TY - JOUR
T1 - Structural correlates of cognitive domains in normal aging with diffusion tensor imaging
AU - Sasson, Efrat
AU - Doniger, Glen M.
AU - Pasternak, Ofer
AU - Tarrasch, Ricardo
AU - Assaf, Yaniv
N1 - Funding Information:
Y.A. wishes to thank the Israel Science Foundation (ISF grant no. 994/08) and the BIRAX program of the British council for grant support. The Future and Emerging Technologies (FET) program of the ICT - EU FP7 framework fund the CONNECT consortium ( http://www.brain-connect.eu ), which supports this work.
PY - 2012/4
Y1 - 2012/4
N2 - The involvement of brain structures in specific cognitive functions is not straightforward. In order to characterize the brain micro-structural correlates of cognitive domains, 52 healthy subjects, age 25-82 years, completed a computerized neuropsychological battery and were scanned using magnetic resonance diffusion tensor imaging. Factor analysis of 44 different cognitive scores was performed, isolating three cognitive domains-executive function, information processing speed and memory. Partial correlation was conducted between DTI parameters and each of the three cognitive domains controlling for age and motor function. Regions showing significant correlations with cognitive domains are domain-specific and are consistent with previous knowledge. While executive function was correlated with diffusion tensor imaging (DTI) parameters in frontal white matter and in the superior longitudinal fasciculus, information processing speed was correlated with DTI parameters in the cingulum, corona radiata, inferior longitudinal fasciculus, parietal white matter and in the thalamus. Memory performance was correlated with DTI measures in temporal and frontal gray matter and white matter regions, including the cingulate cortex and the parahippocampus. Thus, inter-subject variability in cognitive performance and tissue morphology, as expressed by diffusion tensor magnetic resonance imaging, can be used to relate tissue microstructure with cognitive performance and to provide information to corroborate other functional localization techniques.
AB - The involvement of brain structures in specific cognitive functions is not straightforward. In order to characterize the brain micro-structural correlates of cognitive domains, 52 healthy subjects, age 25-82 years, completed a computerized neuropsychological battery and were scanned using magnetic resonance diffusion tensor imaging. Factor analysis of 44 different cognitive scores was performed, isolating three cognitive domains-executive function, information processing speed and memory. Partial correlation was conducted between DTI parameters and each of the three cognitive domains controlling for age and motor function. Regions showing significant correlations with cognitive domains are domain-specific and are consistent with previous knowledge. While executive function was correlated with diffusion tensor imaging (DTI) parameters in frontal white matter and in the superior longitudinal fasciculus, information processing speed was correlated with DTI parameters in the cingulum, corona radiata, inferior longitudinal fasciculus, parietal white matter and in the thalamus. Memory performance was correlated with DTI measures in temporal and frontal gray matter and white matter regions, including the cingulate cortex and the parahippocampus. Thus, inter-subject variability in cognitive performance and tissue morphology, as expressed by diffusion tensor magnetic resonance imaging, can be used to relate tissue microstructure with cognitive performance and to provide information to corroborate other functional localization techniques.
KW - Aging
KW - Diffusion tensor imaging
KW - Executive function
KW - Information processing speed
KW - Magnetic resonance imaging
KW - Memory
UR - http://www.scopus.com/inward/record.url?scp=84862144375&partnerID=8YFLogxK
U2 - 10.1007/s00429-011-0344-7
DO - 10.1007/s00429-011-0344-7
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C2 - 21909706
AN - SCOPUS:84862144375
SN - 1863-2653
VL - 217
SP - 503
EP - 515
JO - Brain Structure and Function
JF - Brain Structure and Function
IS - 2
ER -