Vascular Imaging abnormalities and cognition: Mediation by cortical volume in nondemented individuals: Atherosclerosis risk in communities-neurocognitive study

David S. Knopman; Michael E. Griswold; Seth T. Lirette; Rebecca F. Gottesman; Kejal Kantarci; A. Richey Sharrett; Clifford R. Jack; Jonathan Graff-Radford; Andrea L.C. Schneider; B. Gwen Windham; Laura H. Coker; Marilyn S. Albert; Thomas H. Mosley; Josef Coresh; Karen Bandeen Roche; Ola A. Selnes; Guy McKhann; Alvaro Alonso; Aaron R. Folsom; John Eckfeldt; Lynne E. Wagenknecht; Gerardo Heiss; David Couper; Lisa Wruck

doi:10.1161/STROKEAHA.114.007847

Vascular Imaging abnormalities and cognition: Mediation by cortical volume in nondemented individuals: Atherosclerosis risk in communities-neurocognitive study

David S. Knopman, Michael E. Griswold, Seth T. Lirette, Rebecca F. Gottesman, Kejal Kantarci, A. Richey Sharrett, Clifford R. Jack, Jonathan Graff-Radford, Andrea L.C. Schneider, B. Gwen Windham, Laura H. Coker, Marilyn S. Albert, Thomas H. Mosley, Josef Coresh, Karen Bandeen Roche, Ola A. Selnes, Guy McKhann, Alvaro Alonso, Aaron R. Folsom, John EckfeldtLynne E. Wagenknecht, Gerardo Heiss, David Couper, Lisa Wruck

Research output: Contribution to journal › Article › peer-review

79 Scopus citations

Abstract

BACKGROUND AND PURPOSE - : The relationships between cerebrovascular lesions visible on imaging and cognition are complex. We explored the possibility that the cerebral cortical volume mediated these relationships. METHODS - : Total of 1906 nondemented participants (59% women; 25% African-American; mean age, 76.6 years) in the Atherosclerosis Risk in Communities (ARIC) study underwent cognitive assessments, risk factor assessments, and quantitative MRI for white matter hyperintensities (WMH) and infarcts. The Freesurfer imaging analysis pipeline was used to determine regional cerebral volumes. We examined the associations of cognitive domain outcomes with cerebral volumes (hippocampus and separate groups of posterior and frontal cortical regions of interest) and cerebrovascular imaging features (presence of large or small cortical/subcortical infarcts and WMH volume). We performed mediation pathway analyses to assess the hypothesis that hippocampal and cortical volumes mediated the associations between cerebrovascular imaging features and cognition. RESULTS - : In unmediated analyses, WMH and infarcts were both associated with worse psychomotor speed/executive function. In mediation analyses, WMH and infarct associations on psychomotor speed/executive function were significantly attenuated, but not abolished, by the inclusion of the posterior cortical regions of interest volume in the models, and the infarcts on psychomotor speed/executive function association were attenuated, but not abolished, by inclusion of the frontal cortical regions of interest volume. CONCLUSIONS - : Both WMH and infarcts were associated with cortical volume, and both lesions were also associated with cognitive performance, implying shared pathophysiological mechanisms. Although cross-sectional, our findings suggest that WMH and infarcts could be proxies for clinically covert processes that directly damage cortical regions. Microinfarcts are 1 candidate for such a clinically covert process.

Original language	English (US)
Pages (from-to)	433-440
Number of pages	8
Journal	Stroke
Volume	46
Issue number	2
DOIs	https://doi.org/10.1161/STROKEAHA.114.007847
State	Published - Feb 6 2015

Keywords

cerebral infarction
cerebral small vessel diseases
cognition
magnetic resonance imaging

ASJC Scopus subject areas

Clinical Neurology
Cardiology and Cardiovascular Medicine
Advanced and Specialized Nursing

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10.1161/STROKEAHA.114.007847

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Knopman, D. S., Griswold, M. E., Lirette, S. T., Gottesman, R. F., Kantarci, K., Sharrett, A. R., Jack, C. R., Graff-Radford, J., Schneider, A. L. C., Windham, B. G., Coker, L. H., Albert, M. S., Mosley, T. H., Coresh, J., Roche, K. B., Selnes, O. A., McKhann, G., Alonso, A., Folsom, A. R., ... Wruck, L. (2015). Vascular Imaging abnormalities and cognition: Mediation by cortical volume in nondemented individuals: Atherosclerosis risk in communities-neurocognitive study. Stroke, 46(2), 433-440. https://doi.org/10.1161/STROKEAHA.114.007847

