Summary: Study identified the neural correlates of fear during dreaming and reports similar areas are activated when experiencing fear during wakeful states.
Source: University of Geneva
Do bad dreams serve a real purpose? To answer this question, researchers from the University of Geneva (UNIGE) and University Hospitals of Geneva (HUG), Switzerland, – working in collaboration with the University of Wisconsin (USA) – analysed the dreams of a number of people and identified which areas of the brain were activated when they experienced fear in their dreams. They found that once the individuals woke up, the brain areas responsible for controlling emotions responded to fear-inducing situations much more effectively. These results, which are published in the journal Human Brain Mapping, demonstrate that dreams help us react better to frightening situations, thereby paving the way for new dream-based therapeutic methods for combating anxiety.
Neuroscience has been taking an interest in dreams for a number of years, focusing on the areas of the brain that are active when we dream. The scientists employed high-density electroencephalography (EEG), which uses several electrodes positioned on the skull to measure brain activity. They recently discovered that certain regions of the brain are responsible for the formation of dreams, and that certain other regions are activated depending on the specific content within a dream (such as perceptions, thoughts and emotions). “We were particularly interested in fear: what areas of our brain are activated when we’re having bad dreams?” states Lampros Perogamvros, a researcher in the Sleep and Cognition Laboratory headed by professor Sophie Schwartz in the Department of Basic Neurosciences, Faculty of Medicine, UNIGE, and senior clinical lecturer at HUG’s Sleep Laboratory.
Brain areas active during frightening dreams
The scientists from Geneva placed 256 EEG electrodes on 18 subjects whom they woke several times during the night. Each time the participants were woken up, they had to answer a series of questions such as: ‘Did you dream? And, if so, did you feel scared?’
“By analysing the brain activity based on participants’ responses, we identified two brain regions implicated in the induction of fear experienced during the dream: the insula and the cingulate cortex”, explains Perogamvros. The insula is also involved in evaluating emotions when awake, and is automatically activated when someone feels afraid. The cingulate cortex, for its part, plays a role in preparing motor and behavioural reactions in the event of a threat. “For the first time, we’ve identified the neural correlates of fear when we dream and have observed that similar regions are activated when experiencing fear in both sleep and wakeful states”, continues the Geneva-based researcher.
Do dreams prepare us for our waking lives?
The researchers then investigated a possible link between the fear experienced during a dream and the emotions experienced once awake. They gave a dream diary to 89 participants for the duration of a week. The subjects were asked that each morning upon waking, they note down whether they remembered the dreams they had during the night and to identify the emotions they felt, including fear. At the end of the week, they were placed in a magnetic resonance imaging (MRI) machine. “We showed each participant emotionally-negative images, such as assaults or distressful situations, as well as neutral images, to see which areas of the brain were more active for fear, and whether the activated area changed depending on the emotions experienced in the dreams over the previous week,” says Virginie Sterpenich, a researcher in the Department of Basic Neurosciences at UNIGE.
The researchers were particularly interested in the brain areas traditionally involved in managing emotions, such as the insula, amygdala, medial prefrontal cortex and cingulate cortex. “We found that the longer a someone had felt fear in their dreams, the less the insula, cingulate and amygdala were activated when the same person looked at the negative pictures”, says Sterpenich. “In addition, the activity in the medial prefrontal cortex, which is known to inhibit the amygdala in the event of fear, increased in proportion to the number of frightening dreams!”
These results demonstrate the very strong link between the emotions we feel in both sleep and wakefulness. They also reinforce a neuroscientific theory about dreams: we simulate frightening situations while dreaming in order to better react to them once we’re awake. “Dreams may be considered as a real training for our future reactions and may potentially prepare us to face real life dangers,” suggests Perogamvros.
Following the revelation of a potential function of dreams, the researchers are now planning to study a new form of dream therapy to treat anxiety disorders. They are also interested in nightmares, because – unlike bad dreams, in which the level of fear is moderate – nightmares are characterised by an excessive level of fear that disrupts sleep and has a negative impact on the individual once awake. “We believe that if a certain threshold of fear is exceeded in a dream, it loses its beneficial role as an emotional regulator,” concludes Perogamvros.
About this neuroscience research article
Source: University of Geneva Media Contacts: Lampros Perogamvros – University of Geneva Image Source: The image is in the public domain.
Fear in dreams and in wakefulness: Evidence for day/night affective homeostasis
Recent neuroscientific theories have proposed that emotions experienced in dreams contribute to the resolution of emotional distress and preparation for future affective reactions. We addressed one emerging prediction, namely that experiencing fear in dreams is associated with more adapted responses to threatening signals during wakefulness. Using a stepwise approach across two studies, we identified brain regions activated when experiencing fear in dreams and showed that frightening dreams modulated the response of these same regions to threatening stimuli during wakefulness. Specifically, in Study 1, we performed serial awakenings in 18 participants recorded throughout the night with high‐density electroencephalography (EEG) and asked them whether they experienced any fear in their dreams. Insula and midcingulate cortex activity increased for dreams containing fear. In Study 2, we tested 89 participants and found that those reporting higher incidence of fear in their dreams showed reduced emotional arousal and fMRI response to fear‐eliciting stimuli in the insula, amygdala and midcingulate cortex, while awake. Consistent with better emotion regulation processes, the same participants displayed increased medial prefrontal cortex activity. These findings support that emotions in dreams and wakefulness engage similar neural substrates, and substantiate a link between emotional processes occurring during sleep and emotional brain functions during wakefulness.