What’s happening in your brain when you’re spacing out? by Eva Botkin-Kowacki March 23, 2021 Share Facebook LinkedIn Twitter Illustration by Hannah Moore We all do it. One second you’re fully focused on the task in front of you, a conversation with a friend, or a professor’s lecture, and the next second your mind is wandering to your dinner plans. But how does that happen? “We spend so much of our daily lives engaged in things that are completely unrelated to what’s in front of us,” says Aaron Kucyi, neuroscientist and principal research scientist in the department of psychology at Northeastern. “And we know very little about how it works in the brain.” Aaron Kucyi, neuroscientist and principal research scientist in the department of psychology. Kucyi’s recent research found a pattern of complex brain activity associated with spacing out. Photo by Ruby Wallau/Northeastern University So Kucyi and colleagues started scanning people’s brains using functional magnetic resonance imaging (fMRI) to get an inside look. Their results, published Friday in the journal Nature Communications, add complexity to our understanding of the wandering mind. It turns out that spacing out might not deserve the bad reputation that it receives. Many more parts of the brain seem to be engaged in mind-wandering than previously thought, supporting the idea that it’s actually a quite dynamic and fundamental function of our psychology. “Many of those things that we do when we’re spacing out are very adaptive and important to our lives,” Kucyi says. We might be drafting an email in our heads while in the shower, or trying to remember the host’s spouse’s name while getting dressed for a party. Moments when our minds wander can allow space for creativity and planning for the future, he says, so it makes sense that many parts of the brain would be engaged in that kind of thinking. To study wandering minds, the researchers first had to set up a situation in which people were likely to lose focus. They recruited test subjects at the Massachusetts Institute of Technology’s Martinos Imaging Center to complete a simple, repetitive, and rather boring task. With an fMRI scanner mapping their brain activity, participants were instructed to press a button whenever an image of a city scene appeared on a screen in front of them and withhold a response when a mountain image appeared. Throughout the experiment, the subjects were asked whether they were focused on the task at hand. If a subject said their mind was wandering, the researchers took a close look at their brain scans from right before they reported loss of focus. The data was then fed into a machine-learning algorithm to identify patterns in the neurological connections involved in mind-wandering (called “stimulus-independent, task-unrelated thought” by the scientists). Scientists previously identified a specialized system in the brain considered to be responsible for mind-wandering. Called the “default mode network,” these parts of the brain activated when someone’s thoughts were drifting away from their immediate surroundings and deactivated when they were focused. The other parts of the brain, that theory went, were quiet when the mind was wandering, says Kucyi. The “default mode network” did light up in Kucyi’s data. But parts of the brain associated with other functions also appeared to activate when his subjects reported that their minds had wandered. For example, the “default mode network” and networks in the brain related to controlling or maintaining a train of thought also seemed to be communicating with one another, perhaps helping explain the ability to go down a rabbit hole in your mind when you’re distracted from a task. There was also a noticeable lack of communication between the “default mode network” and the systems associated with sensory input, which makes sense, as the mind is wandering away from the person’s immediate environment. “It makes sense that virtually the whole brain is involved,” Kucyi says. “Mind-wandering is a very complex operation in the brain and involves drawing from our memory, making predictions about the future, dynamically switching between topics that we’re thinking about, fluctuations in our mood, and engaging in vivid visual imagery while ignoring immediate visual input,” just to name a few functions. The “default mode network” still seems to be key, Kucyi says. Virtual computer analysis suggests that if you took the regions of the brain in that network out of the equation, the other brain regions would not be able to pick up the slack in mind-wandering. Kucyi, however, didn’t just want to identify regions of the brain that lit up when someone said their mind was wandering. He also wanted to be able to use that generalized pattern of brain activity to be able to predict whether or not a subject would say that their focus had drifted away from the task in front of them. That’s where the machine-learning analysis of the data came in. The idea, Kucyi says, is that “you could bring a new person into the scanner and not even ask them whether they were mind-wandering or not, and have a good estimate from their brain data whether they were.” To test the patterns identified through machine learning, the researchers brought in a new set of test subjects – people diagnosed with ADHD. When the fMRI scans lit up the parts of the brain Kucyi and his colleagues had identified as engaged in mind-wandering in the first part of the study, the new test subjects reported that their thoughts had drifted from the images of cities and mountains in front of them. It worked. Robert Volpe, professor and chair, department of applied psychology. Photo by Matthew Modoono/Northeastern University Kucyi doesn’t expect fMRI scans to become a new way to diagnose ADHD, however. That wasn’t the goal. Perhaps down the road it could be used to help develop treatments, he suggests. But this study was focused on “informing the biological mechanisms behind it.” John Gabrieli, a co-author on the study and director of the imaging center at MIT’s McGovern Institute, adds that “there is recent evidence that ADHD patients with more mind-wandering have many more everyday practical and clinical difficulties than ADHD patients with less mind-wandering. This is the first evidence about the brain basis for that important difference, and points to what neural systems ought to be the targets of intervention to help ADHD patients who struggle the most.” For Kucyi, the study of “mind-wandering” goes beyond ADHD. And the contents of those straying thoughts may be telling, he says. “We just asked people whether they were focused on the task or away from the task, but we have no idea what they were thinking about,” he says. “What are people thinking about? For example, are those more positive thoughts or negative thoughts?” Such answers, which he hopes to explore in future research, could help scientists better understand other pathologies such as depression and anxiety, which often involve rumination on upsetting or worrisome thoughts. There are a lot of reasons why your mind might wander, says Robert Volpe, chair of the Department of Applied Psychology at Northeastern, who was not involved in the new paper. Perhaps you didn’t get a good night’s sleep, or you forgot to eat lunch, or maybe something else is going on with your health. Or maybe, Volpe says, the environment or the task isn’t the right match for you and that’s why it’s difficult to hold your attention. Perhaps the task – like identifying pictures of cities or mountains – is too boring. “Oftentimes people question, ‘Do I have ADHD? My mind is always wandering,’” says Volpe, who researches interventions to support students with ADHD. But, he says, everyone does it. Furthermore, there is a misconception about people with ADHD that they simply have trouble focusing. But it’s more complex than that, Volpe says. They can hyperfocus, when the task or environment is conducive for them as an individual. But also, he says, “They tend to have a broad focus, which is why oftentimes people with ADHD do very well in creative pursuits, because they approach things from many different angles that other people won’t think of.” There’s a negative connotation to phrases like “spacing out,” and if it’s happening too much and interfering with your daily life, that can be problematic. But mind-wandering isn’t inherently negative, both Volpe and Kucyi say. Without it, Volpe says, “where would the musicians and artists and, you know, organic farmers come from?” For media inquiries, please contact media@northeastern.edu.