- A randomized trial to study caffeinated coffee consumption among 100 volunteers for two weeks found both potentially beneficial and harmful short-term health consequences of drinking coffee.
- When participants were randomly assigned to drink coffee, they were more physically active, yet they also had an increased number of abnormal heartbeats and slept less compared to when they were randomly assigned to avoid all caffeine.
Drinking caffeinated coffee appears to have both beneficial and harmful short-term health effects: increased abnormal heartbeats, increased physical activity, and reduced sleep duration, according to research that was presented at American Heart Association’s Scientific Sessions 2021.
“Coffee is the most commonly consumed beverage in the world, yet its health effects remain uncertain,” said study author Gregory Marcus, M.D., M.A.S., associate chief of cardiology for research and endowed professor of atrial fibrillation research at the University of California, San Francisco. “While the majority of long-term observational studies have suggested multiple potential benefits of drinking coffee, this is the first randomized trial to investigate the real-time, physiologic consequences of coffee consumption.”
Marcus and colleagues enrolled 100 adult volunteers, and they were assigned to wear continuously recording ECG devices (to track heart rhythm), wrist-worn devices to track physical activity and sleep; and continuous glucose monitors to track blood sugar levels for two weeks. The participants were an average age of 38 years, 51% were women and 48% were white. Researchers also obtained DNADNA, or deoxyribonucleic acid, is a molecule composed of two long strands of nucleotides that coil around each other to form a double helix. It is the hereditary material in humans and almost all other organisms that carries genetic instructions for development, functioning, growth, and reproduction. Nearly every cell in a person’s body has the same DNA. Most DNA is located in the cell nucleus (where it is called nuclear DNA), but a small amount of DNA can also be found in the mitochondria (where it is called mitochondrial DNA or mtDNA).”>DNA saliva samples from the participants to assess genetic variants that may affect caffeine metabolism.
Participants were then randomly assigned to either avoid or consume coffee for no more than two consecutive days each for 14 consecutive days. Coffee and espresso consumption were recorded in real time via a “time stamp button” on the ECG monitor, and researchers tracked trips to coffee shops with geotracking. In addition, participants completed daily questionnaires to detail how much coffee they had consumed every morning.
The analysis found that coffee consumption was associated with a 54% increase in premature ventricular contractions, a type of abnormal heartbeat originating in the lower heart chambers reported to feel like a skipped heartbeat. In contrast, drinking more coffee was associated with fewer episodes of supraventricular tachycardia, an abnormally rapid heart rhythm arising from the upper heart chambers.
Consuming coffee was consistently associated with more physical activity as well as less sleep. Specifically:
- Participants who consumed coffee logged more than 1,000 additional steps per day compared to days when they did not drink coffee.
- On the days participants drank coffee, they had 36 fewer minutes of sleep per night according to their Fitbit devices.
- Drinking more than one coffee drink more than doubled the number of irregular heartbeats arising from the heart’s lower chambers.
- Each additional cup of coffee consumed was associated with nearly 600 more steps per day and 18 fewer minutes of sleep per night.
- There were no differences in continuously recorded glucose measured when the study participants consumed versus avoided coffee.
These findings were corroborated by analyses of adherence to their randomization assignment and amplified when more versus less coffee was consumed.
“More physical activity, which appears to be prompted by coffee consumption, has numerous health benefits, such as reduced risks of Type 2 diabetes and several cancers, and is associated with greater longevity,” Marcus said. “On the other hand, reduced sleep is associated with a variety of adverse psychiatric, neurologic and cardiovascular outcomes. More frequent abnormal heartbeats from the upper heart chambers influence risk of atrial fibrillation, and more frequent abnormal beats from the lower chambers, or ventricles, increase the risk of heart failure. These results highlight the complex relationship between coffee and health.”
The study participants with genetic variants associated with faster caffeine metabolism exhibited more abnormal heart beats originating in the ventricles, or PVCs, when more caffeinated coffee was consumed. The slower an individual metabolized caffeine based on their genetics, the more sleep they lost when they drank caffeinated coffee.
The investigators also sought to determine if changes in exercise or sleep influenced coffee’s effects on abnormal heart rhythms, and no such association was identified.
Marcus noted that because coffee was randomly assigned to the study participants, cause-and-effect can be inferred. These observations were made during repeated assessments of days when coffee was consumed versus when it was not for each study participant, eliminating concerns regarding differences in individual-level characteristics as an explanation for these results.
Co-authors are David G. Rosenthal, M.D.; Gregory Nah, M.D.; Eric Vittinghoff, Ph.D.; Christina Fang; Kelsey Ogomori; Sean Joyce; Defne Yilmaz; Vivian Yang; Tara Kessedjian; Dolkun Rahmutula, Ph.D.; Emily Wilson; Michelle Yang; Kathleen Chang; Grace Wall; and Jeff Olgin, M.D. Authors’ disclosures are listed in the abstract.
The study was funded by a UCSF Cardiology Innovation Award, the Naify Center for Atrial Fibrillation Research, and the University of California, San Francisco Division of Cardiology.