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

Liew, Sook‐Lei; Zavaliangos‐Petropulu, Artemis; Schweighofer, Nicolas; Jahanshad, Neda; Kr, Lohse; Banaj, Nerisa; Barisano, Giuseppe; La, Baugh; Ak, Banerjee; Bigjahan, Bavrina; Mr, Borich; La, Boyd; Brodtmann, Amy; Cm, Buetefisch; Byblow, WD; Jm, Cassidy; Ciullo,; Conforto, Adriana Bastos; Rc, Craddock; An, Dula; Egorova, Natalia; Feng, Wuwei; Ka, Fercho; Cm, Gregory; Ca, Hanlon; Ks, Hayward; Ja, Holguin; Dh, Hwang; Kautz, Steven A.; Ms, Khlif; Kim, Bonglee; Kim, Ho; Kuceyeski, Amy; Liu, Jing; Lin, Dong; Lotze, Martín; MacIntosh, BJ; Jl, Margetis; Fb, Mohamed; Je, Nordvik; Petoe, Matthew A.; Piras, Fabrizio; Raju, Sharmila; Ramos‐Murguialday, Ander; Kp, Revill; Roberts, Pamela; Ad, Robertson; Hm, Schambra; Seo, Na Jin; Ms, Shiroishi; Soekadar,; Spalletta, Gianfranco; Cm, Stinear; Suri, Anisha; Tang, Wai Kwong; Gt, Thielman; Thijs, Vincent; Vecchio, Daniela; Ns, Ward; Lt, Westlye; Cj, Winstein; Gf, Wittenberg; Ka, Wong; Yu, Chunshui; Sl, Wolf; Cramer, SC; Thompson, Paul M.

doi:10.1101/2020.11.04.366856

Cited by 2 publications

(7 citation statements)

References 67 publications

(120 reference statements)

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“…This is critical because recent work suggests that cross-sectional brain age may reflect either early-life differences or volume loss due to isolated incidents, such as stroke. 45 Furthermore, as previously noted, 24,25 although our large heterogeneous dataset provides statistical power and diverse data to test hypotheses, there are limited covariates that are present across the entire dataset. Additional factors known to influence brain age-such as genetics, neurodegenerative copathology such as microvascular damage, lifestyle factors, and comorbidities-should be examined in future studies.…”

Section: Discussionmentioning

confidence: 82%

“…We further hypothesized that if this brain-behavior relationship is reflective of post-stroke atrophy, it should be strongest in the ipsilesional hemisphere in chronic stroke. We therefore examined ipsilesional versus contralesional brain-PAD separately, and at two different times post-stroke as in our previous work 24 (early stroke (≤6 weeks post-stroke, thought to represent the premorbid brain prior to secondary degeneration) 20 and chronic stroke (≥180 days post-stroke)).…”

Section: Discussionmentioning

confidence: 99%

“…A full description of the data and procedures used by the ENIGMA Stroke Recovery Working Group has been reported elsewhere (see also eMethods, links.lww.com/WNL/C720 ). 24 , 27 In brief, stroke neuroimaging and behavioral data from retrospective studies are contained in a repository, which is queried to extract data meeting study-specific eligibility criteria. For this study, we extracted data that had the following: (1) FreeSurfer outputs from 3-dimensional T1-weighted structural brain MRI volumes (see MRI Data Analysis), (2) a sensorimotor behavioral outcome measure (see Behavioral Data), (3) covariates of age and sex, and (4) a primary stroke reported in either cerebral hemisphere.…”

Section: Methodsmentioning

confidence: 99%

“…We anticipated that this relationship would be strongest in the ipsilesional hemisphere, which should undergo more changes with functional relevance compared with the contralesional hemisphere, and in chronic stroke, allowing for time after stroke for secondary atrophy to occur. 24 - 26 Third, we hypothesized that brain-PAD would mediate the impact of known focal injury measures, such as corticospinal tract lesion load (CST-LL), 1 - 3 on sensorimotor outcomes and that this relationship would again be strongest in the ipsilesional hemisphere in chronic stroke. Finally, we hypothesized that greater brain resilience despite stroke-related injury would distinguish people with better vs worse sensorimotor outcomes.…”

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confidence: 99%

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Association of Brain Age, Lesion Volume, and Functional Outcome in Patients With Stroke

