Cortical Excitability is Affected by Light Exposure – Distinct Effects in Adolescents and Young Adults

Light, particularly blue-wavelength light, exerts a broad range of non-image forming (NIF) effects including the stimulation of cognition and alertness and the regulation of mood, sleep and circadian rhythms. However, its underlying brain mechanisms are not fully elucidated. Likewise, whether adolescents show a different NIF sensitivity to light compared to adults is not established. Here, we investigated whether cortical excitability, a basic aspect of brain function that depends on sleep-wake regulation, is affected by blue light and whether the effect is similar in young adults and adolescents. To do so, we used transcranial magnetic stimulation coupled to high-density electroencephalography (TMS–EEG) in healthy young adults (N=13, 24.2y ±3.4) and in adolescents (N=15, 16.9y ±1.1). Our results showed that, in young adults, blue light affected cortical excitability following an apparent inverted-U relationship, while adolescents’ cortical excitability was not significantly impacted by blue light. In addition, although light did not affect performance on a visuomotor vigilance task completed during the TMS-EEG recordings, cortical excitability was positively correlated to task performance in both age groups. This study provides valuable insights into the complex interplay between light, cortical excitability, and behavior. Our findings highlight the role of age in NIF effects of light, suggesting that brain responses to light differ during developmental periods.