Hani G. Baramki scite author profile

Understanding degenerative intervertebral disc diseases hinges on the ability to objectively and noninvasively assess the disc matrix composition and integrity. The potential of quantitative magnetic resonance imaging to meet these demands was evaluated. Analyzing the T1 and T2 signal patterns in the nucleus pulposus with increasing Thompson morphological grade revealed a significant reduction related to grade. This significant decrease in T1 and T2 in the nucleus pulposus with grade 4 degeneration and the corresponding low correlation coefficients with respect to the content of individual matrix molecules suggest that matrix integrity plays an important and distinct role in determining T1 and T2 signal. Similarly, the significant increase in magnetization transfer in the nucleus pulposus observed in grade 4 degeneration did not correlate with the changes in molecular content in these highly degenerated discs. Again, this lack of correlation clearly indicates that the tissue integrity and matrix composition independently contribute to the magnetization transfer signal. This study presents the first clear evidence that quantitative magnetic resonance analysis reflects not only the disc matrix composition, but also the structural integrity of the matrix of the disc.

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A New Technique for Measuring Lumbar Segmental Motion In Vivo

Steffen

Rubin

Baramki

et al. 1997

Spine

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Lumbar intradiscal pressure measured in the anterior and posterolateral annular regions during asymmetrical loading

Steffen¹,

Baramki²,

Rubin³

et al. 1998

Clinical Biomechanics

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Hani G. Baramki

Quantitative magnetic resonance imaging in the assessment of degenerative disc disease

A New Technique for Measuring Lumbar Segmental Motion In Vivo

Lumbar intradiscal pressure measured in the anterior and posterolateral annular regions during asymmetrical loading

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