Search results
Results from the WOW.Com Content Network
Over time, this can cause a decline in cognitive abilities, memory, and even emotional regulation. Certain lifestyle factors can speed up an aging brain, and our genetics also play a role ...
Fear is a conscious experience and occurs the same way as any other kind of conscious experience: via cortical circuits that allow attention to certain forms of brain activity. He argues the only differences between an emotional and non-emotion state of consciousness are the underlying neural ingredients that contribute to the state. [16]
Limbic resonance is the idea that the capacity for sharing deep emotional states arises from the limbic system of the brain. [1] These states include the dopamine circuit-promoted feelings of empathic harmony, and the norepinephrine circuit-originated emotional states of fear, anxiety and anger.
Additionally, the anterior cingulate cortex (ACC) is an important area of the brain that is used for emotion regulation. The ACC has proven to be a key player in emotion regulation in not just young adults, but also in older adults. [109] In older adults the ACC is important to create connections with from the vmPFC in order to regulate emotions.
It's possible that sundowning in dementia patients is caused by a combination of hormonal changes, brain deterioration or damage that has occurred, environmental factors, disruption to a person's ...
A breakthrough brain circuit discovery may lead to new treatments for anxiety and stress disorders, and potentially a pill providing the benefits of yoga.. Researchers from the Salk Institute in ...
The consciousness and binding problem is the problem of how objects, background, and abstract or emotional features are combined into a single experience. [1] The binding problem refers to the overall encoding of our brain circuits for the combination of decisions, actions, and perception.
A motor circuit originating in the supplementary motor area, motor cortex, and somatosensory cortex, which in turn projects to the putamen, which projects to the ventrolateral GPi and caudolateral SNr, before returning to the cortex via the ventralis lateralis pars oralis and ventralis lateralis pars medialis.