1. Exposure to Blue Light Increases Subsequent Functional Activation of the Prefrontal Cortex During Performance of a Working Memory Task
- Author
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Sara Knight, William D.S. Killgore, Andrew Fridman, Sarah Berryhill, Anna Alkozei, Ryan Smith, Bradley Shane, John R. Vanuk, and Derek Pisner
- Subjects
0301 basic medicine ,Adult ,Male ,Elementary cognitive task ,Adolescent ,Light ,Interference theory ,Prefrontal Cortex ,Sleep Cognition and Behavior ,Brain mapping ,03 medical and health sciences ,Young Adult ,0302 clinical medicine ,Physiology (medical) ,medicine ,Reaction Time ,Humans ,Attention ,Prefrontal cortex ,Brain Mapping ,medicine.diagnostic_test ,Working memory ,Executive functions ,Magnetic Resonance Imaging ,Alertness ,030104 developmental biology ,Memory, Short-Term ,Female ,Neurology (clinical) ,Functional magnetic resonance imaging ,Psychology ,Neuroscience ,030217 neurology & neurosurgery - Abstract
STUDY OBJECTIVES Prolonged exposure to blue wavelength light has been shown to have an alerting effect, and enhances performance on cognitive tasks. A small number of studies have also shown that relatively short exposure to blue light leads to changes in functional brain responses during the period of exposure. The extent to which blue light continues to affect brain functioning during a cognitively challenging task after cessation of longer periods of exposure (i.e., roughly 30 minutes or longer), however, has not been fully investigated. METHODS A total of 35 healthy participants (18 female) were exposed to either blue (469 nm) (n = 17) or amber (578 nm) (n = 18) wavelength light for 30 minutes in a darkened room, followed immediately by functional magnetic resonance imaging (fMRI) while undergoing a working memory task (N-back task). RESULTS Participants in the blue light condition were faster in their responses on the N-back task and showed increased activation in the dorsolateral (DLPFC) and ventrolateral (VLPFC) prefrontal cortex compared to those in the amber control light condition. Furthermore, greater activation within the VLPFC was correlated with faster N-back response times. CONCLUSIONS This is the first study to suggest that a relatively brief, single exposure to blue light has a subsequent beneficial effect on working memory performance, even after cessation of exposure, and leads to temporarily persisting functional brain changes within prefrontal brain regions associated with executive functions. These findings may have broader implication for using blue-enriched light in a variety of work settings where alertness and quick decision-making are important.
- Published
- 2016