale mechanical properties (toe region modulus, linear modulus, extensibility, phase angle) of individual fibre bundles in the anulus fibrosus lamellae of the human intervertebral disc.

The Biomechanics of eyelid tarsus tissue.

Reconstruction of the eyelid remains challenging due to the unique properties of the tarsal plate, which is a fibrocartilagenous structure within the eyelid providing structural support and physical form. There are no previous studies investigating the biomechanical properties of tarsus tissue, which is vital to the success of bioengineered tarsal substitutes. We therefore aimed to determine the biomechanical properties of human tarsus tissue, and used a CellScale BioTester 5000 (CellScale, Waterloo, Canada) to perform uniaxial tensile tests on ten samples of healthy eyelid tarsus.