Exercise Boosts Women’s Brain Power More Than Ovulation Timing

Summary: While women’s reaction times and accuracy peak during ovulation, physical activity level plays a far greater role in cognitive performance. Inactive participants had reaction times around 70 milliseconds slower and made three times as many impulsive errors compared to active women, regardless of menstrual phase.

The study suggests that fitness has a stronger influence on brain function than hormonal fluctuations, with meaningful effects for both sports performance and everyday coordination. These findings challenge assumptions about menstruation-related performance declines and emphasize the brain-boosting benefits of regular exercise.

Key Facts:

Peak Performance at Ovulation: Women performed fastest and most accurately during ovulation, reacting about 30 milliseconds quicker than later in the cycle.Exercise Matters More: Physically active women reacted 70 milliseconds faster and made far fewer impulsive errors than inactive participants, regardless of cycle phase.Practical Impact: Even small gains in reaction time can prevent injury in sports and improve daily coordination, highlighting the cognitive benefits of regular activity.

Source: UCL

Women performed best on cognitive tests during ovulation but physical activity level had a stronger influence on brain function, according to a new study from researchers at UCL.

The study, published in Sports Medicine – Open, explored how the different phases of the menstrual cycle and physical activity level affected performance on a range of cognitive tests designed to mimic mental processes used in team sports and everyday life, such as the accurate timing of movements, attention, and reaction time.

The team found that women had the fastest reaction times and made the fewest errors on the day of ovulation, when the ovaries release an egg ready to be fertilised (and when women’s fertility is at its peak).

But while cognitive performance fluctuated across the menstrual cycle, much greater differences were observed between those who were active and those who weren’t. Compared to active participants, inactive participants had reaction times on average around 70 milliseconds slower and made around three times as many impulsive errors, regardless of cycle phase.

The researchers say the findings are particularly relevant to women’s sport, where slightly quicker reaction times of around 20 milliseconds may make the difference between sustaining or avoiding an injury like concussion.

Previous research on elite athletes has suggested injuries are more common at certain points during the menstrual cycle, and the authors say that these changes in cognition might partially explain this occurrence.

However, while a difference of 20 milliseconds is likely to be inconsequential in everyday life, the much larger difference between active and inactive groups is more significant, where 70 milliseconds could determine whether we regain balance after tripping over an obstacle or not.

Dr Flaminia Ronca, lead author of the study from UCL Surgery and Interventional Science and the Institute of Sport, Exercise & Health, said: “This is the first time we’ve directly measured ovulation in this context and we found that cognitive performance was at its best during this phase, with participants reacting around 30 milliseconds faster compared to later in their cycle, during the mid-luteal phase before periods begin. At elite level, this could make the difference between sustaining a serious injury in a collision or not.

“But the really interesting finding for me is that the difference between those who were active and inactive was much greater at around 70 milliseconds, which is enough time for the brain to register a stimulus and initiate a voluntary reaction, and is therefore far more meaningful for everyday life.

“This shows the importance of incorporating some form of recreational physical activity into our lives. It doesn’t have to be that intense or competitive to make a difference – and crucially, it’s something that we can control.”

The research included 54 women aged 18-40 who were naturally menstruating (not using hormone-based contraception), who were categorised into four groups based on their athletic participation level: inactive (reported not taking part in any form of structured exercise), recreationally active (taking part in at least two hours of structured exercise a week), competing in any sport at club level, and elite (competing in any sport at national or international level)1.

The researchers tracked participants across the four key phases of the menstrual cycle. Participants completed a 10-part questionnaire to assess their mood and completed cognitive tests2 on the first day of menstruation, two days after the end of menstruation (late follicular phase), the first day ovulation was detected, and between ovulation and menstruation (mid-luteal phase).

Confirming previous findings from UCL researchers, the new study showed that reaction times were slower during the mid-luteal phase, likely due to increased levels of the female sex hormone progesterone, which is known to slow the brain down. However, this did not lead to more errors, suggesting that slower processing speeds observed during this phase do not necessarily compromise accuracy.

