Diffusion magnetic resonance imaging reveals tract-specific microstructural correlates of electrophysiological impairments in non-myelopathic and myelopathic spinal cord compression

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Authors	VALOSEK Jan LABOUNEK Rene HORÁK Tomáš HORÁKOVÁ Magda BEDNAŘÍK Petr KEŘKOVSKÝ Miloš KOČICA Jan ROHAN Tomáš LENGLET Christophe COHEN-ADAD Julien HLUSTIK Petr VLČKOVÁ Eva KADAŇKA Zdeněk BEDNAŘÍK Josef SVÁTKOVÁ Alena
Year of publication	2021
Type	Article in Periodical
Magazine / Source	European Journal of Neurology
MU Faculty or unit	Faculty of Medicine
Citation
Web	https://onlinelibrary.wiley.com/doi/10.1111/ene.15027
Doi	http://dx.doi.org/10.1111/ene.15027
Keywords	diffusion magnetic resonance imaging; diffusion tensor imaging; spinal cord compression
Description	Background and purpose Non-myelopathic degenerative cervical spinal cord compression (NMDC) frequently occurs throughout aging and may progress to potentially irreversible degenerative cervical myelopathy (DCM). Whereas standard clinical magnetic resonance imaging (MRI) and electrophysiological measures assess compression severity and neurological dysfunction, respectively, underlying microstructural deficits still have to be established in NMDC and DCM patients. The study aims to establish tract-specific diffusion MRI markers of electrophysiological deficits to predict the progression of asymptomatic NMDC to symptomatic DCM. Methods High-resolution 3 T diffusion MRI was acquired for 103 NMDC and 21 DCM patients compared to 60 healthy controls to reveal diffusion alterations and relationships between tract-specific diffusion metrics and corresponding electrophysiological measures and compression severity. Relationship between the degree of DCM disability, assessed by the modified Japanese Orthopaedic Association scale, and tract-specific microstructural changes in DCM patients was also explored. Results The study identified diffusion-derived abnormalities in the gray matter, dorsal and lateral tracts congruent with trans-synaptic degeneration and demyelination in chronic degenerative spinal cord compression with more profound alterations in DCM than NMDC. Diffusion metrics were affected in the C3-6 area as well as above the compression level at C3 with more profound rostral deficits in DCM than NMDC. Alterations in lateral motor and dorsal sensory tracts correlated with motor and sensory evoked potentials, respectively, whereas electromyography outcomes corresponded with gray matter microstructure. DCM disability corresponded with microstructure alteration in lateral columns. Conclusions Outcomes imply the necessity of high-resolution tract-specific diffusion MRI for monitoring degenerative spinal pathology in longitudinal studies.
Related projects:	Využití pokročilých magneticko-rezonančních technik k objasnění patofyziologie a zlepšení diagnostiky a praktického managementu degenerativní komprese krční míchy e-Infrastruktura CZ National research infrastructure for biological and medical imaging