Posts tagged cognitive abilities
Articles and news from the latest research reports.
Professor Examines Social Capabilities of Performing Multiple-Action Sequences
The day of the big barbecue arrives and it’s time to fire up the grill. But rather than toss the hamburgers and hotdogs haphazardly onto the grate, you wait for the heat to reach an optimal temperature, and then neatly lay them out in their apportioned areas according to size and cooking times. Meanwhile, your friend is preparing the beverages. Cups are grabbed face down from the stack, turned over, and – using the other hand – filled with ice.
While these tasks – like countless, everyday actions – may seem trivial at first glance, they are actually fairly complex, according to Robrecht van der Wel, an assistant professor of psychology at Rutgers–Camden. “For instance, the observation that you grab a glass differently when you are filling a beverage than when you are stacking glasses suggests that you are thinking about the goal that you want to achieve,” he says. “How do you manipulate the glass? How do you coordinate your actions so that the liquid goes into the cup? These kinds of actions are not just our only way to accomplish our intentions, but they reveal our intentions and mental states as well.”
van der Wel and his research partners, Marlene Meyer and Sabine Hunnius, turned their attention to how action planning generalizes to collaborative actions performed with others in a study, titled Higher-order planning for individual and joint object manipulations, published recently in Experimental Brain Research.
According to van der Wel, the researchers were especially interested in determining whether people’s actions exhibit certain social capabilities when performing multiple-action sequences in concert with a partner. “It is a pretty astonishing ability that we, as people, are able to plan and coordinate our actions with others,” says van der Wel. “If people plan ahead for themselves, what happens if they are now in a task where their action might influence another person’s comfort? Do they actually take that into account or not, even though, for their personal action, it makes no difference?”
In the research study, participants first completed a series of individual tasks requiring them to pick up a cylindrical object with one hand, pass it to their other hand, and then place it on a shelf. In the collaborative tasks, individuals picked up the object and handed it to their partner, who placed it on the shelf. The researchers varied the height of the shelf, to test whether people altered their grasps to avoid uncomfortable end postures. The object could only be grasped at one of two positions, implying that the first grasp would determine the postures – and comfort – of the remaining actions.
According to the researchers, the results from both the individual and joint performances show that participants altered their grasp location relative to the height of the shelf. The participants in both scenarios were thus more likely to use a low-grasp location when the shelf was low, and vice versa. Doing so implied that the participants ended the sequences in comfortable postures. The researchers conclude that, in both individual and collaborative scenarios, participants engaged in extended planning to finish the object-transport sequences in a relatively comfortable posture. Given that participants did plan ahead for the sake of their action partner, it indicates an implicit social awareness that supports collaboration across individuals.
van der Wel notes that, while such basic actions may seem insignificant, it is important to understand how people perform basic tasks such as manipulating objects when considering those populations that aren’t able to complete them so efficiently. “How to pick up an object seems like a really trivial problem when you look at healthy adults, but as soon as you look at children, or people suffering from a stroke, it takes some time to develop that skill properly,” says van der Wel. “When someone has a stroke, it is not that they have damage to the musculature involved in doing the task; rather, damage to action planning areas in the brain results in an inability to perform simple actions. A better understanding of the mechanisms involved in action planning may guide rehabilitation strategies in such cases.”
According to van der Wel, the researchers are currently working on modifying the task to determine the age at which children begin planning their actions with respect to other peoples’ comfort. In particular, they want to understand how the development of social action planning links with the development of other cognitive and social abilities.
(Source: news.rutgers.edu)
Mindfulness Improves Reading Ability, Working Memory, and Task-Focus
If you think your inability to concentrate is a hopeless condition, think again –– and breathe, and focus. According to a study by researchers at the UC Santa Barbara, as little as two weeks of mindfulness training can significantly improve one’s reading comprehension, working memory capacity, and ability to focus.
Their findings were recently published online in the empirical psychology journal Psychological Science.
"What surprised me the most was actually the clarity of the results," said Michael Mrazek, graduate student researcher in psychology and the lead and corresponding author of the paper, "Mindfulness Training Improves Working Memory Capacity and GRE Performance While Reducing Mind Wandering." "Even with a rigorous design and effective training program, it wouldn’t be unusual to find mixed results. But we found reduced mind-wandering in every way we measured it."
Many psychologists define mindfulness as a state of non-distraction characterized by full engagement with our current task or situation. For much of our waking hours, however, we are anything but mindful. We tend to replay past events –– like the fight we just had or the person who just cut us off on the freeway –– or we think ahead to future circumstances, such as our plans for the weekend.
Mind-wandering may not be a serious issue in many circumstances, but in tasks requiring attention, the ability to stay focused is crucial.
To investigate whether mindfulness training can reduce mind-wandering and thereby improve performance, the scientists randomly assigned 48 undergraduate students to either a class that taught the practice of mindfulness or a class that covered fundamental topics in nutrition. Both classes were taught by professionals with extensive teaching experience in their fields. Within a week before the classes, the students were given two tests: a modified verbal reasoning test from the GRE (Graduate Record Examination) and a working memory capacity (WMC) test. Mind-wandering during both tests was also measured.
The mindfulness classes provided a conceptual introduction along with practical instruction on how to practice mindfulness in both targeted exercises and daily life. Meanwhile, the nutrition class taught nutrition science and strategies for healthy eating, and required students to log their daily food intake.
Within a week after the classes ended, the students were tested again. Their scores indicated that the mindfulness group significantly improved on both the verbal GRE test and the working memory capacity test. They also mind-wandered less during testing. None of these changes were true of the nutrition group.
