Longitudinal changes of spinal cord grey and white matter following spinal cord injury

Dávid, Gergely; Pfyffer, Dario; Vallotton, Kevin; Pfender, Nikolai; Thompson, Alan J.; Weiskopf, Nikolaus; Mohammadi, Siawoosh; Curt, Armin; Freund, Patrick

doi:10.1136/jnnp-2021-326337

Cited by 31 publications

(43 citation statements)

References 38 publications

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“…A clinical neurophysiological and MRI studies indicated the development of these events in distant areas of patients’ spinal cord after spinal cord injury. Distinct spatiotemporal dynamics of tissue-specific neurodegeneration were found above and below spinal cord injury ( David et al, 2021 ). Spatiotemporal experimental analysis of the gray and white matter of the spinal cord at a distance from the epicenter of injury shows the differential pattern and severity of pathological reactions, gene expression, and molecular regulation in the remote rostral and caudal regions ( Ek et al, 2010 ; Yu et al, 2019 ).…”

Section: Introductionmentioning

confidence: 99%

Cellular and Molecular Gradients in the Ventral Horns With Increasing Distance From the Injury Site After Spinal Cord Contusion

Kabdesh

Mukhamedshina

Arkhipova

et al. 2022

Front. Cell. Neurosci.

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To identify cellular and molecular gradients following spinal cord injury (SCI), a rat contusion model of severe SCI was used to investigate the expression of NG2 and molecules that identify astrocytes and axons of the ventral horns (VH) at different distances on 7 and 30 days post-injury (dpi). A gradient of expression of NG2+/Olig2+ cells was determined, with the highest concentrations focused close to the injury site. A decrease in NG2 mean intensity correlates with a decrease in the number of NG2+ cells more distally. Immunoelectron microscopy subsequently revealed the presence of NG2 in connection with the membrane and within the cytoplasm of NG2+ glial cells and in large amounts within myelin membranes. Analysis of the astrocyte marker GFAP showed increased expression local to injury site from 7 dpi, this increase in expression spread more distally from the injury site by 30 dpi. Paradoxically, astrocyte perisynaptic processes marker GLT-1 was only increased in expression in areas remote from the epicenter, which was traced both at 7 and 30 dpi. Confocal microscopy showed a significant decrease in the number of 5-HT+ axons at a distance from the epicenter in the caudal direction, which is consistent with a decrease in β3-tubulin in these areas. The results indicate significant cellular and molecular reactions not only in the area of the gray matter damage but also in adjacent and remote areas, which is important for assessing the possibility of long-distance axonal growth.

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Section: Introductionmentioning

confidence: 99%

Cellular and Molecular Gradients in the Ventral Horns With Increasing Distance From the Injury Site After Spinal Cord Contusion

Kabdesh

Mukhamedshina

Arkhipova

et al. 2022

Front. Cell. Neurosci.

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“…After SCI, the primary injury triggers a cascade of pathophysiological processes at the focal injury site ( Ahuja et al, 2017 ) with subsequent secondary disease processes (i.e. anterograde, retrograde, and trans-synaptic degeneration) ( David et al, 2021 , David et al, 2019 , David et al, 2022 , Freund et al, 2019 , Freund et al, 2013b , Grabher et al, 2015 , Lundell et al, 2011 , Seif et al, 2018a , Seif et al, 2020 , Ziegler et al, 2018 ). Histopathological evidence illustrates that at the earliest stage post-SCI axonal swelling and myelin thinning can be detected at the lesion border ( Brennan et al, 2013 , Bresnahan, 1978 , Bresnahan et al, 1976 , Buss et al, 2005 , Grumbles and Thomas, 2017 ).…”

Section: Introductionmentioning

confidence: 99%

Dynamics of progressive degeneration of major spinal pathways following spinal cord injury: A longitudinal study

Schading

Dávid

Emmenegger

et al. 2023

NeuroImage: Clinical

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“…SCI causes local damage to the tissue and leads to the secondary pathological cascade, such as spatiotemporal changes in gray and white matter atrophy . Studies reported longitudinal changes in gray and white matter composition after the spinal cord injury . The white matter contains the axonal trajectories, which can be misinterpreted as the regenerated fibers while present as the spared axons.…”

Section: Introductionmentioning

confidence: 99%

In Vivo and 3D Imaging Technique(s) for Spatiotemporal Mapping of Pathological Events in Experimental Model(s) of Spinal Cord Injury

Goyal

Kumar

2023

ACS Chem. Neurosci.

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Endothelial damage, astrogliosis, microgliosis, and neuronal degeneration are the most common events after spinal cord injury (SCI). Studies highlighted that studying the spatiotemporal profile of these events might provide a deeper understanding of the pathophysiology of SCI. For imaging of these events, available conventional techniques such as 2-dimensional histology and immunohistochemistry (IHC) are well established and frequently used to visualize and detect the altered expression of the protein of interest involved in these events. However, the technique requires the physical sectioning of the tissue, and results are also open to misinterpretation. Currently, researchers are focusing more attention toward the advanced tools for imaging the spinal cord’s various physiological and pathological parameters. The tools include two-photon imaging, light sheet fluorescence microscopy, in vivo imaging system with fluorescent probes, and in vivo chemical and fluorescent protein-expressing viral-tracers. These techniques outperform the limitations associated with conventional techniques in various aspects, such as optical sectioning of tissue, 3D reconstructed imaging, and imaging of particular planes of interest. In addition to this, these techniques are minimally invasive and less time-consuming. In this review, we will discuss the various advanced imaging methodologies that will evolve in the future to explore the fundamental mechanisms after SCI.

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Longitudinal changes of spinal cord grey and white matter following spinal cord injury

Cited by 31 publications

References 38 publications

Cellular and Molecular Gradients in the Ventral Horns With Increasing Distance From the Injury Site After Spinal Cord Contusion

Cellular and Molecular Gradients in the Ventral Horns With Increasing Distance From the Injury Site After Spinal Cord Contusion

Dynamics of progressive degeneration of major spinal pathways following spinal cord injury: A longitudinal study

In Vivo and 3D Imaging Technique(s) for Spatiotemporal Mapping of Pathological Events in Experimental Model(s) of Spinal Cord Injury

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