TY - JOUR

T1 - Calibrated fMRI during a cognitive Stroop task reveals reduced metabolic response with increasing age

AU - Mohtasib, Rafat S.

AU - Lumley, Guy

AU - Goodwin, Jonathan A.

AU - Emsley, Hedley C. A.

AU - Sluming, Vanessa

AU - Parkes, Laura M.

PY - 2012/1/16

Y1 - 2012/1/16

N2 - fMRI studies of aging have revealed increased blood oxygenation level dependent (BOLD) response to tasks of executive function with advancing age, which is generally interpreted as increased neural activity. However, changes in the cerebrovascular system with age can alter the BOLD signal, complicating this interpretation. Arterial spin labeling (ASL) allows simultaneous acquisition of BOLD and cerebral blood flow (CBF) information and can be used to quantify the component parts of the BOLD signal. We used this calibrated BOLD approach in 58 healthy participants over an age range of 18-71. years to determine the relative vascular and neuronal contributions to the age-related BOLD changes in response to a Stroop task. The percentage BOLD response increased significantly with increasing age but the percentage CBF response did not alter, such that the BOLD increase is attributed to a significant reduction in the oxygen metabolism response with increasing age. Hence, in this study, the BOLD increase with age should be interpreted as a reduction in neural activity. The greatest percentage BOLD increases with age were found in the left and right medial frontal gyri and the primary motor cortex and were again linked to a reduction in oxygen metabolism. On separating the participants into three groups (young, old high performers and old low performers), age-related differences in percentage BOLD response and oxygen metabolism response could be attributed to the low performing old group. This study demonstrates the need to take into account alterations in vascular-metabolic coupling and resting blood volume when interpreting changes in the BOLD response with aging.

AB - fMRI studies of aging have revealed increased blood oxygenation level dependent (BOLD) response to tasks of executive function with advancing age, which is generally interpreted as increased neural activity. However, changes in the cerebrovascular system with age can alter the BOLD signal, complicating this interpretation. Arterial spin labeling (ASL) allows simultaneous acquisition of BOLD and cerebral blood flow (CBF) information and can be used to quantify the component parts of the BOLD signal. We used this calibrated BOLD approach in 58 healthy participants over an age range of 18-71. years to determine the relative vascular and neuronal contributions to the age-related BOLD changes in response to a Stroop task. The percentage BOLD response increased significantly with increasing age but the percentage CBF response did not alter, such that the BOLD increase is attributed to a significant reduction in the oxygen metabolism response with increasing age. Hence, in this study, the BOLD increase with age should be interpreted as a reduction in neural activity. The greatest percentage BOLD increases with age were found in the left and right medial frontal gyri and the primary motor cortex and were again linked to a reduction in oxygen metabolism. On separating the participants into three groups (young, old high performers and old low performers), age-related differences in percentage BOLD response and oxygen metabolism response could be attributed to the low performing old group. This study demonstrates the need to take into account alterations in vascular-metabolic coupling and resting blood volume when interpreting changes in the BOLD response with aging.

KW - Aging

KW - Arterial spin labeling

KW - Calibrated BOLD

KW - FMRI

KW - Oxygen metabolism

KW - Stroop

U2 - 10.1016/j.neuroimage.2011.07.092

DO - 10.1016/j.neuroimage.2011.07.092

M3 - Journal article

C2 - 21843646

AN - SCOPUS:83055194509

VL - 59

SP - 1143

EP - 1151

JO - NeuroImage

JF - NeuroImage

SN - 1053-8119

IS - 2

ER -