"This is the most complete and rigorous demonstration that mindfulness can reduce mind-wandering, one of the clearest demonstrations that mindfulness can improve working memory and reading, and the first study to tie all this together to show that mind-wandering mediates the improvements in performance," said Mrazek. He added that the research establishes with greater certainty that some cognitive abilities often seen as immutable, such as working memory capacity, can be improved through mindfulness training.
Mrazek and the rest of the research team –– which includes Michael S. Franklin, project scientist; mindfulness teacher and research specialist Dawa Tarchin Phillips; graduate student Benjamin Baird; and senior investigator Jonathan Schooler, professor of psychological and brain sciences –– are extending their work by investigating whether similar results can be achieved with younger populations, or with web-based mindfulness interventions. They are also examining whether or not the benefits of mindfulness can be compounded by a program of personal development that also targets nutrition, exercise, sleep, and personal relationships.
(Image: fotopakismo)
Researchers map emotional intelligence in the brain
A new study of 152 Vietnam veterans with combat-related brain injuries offers the first detailed map of the brain regions that contribute to emotional intelligence – the ability to process emotional information and navigate the social world.
The study found significant overlap between general intelligence and emotional intelligence, both in terms of behavior and in the brain. Higher scores on general intelligence tests corresponded significantly with higher performance on measures of emotional intelligence, and many of the same brain regions were found to be important to both. (Watch a video about the research.)
The study appears in the journal Social Cognitive & Affective Neuroscience.
“This was a remarkable group of patients to study, mainly because it allowed us to determine the degree to which damage to specific brain areas was related to impairment in specific aspects of general and emotional intelligence,” said study leader Aron K. Barbey, a professor of neuroscience, of psychology and of speech and hearing science at the Beckman Institute for Advanced Science and Technology at the University of Illinois.
A previous study led by Barbey mapped the neural basis of general intelligence by analyzing how specific brain injuries (in a larger sample of Vietnam veterans) impaired performance on tests of fundamental cognitive processes.
In both studies, researchers pooled data from CT scans of participants’ brains to produce a collective, three-dimensional map of the cerebral cortex. They divided this composite brain into 3-D units called voxels. They compared the cognitive abilities of patients with damage to a particular voxel or cluster of voxels with those of patients without injuries in those brain regions. This allowed the researchers to identify brain areas essential to specific cognitive abilities, and those that contribute significantly to general intelligence, emotional intelligence, or both.
They found that specific regions in the frontal cortex (behind the forehead) and parietal cortex (top of the brain near the back of the skull) were important to both general and emotional intelligence. The frontal cortex is known to be involved in regulating behavior. It also processes feelings of reward and plays a role in attention, planning and memory. The parietal cortex helps integrate sensory information, and contributes to bodily coordination and language processing.
“Historically, general intelligence has been thought to be distinct from social and emotional intelligence,” Barbey said. The most widely used measures of human intelligence focus on tasks such as verbal reasoning or the ability to remember and efficiently manipulate information, he said.
“Intelligence, to a large extent, does depend on basic cognitive abilities, like attention and perception and memory and language,” Barbey said. “But it also depends on interacting with other people. We’re fundamentally social beings and our understanding not only involves basic cognitive abilities but also involves productively applying those abilities to social situations so that we can navigate the social world and understand others.”
The new findings will help scientists and clinicians understand and respond to brain injuries in their patients, Barbey said, but the results also are of broader interest because they illustrate the interdependence of general and emotional intelligence in the healthy mind.
Uncommon Features of Einstein’s Brain Might Explain His Remarkable Cognitive Abilities
Portions of Albert Einstein’s brain have been found to be unlike those of most people and could be related to his extraordinary cognitive abilities, according to a new study led by Florida State University evolutionary anthropologist Dean Falk.
Falk, along with colleagues Frederick E. Lepore of the Robert Wood Johnson Medical School and Adrianne Noe, director of the National Museum of Health and Medicine, describe for the first time the entire cerebral cortex of Einstein’s brain from an examination of 14 recently discovered photographs. The researchers compared Einstein’s brain to 85 “normal” human brains and, in light of current functional imaging studies, interpreted its unusual features.
“Although the overall size and asymmetrical shape of Einstein’s brain were normal, the prefrontal, somatosensory, primary motor, parietal, temporal and occipital cortices were extraordinary,” said Falk, the Hale G. Smith Professor of Anthropology at Florida State. “These may have provided the neurological underpinnings for some of his visuospatial and mathematical abilities, for instance.”
The study, “The Cerebral Cortex of Albert Einstein: A Description and Preliminary Analysis of Unpublished Photographs,” was published in the journal Brain.
Omega-3 Intake Heightens Working Memory in Healthy Young Adults
While Omega-3 essential fatty acids—found in foods like wild fish and grass-fed livestock—are necessary for human body functioning, their effects on the working memory of healthy young adults have not been studied until now.
In the first study of its kind, researchers at the University of Pittsburgh have determined that healthy young adults ages 18-25 can improve their working memory even further by increasing their Omega-3 fatty acid intake. Their findings have been published online in PLOS One.
“Before seeing this data, I would have said it was impossible to move young healthy individuals above their cognitive best,” said Bita Moghaddam, project investigator and professor of neuroscience. “We found that members of this population can enhance their working memory performance even further, despite their already being at the top of their cognitive game.”
(Image credit: Matt Allworth/Courtesy Flickr)