Knopman, DS, Griswold, ME, Lirette, ST, Gottesman, RF, Kantarci, K, Sharrett, AR, Jack, CR , Graff-Radford, J, Schneider, ALC, Windham, BG, Coker, LH, Albert, MS, Mosley, TH, Coresh, J, Roche, KB, Selnes, OA, McKhann, G, Alonso, A, Folsom, AR, Eckfeldt, J, Wagenknecht, LE, Heiss, G, Couper, D & Wruck, L 2015, 'Vascular Imaging abnormalities and cognition: Mediation by cortical volume in nondemented individuals: Atherosclerosis risk in communities-neurocognitive study', Stroke, vol. 46, no. 2, pp. 433-440. https://doi.org/10.1161/STROKEAHA.114.007847

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title = "Vascular Imaging abnormalities and cognition: Mediation by cortical volume in nondemented individuals: Atherosclerosis risk in communities-neurocognitive study",

abstract = "BACKGROUND AND PURPOSE - : The relationships between cerebrovascular lesions visible on imaging and cognition are complex. We explored the possibility that the cerebral cortical volume mediated these relationships. METHODS - : Total of 1906 nondemented participants (59% women; 25% African-American; mean age, 76.6 years) in the Atherosclerosis Risk in Communities (ARIC) study underwent cognitive assessments, risk factor assessments, and quantitative MRI for white matter hyperintensities (WMH) and infarcts. The Freesurfer imaging analysis pipeline was used to determine regional cerebral volumes. We examined the associations of cognitive domain outcomes with cerebral volumes (hippocampus and separate groups of posterior and frontal cortical regions of interest) and cerebrovascular imaging features (presence of large or small cortical/subcortical infarcts and WMH volume). We performed mediation pathway analyses to assess the hypothesis that hippocampal and cortical volumes mediated the associations between cerebrovascular imaging features and cognition. RESULTS - : In unmediated analyses, WMH and infarcts were both associated with worse psychomotor speed/executive function. In mediation analyses, WMH and infarct associations on psychomotor speed/executive function were significantly attenuated, but not abolished, by the inclusion of the posterior cortical regions of interest volume in the models, and the infarcts on psychomotor speed/executive function association were attenuated, but not abolished, by inclusion of the frontal cortical regions of interest volume. CONCLUSIONS - : Both WMH and infarcts were associated with cortical volume, and both lesions were also associated with cognitive performance, implying shared pathophysiological mechanisms. Although cross-sectional, our findings suggest that WMH and infarcts could be proxies for clinically covert processes that directly damage cortical regions. Microinfarcts are 1 candidate for such a clinically covert process.",

keywords = "cerebral infarction, cerebral small vessel diseases, cognition, magnetic resonance imaging",

author = "Knopman, {David S.} and Griswold, {Michael E.} and Lirette, {Seth T.} and Gottesman, {Rebecca F.} and Kejal Kantarci and Sharrett, {A. Richey} and Jack, {Clifford R.} and Jonathan Graff-Radford and Schneider, {Andrea L.C.} and Windham, {B. Gwen} and Coker, {Laura H.} and Albert, {Marilyn S.} and Mosley, {Thomas H.} and Josef Coresh and Roche, {Karen Bandeen} and Selnes, {Ola A.} and Guy McKhann and Alvaro Alonso and Folsom, {Aaron R.} and John Eckfeldt and Wagenknecht, {Lynne E.} and Gerardo Heiss and David Couper and Lisa Wruck",

note = "Publisher Copyright: {\textcopyright} 2015 American Heart Association, Inc.",

year = "2015",

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day = "6",

doi = "10.1161/STROKEAHA.114.007847",

language = "English (US)",

volume = "46",

pages = "433--440",

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publisher = "Lippincott Williams and Wilkins",

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TY - JOUR

T1 - Vascular Imaging abnormalities and cognition

T2 - Mediation by cortical volume in nondemented individuals: Atherosclerosis risk in communities-neurocognitive study

AU - Knopman, David S.

AU - Griswold, Michael E.

AU - Lirette, Seth T.

AU - Gottesman, Rebecca F.

AU - Kantarci, Kejal

AU - Sharrett, A. Richey

AU - Jack, Clifford R.

