Genes from a translational analysis support a multifactorial nature of white matter hyperintensities

Genes from a translational analysis support a multifactorial nature of white matter hyperintensities

10.1161/STROKEAHA.114.007649

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Main Authors: Lopez, L.M, Hill, W.D, Harris, S.E, Valdes Hernandez, M, Munoz Maniega, S, Bastin, M.E, Bailey, E, Smith, C, McBride, M, McClure, J, Graham, D, Dominiczak, A, Yang, Q, Fornage, M, Ikram, M.A, Debette, S, Launer, L, Bis, J.C, Schmidt, R, Seshadri, S, Porteous, D.J, Starr, J, Deary, I.J, Wardlaw, J.M
Other Authors: DUKE-NUS MEDICAL SCHOOL
Format: Article
Published: Lippincott Williams and Wilkins 2020
Subjects:
nuclear receptor NR4A3
afp gene
alb gene
Article
brain size
chromosome 1
chromosome 10
chromosome 13
chromosome 17
farp1 gene
gene
gene expression
genetic association
gnai1 gene
human
inpp5d gene
major clinical study
mrpl18 gene
nonhuman
priority journal
rat
rbm8a gene
single nucleotide polymorphism
sipa1l2 gene
stroke prone spontaneously hypertensive rat
white matter
white matter hyperintensity
xpnpep1 gene
aged
Alzheimer disease
animal
brain
causality
dementia
female
genetics
genome-wide association study
Leukoencephalopathies
male
pathology
procedures
risk factor
spontaneously hypertensive rat
translational research
Wistar rat
Aged
Alzheimer Disease
Animals
Brain
Causality
Dementia
Female
Genome-Wide Association Study
Humans
Male
Polymorphism, Single Nucleotide
Rats
Rats, Inbred SHR
Rats, Wistar
Risk Factors
Translational Medical Research
White Matter
Online Access:https://scholarbank.nus.edu.sg/handle/10635/180128
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1801282023-11-01T08:46:34Z Genes from a translational analysis support a multifactorial nature of white matter hyperintensities Lopez, L.M Hill, W.D Harris, S.E Valdes Hernandez, M Munoz Maniega, S Bastin, M.E Bailey, E Smith, C McBride, M McClure, J Graham, D Dominiczak, A Yang, Q Fornage, M Ikram, M.A Debette, S Launer, L Bis, J.C Schmidt, R Seshadri, S Porteous, D.J Starr, J Deary, I.J Wardlaw, J.M DUKE-NUS MEDICAL SCHOOL nuclear receptor NR4A3 afp gene alb gene Article brain size chromosome 1 chromosome 10 chromosome 13 chromosome 17 farp1 gene gene gene expression genetic association gnai1 gene human inpp5d gene major clinical study mrpl18 gene nonhuman priority journal rat rbm8a gene single nucleotide polymorphism sipa1l2 gene stroke prone spontaneously hypertensive rat white matter white matter hyperintensity xpnpep1 gene aged Alzheimer disease animal brain causality dementia female genetics genome-wide association study Leukoencephalopathies male pathology procedures risk factor spontaneously hypertensive rat translational research white matter Wistar rat Aged Alzheimer Disease Animals Brain Causality Dementia Female Genome-Wide Association Study Humans Leukoencephalopathies Male Polymorphism, Single Nucleotide Rats Rats, Inbred SHR Rats, Wistar Risk Factors Translational Medical Research White Matter 10.1161/STROKEAHA.114.007649 Stroke 46 2 341-347 2020-10-26T07:06:51Z 2020-10-26T07:06:51Z 2015 Article Lopez, L.M, Hill, W.D, Harris, S.E, Valdes Hernandez, M, Munoz Maniega, S, Bastin, M.E, Bailey, E, Smith, C, McBride, M, McClure, J, Graham, D, Dominiczak, A, Yang, Q, Fornage, M, Ikram, M.A, Debette, S, Launer, L, Bis, J.C, Schmidt, R, Seshadri, S, Porteous, D.J, Starr, J, Deary, I.J, Wardlaw, J.M (2015). Genes from a translational analysis support a multifactorial nature of white matter hyperintensities. Stroke 46 (2) : 341-347. ScholarBank@NUS Repository. https://doi.org/10.1161/STROKEAHA.114.007649 0039-2499 https://scholarbank.nus.edu.sg/handle/10635/180128 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ Lippincott Williams and Wilkins Unpaywall 20201031