More errors were seen in the late follicular phase (just after the period ends). The researchers say it is not known yet why this would be the case.

Participants again reported lower energy and more symptoms during menstruation, yet these subjective experiences did not correlate with actual performance. 55% of participants believed their symptoms during menstruation were impairing their performance, but the researchers found no evidence of this – in fact, reaction time was also faster than during the mid-luteal phase.

Evelyn Watson, an author of the study from UCL Surgery and Interventional Science and the Institute of Sport, Exercise & Health, said: “It’s great to see that, while participants assumed that they were performing worse during menstruation, the findings don’t demonstrate any detriment to cognition.

“If anything, cognitive performance peaked during ovulation. This is a positive outcome that we hope can help develop a new narrative in female health and performance.”

Dr Ronca concluded: “Working exercise into our day doesn’t need to be difficult. Some of our previous studies have shown that 15 minutes of moderate activity is enough to boost our mood and cognitive performance, that’s equivalent to taking a brisk walk around the block or cycling to the shops.”

Key Questions Answered:Q: What did the study find about cognitive performance during ovulation?

A: Women had faster reaction times and made fewer errors during ovulation, the peak fertility phase.

Q: How did physical activity influence results?

A: Activity level had a much larger effect than menstrual phase—active participants reacted far faster and more accurately across all phases.

Q: What do these findings suggest for women’s health and performance?

A: Regular exercise provides a major boost to brain function and reaction time, overshadowing hormonal fluctuations, and can reduce injury risk in sports.

About this cognition, exercise, and ovulation research news

Author: Matt Midgley
Source: UCL
Contact: Matt Midgley – UCL
Image: The image is credited to Neuroscience News

Original Research: Open access.
“Menstrual cycle and athletic status interact to influence symptoms, mood, and cognition in females” by Flaminia Ronca et al. Sports Medicine – Open

Abstract

Menstrual cycle and athletic status interact to influence symptoms, mood, and cognition in females

Background

There is growing interest in understanding if, and how, the menstrual cycle may affect physical and cognitive performance, particularly in the context of sport and physical activity. While hormonal fluctuations are often assumed to impact cognition, especially during menstruation, empirical evidence remains inconclusive. This study aimed to investigate whether cognitive performance, mood, and symptomology vary across menstrual cycle phases and whether these effects are influenced by athletic participation level.

Results

Fifty-four females (18–40 years) categorised by athletic participation level (i.e., inactive, active, competing, elite) took part. At each key menstrual phase (menstruation / early follicular, late follicular, ovulation and mid-luteal), they completed a cognitive battery (attention, inhibition and spatial anticipation), and reported their mood and symptoms. Faster reaction times and fewer errors were committed during ovulation (p < .01), suggesting better overall performance.

In contrast, reaction times were slower during the luteal phase (p < .01), but more errors were committed in the follicular phase (p = .01). Importantly, participants’ athletic level had a stronger effect on cognitive performance than phase, where inactive participants scored worse across tasks than their more active counterparts, and elite participants exhibited more significant fluctuations in cognition across phases.

Mood and symptoms were worse during menstruation regardless of athletic level. However, while mood varied across phases it did not correlate with cognitive performance.

Of note, participants perceived that their symptoms negatively impacted their cognitive performance during menstruation, but there was no evidence of any objective detriment to cognitive performance during this phase neither on reaction times nor errors on any task.

Conclusion

These findings suggest the existence of mild cognitive fluctuations throughout the menstrual cycle, albeit with high individual variability, and which are incongruent with symptomology.

Opposing results between perceived and measured performance challenge common assumptions about menstruation-related performance, and highlight the importance of addressing societal biases in female sport and health.

The stronger effects of athletic engagement on cognitive performance, rather than phase, reinforce the cognitive benefits of an active lifestyle.