Quantifying the contributions of structure to annulus fibrosus mechanical function using a nonlinear, anisotropic, hyperelastic model

Guerin, Heather L.; Elliott, Dawn M.

doi:10.1002/jor.20324

Cited by 117 publications

(145 citation statements)

References 37 publications

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“…In contrast, with respect to the positive axial deformations associated with bending, the percentage contribution of collagen fibre strain to total deformation (increase in disc height) is relatively small, suggesting that collagen fibre reorientation plays a more dominant role [50,64]. Analytical structure-function modelling has highlighted the relative importance of shear and normal interactions in determining the tensile mechanical response anulus fibrosus specimens, particularly in the axial direction [19], which is consistent with the idea that relative collagen fibre reorientation is the predominating deformation mechanism for this orientation.…”

Section: Functionmentioning

confidence: 99%

The elastic fibre network of the human lumbar anulus fibrosus: architecture, mechanical function and potential role in the progression of intervertebral disc degeneration

Smith

Fazzalari

2009

Eur Spine J

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Elastic fibres are critical constituents of dynamic biological structures that functionally require elasticity and resilience. The network of elastic fibres in the anulus fibrosus of the intervertebral disc is extensive, however until recently, the majority of histological, biochemical and biomechanical studies have focussed on the roles of other extracellular matrix constituents such as collagens and proteoglycans. The resulting lack of detailed descriptions of elastic fibre network architecture and mechanical function has limited understanding of the potentially important contribution made by elastic fibres to healthy disc function and their possible roles in the progression of disc degeneration. In addition, it has made it difficult to postulate what the consequences of elastic fibre related disorders would be for intervertebral disc behaviour, and to develop treatments accordingly. In this paper, we review recent and historical studies which have examined both the structure and the function of the human lumbar anulus fibrosus elastic fibre network, provide a synergistic discussion in an attempt to clarify its potentially critical contribution both to normal intervertebral disc behaviour and the processes relating to its degeneration, and recommend critical areas for future research.

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Section: Functionmentioning

confidence: 99%

The elastic fibre network of the human lumbar anulus fibrosus: architecture, mechanical function and potential role in the progression of intervertebral disc degeneration

Smith

Fazzalari

2009

Eur Spine J

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“…Nonetheless, when the intervertebral circle worsens the annulus fibrosus ends up noticeably chaotic, which can bring about (LBP) [106]. This is because of mechanical and basic issues, for example, tears and delamination [107], as the annulus fibrosus convey to compel on the intervertebral circles to keep the coagulated material in the delicate internal centre of the intervertebral plate from spilling out [104].…”

Section: Muscular Strength and Stabilisationmentioning

confidence: 99%

The Effect of an Enhanced Rehabilitation Exercise Treatment of Non-Speciﬁc Low Back Pain- A suggestion for Rehabilitation Specialists

Gasibat¹,

Suwehli²,

Bawa³

et al. 2017

AJMS

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It is noteworthy that back pain is a medical problem in Western nations where 60%-80% of adults are most-likely to encounter low back pain issues. The purpose of this article is to investigate and bring forward the predicament of back pain faced by the society and physical activities for treatment of non-specific low back pain. This writing is a result of thorough medical research of which was partly contributed by Medline and Google Scholars. A number of general exercise programs that joins strong quality, flexibility and oxygen consuming fitness are beneficial for the restoration of non-specific interminable low back pain. Also, expanding the centre solid quality can help with supporting the lumbar spine. Besides that, enhancing the flexibility of the muscle, ligaments and tendons in the back helps expands the scope of movement of which is useful for the patient's development. It is also highly suggested that Aerobic Exercise stimulates and increases the blood flow and nutrients to the soft tissues in the back, enhancing the recuperating procedure and decreasing firmness that decreases the back pain.

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“…8) [85]. The angle-ply structure and nonlinear properties of the AF facilitate joint mobility and stability in multiple modalities, including bending, rotation, and combinations of both [32,69].…”

Section: Biomechanics Of the Intervertebral Disc And Its Endplatementioning

confidence: 99%

The biology behind the human intervertebral disc and its endplates

et al. 2015

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Quantifying the contributions of structure to annulus fibrosus mechanical function using a nonlinear, anisotropic, hyperelastic model

Cited by 117 publications

References 37 publications

The elastic fibre network of the human lumbar anulus fibrosus: architecture, mechanical function and potential role in the progression of intervertebral disc degeneration

The elastic fibre network of the human lumbar anulus fibrosus: architecture, mechanical function and potential role in the progression of intervertebral disc degeneration

The Effect of an Enhanced Rehabilitation Exercise Treatment of Non-Speciﬁc Low Back Pain- A suggestion for Rehabilitation Specialists

The biology behind the human intervertebral disc and its endplates

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