Caffeine and human cerebral blood flow: A positron emission tomography study

Cameron, Oliver G.; Modell, Jack G.; Hariharan, M.

doi:10.1016/0024-3205(90)90174-p

Cited by 151 publications

(113 citation statements)

References 32 publications

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“…A robust CBF decrease of 35% in response to caffeine consumption was observed, in good agreement with previous work Cameron et al, 1990;Field et al, 2003;Liu et al, 2004). However, we measured an accompanying decrease in the BOLD signal which, when analyzed in the context of a mathematical model of the BOLD effect (Davis et al, 1998), suggests that the CBF decrease is not accompanied by a change in CMRO 2 .…”

Section: Discussionsupporting

confidence: 91%

“…Its main action is to bind to adenosine receptors and block the actions of agonists at these receptors (Fredholm et al, 1999), causing vasoconstriction. The resulting decrease in baseline CBF has been demonstrated using various measurement techniques in humans Bendlin et al, 2006;Cameron et al, 1990;Field et al, 2003;Liu et al, 2004;Mathew and Wilson, 1985). In addition, fMRI has previously been used to study the effects of caffeine on the amplitude (Bendlin et al, 2006;Laurienti et al, 2002Laurienti et al, , 2003Mulderink et al, 2002) and temporal dynamics Liu et al, 2004) of the BOLD response, typically detecting a speeding up of the BOLD response that is compatible with a model for the vasculature in which vasoconstrictive agents cause the arterioles to become more responsive to stimulation (Behzadi and Liu, 2005).…”

Section: Introductionmentioning

confidence: 98%

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Caffeine-induced uncoupling of cerebral blood flow and oxygen metabolism: A calibrated BOLD fMRI study

et al. 2008

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Although functional MRI (fMRI) based on blood oxygenation-level dependent (BOLD) signal changes is a sensitive tool for mapping brain activation, quantitative studies of the physiological effects of pharmacological agents using fMRI alone are difficult to interpret due to the complexities inherent in the BOLD response. Hypercapnia calibrated-BOLD methodology is potentially a more powerful physiological probe of brain function, providing measures of the changes in cerebral blood flow (CBF) and the cerebral metabolic rate of oxygen (CMRO 2 ). In this study, we implemented a quantitative R 2 * approach for assessing the BOLD response to improve the stability of repeated measurements, in combination with the calibrated-BOLD method, to examine the CBF and CMRO 2 responses to caffeine ingestion. Ten regular caffeine consumers were imaged before and after a 200mg caffeine dose. A dual echo arterial spin labeling technique was used to measure CBF and BOLD responses to visual stimulation, caffeine consumption and mild hypercapnia. For a region of interest defined by CBF activation to the visual stimulus, the results were: hypercapnia increased CBF (+46.6%, ±11.3, mean and standard error), visual stimulation increased both CBF (+47.9%, ±2.9) and CMRO 2 (+20.7%, ±1.4), and caffeine decreased CBF (-34.5%, ±2.6) with a non-significant change in CMRO 2 (+5.2%, ±6.4). The coupling between CBF and CMRO 2 was significantly different in response to visual stimulation compared to caffeine consumption. A calibrated-BOLD methodology using R 2 * is a promising approach for evaluating CBF and CMRO 2 changes in response to pharmacological interventions. Keywordsfunctional magnetic resonance imaging (fMRI); blood oxygenation level dependent (BOLD); cerebral blood flow (CBF); cerebral metabolic rate of oxygen (CMRO2); calibrated-BOLD; caffeine

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Section: Discussionsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 98%

Caffeine-induced uncoupling of cerebral blood flow and oxygen metabolism: A calibrated BOLD fMRI study

et al. 2008

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“…As in younger cohorts, caffeine induced a global reduction of baseline perfusion in the range of 20% (Cameron et al, 1990;Mulderink et al, 2002;Vidyasagar et al, 2013). This effect is specific to caffeine, as for example the same effect was found for caffeine-containing tea, while decaffeinated tea did not reduce cerebral perfusion (Vidyasagar et al, 2013).…”