AU - Graff-Radford, Jonathan

AU - Schneider, Andrea L.C.

AU - Windham, B. Gwen

AU - Coker, Laura H.

AU - Albert, Marilyn S.

AU - Mosley, Thomas H.

AU - Coresh, Josef

AU - Roche, Karen Bandeen

AU - Selnes, Ola A.

AU - McKhann, Guy

AU - Alonso, Alvaro

AU - Folsom, Aaron R.

AU - Eckfeldt, John

AU - Wagenknecht, Lynne E.

AU - Heiss, Gerardo

AU - Couper, David

AU - Wruck, Lisa

PY - 2015/2/6

Y1 - 2015/2/6

N2 - BACKGROUND AND PURPOSE - : The relationships between cerebrovascular lesions visible on imaging and cognition are complex. We explored the possibility that the cerebral cortical volume mediated these relationships. METHODS - : Total of 1906 nondemented participants (59% women; 25% African-American; mean age, 76.6 years) in the Atherosclerosis Risk in Communities (ARIC) study underwent cognitive assessments, risk factor assessments, and quantitative MRI for white matter hyperintensities (WMH) and infarcts. The Freesurfer imaging analysis pipeline was used to determine regional cerebral volumes. We examined the associations of cognitive domain outcomes with cerebral volumes (hippocampus and separate groups of posterior and frontal cortical regions of interest) and cerebrovascular imaging features (presence of large or small cortical/subcortical infarcts and WMH volume). We performed mediation pathway analyses to assess the hypothesis that hippocampal and cortical volumes mediated the associations between cerebrovascular imaging features and cognition. RESULTS - : In unmediated analyses, WMH and infarcts were both associated with worse psychomotor speed/executive function. In mediation analyses, WMH and infarct associations on psychomotor speed/executive function were significantly attenuated, but not abolished, by the inclusion of the posterior cortical regions of interest volume in the models, and the infarcts on psychomotor speed/executive function association were attenuated, but not abolished, by inclusion of the frontal cortical regions of interest volume. CONCLUSIONS - : Both WMH and infarcts were associated with cortical volume, and both lesions were also associated with cognitive performance, implying shared pathophysiological mechanisms. Although cross-sectional, our findings suggest that WMH and infarcts could be proxies for clinically covert processes that directly damage cortical regions. Microinfarcts are 1 candidate for such a clinically covert process.

AB - BACKGROUND AND PURPOSE - : The relationships between cerebrovascular lesions visible on imaging and cognition are complex. We explored the possibility that the cerebral cortical volume mediated these relationships. METHODS - : Total of 1906 nondemented participants (59% women; 25% African-American; mean age, 76.6 years) in the Atherosclerosis Risk in Communities (ARIC) study underwent cognitive assessments, risk factor assessments, and quantitative MRI for white matter hyperintensities (WMH) and infarcts. The Freesurfer imaging analysis pipeline was used to determine regional cerebral volumes. We examined the associations of cognitive domain outcomes with cerebral volumes (hippocampus and separate groups of posterior and frontal cortical regions of interest) and cerebrovascular imaging features (presence of large or small cortical/subcortical infarcts and WMH volume). We performed mediation pathway analyses to assess the hypothesis that hippocampal and cortical volumes mediated the associations between cerebrovascular imaging features and cognition. RESULTS - : In unmediated analyses, WMH and infarcts were both associated with worse psychomotor speed/executive function. In mediation analyses, WMH and infarct associations on psychomotor speed/executive function were significantly attenuated, but not abolished, by the inclusion of the posterior cortical regions of interest volume in the models, and the infarcts on psychomotor speed/executive function association were attenuated, but not abolished, by inclusion of the frontal cortical regions of interest volume. CONCLUSIONS - : Both WMH and infarcts were associated with cortical volume, and both lesions were also associated with cognitive performance, implying shared pathophysiological mechanisms. Although cross-sectional, our findings suggest that WMH and infarcts could be proxies for clinically covert processes that directly damage cortical regions. Microinfarcts are 1 candidate for such a clinically covert process.

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KW - cerebral small vessel diseases

KW - cognition

KW - magnetic resonance imaging

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Vascular Imaging abnormalities and cognition: Mediation by cortical volume in nondemented individuals: Atherosclerosis risk in communities-neurocognitive study

Abstract

Keywords

ASJC Scopus subject areas

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