Dynamic Regional Brain Atrophy Rates in the First Year After Ischemic Stroke

Brodtmann, Amy; Khlif, Mohamed Salah; Egorova, Natalia; Veldsman, Michele; Bird, Laura; Werden, Emilio

doi:10.1161/strokeaha.120.030256

Cited by 66 publications

(77 citation statements)

References 46 publications

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“…Our results support the hypothesis that non-lesioned deep gray structures serve distinct roles in subacute versus chronic stroke, which is not surprising given the cascade of neurobiological and neuroinflammatory processes that occur early after stroke (Murphy and Corbett, 2009; Ward, 2017). Within 90 days after stroke, only the ipsilesional thalamus showed detectable associations with post-stroke sensorimotor behavior, in line with recent research suggesting a role for the thalamus in subacute recovery (Brodtmann et al ., 2020). A smaller thalamic volume could reflect cell loss and thalamic dysfunction, thereby limiting resources critical for early recovery (Fries et al ., 1993; Brodtmann et al ., 2020).…”

Section: Discussionsupporting

confidence: 89%

“…These findings suggest that, post-stroke, subcortical brain alterations related to sensorimotor behavior occur most prominently in the hemisphere directly affected by the stroke. This was observed despite the fact that, after stroke, atrophy and reorganization has been observed bilaterally (Brodtmann et al ., 2020). The identification of sensorimotor relationships with specific ipsilesional subcortical nuclei may provide novel neuromodulatory or pharmacological targets to improve stroke outcomes.…”

Section: Discussionmentioning

confidence: 94%

“…23, 24 Within 90 days after stroke, only the ipsilesional thalamus showed detectable associations with post-stroke sensorimotor behavior, in line with recent research showing marked thalamic atrophy, particularly within the first three months post-stroke. 8 A smaller thalamic volume could reflect cell loss and thalamic dysfunction, thereby limiting resources critical for early recovery. 5, 8 Importantly, in our data, this relationship persists, and is stronger, when looking at only the first 21 days post-stroke.…”

Section: Discussionmentioning

confidence: 99%

“…8 A smaller thalamic volume could reflect cell loss and thalamic dysfunction, thereby limiting resources critical for early recovery. 5, 8 Importantly, in our data, this relationship persists, and is stronger, when looking at only the first 21 days post-stroke. As non-lesioned brain volumes within six weeks after stroke are assumed to be similar to those before the stroke, 25 this finding suggests that larger thalamic volumes prior to stroke could provide a neuroprotective effect.…”

Section: Discussionmentioning

confidence: 99%

“…Research has shown that lesions to the thalamus and basal ganglia result in poor stroke outcomes, given their roles in sensorimotor control along with learning, motivation, reward, and cognition. 3–7 Atrophy of these structures has been reported after stroke 8 and related to cognitive deficits. 9 However, little is known about whether and how atrophy to spared subcortical regions relates to subsequent sensorimotor behavior.…”

Section: Introductionmentioning

confidence: 99%

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Smaller spared subcortical nuclei are associated with worse post-stroke sensorimotor outcomes in 28 cohorts worldwide

Liew¹,

Zavaliangos‐Petropulu²,

Schweighofer³

et al. 2020

Preprint

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Background: Up to two-thirds of stroke survivors experience persistent sensorimotor impairments. Recovery relies on the integrity of spared brain areas to compensate for damaged tissue. Subcortical regions play critical roles in the control and regulation of sensorimotor circuits. Identifying relationships between sensorimotor behavior and non-lesioned subcortical volumes will reveal new neural targets for improving outcomes. Methods: We pooled high-resolution T1-weighted MRI brain scans and behavioral data in 828 individuals with unilateral stroke from 28 cohorts worldwide (age: median 63, interquartile range 19 years; 516 males, 312 females). Cross-sectional analyses using linear mixed-effects models related post-stroke sensorimotor behavior to non-lesioned subcortical volumes. We analyzed subacute (≤90 days) and chronic (≥180 days) stroke; sub-analyses in chronic stroke were performed on class of sensorimotor deficit (impairment, activity limitations) and side of lesioned hemisphere, with exploratory analyses in early stroke (≤21 days) and across time (Bonferroni-corrected, p<0.004). Results: Worse sensorimotor behavior was associated with a smaller ipsilesional thalamic volume in both subacute (n=274, d=0.46) and early stroke (n=179; d=0.68). In chronic stroke (n=404), worse sensorimotor behavior was associated with smaller ipsilesional putamen (d=0.52) and nucleus accumbens (d=0.39) volumes, and a larger ipsilesional lateral ventricle volume (d=-0.42), representing atrophy. In chronic stroke, worse sensorimotor impairment specifically (measured by the Fugl-Meyer Assessment; n=256) was associated with a smaller ipsilesional putamen (d=0.72), and larger lateral ventricle (d=-0.41), while several measures of activity limitations (n=116) showed no significant relationships. Side of lesion (left=214, right=190) had no impact. The full cohort (n=828) revealed associations of sensorimotor behavior with the ipsilesional nucleus accumbens (d=0.23), putamen (d=0.33), thalamus (d=0.33), and lateral ventricle (d=-0.23). Discussion: This analysis identified significant relationships between sensorimotor behavior and key subcortical regions at different times post-stroke. While further longitudinal studies are needed, these findings may represent brain imaging markers of resilience and reserve and provide putative neuroanatomical targets for improving sensorimotor outcomes post-stroke.

