A prospective study of MRI biomarkers in the brain and lower limb muscles for prediction of lower limb motor recovery following stroke

The aim of this prospective observational longitudinal study was to explore and decipher the predictive value of prospective MRI biomarkers in the brain and lower limb muscles for 3-month lower limb motor recovery following stroke. In the brain, we measured the integrity of the corticospinal tract (...

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Autores principales: Elameer, Mat, Lumley, Hannah, Moore, Sarah A., Marshall, Katie, Alton, Abi, Smith, Fiona E., Gani, Akif, Blamire, Andrew, Rodgers, Helen, Price, Christopher I. M., Mitra, Dipayan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Neurology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10628497/
https://www.ncbi.nlm.nih.gov/pubmed/37941576
http://dx.doi.org/10.3389/fneur.2023.1229681
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author Elameer, Mat
Lumley, Hannah
Moore, Sarah A.
Marshall, Katie
Alton, Abi
Smith, Fiona E.
Gani, Akif
Blamire, Andrew
Rodgers, Helen
Price, Christopher I. M.
Mitra, Dipayan
author_facet Elameer, Mat
Lumley, Hannah
Moore, Sarah A.
Marshall, Katie
Alton, Abi
Smith, Fiona E.
Gani, Akif
Blamire, Andrew
Rodgers, Helen
Price, Christopher I. M.
Mitra, Dipayan
author_sort Elameer, Mat
collection PubMed
description The aim of this prospective observational longitudinal study was to explore and decipher the predictive value of prospective MRI biomarkers in the brain and lower limb muscles for 3-month lower limb motor recovery following stroke. In the brain, we measured the integrity of the corticospinal tract (fractional anisotropy/“FA”). In the muscles, we measured volume, fatty replacement (fat fraction analysis and proton spectroscopy) and oedema. Measurements were taken at two time points: (1) within 4 weeks of stroke (baseline measurement, clinical and imaging) and (2) 3 months following stroke (follow up measurement, clinical only). Clinical measurements consisted of assessments of functional ability and strength (Fugl-Meyer score, motor NIHSS, Functional Ambulation Category/“FAC”, and muscle dynamometry). Twenty-three patients completed imaging and clinical assessments at baseline and follow-up; five patients had partial imaging assessment. The results provided some evidence that damage to the corticospinal tract would result in less motor recovery: recovery of the Fugl-Meyer score and dynamometric ankle plantarflexion, ankle dorsiflexion, and knee extension correlated positively and significantly with fractional anisotropy (0.406–0.457; p = 0.034—p = 0.016). However, fractional anisotropy demonstrated a negative correlation with recovery of the Functional Ambulation Category (−0.359, p = 0.046). For the muscle imaging, significant inverse correlation was observed between vastus lateralis fat fraction vs. NIHSS recovery (−0.401, p = 0.04), and a strong positive correlation was observed between ratio of intra- to extra-myocellular lipid concentrations and the recovery of knee flexion (0.709, p = 0.007). This study supports previous literature indicating a positive correlation between the integrity of the corticospinal tract and motor recovery post-stroke, expanding the limited available literature describing this relationship specifically for the lower limb. However, recovery of functional ambulation behaved differently to other clinical recovery markers by demonstrating an inverse relationship with corticospinal tract integrity. The study also introduces some muscle imaging biomarkers as potentially valuable in the prediction of 3-month lower limb motor recovery following stroke.
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spelling pubmed-106284972023-11-08 A prospective study of MRI biomarkers in the brain and lower limb muscles for prediction of lower limb motor recovery following stroke Elameer, Mat Lumley, Hannah Moore, Sarah A. Marshall, Katie Alton, Abi Smith, Fiona E. Gani, Akif Blamire, Andrew Rodgers, Helen Price, Christopher I. M. Mitra, Dipayan Front Neurol Neurology The aim of this prospective observational longitudinal study was to explore and decipher the predictive value of prospective MRI biomarkers in the brain and lower limb muscles for 3-month lower limb motor recovery following stroke. In the brain, we measured the integrity of the corticospinal tract (fractional anisotropy/“FA”). In the muscles, we measured volume, fatty replacement (fat fraction analysis and proton spectroscopy) and oedema. Measurements were taken at two time points: (1) within 4 weeks of stroke (baseline measurement, clinical and imaging) and (2) 3 months following stroke (follow up measurement, clinical only). Clinical measurements consisted of assessments of functional ability and strength (Fugl-Meyer score, motor NIHSS, Functional Ambulation Category/“FAC”, and muscle dynamometry). Twenty-three patients completed imaging and clinical assessments at baseline and follow-up; five patients had partial imaging assessment. The results provided some evidence that damage to the corticospinal tract would result in less motor recovery: recovery of the Fugl-Meyer score and dynamometric ankle plantarflexion, ankle dorsiflexion, and knee extension correlated positively and significantly with fractional anisotropy (0.406–0.457; p = 0.034—p = 0.016). However, fractional anisotropy demonstrated a negative correlation with recovery of the Functional Ambulation Category (−0.359, p = 0.046). For the muscle imaging, significant inverse correlation was observed between vastus lateralis fat fraction vs. NIHSS recovery (−0.401, p = 0.04), and a strong positive correlation was observed between ratio of intra- to extra-myocellular lipid concentrations and the recovery of knee flexion (0.709, p = 0.007). This study supports previous literature indicating a positive correlation between the integrity of the corticospinal tract and motor recovery post-stroke, expanding the limited available literature describing this relationship specifically for the lower limb. However, recovery of functional ambulation behaved differently to other clinical recovery markers by demonstrating an inverse relationship with corticospinal tract integrity. The study also introduces some muscle imaging biomarkers as potentially valuable in the prediction of 3-month lower limb motor recovery following stroke. Frontiers Media S.A. 2023-10-24 /pmc/articles/PMC10628497/ /pubmed/37941576 http://dx.doi.org/10.3389/fneur.2023.1229681 Text en Copyright © 2023 Elameer, Lumley, Moore, Marshall, Alton, Smith, Gani, Blamire, Rodgers, Price and Mitra. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Neurology
Elameer, Mat
Lumley, Hannah
Moore, Sarah A.
Marshall, Katie
Alton, Abi
Smith, Fiona E.
Gani, Akif
Blamire, Andrew
Rodgers, Helen
Price, Christopher I. M.
Mitra, Dipayan
A prospective study of MRI biomarkers in the brain and lower limb muscles for prediction of lower limb motor recovery following stroke
title A prospective study of MRI biomarkers in the brain and lower limb muscles for prediction of lower limb motor recovery following stroke
title_full A prospective study of MRI biomarkers in the brain and lower limb muscles for prediction of lower limb motor recovery following stroke
title_fullStr A prospective study of MRI biomarkers in the brain and lower limb muscles for prediction of lower limb motor recovery following stroke
title_full_unstemmed A prospective study of MRI biomarkers in the brain and lower limb muscles for prediction of lower limb motor recovery following stroke
title_short A prospective study of MRI biomarkers in the brain and lower limb muscles for prediction of lower limb motor recovery following stroke
title_sort prospective study of mri biomarkers in the brain and lower limb muscles for prediction of lower limb motor recovery following stroke
topic Neurology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10628497/
https://www.ncbi.nlm.nih.gov/pubmed/37941576
http://dx.doi.org/10.3389/fneur.2023.1229681
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