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Direct Quantification of Intervertebral Disc Water Content Using MRI

Bo Yang, Michael F. Wendland, Grace D. O’Connell

2020Journal of Magnetic Resonance Imaging32 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Water content is a key parameter for simulating tissue swelling and nutrient diffusion. Accurately measuring water content throughout the intervertebral disc (NP = nucleus pulposus; AF = annulus fibrosus) is important for developing patient-specific models. Water content is measured using destructive techniques, Quantitative MRI has been used to estimate water content and detect early degeneration, but it is dependent on scan parameters, concentration of free water molecules, and fiber architecture. PURPOSE: To directly measure disc-tissue water content using quantitative MRI and compare MRI-based measurements with biochemical assays, and to quantify changes in disc geometry due to compression. STUDY TYPE: Basic science, controlled. SPECIMEN: Twenty bone-disc-bone motion segments from skeletally mature bovines. FIELD STRENGTH/SEQUENCE: rapid imaging with refocused echoes (RARE) sequence. ASSESSMENT: relaxation times were measured through MRI; NP and AF tissue gravimetric water content, mass density, and glycosaminoglycan content were measured through a biochemical assay. STATISTICAL TESTS: Correlations between MRI-based measurement and biochemical composition were evaluated using Pearson's linear regression. RESULTS: ). However, the same approach underestimated water content in the AF by ~10%, which may be due to a higher concentration of collagen fibers and bound water molecules. DATA CONCLUSION: Spin density or spin density normalized by mass density to estimate NP and AF water content was more accurate than correlations between water content and relaxation times. Mechanical dehydration decreased disc volume and disc height, and increased maximum cross-sectional area. LEVEL OF EVIDENCE: TECHNICAL EFFICACY STAGE: J. Magn. Reson. Imaging 2020;52:1152-1162.

Topics & Concepts

Bound waterWater contentIntervertebral discT2 relaxationBiomedical engineeringContent (measure theory)ChemistryNuclear magnetic resonanceMaterials scienceMagnetic resonance imagingAnatomyMedicineMoleculeRadiologyMathematicsEngineeringMathematical analysisPhysicsGeotechnical engineeringOrganic chemistrySpine and Intervertebral Disc PathologyCervical and Thoracic MyelopathyMedical Imaging and Analysis
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