Neuroscience research articles are provided.
What is neuroscience? Neuroscience is the scientific study of nervous systems. Neuroscience can involve research from many branches of science including those involving neurology, brain science, neurobiology, psychology, computer science, artificial intelligence, statistics, prosthetics, neuroimaging, engineering, medicine, physics, mathematics, pharmacology, electrophysiology, biology, robotics and technology.
– These articles focus mainly on neurology research. – What is neurology? – Definition of neurology: a science involved in the study of the nervous systems, especially of the diseases and disorders affecting them. – Neurology research can include information involving brain research, neurological disorders, medicine, brain cancer, peripheral nervous systems, central nervous systems, nerve damage, brain tumors, seizures, neurosurgery, electrophysiology, BMI, brain injuries, paralysis and spinal cord treatments.
What is Psychology? Definition of Psychology: Psychology is the study of behavior in an individual, or group. Psychology news articles are listed below.
Artificial Intelligence articles involve programming, neural engineering, artificial neural networks, artificial life, a-life, floyds, boids, emergence, machine learning, neuralbots, neuralrobotics, computational neuroscience and more involving A.I. research.
Robotics articles will cover robotics research press releases. Robotics news from universities, labs, researchers, engineers, students, high schools, conventions, competitions and more are posted and welcome.
Genetics articles related to neuroscience research will be listed here.
Neurotechnology research articles deal with robotics, AI, deep learning, machine learning, Brain Computer Interfaces, neuroprosthetics, neural implants and more. Read the latest neurotech news articles below.
Summary: A new study provides insight into the neurobiological underpinnings of envy. Researchers have identified a part of the brain that specifically registers when another receives a reward. This affects the subjective value placed on personal resources and rewards.
How we feel about our own material wellbeing and status in society is largely determined by our evaluation of others. However, the neurological underpinnings to how we monitor the complex social environment under conditions of limited access to resources and whether we feel happy or disappointed with our lot have remained unclear.
In a new study reported in the journal Nature Neuroscience, researchers based at the Department of System Neuroscience, National Institute for Physiological Sciences, have shed light on the emotion of envy by performing scans of the brains of macaques in situations where they or a partner macaque receive a reward. Their results reveal a precise region of the brain that is associated with a reduction of the amount that macaques appreciate receiving a reward themselves depending on whether their partner has received one.
In this elegant work, the team placed pairs of macaques opposite each other and repeatedly provided them with sips of water in association with visual and audio stimulations, eventually conditioning them to associate one with the other. They measured licking of the lips as an indicator of how much they valued their own rewards, including when their partner was rewarded. They also analyzed the macaque’s gaze to confirm that the provision of a reward to one macaque was noted by its partner. Finally, they measured activity of parts of the brain known to be linked to reward processing.
The results showed that the macaques valued their own rewards less when their partner macaque was rewarded, even when their own rewards were left unchanged. This revealed the subjective valuation of one’s own rewards depending on the social setting. The team considered this reasonable because, in the natural world where individuals are competing for limited resources, when a peer gains resources, this automatically means that fewer resources are available for oneself.
“We confirmed the behavioral and neurological findings by repeating the experiment when a paired macaque was present but did not receive sips of water as a reward, and when water was provided into a bucket, rather than a fellow macaque,” corresponding author Masaki Isoda says. “In these cases, signs of envy were not exhibited.”
The team also investigated the parts of the brain involved in the observed “envy” and the pathways active between them. According to lead author Atsushi Noritake, “By measuring the timings at which the different regions were activated in the envy-related scenario, the pathway was shown to involve the flow of information from the medial prefrontal cortex to the midbrain.”
Given the similarity between macaques and humans, the findings could be extrapolated to humans, with wide-reaching implications in fields as diverse as the treatment of behavioral diseases, economics, human resources, and advertising.
[divider]About this neuroscience research article[/divider]
Source: Masaki Isoda – NINS Publisher: Organized by NeuroscienceNews.com. Image Source: NeuroscienceNews.com image is in the public domain. Original Research: Abstract for “Social reward monitoring and valuation in the macaque brain” by Atsushi Noritake, Taihei Ninomiya & Masaki Isoda in Nature Neuroscience. Published September 17 2018. doi:10.1038/s41593-018-0229-7
[divider]Cite This NeuroscienceNews.com Article[/divider]
[cbtabs][cbtab title=”MLA”]NINS”The Neuroscience of Envy.” NeuroscienceNews. NeuroscienceNews, 18 September 2018. <https://neurosciencenews.com/envy-neuroscience-9882/>.[/cbtab][cbtab title=”APA”]NINS(2018, September 18). The Neuroscience of Envy. NeuroscienceNews. Retrieved September 18, 2018 from https://neurosciencenews.com/envy-neuroscience-9882/[/cbtab][cbtab title=”Chicago”]NINS”The Neuroscience of Envy.” https://neurosciencenews.com/envy-neuroscience-9882/ (accessed September 18, 2018).[/cbtab][/cbtabs]
Social reward monitoring and valuation in the macaque brain
Behaviors are influenced by rewards to both oneself and others, but the neurons and neural connections that monitor and evaluate rewards in social contexts are unknown. To address this issue, we devised a social Pavlovian conditioning procedure for pairs of monkeys. Despite being constant in amount and probability, the subjective value of forthcoming self-rewards, as indexed by licking and choice behaviors, decreased as partner-reward probability increased. This value modulation was absent when the conspecific partner was replaced by a physical object. Medial prefrontal cortex neurons selectively monitored self-reward and partner-reward information, whereas midbrain dopaminergic neurons integrated this information into a subjective value. Recordings of local field potentials revealed that responses to reward-predictive stimuli in medial prefrontal cortex started before those in dopaminergic midbrain nuclei and that neural information flowed predominantly in a medial prefrontal cortex-to-midbrain direction. These findings delineate a dedicated pathway for subjective reward evaluation in social environments.
[divider]Feel free to share this Neuroscience News.[/divider]