Section: Discussionmentioning

confidence: 52%

Acute caffeine administration impact on working memory-related brain activation and functional connectivity in the elderly: A BOLD and perfusion MRI study

et al. 2013

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Abstract-In young individuals, caffeine-mediated blockade of adenosine receptors and vasoconstriction has direct repercussions on task-related activations, changes in functional connectivity, as well as global vascular effects. To date, no study has explored the effect of caffeine on brain activation patterns during highly demanding cognitive tasks in the elderly. This prospective, placebo-controlled crossover design comprises 24 healthy elderly individuals (mean age 68.8 ± 4.0 years, 17 females) performing a 2-back working memory (WM) task in functional magnetic resonance imaging (fMRI). Analyses include complimentary assessment of task-related activations (general linear model, GLM), functional connectivity (tensorial independent component analysis, TICA), and baseline perfusion (arterial spin labeling). Despite a reduction in whole-brain global perfusion (À22.7%), caffeine-enhanced task-related GLM activation in a local and distributed network is most pronounced in the bilateral striatum and to a lesser degree in the right middle and inferior frontal gyrus, bilateral insula, left superior and inferior parietal lobule as well as in the cerebellum bilaterally. TICA was significantly enhanced (+8.2%) in caffeine versus placebo in a distributed and task-relevant network including the pre-frontal cortex, the supplementary motor area, the ventral premotor cortex and the parietal cortex as well as the occipital cortex (visual stimuli) and basal ganglia. The inverse comparison of placebo versus caffeine had no significant difference. Activation strength of the task-relevant-network component correlated with response accuracy for caffeine yet not for placebo, indicating a selective cognitive effect of caffeine. The present findings suggest that acute caffeine intake enhances WM-related brain activation as well as functional connectivity of blood oxygen level-dependent fMRI in elderly individuals. Ó

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“…Caffeine shows a widespread reduction in CBF, that is exaggerated in key regions ( Figure 2; Table 2). A reduction in CBF due to caffeine is well documented in past magnetic resonance and positron emission tomography studies, 27,28 however, to our knowledge the regional specificity of these changes has not previously been reported. The CBF was reduced in widespread regions spanning primarily subcortical gray matter (thalamus, basal ganglia, hippocampus, and posterior cingulum) and isolated frontal, parietal, and occipital regions.…”

Section: Resting Cerebral Blood Flowmentioning

confidence: 65%

The Effect of Black Tea and Caffeine on Regional Cerebral Blood Flow Measured with Arterial Spin Labeling

Vidyasagar

Greyling

Draijer

et al. 2013

J Cereb Blood Flow Metab

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Black tea consumption has been shown to improve peripheral vascular function. Its effect on brain vasculature is unknown, though tea contains small amounts of caffeine, a psychoactive substance known to influence cerebral blood flow (CBF). We investigated the effects on CBF due to the intake of tea components in 20 healthy men in a double-blinded, randomized, placebo-controlled study. On separate days, subjects received a single dose of 184 mg caffeine (equivalent to one strong espresso coffee), 2,820 mg black tea solids containing 184 mg caffeine (equivalent to 6 cups of tea), 2,820 mg decaffeinated black tea solids, or placebo. The CBF and cerebrovascular reactivity (CVR) to hypercapnia were measured with arterial spin labeled magnetic resonance imaging (MRI) before and 2 hours after administration. We found a significant global reduction with caffeine (20%) and tea (21%) in gray matter CBF, with no effect of decaffeinated tea, suggesting that only caffeine influences CBF acutely. Voxelwise analysis revealed the effect of caffeine to be regionally specific. None of the interventions had an effect on CVR. Additional research is required to conclude on the physiologic relevance of these findings and the chronic effects of caffeine and tea intake on CBF.

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Caffeine and human cerebral blood flow: A positron emission tomography study

Cited by 151 publications

References 32 publications

Caffeine-induced uncoupling of cerebral blood flow and oxygen metabolism: A calibrated BOLD fMRI study

Caffeine-induced uncoupling of cerebral blood flow and oxygen metabolism: A calibrated BOLD fMRI study

Acute caffeine administration impact on working memory-related brain activation and functional connectivity in the elderly: A BOLD and perfusion MRI study

The Effect of Black Tea and Caffeine on Regional Cerebral Blood Flow Measured with Arterial Spin Labeling

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