et al. 2023

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Background and objectives:Functional outcomes after stroke are strongly related to focal injury measures. However, the role of global brain health is less clear. Here, we examined the impact of brain age, a measure of neurobiological aging derived from whole brain structural neuroimaging, on post-stroke outcomes, with a focus on sensorimotor performance. We hypothesized that more lesion damage would result in older brain age, which would in turn be associated with poorer outcomes. Related, we expected that brain age would mediate the relationship between lesion damage and outcomes. Finally, we hypothesized that structural brain resilience, which we define in the context of stroke as younger brain age given matched lesion damage, would differentiate people with good versus poor outcomes.Methods:We conducted a cross-sectional observational study using a multi-site dataset of 3D brain structural MRIs and clinical measures from ENIGMA Stroke Recovery. Brain age was calculated from 77 neuroanatomical features using a ridge regression model trained and validated on 4,314 healthy controls. We performed a three-step mediation analysis with robust mixed-effects linear regression models to examine relationships between brain age, lesion damage, and stroke outcomes. We used propensity score matching and logistic regression to examine whether brain resilience predicts good versus poor outcomes in patients with matched lesion damage.Results:We examined 963 patients across 38 cohorts. Greater lesion damage was associated with older brain age (β=0.21; 95% CI 0.04,0.38,P=0.015), which in turn was associated with poorer outcomes, both in the sensorimotor domain (β=-0.28; 95% CI: -0.41,-0.15,P<0.001) and across multiple domains of function (β=-0.14; 95% CI: -0.22,-0.06,P<0.001). Brain age mediated 15% of the impact of lesion damage on sensorimotor performance (95% CI: 3%,58%,P=0.01). Greater brain resilience explained why people have better outcomes, given matched lesion damage (OR=1.04, 95% CI: 1.01,1.08,P=0.004).Conclusions:We provide evidence that younger brain age is associated with superior post-stroke outcomes and modifies the impact of focal damage. The inclusion of imaging-based assessments of brain age and brain resilience may improve the prediction of post-stroke outcomes compared to focal injury measures alone, opening new possibilities for potential therapeutic targets.

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Section: Discussionmentioning

confidence: 82%

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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confidence: 99%

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Association of Brain Age, Lesion Volume, and Functional Outcome in Patients With Stroke

et al. 2023

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“…To help clinicians, caregivers, and patients make informed and effective rehabilitation treatment decisions, there is a critical need to identify biomarkers that accurately predict a patient's potential for sensorimotor recovery 2,3 . MRI studies of regional brain volumes suggest secondary degeneration of adjacent or remote regions may contribute to sensorimotor impairment and could influence post-stroke sensorimotor outcomes 4,5 .…”

Section: Introductionmentioning

confidence: 99%

Chronic stroke sensorimotor impairment is related to smaller hippocampal volumes: An ENIGMA analysis

Zavaliangos‐Petropulu

Donnelly

et al. 2021

Preprint

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Persistent sensorimotor impairments after stroke can negatively impact quality of life. The hippocampus is involved in sensorimotor behavior but has not been widely studied within the context of post-stroke upper limb sensorimotor impairment. The hippocampus is vulnerable to secondary degeneration after stroke, and damage to this region could further weaken sensorimotor circuits, leading to greater chronic sensorimotor impairment. The purpose of this study was to investigate the cross-sectional association between non-lesioned hippocampal volume and upper limb sensorimotor impairment in people with chronic stroke. We hypothesized that smaller ipsilesional hippocampal volumes would be associated with worse upper-limb sensorimotor impairment.Cross-sectional T1-weighted brain MRIs were pooled from 357 participants at the chronic stage after stroke (>180 days post-stroke) compiled from 18 research cohorts worldwide in the ENIGMA Stroke Recovery Working Group (age: median = 61 years, interquartile range = 18, range = 23-93; 135 women and 222 men). Sensorimotor impairment was estimated from the Fugl-Meyer Assessment of Upper Extremity scores. Robust mixed-effects linear models were used to test associations between post-stroke sensorimotor impairment and hippocampal volumes (ipsilesional and contralesional separately; Bonferroni-corrected, p-value < 0.025), controlling for age, sex, lesion volume, and lesioned hemisphere. We also performed an exploratory analysis to test whether sex differences influence the relationship between sensorimotor impairment and hippocampal volume.Upper limb sensorimotor impairment was positively associated with ipsilesional (p = 0.005; d = 0.33) but not contralesional (p = 0.96; d = 0.01) hippocampal volume, such that impairment was worse for participants with smaller ipsilesional hippocampal volume. This association remained significant independent of lesion volume or other covariates (p = 0.001; d = 0.36). Evidence indicates an interaction between sensorimotor impairment and sex for both ipsilesional (p = 0.008; d = −0.29) and contralesional (p = 0.006; d = −0.30) hippocampal volumes, whereby women showed progressively worsening sensorimotor impairment with smaller hippocampal volumes compared to men.The present study has identified a novel association between chronic post-stroke sensorimotor impairment and ipsilesional, but not contralesional, hippocampal volume. This finding was not due to lesion size and may be stronger in women. We also provide supporting evidence that smaller hippocampal volume post-stroke is likely a consequence of ipsilesional damage, which could provide a link between vascular disease and other disorders, such as dementia.

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

Cited by 2 publications

References 67 publications

Association of Brain Age, Lesion Volume, and Functional Outcome in Patients With Stroke

Association of Brain Age, Lesion Volume, and Functional Outcome in Patients With Stroke

Chronic stroke sensorimotor impairment is related to smaller hippocampal volumes: An ENIGMA analysis

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