According to the researchers, they have created a virtual reality to follow the activities of the brain and the way they reacted or associated with anxiety indices.aso read – 5 simple steps to focus on anxiety and panic
The study was published in the “Journal of Biology of Communication”. Also read – yes, you can! ‘Rashmika Mandanna inspires fans with a thoughtful note
“These results tell us that anxiety disorders might be more than a lack of environmental awareness or the ignorance of security, but rather than people with an anxious disorder can not control their feelings and behavior. Although they wanted it, “said Benjamin Suarez- Jimenez, Ph.D., Assistant Professor at the Institute of Neuroscience Del Monte at the University of Rochester and the first author of the study. Also read positive for Covid? The study shows a higher risk of mental illness. Details here.
“Patients with anxious disorder might silence rationally – I’m in a safe space – but we found that their brain behaved as if it were not,” he added.
By using FMRI, the researchers observed the cerebral activity of volunteers with general and social anxiety, while they sailed on a virtual reality of flower picking. Half of the meadow had bee-free flowers, the other half had flowers with bees that would stick them – as simulated by a soft electric stimulation. The researchers found that all participants in the study could distinguish between safe and dangerous areas, however, the revealed brain scans of anxiety volunteers had increased the inulle and activation of the dorsometical prime cortex – indicating that Their brain combines a security zone known to danger or threat.
“This is the first time we have examined discrimination learning in this way. We know which brain areas to watch, but this is the first time we show this concert of activity in an environment as complex “in the real world,” said Suarez-Jimenez.
“These results emphasize towards the need for treatments that focus on the help of patients to regain control of their body,” he added.
The cerebral differences were the only differences observed in these patients. For example, the responses of sweat, an anxiety proxy, which has also been measured, did not reveal any clear difference.
Understanding neuronal mechanisms by which the brain has learned about the environment is at the center of Suarez-Jimenez’s research, especially the way the brain predicted what is threatening and what is safe. It has used virtual reality environments to investigate neuron signatures of anxiety disorders and post-traumatic stress disorder (PTSD). Its goal is to understand how people build cards in the brain that are based on the experience and role of these cards in stress and anxiety psychopathologies.
“For the next steps in this recent study, we still have to clarify whether what we have found in the brain of these patients is also the case in other disorders, such as SSPT. Understanding differences and similarities between disorders characterized by deficits in behavioral regulations and feelings in safe environments, can help us create better personalized treatment options, “he said.