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

Gergely David; Dario Pfyffer; Kevin Vallotton; Nikolai Pfender; Alan Thompson; Nikolaus Weiskopf; Siawoosh Mohammadi; Armin Curt; Patrick Freund

doi:10.1136/jnnp-2021-326337

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

Standard

Longitudinal changes of spinal cord grey and white matter following spinal cord injury. / David, Gergely; Pfyffer, Dario; Vallotton, Kevin; Pfender, Nikolai; Thompson, Alan; Weiskopf, Nikolaus; Mohammadi, Siawoosh; Curt, Armin; Freund, Patrick.

In: J NEUROL NEUROSUR PS, Vol. 92, No. 11, 11.2021, p. 1222-1230.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

David, G, Pfyffer, D, Vallotton, K, Pfender, N, Thompson, A, Weiskopf, N, Mohammadi, S, Curt, A & Freund, P 2021, 'Longitudinal changes of spinal cord grey and white matter following spinal cord injury', J NEUROL NEUROSUR PS, vol. 92, no. 11, pp. 1222-1230. https://doi.org/10.1136/jnnp-2021-326337

APA

David, G., Pfyffer, D., Vallotton, K., Pfender, N., Thompson, A., Weiskopf, N., Mohammadi, S., Curt, A., & Freund, P. (2021). Longitudinal changes of spinal cord grey and white matter following spinal cord injury. J NEUROL NEUROSUR PS, 92(11), 1222-1230. https://doi.org/10.1136/jnnp-2021-326337

Vancouver

David G, Pfyffer D, Vallotton K, Pfender N, Thompson A, Weiskopf N et al. Longitudinal changes of spinal cord grey and white matter following spinal cord injury. J NEUROL NEUROSUR PS. 2021 Nov;92(11):1222-1230. https://doi.org/10.1136/jnnp-2021-326337

Bibtex

@article{5faf868b785944e19607b5dfa3884ca2,

title = "Longitudinal changes of spinal cord grey and white matter following spinal cord injury",

abstract = "OBJECTIVES: Traumatic and non-traumatic spinal cord injury produce neurodegeneration across the entire neuraxis. However, the spatiotemporal dynamics of spinal cord grey and white matter neurodegeneration above and below the injury is understudied.METHODS: We acquired longitudinal data from 13 traumatic and 3 non-traumatic spinal cord injury patients (8-8 cervical and thoracic cord injuries) within 1.5 years after injury and 10 healthy controls over the same period. The protocol encompassed structural and diffusion-weighted MRI rostral (C2/C3) and caudal (lumbar enlargement) to the injury level to track tissue-specific neurodegeneration. Regression models assessed group differences in the temporal evolution of tissue-specific changes and associations with clinical outcomes.RESULTS: At 2 months post-injury, white matter area was decreased by 8.5% and grey matter by 15.9% in the lumbar enlargement, while at C2/C3 only white matter was decreased (-9.7%). Patients had decreased cervical fractional anisotropy (FA: -11.3%) and increased radial diffusivity (+20.5%) in the dorsal column, while FA was lower in the lateral (-10.3%) and ventral columns (-9.7%) of the lumbar enlargement. White matter decreased by 0.34% and 0.35% per month at C2/C3 and lumbar enlargement, respectively, and grey matter decreased at C2/C3 by 0.70% per month.CONCLUSIONS: This study describes the spatiotemporal dynamics of tissue-specific spinal cord neurodegeneration above and below a spinal cord injury. While above the injury, grey matter atrophy lagged initially behind white matter neurodegeneration, in the lumbar enlargement these processes progressed in parallel. Tracking trajectories of tissue-specific neurodegeneration provides valuable assessment tools for monitoring recovery and treatment effects.",

author = "Gergely David and Dario Pfyffer and Kevin Vallotton and Nikolai Pfender and Alan Thompson and Nikolaus Weiskopf and Siawoosh Mohammadi and Armin Curt and Patrick Freund",

note = "{\textcopyright} Author(s) (or their employer(s)) 2021. Re-use permitted under CC BY. Published by BMJ.",

year = "2021",

month = nov,

doi = "10.1136/jnnp-2021-326337",

language = "English",

volume = "92",

pages = "1222--1230",

journal = "J NEUROL NEUROSUR PS",

issn = "0022-3050",

publisher = "BMJ PUBLISHING GROUP",

number = "11",

}

RIS

TY - JOUR

T1 - Longitudinal changes of spinal cord grey and white matter following spinal cord injury

