A recent study published describes the impact of caffeine intake on cerebral blood flow in young, healthy individuals.
Study
In the current study, scientists investigate whether caffeine consumption can affect the blood flow velocity in the middle cerebral artery in clinically healthy young individuals. A total of 45 university students between 18 and 22 years of age were included in the study, none of whom were regular coffee drinkers. Notably, most study participants reported consuming one to two cups of coffee daily in unusual situations, such as during exam season.
The participants were randomly categorized into three groups, with each group comprising 15 participants. In the low- and high-caffeine groups, participants were administered 45 mg and 120 mg caffeine in capsulated forms, respectively. In the control no-caffeine group, participants were given flour capsules as a placebo.
Transcranial Doppler ultrasonography was performed to measure the flow velocity in the middle cerebral artery at baseline before caffeine consumption and 30 minutes after caffeine consumption. While obtaining the velocity measurements, participants were asked to perform functional tests that assessed hypo- and hyper-ventilation, as well as three cognitive activities measuring short-term memory, vocabulary problem-solving, and math problem-solving.
Results
The comparison between baseline and post-intervention measurements in the low-caffeine group revealed a significant reduction in mean and peak systolic velocities during hypoventilation, as well as the short-term memory and vocabulary problem-solving tests. A substantial reduction in end-diastolic velocity was also observed during hypoventilation, hyperventilation, and the short-term memory test. Regarding heart rate, a significant reduction was observed during hypoventilation and hyperventilation, as well as the short-term memory and math problem-solving tests.
The same comparison in the high-caffeine group revealed a significant reduction in all tested parameters of mean velocity, peak systolic velocity, end-diastolic velocity, and heart rate in all evaluations. Comparatively, no significant differences in the velocities were observed between baseline and post-intervention conditions in the control group.
Changes during Functional Tests
The analysis conducted at the post-intervention time point revealed a significant induction in the velocities during hypoventilation compared to baseline levels in all study groups. Regarding heart rate, a significant reduction was observed in both low- and high-caffeine groups.
During hyperventilation, a significant reduction in the velocities was observed at the post-intervention time point in all study groups compared to baseline levels. Regarding heart rate, a significant induction was observed in all study groups.
Changes during cognitive Tests
A significant induction in end-diastolic velocity and heart rate was observed in the high-caffeine group during the short-term memory test. In the control group, a significant induction in end-diastolic velocity was observed during the math problem-solving test.
No significant changes in velocities and heart rate were observed in the low-caffeine group during cognitive tests.
Conclusion
Caffeine intake acutely influences the cardiovascular system and interferes with blood flow velocities of the middle cerebral artery in a dose-dependent manner. The study findings suggest that caffeine-mediated reduction in cerebral arterial velocities could be due to vasodilation of cerebral arteries caused by the acute effect.
Source:
https://www.news-medical.net/news/20231105/How-caffeine-impacts-cerebral-blood-flow.aspx