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Section: Discussionsupporting

confidence: 89%

Section: Discussionmentioning

confidence: 94%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Smaller spared subcortical nuclei are associated with worse post-stroke sensorimotor outcomes in 28 cohorts worldwide

Liew¹,

Zavaliangos‐Petropulu²,

Schweighofer³

et al. 2020

Preprint

Self Cite

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Alterations of contralesional hippocampal subfield volumes and relations to cognitive functions in patients with unilateral stroke

Lu,

Xing,

et al. 2024

Brain and Behavior

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BackgroundThe volumes of the hippocampal subfields are related to poststroke cognitive dysfunctions. However, it remains unclear whether contralesional hippocampal subfield volume contributes to cognitive impairment. This study aimed to investigate the volumetric differences in the contralesional hippocampal subfields between patients with left and right hemisphere strokes (LHS/RHS). Additionally, correlations between contralesional hippocampal subfield volumes and clinical outcomes were explored.MethodsFourteen LHS (13 males, 52.57 ± 7.10 years), 13 RHS (11 males, 51.23 ± 15.23 years), and 18 healthy controls (11 males, 46.94 ± 12.74 years) were enrolled. Contralesional global and regional hippocampal volumes were obtained with T1‐weighted images. Correlations between contralesional hippocampal subfield volumes and clinical outcomes, including the Montreal Cognitive Assessment (MoCA) and Mini‐Mental State Examination (MMSE), were analyzed. Bonferroni correction was applied for multiple comparisons.ResultsSignificant reductions were found in contralesional hippocampal as a whole (adjusted p = .011) and its subfield volumes, including the hippocampal tail (adjusted p = .005), cornu ammonis 1 (CA1) (adjusted p = .002), molecular layer (ML) (adjusted p = .004), granule cell and ML of the dentate gyrus (GC‐ML‐DG) (adjusted p = .015), CA3 (adjusted p = .009), and CA4 (adjusted p = .014) in the RHS group compared to the LHS group. MoCA and MMSE had positive correlations with volumes of contralesional hippocampal tail (p = .015, r = .771; p = .017, r = .763) and fimbria (p = .020, r = .750; p = .019, r = .753) in the LHS group, and CA3 (p = .007, r = .857; p = .009, r = .838) in the RHS group, respectively.ConclusionUnilateral stroke caused volumetric differences in different hippocampal subfields contralesionally, which correlated to cognitive impairment. RHS leads to greater volumetric reduction in the whole contralesional hippocampus and specific subfields (hippocampal tail, CA1, ML, GC‐ML‐DG, CA3, and CA4) compared to LHS. These changes are correlated with cognitive impairments, potentially due to disrupted neural pathways and interhemispheric communication.

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Hippocampal subfield volumes are associated with verbal memory after first‐ever ischemic stroke

Khlif

Bird

Restrepo

et al. 2021

Alz & Dem Diag Ass & Dis Mo

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Introduction Hippocampal subfield volumes are more closely associated with cognitive impairment than whole hippocampal volume in many diseases. Both memory and whole hippocampal volume decline after stroke. Understanding the subfields’ temporal evolution could reveal valuable information about post‐stroke memory. Methods We sampled 120 participants (38 control, 82 stroke), with cognitive testing and 3T‐MRI available at 3 months and 3 years, from the Cognition and Neocortical Volume after Stroke (CANVAS) study. Verbal memory was assessed using the Hopkins Verbal Learning Test‐Revised. Subfields were delineated using FreeSurfer. We used partial Pearson's correlation to assess the associations between subfield volumes and verbal memory scores, adjusting for years of education, sex, and stroke side. Results The left cornu ammonis areas 2/3 and hippocampal tail volumes were significantly associated with verbal memory 3‐month post‐stroke. At 3 years, the associations became stronger and involved more subfields. Discussion Hippocampal subfield volumes may be a useful biomarker for post‐stroke cognitive impairment.

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Dynamic Regional Brain Atrophy Rates in the First Year After Ischemic Stroke

Cited by 66 publications

References 46 publications

Smaller spared subcortical nuclei are associated with worse post-stroke sensorimotor outcomes in 28 cohorts worldwide

Smaller spared subcortical nuclei are associated with worse post-stroke sensorimotor outcomes in 28 cohorts worldwide

Alterations of contralesional hippocampal subfield volumes and relations to cognitive functions in patients with unilateral stroke

Hippocampal subfield volumes are associated with verbal memory after first‐ever ischemic stroke

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