Disability and persistent motor deficits are linked to structural crossed cerebellar diaschisis in chronic stroke

Stephanie Guder; Fatemeh Sadeghi; Simone Zittel; Fanny Quandt; Chi-Un Choe; Marlene Bönstrup; Bastian Cheng; Götz Thomalla; Christian Gerloff; Robert Schulz

doi:10.1002/hbm.26434

Disability and persistent motor deficits are linked to structural crossed cerebellar diaschisis in chronic stroke

Standard

Disability and persistent motor deficits are linked to structural crossed cerebellar diaschisis in chronic stroke. / Guder, Stephanie; Sadeghi, Fatemeh ; Zittel, Simone ; Quandt, Fanny ; Choe, Chi-Un; Bönstrup, Marlene; Cheng, Bastian ; Thomalla, Götz; Gerloff, Christian; Schulz, Robert.

In: HUM BRAIN MAPP, Vol. 44, No. 16, 11.2023, p. 5336-5345.

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

Harvard

Guder, S, Sadeghi, F , Zittel, S , Quandt, F , Choe, C-U, Bönstrup, M, Cheng, B , Thomalla, G, Gerloff, C & Schulz, R 2023, 'Disability and persistent motor deficits are linked to structural crossed cerebellar diaschisis in chronic stroke', HUM BRAIN MAPP, vol. 44, no. 16, pp. 5336-5345. https://doi.org/10.1002/hbm.26434

APA

Guder, S., Sadeghi, F., Zittel, S., Quandt, F., Choe, C-U., Bönstrup, M., Cheng, B., Thomalla, G., Gerloff, C., & Schulz, R. (2023). Disability and persistent motor deficits are linked to structural crossed cerebellar diaschisis in chronic stroke. HUM BRAIN MAPP, 44(16), 5336-5345. https://doi.org/10.1002/hbm.26434

Vancouver

Guder S, Sadeghi F , Zittel S , Quandt F , Choe C-U, Bönstrup M et al. Disability and persistent motor deficits are linked to structural crossed cerebellar diaschisis in chronic stroke. HUM BRAIN MAPP. 2023 Nov;44(16):5336-5345. https://doi.org/10.1002/hbm.26434

Bibtex

@article{d7cbc42329564187a3fadaa382f3c765,

title = "Disability and persistent motor deficits are linked to structural crossed cerebellar diaschisis in chronic stroke",

abstract = "Brain imaging has significantly contributed to our understanding of the cerebellum being involved in recovery after non-cerebellar stroke. Due to its connections with supratentorial brain networks, acute stroke can alter the function and structure of the contralesional cerebellum, known as crossed cerebellar diaschisis (CCD). Data on the spatially precise distribution of structural CCD and their implications for persistent deficits after stroke are notably limited. In this cross-sectional study, structural MRI and clinical data were analyzed from 32 chronic stroke patients, at least 6 months after the event. We quantified lobule-specific contralesional atrophy, as a surrogate of structural CCD, in patients and healthy controls. Volumetric data were integrated with clinical scores of disability and motor deficits. Diaschisis-outcome models were adjusted for the covariables age, lesion volume, and damage to the corticospinal tract. We found that structural CCD was evident for the whole cerebellum, and particularly for lobules V and VI. Lobule VI diaschisis was significantly correlated with clinical scores, that is, volume reductions in contralesional lobule VI were associated with higher levels of disability and motor deficits. Lobule V and the whole cerebellum did not show similar diaschisis-outcome relationships across the spectrum of the clinical scores. These results provide novel insights into stroke-related cerebellar plasticity and might thereby promote lobule VI as a key area prone to structural CCD and potentially involved in recovery and residual motor functioning.",

author = "Stephanie Guder and Fatemeh Sadeghi and Simone Zittel and Fanny Quandt and Chi-Un Choe and Marlene B{\"o}nstrup and Bastian Cheng and G{\"o}tz Thomalla and Christian Gerloff and Robert Schulz",

note = "{\textcopyright} 2023 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.",

year = "2023",

month = nov,

doi = "10.1002/hbm.26434",

language = "English",

volume = "44",

pages = "5336--5345",

journal = "HUM BRAIN MAPP",

issn = "1065-9471",

publisher = "Wiley-Liss Inc.",

number = "16",

}

RIS

TY - JOUR

T1 - Disability and persistent motor deficits are linked to structural crossed cerebellar diaschisis in chronic stroke

AU - Guder, Stephanie

AU - Sadeghi, Fatemeh

AU - Zittel, Simone

AU - Quandt, Fanny

AU - Choe, Chi-Un

AU - Bönstrup, Marlene

AU - Cheng, Bastian

AU - Thomalla, Götz

AU - Gerloff, Christian

AU - Schulz, Robert

PY - 2023/11

Y1 - 2023/11

N2 - Brain imaging has significantly contributed to our understanding of the cerebellum being involved in recovery after non-cerebellar stroke. Due to its connections with supratentorial brain networks, acute stroke can alter the function and structure of the contralesional cerebellum, known as crossed cerebellar diaschisis (CCD). Data on the spatially precise distribution of structural CCD and their implications for persistent deficits after stroke are notably limited. In this cross-sectional study, structural MRI and clinical data were analyzed from 32 chronic stroke patients, at least 6 months after the event. We quantified lobule-specific contralesional atrophy, as a surrogate of structural CCD, in patients and healthy controls. Volumetric data were integrated with clinical scores of disability and motor deficits. Diaschisis-outcome models were adjusted for the covariables age, lesion volume, and damage to the corticospinal tract. We found that structural CCD was evident for the whole cerebellum, and particularly for lobules V and VI. Lobule VI diaschisis was significantly correlated with clinical scores, that is, volume reductions in contralesional lobule VI were associated with higher levels of disability and motor deficits. Lobule V and the whole cerebellum did not show similar diaschisis-outcome relationships across the spectrum of the clinical scores. These results provide novel insights into stroke-related cerebellar plasticity and might thereby promote lobule VI as a key area prone to structural CCD and potentially involved in recovery and residual motor functioning.

AB - Brain imaging has significantly contributed to our understanding of the cerebellum being involved in recovery after non-cerebellar stroke. Due to its connections with supratentorial brain networks, acute stroke can alter the function and structure of the contralesional cerebellum, known as crossed cerebellar diaschisis (CCD). Data on the spatially precise distribution of structural CCD and their implications for persistent deficits after stroke are notably limited. In this cross-sectional study, structural MRI and clinical data were analyzed from 32 chronic stroke patients, at least 6 months after the event. We quantified lobule-specific contralesional atrophy, as a surrogate of structural CCD, in patients and healthy controls. Volumetric data were integrated with clinical scores of disability and motor deficits. Diaschisis-outcome models were adjusted for the covariables age, lesion volume, and damage to the corticospinal tract. We found that structural CCD was evident for the whole cerebellum, and particularly for lobules V and VI. Lobule VI diaschisis was significantly correlated with clinical scores, that is, volume reductions in contralesional lobule VI were associated with higher levels of disability and motor deficits. Lobule V and the whole cerebellum did not show similar diaschisis-outcome relationships across the spectrum of the clinical scores. These results provide novel insights into stroke-related cerebellar plasticity and might thereby promote lobule VI as a key area prone to structural CCD and potentially involved in recovery and residual motor functioning.

U2 - 10.1002/hbm.26434

DO - 10.1002/hbm.26434

M3 - SCORING: Journal article

C2 - 37471691

VL - 44

SP - 5336

EP - 5345

JO - HUM BRAIN MAPP

JF - HUM BRAIN MAPP

SN - 1065-9471

IS - 16

ER -