November 2, 2024

Improve Your Sleep With 3-Minute “Activity Breaks” at Night

Improve Your Sleep With 3-Minute “Activity Breaks” At NightAlarm Clock Woman Sleeping in Bed - Improve Your Sleep With 3-Minute “Activity Breaks” At Night

Evening resistance exercises may enhance sleep duration by approximately 27 minutes, suggests a study challenging traditional advice against intense pre-sleep exercise.

Research indicates that evening resistance exercises can extend sleep by an average of 27 minutes without affecting sleep quality.

The study, involving 30 participants, contrasts with guidelines advising against intense pre-sleep exercise, highlighting potential long-term health benefits.

Resistance exercise ‘activity breaks’ at night may improve sleep length, suggest the findings of a small comparative study published in the open access journal BMJ Open Sport & Exercise Medicine.

Three-minute breaks every 30 minutes over a period of 4 hours may be all that’s needed, the findings indicate.

Current recommendations discourage intense exercise before going to bed, on the grounds that it increases body temperature and heart rate, which can result in poorer sleep quality, say the researchers.

Exploring the Impact of Activity Breaks on Sleep

While activity breaks can improve metabolism after a meal, it’s not clear if they have any impact on sleep. Poor sleep is associated with an increased risk of cardiometabolic disorders, such as coronary heart disease and type 2 diabetes, explain the researchers.

To explore this further, the researchers recruited 30 non-smokers, aged 18 to 40, to their study. All of them reported clocking up more than 5 hours of sedentary time during the day at work and 2 hours in the evening.

To capture habitual physical activity and sleep patterns, participants wore an activity tracker worn continuously on their non-dominant wrist for 7 consecutive days. And they were asked to record the periods they didn’t wear it, the time they went to bed, and when they woke up. 

They were also asked to record any physical activity when not wearing the activity tracker, such as swimming or contact sport, and to record activities known to be inaccurately identified by the tracker, such as stationary cycling or yoga.

Laboratory Sessions and Exercise Routine

Each participant completed two 4-hour sessions in a controlled laboratory environment on the same day of the week, starting at around 17:00-17:30 hours, and separated by a minimum period of 6 days.

In one session, participants remained seated for 4 hours; in the other, they did 3 minutes of simple resistance exercise every 30 minutes over the 4-hour period. Afterward, participants returned to their normal, real-life environment.

Each activity break included 3 rounds of 3 exercises: chair squats, calf raises, and standing knee raises with straight leg hip extensions for 20 seconds each, in time with a video recording of a person doing the same exercises.

The activity tracker data showed that before the experiment, participants spent an average of 7 hours 47 minutes asleep, 10 hours 31 minutes sitting down, and 4 hours 55 minutes engaged in vigorous physical activity a day. 

Three out of four slept for the recommended 7 hours a night, while the rest slept either less than that (21%) or longer than 9 hours (4%).

Increased Sleep Duration With Activity Breaks

The results, which are based on 28 participants, show that after the activity breaks, participants slept for an additional 27 minutes on average, compared with prolonged sitting. 

The average sleep duration was 7 hours 12 minutes, compared with 6 hours and 45 minutes after prolonged sitting. And while the time at which participants attempted to go to sleep was more or less the same, average wake times differed. Participants woke, on average, at 7:35 am after the prolonged sitting intervention and 8:06 am after regular activity breaks.

What’s more, there were no significant differences in sleep efficiency—uninterrupted sleep—or the number of awakenings during the night between the 2 interventions, indicating that activity breaks didn’t disrupt subsequent sleep, say the researchers. 

There were no statistically significant differences in activity patterns in the 24 hours following each intervention. However, compared with prolonged sitting, regular activity breaks resulted in 18 fewer minutes of total physical activity—less than 2% of total wake time.

Limitations and Future Research

The researchers acknowledge various limitations to their findings. For example, the study involved a small number of participants and was conducted in a laboratory setting, which may not reflect real-life behavior.

Further studies involving larger numbers of people in their normal home environment, and for a longer period, are therefore needed, emphasize the researchers.

However, they nevertheless say: “These results add to a growing body of evidence that indicates evening exercise does not disrupt sleep quality, despite current sleep recommendations to the contrary.”

And they point out: “Adults accrue the longest periods of sedentary time and consume almost half their daily energy intake during the evening, added to which insulin sensitivity is lower at this time.”

Potential Long-Term Health Benefits

By extending sleep duration, especially in those who sleep less than the recommended nightly total, activity breaks may potentially reduce cardiometabolic disease risk over the long term, they suggest.

The resistance exercises used in their study are simple to do, don’t require any equipment, and can even be done while streaming content, potentially increasing the chances of keeping up the routine, they add.

But they highlight: “While existing research indicates that evening exercise may not adversely impact sleep, the mechanisms by which [it] influences sleep quality remain unclear.”

For more on this research, see Unlock Better Sleep With Simple Evening Activities.

Reference: “Evening regular activity breaks extend subsequent free-living sleep time in healthy adults: a randomised crossover trial” by Jennifer T Gale, Jillian J Haszard, Dorothy L Wei, Rachael W Taylor and Meredith C Peddie, 1 June 2024, BMJ Open Sport & Exercise Medicine.
DOI: 10.1136/bmjsem-2023-001774