SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4382182218> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W4382182218 abstract "Abstract The link between white matter hyperintensities (WMH) and cortical thinning is thought to be an important pathway by which WMH contributes to cognitive deficits in cerebral small vessel disease (SVD). However, the mechanism behind this association and the underlying tissue composition abnormalities are unclear. The objective of this study is to determine the association between WMH and cortical thickness, and the in vivo tissue composition abnormalities in the WMH-connected cortical regions. In this cross-sectional study, we included 213 participants with SVD who underwent standardized protocol including multimodal neuroimaging scans and cognitive assessment (i.e. processing speed, executive function and memory). We identified the cortex connected to WMH using probabilistic tractography starting from the WMH and defined the WMH-connected regions at three connectivity levels (low, medium and high connectivity level). We calculated the cortical thickness, myelin and iron of the cortex based on T1-weighted, quantitative R1, R2* and susceptibility maps. We used diffusion-weighted imaging to estimate the mean diffusivity of the connecting white matter tracts. We found that cortical thickness, R1, R2* and susceptibility values in the WMH-connected regions were significantly lower than in the WMH-unconnected regions (all Pcorrected < 0.001). Linear regression analyses showed that higher mean diffusivity of the connecting white matter tracts were related to lower thickness (β = −0.30, Pcorrected < 0.001), lower R1 (β = −0.26, Pcorrected = 0.001), lower R2* (β = −0.32, Pcorrected < 0.001) and lower susceptibility values (β = −0.39, Pcorrected < 0.001) of WMH-connected cortical regions at high connectivity level. In addition, lower scores on processing speed were significantly related to lower cortical thickness (β = 0.20, Pcorrected = 0.030), lower R1 values (β = 0.20, Pcorrected = 0.006), lower R2* values (β = 0.29, Pcorrected = 0.006) and lower susceptibility values (β = 0.19, Pcorrected = 0.024) of the WMH-connected regions at high connectivity level, independent of WMH volumes and the cortical measures of WMH-unconnected regions. Together, our study demonstrated that the microstructural integrity of white matter tracts passing through WMH is related to the regional cortical abnormalities as measured by thickness, R1, R2* and susceptibility values in the connected cortical regions. These findings are indicative of cortical thinning, demyelination and iron loss in the cortex, which is most likely through the disruption of the connecting white matter tracts and may contribute to processing speed impairment in SVD, a key clinical feature of SVD. These findings may have implications for finding intervention targets for the treatment of cognitive impairment in SVD by preventing secondary degeneration." @default.
W4382182218 created "2023-06-28" @default.
W4382182218 creator A5005648460 @default.
W4382182218 creator A5010675882 @default.
W4382182218 creator A5014208730 @default.
W4382182218 creator A5016183041 @default.
W4382182218 creator A5035915110 @default.
W4382182218 creator A5041940283 @default.
W4382182218 creator A5060332889 @default.
W4382182218 creator A5076773362 @default.
W4382182218 creator A5086287565 @default.
W4382182218 creator A5088588603 @default.
W4382182218 date "2023-06-27" @default.
W4382182218 modified "2023-10-18" @default.
W4382182218 title "Regional cortical thinning, demyelination, and iron loss in cerebral small vessel disease" @default.
W4382182218 cites W1517865335 @default.
W4382182218 cites W1963592292 @default.
W4382182218 cites W1983943145 @default.
W4382182218 cites W1987692131 @default.
W4382182218 cites W1991534565 @default.
W4382182218 cites W2006096283 @default.
W4382182218 cites W2008880867 @default.
W4382182218 cites W2020044743 @default.
W4382182218 cites W2036714085 @default.
W4382182218 cites W2052115682 @default.
W4382182218 cites W2064722635 @default.
W4382182218 cites W2071881327 @default.
W4382182218 cites W2081770103 @default.
W4382182218 cites W2082137964 @default.
W4382182218 cites W2082914617 @default.
W4382182218 cites W2091931051 @default.
W4382182218 cites W2097197888 @default.
W4382182218 cites W2098165663 @default.
W4382182218 cites W2101135654 @default.
W4382182218 cites W2105552075 @default.
W4382182218 cites W2121751961 @default.
W4382182218 cites W2125068099 @default.
W4382182218 cites W2125450867 @default.
W4382182218 cites W2127309075 @default.
W4382182218 cites W2130801245 @default.
W4382182218 cites W2140621953 @default.
W4382182218 cites W2140771515 @default.
W4382182218 cites W2142719460 @default.
W4382182218 cites W2148417430 @default.
W4382182218 cites W2150298956 @default.
W4382182218 cites W2158742097 @default.
W4382182218 cites W2192246748 @default.
W4382182218 cites W2201966433 @default.
W4382182218 cites W2271643717 @default.
W4382182218 cites W2291469492 @default.
W4382182218 cites W2395611524 @default.
W4382182218 cites W2412069671 @default.
W4382182218 cites W2508982726 @default.
W4382182218 cites W2609184235 @default.
W4382182218 cites W2765533948 @default.
W4382182218 cites W2791084533 @default.
W4382182218 cites W2903659349 @default.
W4382182218 cites W2946066695 @default.
W4382182218 cites W2947427313 @default.
W4382182218 cites W2951771013 @default.
W4382182218 cites W2954099113 @default.
W4382182218 cites W2962681100 @default.
W4382182218 cites W3005231649 @default.
W4382182218 cites W3007815224 @default.
W4382182218 cites W3009939277 @default.
W4382182218 cites W3037032872 @default.
W4382182218 cites W3096350391 @default.
W4382182218 cites W3100991048 @default.
W4382182218 cites W3108992942 @default.
W4382182218 cites W3112745696 @default.
W4382182218 cites W3158128092 @default.
W4382182218 cites W3195503961 @default.
W4382182218 cites W3206274900 @default.
W4382182218 cites W4220768023 @default.
W4382182218 cites W4221080311 @default.
W4382182218 cites W4229052410 @default.
W4382182218 cites W4311201803 @default.
W4382182218 cites W4324018329 @default.
W4382182218 cites W4362705667 @default.
W4382182218 doi "https://doi.org/10.1093/brain/awad220" @default.
W4382182218 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37366338" @default.
W4382182218 hasPublicationYear "2023" @default.
W4382182218 type Work @default.
W4382182218 citedByCount "0" @default.
W4382182218 crossrefType "journal-article" @default.
W4382182218 hasAuthorship W4382182218A5005648460 @default.
W4382182218 hasAuthorship W4382182218A5010675882 @default.
W4382182218 hasAuthorship W4382182218A5014208730 @default.
W4382182218 hasAuthorship W4382182218A5016183041 @default.
W4382182218 hasAuthorship W4382182218A5035915110 @default.
W4382182218 hasAuthorship W4382182218A5041940283 @default.
W4382182218 hasAuthorship W4382182218A5060332889 @default.
W4382182218 hasAuthorship W4382182218A5076773362 @default.
W4382182218 hasAuthorship W4382182218A5086287565 @default.
W4382182218 hasAuthorship W4382182218A5088588603 @default.
W4382182218 hasBestOaLocation W43821822181 @default.
W4382182218 hasConcept C105702510 @default.
W4382182218 hasConcept C126838900 @default.
W4382182218 hasConcept C142724271 @default.
W4382182218 hasConcept C143409427 @default.