‘Stress’ Distributions Inside Intervertebral Discs

Adams, MA; McNally, Donal; Dolan, Patricia

doi:10.1302/0301-620x.78b6.0780965

Cited by 253 publications

(178 citation statements)

References 20 publications

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“…Many reasons are related to the discogenic pain, such as disruption of the nucleus pulposus and anulus fibrosus, ingrowth of the granulation tissue and nerve endings into deeper layer of the annulus [13,14], irritation by inflammatory cytokines [15][16][17], mechanical stimulation associated with lumbar movement on the sinuvertebral nerve ending distributed in the outer one-third of the annulus and posterior longitudinal ligament [18], and epidural inflammation due to annular tears can also contribute to the pathogenesis of pain [19]. Although all mechanisms can exist in each patient, one or two of them maybe dominant in pain generation.…”

Section: Discussionmentioning

confidence: 99%

Diagnosis of discogenic low back pain in patients with probable symptoms but negative discography

Liu

Song

et al. 2012

Arch Orthop Trauma Surg

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Section: Discussionmentioning

confidence: 99%

Diagnosis of discogenic low back pain in patients with probable symptoms but negative discography

Liu

Song

et al. 2012

Arch Orthop Trauma Surg

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“…In normal disc, the posterior annulus is weaker than the anterior annulus [9], but sustains higher stresses [10]. Aging and degeneration would compromise disc structure and disturb stress distributions.…”

Section: Introductionmentioning

confidence: 99%

“…Aging and degeneration would compromise disc structure and disturb stress distributions. Adams et al [10] reported that in degenerative disc the compressive stress was reduced 30 % within the central nucleus region, but increased 160 % within the surrounding annulus. In addition, the changes of degeneration were greater on the posterior annulus than the anterior.…”

Section: Introductionmentioning

confidence: 99%

Relationship between annular tear and presence of Propionibacterium acnes in lumbar intervertebral disc

et al. 2015

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“…Nucleus pressure was raised corresponding to increase in volume by the injection of fluid (Andersson and Schultz 1979;Ranu 1993) and fell when the volume was decreased by either surgical excision (Brinckmann and Grootenboer 1991) or nucleoplasty (Chen et al 2003). There was a reduction in the hydrostatic pressure in the functional nucleus of discs that were subjected to rigorous creep loading; 1-2 kN maintained for 2-3 h (Adams et al 1996). This reduction can be partially explained by an increase in facet loading, especially in lordotic postures.…”

Section: Introductionmentioning

confidence: 99%

The influence of exogenous cross-linking and compressive creep loading on intradiscal pressure

Chuang

Lin²,

Hedman

2010

Biomech Model Mechanobiol

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This study involves a biomechanical evaluation of a prospective injectable treatment for degenerative discs. The high osmolarity of the non-degenerated nucleus pulposus attracts water contributing to the hydrostatic behavior of the tissue. This intradiscal pressure is known to drop as fluid is exuded from the matrix due to compressive loading. The objective of this study was to compare the changes in intradiscal pressure in control and genipin cross-linked intervertebral discs. Thirty bovine lumbar motion segments were randomly divided into a phosphate-buffered saline control group and a 0.33% genipin group and soaked at room temperature for 2 days. A needle pressure sensor was held in the center of the disc while short-term and static creep compressive loads were applied. The control group demonstrated a 25% higher average intradiscal pressure compared to genipin-treated discs under 750 N compressive load (p=0.029). Depressurization during static compressive creep was 56% higher in the control than in the genipin group (p=0.014). These results suggest cross-linking induced changes in the poroelastic properties of the involved tissues affected the mechanics of compressive load support in the disc with lower levels of nucleus pressure, a corresponding decrease in the elastic expansion of the annulus, and an increased axial compressive loading of the inner and outer annulus tissues. It is possible that concurrent changes in hydraulic permeability and proteoglycan retention known to be associated with genipin cross-linking were also contributors to poroelastic changes. Reduction of peak pressures and moderation of pressure fluctuations could be beneficial relative to discogenic pain.

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‘Stress’ Distributions Inside Intervertebral Discs

Cited by 253 publications

References 20 publications

Diagnosis of discogenic low back pain in patients with probable symptoms but negative discography

Diagnosis of discogenic low back pain in patients with probable symptoms but negative discography

Relationship between annular tear and presence of Propionibacterium acnes in lumbar intervertebral disc

The influence of exogenous cross-linking and compressive creep loading on intradiscal pressure

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