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic nuclear receptor NR4A3
afp gene
alb gene
Article
brain size
chromosome 1
chromosome 10
chromosome 13
chromosome 17
farp1 gene
gene
gene expression
genetic association
gnai1 gene
human
inpp5d gene
major clinical study
mrpl18 gene
nonhuman
priority journal
rat
rbm8a gene
single nucleotide polymorphism
sipa1l2 gene
stroke prone spontaneously hypertensive rat
white matter
white matter hyperintensity
xpnpep1 gene
aged
Alzheimer disease
animal
brain
causality
dementia
female
genetics
genome-wide association study
Leukoencephalopathies
male
pathology
procedures
risk factor
spontaneously hypertensive rat
translational research
white matter
Wistar rat
Aged
Alzheimer Disease
Animals
Brain
Causality
Dementia
Female
Genome-Wide Association Study
Humans
Leukoencephalopathies
Male
Polymorphism, Single Nucleotide
Rats
Rats, Inbred SHR
Rats, Wistar
Risk Factors
Translational Medical Research
White Matter
spellingShingle nuclear receptor NR4A3
afp gene
alb gene
Article
brain size
chromosome 1
chromosome 10
chromosome 13
chromosome 17
farp1 gene
gene
gene expression
genetic association
gnai1 gene
human
inpp5d gene
major clinical study
mrpl18 gene
nonhuman
priority journal
rat
rbm8a gene
single nucleotide polymorphism
sipa1l2 gene
stroke prone spontaneously hypertensive rat
white matter
white matter hyperintensity
xpnpep1 gene
aged
Alzheimer disease
animal
brain
causality
dementia
female
genetics
genome-wide association study
Leukoencephalopathies
male
pathology
procedures
risk factor
spontaneously hypertensive rat
translational research
white matter
Wistar rat
Aged
Alzheimer Disease
Animals
Brain
Causality
Dementia
Female
Genome-Wide Association Study
Humans
Leukoencephalopathies
Male
Polymorphism, Single Nucleotide
Rats
Rats, Inbred SHR
Rats, Wistar
Risk Factors
Translational Medical Research
White Matter
Lopez, L.M
Hill, W.D
Harris, S.E
Valdes Hernandez, M
Munoz Maniega, S
Bastin, M.E
Bailey, E
Smith, C
McBride, M
McClure, J
Graham, D
Dominiczak, A
Yang, Q
Fornage, M
Ikram, M.A
Debette, S
Launer, L
Bis, J.C
Schmidt, R
Seshadri, S
Porteous, D.J
Starr, J
Deary, I.J
Wardlaw, J.M
Genes from a translational analysis support a multifactorial nature of white matter hyperintensities
description 10.1161/STROKEAHA.114.007649
author2 DUKE-NUS MEDICAL SCHOOL
author_facet DUKE-NUS MEDICAL SCHOOL
Lopez, L.M
Hill, W.D
Harris, S.E
Valdes Hernandez, M
Munoz Maniega, S
Bastin, M.E
Bailey, E
Smith, C
McBride, M
McClure, J
Graham, D
Dominiczak, A
Yang, Q
Fornage, M
Ikram, M.A
Debette, S
Launer, L
Bis, J.C
Schmidt, R
Seshadri, S
Porteous, D.J
Starr, J
Deary, I.J
Wardlaw, J.M
format Article
author Lopez, L.M
Hill, W.D
Harris, S.E
Valdes Hernandez, M
Munoz Maniega, S
Bastin, M.E
Bailey, E
Smith, C
McBride, M
McClure, J
Graham, D
Dominiczak, A
Yang, Q
Fornage, M
Ikram, M.A
Debette, S
Launer, L
Bis, J.C
Schmidt, R
Seshadri, S
Porteous, D.J
Starr, J
Deary, I.J
Wardlaw, J.M
author_sort Lopez, L.M
title Genes from a translational analysis support a multifactorial nature of white matter hyperintensities
title_short Genes from a translational analysis support a multifactorial nature of white matter hyperintensities
title_full Genes from a translational analysis support a multifactorial nature of white matter hyperintensities
title_fullStr Genes from a translational analysis support a multifactorial nature of white matter hyperintensities
title_full_unstemmed Genes from a translational analysis support a multifactorial nature of white matter hyperintensities
title_sort genes from a translational analysis support a multifactorial nature of white matter hyperintensities
publisher Lippincott Williams and Wilkins
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/180128
_version_ 1781792365708574720

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