April 18, 2016
Science Daily/University of Surrey
A new study involved the assessment of performance in participants being placed on 28-hour days to shift the sleep-wake cycle out of phase with the brain (circadian) clock. Performance was more affected in women than in men, the results show. Researchers warn that this study has significant implications for female nightshift workers such as nurses, security guards and police officers.
Researchers placed 16 male and 18 female participants on 28-hour days in a controlled environment without natural light-dark cycles, at the Surrey Clinical Research Centre. This effectively desynchronised the sleep-wake cycle from the brain's 24-hour (circadian) clock, similar to jet lag or a shiftwork scenario.
Every three hours during the awake period, participants performed a wide range of tests, including self-reported assessments of sleepiness, mood and effort, and objective tests of cognitive performance which included measures of attention, motor control and working memory. Brain electric activity (EEG) was monitored continuously during sleep. The results revealed that in both men and women self-reported assessments were more sensitive to the effects of time awake and circadian clock than the many objective measures of performance. However, crucially, the circadian effect on performance was significantly stronger in women than in men such that women were more cognitively impaired during the early morning hours, which in the real world typically coincides with the end of a night shift.
Co-author, Dr Nayantara Santhi from the University of Surrey, said, "We show for the first time that challenging the circadian clock affects the performance of men and women differently. Our research findings are significant in view of shiftwork-related cognitive deficits and changes in mood. Extrapolation of these results would suggest that women may be more affected by night-shift work than men."
Senior author, Professor Derk-Jan Dijk, continued, "These results show that in both men and women circadian rhythmicity affects brain function and that these effects differ between the sexes in a quantitative manner for some measures of brain function."
"Overall the findings illustrate how important it is to include both men and women in research studies and to use a wide range of subjective and objective indicators of brain function," added Professor Dijk.