3D virtual reconstruction and quantitative assessment of the human intervertebral disc’s annulus fibrosus: a DTI tractography study

3D virtual reconstruction and quantitative assessment of the human intervertebral disc’s annulus fibrosus: a DTI tractography study

The intervertebral disc’s (IVD) annulus fibrosus (AF) retains the hydrostatic pressure of the nucleus pulposus (NP), controls the range of motion, and maintains the integrity of the motion segment. The microstructure of the AF is not yet fully understood and quantitative characterization is lacking,...

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Veröffentlicht in:Scientific reports 2021-03, Vol.11 (1), p.6815-6815, Article 6815
Hauptverfasser: Stein, Dan, Assaf, Yaniv, Dar, Gali, Cohen, Haim, Slon, Viviane, Kedar, Einat, Medlej, Bahaa, Abbas, Janan, Hay, Ori, Barazany, Daniel, Hershkovitz, Israel
Format: Artikel
Sprache:eng
Schlagworte:
631/181
631/181/2806
639/925/930/2735
692/698
692/698/1671/1354
Anisotropy
Collagen
Fibers
Histology
Humanities and Social Sciences
Hydrostatic pressure
Intervertebral discs
Magnetic resonance imaging
Microstructure
Morphology
multidisciplinary
Nucleus pulposus
Quantitative analysis
Science
Science (multidisciplinary)
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Zusammenfassung:The intervertebral disc’s (IVD) annulus fibrosus (AF) retains the hydrostatic pressure of the nucleus pulposus (NP), controls the range of motion, and maintains the integrity of the motion segment. The microstructure of the AF is not yet fully understood and quantitative characterization is lacking, leaving a caveat in modern medicine’s ability to prevent and treat disc failure (e.g., disc herniation). In this study, we show a reconstruction of the 3D microstructure of the fibers that constitute the AF via MRI diffusion tensor imaging (DTI) followed by fiber tracking. A quantitative analysis presents an anisotropic structure with significant architectural differences among the annuli along the width of the fibrous belt. These findings indicate that the outer annuli's construction reinforces the IVD while providing a sufficient degree of motion. Our findings also suggest an increased role of the outer annuli in IVD nourishment.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-86334-8