AU - David, Gergely

AU - Pfyffer, Dario

AU - Vallotton, Kevin

AU - Pfender, Nikolai

AU - Thompson, Alan

AU - Weiskopf, Nikolaus

AU - Mohammadi, Siawoosh

AU - Curt, Armin

AU - Freund, Patrick

PY - 2021/11

Y1 - 2021/11

N2 - OBJECTIVES: Traumatic and non-traumatic spinal cord injury produce neurodegeneration across the entire neuraxis. However, the spatiotemporal dynamics of spinal cord grey and white matter neurodegeneration above and below the injury is understudied.METHODS: We acquired longitudinal data from 13 traumatic and 3 non-traumatic spinal cord injury patients (8-8 cervical and thoracic cord injuries) within 1.5 years after injury and 10 healthy controls over the same period. The protocol encompassed structural and diffusion-weighted MRI rostral (C2/C3) and caudal (lumbar enlargement) to the injury level to track tissue-specific neurodegeneration. Regression models assessed group differences in the temporal evolution of tissue-specific changes and associations with clinical outcomes.RESULTS: At 2 months post-injury, white matter area was decreased by 8.5% and grey matter by 15.9% in the lumbar enlargement, while at C2/C3 only white matter was decreased (-9.7%). Patients had decreased cervical fractional anisotropy (FA: -11.3%) and increased radial diffusivity (+20.5%) in the dorsal column, while FA was lower in the lateral (-10.3%) and ventral columns (-9.7%) of the lumbar enlargement. White matter decreased by 0.34% and 0.35% per month at C2/C3 and lumbar enlargement, respectively, and grey matter decreased at C2/C3 by 0.70% per month.CONCLUSIONS: This study describes the spatiotemporal dynamics of tissue-specific spinal cord neurodegeneration above and below a spinal cord injury. While above the injury, grey matter atrophy lagged initially behind white matter neurodegeneration, in the lumbar enlargement these processes progressed in parallel. Tracking trajectories of tissue-specific neurodegeneration provides valuable assessment tools for monitoring recovery and treatment effects.

AB - OBJECTIVES: Traumatic and non-traumatic spinal cord injury produce neurodegeneration across the entire neuraxis. However, the spatiotemporal dynamics of spinal cord grey and white matter neurodegeneration above and below the injury is understudied.METHODS: We acquired longitudinal data from 13 traumatic and 3 non-traumatic spinal cord injury patients (8-8 cervical and thoracic cord injuries) within 1.5 years after injury and 10 healthy controls over the same period. The protocol encompassed structural and diffusion-weighted MRI rostral (C2/C3) and caudal (lumbar enlargement) to the injury level to track tissue-specific neurodegeneration. Regression models assessed group differences in the temporal evolution of tissue-specific changes and associations with clinical outcomes.RESULTS: At 2 months post-injury, white matter area was decreased by 8.5% and grey matter by 15.9% in the lumbar enlargement, while at C2/C3 only white matter was decreased (-9.7%). Patients had decreased cervical fractional anisotropy (FA: -11.3%) and increased radial diffusivity (+20.5%) in the dorsal column, while FA was lower in the lateral (-10.3%) and ventral columns (-9.7%) of the lumbar enlargement. White matter decreased by 0.34% and 0.35% per month at C2/C3 and lumbar enlargement, respectively, and grey matter decreased at C2/C3 by 0.70% per month.CONCLUSIONS: This study describes the spatiotemporal dynamics of tissue-specific spinal cord neurodegeneration above and below a spinal cord injury. While above the injury, grey matter atrophy lagged initially behind white matter neurodegeneration, in the lumbar enlargement these processes progressed in parallel. Tracking trajectories of tissue-specific neurodegeneration provides valuable assessment tools for monitoring recovery and treatment effects.

U2 - 10.1136/jnnp-2021-326337

DO - 10.1136/jnnp-2021-326337

M3 - SCORING: Journal article

C2 - 34341143

VL - 92

SP - 1222

EP - 1230

JO - J NEUROL NEUROSUR PS

JF - J NEUROL NEUROSUR PS

SN - 0022-3050

IS - 11

ER -