• A
  • A
  • A
  • ABC
  • ABC
  • ABC
  • А
  • А
  • А
  • А
  • А
Regular version of the site

Cortex Suppression Resolves Motivation Conflict in Favour of Prosociality

Cortex Suppression Resolves Motivation Conflict in Favour of Prosociality

© iStock

HSE University researchers have found that if cortical excitability is suppressed, the conflict between self-interest and prosocial motivations is resolved in favour of the latter—but only in cases when this conflict is really present.

The paper, titled ‘The Role of the Prefrontal Cortex in Prosocial and Self-Maximization Motivations: An rTMS study,’ was published in Scientific Reports.

Many theories of economic behaviour ignore the existence of prosocial motivation in humans. It is believed that people pursue exclusively selfish interests and are not interested in making decisions that are also beneficial to others. However, neuroscientific research proves that this is not the case.

For example, when interacting with a stranger, it is more profitable for an individual to allocate resources in whatever manner allows them to gain as much as possible. But people are more likely to share equally, even when there is no punishment for selfishness. That is how our desire for cooperation and justice works, which is probably inherent.

Researchers know that the right dorsolateral prefrontal cortex is involved in choosing between self-interest and prosocial motivation. But it is still not entirely clear what exact behaviour is triggered by the activation of this area. In some studies, suppression of the region’s activity led to prosocial behaviour, while in others it resulted in an active pursuit of selfish interests. In some cases, it produced no effect at all.

In order to specify the role of the dorsolateral prefrontal cortex in such situations, HSE University researchers carried out an experiment with the use of transcranial magnetic stimulation (TMS), which suppresses the excitability of the stimulated area of brain.

A total of 46 participants aged 18 to 27 were split into two groups. The first group received dorsolateral prefrontal cortex stimulation for 5–7 minutes, while the second group received stimulation of the brain areas responsible for visual perception. The participants then played two economic games in a row—a ‘dictator’ game and a ‘generosity’ game.

In the dictator game, a participant playing the dictator shares a certain amount of resources between themselves and a partner. The partner is only capable of accepting the dictator’s offer. In the generosity game, one participant also decides on how much to give to their partner. However, the amount of resources they get themselves is fixed and does not depend on the other player’s share.

The researchers found that suppressing the excitability of the dorsolateral prefrontal cortex made participants of the ‘dictator game’ give more to their partner compared to those whose visual cortex was stimulated. No such effect was observed in the ‘generosity game’: participants shared in about the same manner regardless of the type of stimulation.

Oksana Zinchenko

Oksana Zinchenko, Research Fellow at the International Laboratory of Social Neurobiology and co-author of the paper

‘These results may prove that the dorsolateral prefrontal cortex is involved only if the participant experiences a conflict between self-interest and prosocial motivation, while its suppression leads to the resolution of this conflict in favour of other people’s interests. That’s why the stimulation of this area only impacts behaviour when the game motivates this conflict. In the generosity game, there was no conflict between self-interest and prosocial motivation, since the participant’s personal profit did not depend on their generosity towards their partner. In the dictator game, this conflict is more apparent.’

See also:

Smoking Habit Affects Response to False Feedback

A team of scientists at HSE University, in collaboration with the Institute of Higher Nervous Activity and Neurophysiology of the Russian Academy of Sciences, studied how people respond to deception when under stress and cognitive load. The study revealed that smoking habits interfere with performance on cognitive tasks involving memory and attention and impairs a person’s ability to detect deception. The study findings have been published in Frontiers in Neuroscience.

'Neurotechnologies Are Already Helping Individuals with Language Disorders'

On November 4-6, as part of Inventing the Future International Symposium hosted by the National Centre RUSSIA, the HSE Centre for Language and Brain facilitated a discussion titled 'Evolution of the Brain: How Does the World Change Us?' Researchers from the country's leading universities, along with health professionals and neuroscience popularisers, discussed specific aspects of human brain function.

‘Scientists Work to Make This World a Better Place’

Federico Gallo is a Research Fellow at the Centre for Cognition and Decision Making of the HSE Institute for Cognitive Research. In 2023, he won the Award for Special Achievements in Career and Public Life Among Foreign Alumni of HSE University. In this interview, Federico discusses how he entered science and why he chose to stay, and shares a secret to effective protection against cognitive decline in old age.

'Science Is Akin to Creativity, as It Requires Constantly Generating Ideas'

Olga Buivolova investigates post-stroke language impairments and aims to ensure that scientific breakthroughs reach those who need them. In this interview with the HSE Young Scientists project, she spoke about the unique Russian Aphasia Test and helping people with aphasia, and about her place of power in Skhodnensky district.

Neuroscientists from HSE University Learn to Predict Human Behaviour by Their Facial Expressions

Researchers at the Institute for Cognitive Neuroscience at HSE University are using automatic emotion recognition technologies to study charitable behaviour. In an experiment, scientists presented 45 participants with photographs of dogs in need and invited them to make donations to support these animals. Emotional reactions to the images were determined through facial activity using the FaceReader program. It turned out that the stronger the participants felt sadness and anger, the more money they were willing to donate to charity funds, regardless of their personal financial well-being. The study was published in the journal Heliyon.

Spelling Sensitivity in Russian Speakers Develops by Early Adolescence

Scientists at the RAS Institute of Higher Nervous Activity and Neurophysiology and HSE University have uncovered how the foundations of literacy develop in the brain. To achieve this, they compared error recognition processes across three age groups: children aged 8 to 10, early adolescents aged 11 to 14, and adults. The experiment revealed that a child's sensitivity to spelling errors first emerges in primary school and continues to develop well into the teenage years, at least until age 14. Before that age, children are less adept at recognising misspelled words compared to older teenagers and adults. The study findings have beenpublished in Scientific Reports .

Meditation Can Cause Increased Tension in the Body

Researchers at the HSE Centre for Bioelectric Interfaces have studied how physiological parameters change in individuals who start practicing meditation. It turns out that when novices learn meditation, they do not experience relaxation but tend towards increased physical tension instead. This may be the reason why many beginners give up on practicing meditation. The study findings have been published in Scientific Reports.

Processing Temporal Information Requires Brain Activation

HSE scientists used magnetoencephalography and magnetic resonance imaging to study how people store and process temporal and spatial information in their working memory. The experiment has demonstrated that dealing with temporal information is more challenging for the brain than handling spatial information. The brain expends more resources when processing temporal data and needs to employ additional coding using 'spatial' cues. The paper has been published in the Journal of Cognitive Neuroscience.

Neuroscientists Inflict 'Damage' on Computational Model of Human Brain

An international team of researchers, including neuroscientists at HSE University, has developed a computational model for simulating semantic dementia, a severe neurodegenerative condition that progressively deprives patients of their ability to comprehend the meaning of words. The neural network model represents processes occurring in the brain regions critical for language function. The results indicate that initially, the patient's brain forgets the meanings of object-related words, followed by action-related words. Additionally, the degradation of white matter tends to produce more severe language impairments than the decay of grey matter. The study findings have been published in Scientific Reports.

New Method Enables Dyslexia Detection within Minutes

HSE scientists have developed a novel method for detecting dyslexia in primary school students. It relies on a combination of machine learning algorithms, technology for recording eye movements during reading, and demographic data. The new method enables more accurate and faster detection of reading disorders, even at early stages, compared to traditional diagnostic assessments. The results have been published in PLOS ONE.