EEG provides a window into the functioning brain. By observing behavior and brain activity, neuroscience researchers can gain insight into how the two are correlated. Typically this involves monitoring EEG during well defined brain states or in cognitive tasks. EEG is also clinically used in the detection and characterization of epileptic seizures, brain lesions (from tumors, stroke or others), coma, monitoring in anesthesia or in the study of sleep, for example. Recently, we and other research groups have been developing EEG biomarkers for neurodegenerative diseases such as Parkinson’s or Alzheimer’s disease, with promising results. Our technologies, Enobio and Starstim now make it possible to easily record quality EEG in the lab, clinic or at home for any of these applications.
Patients can use neurofeedback to learn to modulate their EEG using audiovisual feedback of their brain activity – an approach shown to be effective in ADHD, for instance.
EEG provides a unique opportunity in terms of temporal resolution, wearability and cost compared to other neuroimaging techniques when it comes to potential Human Computer Interaction applications. The field of Brain Computer Interfaces (BCI) is largely based on EEG for these reasons. Another field, known as Affective BCI, seeks to develop measures of the affective state of a user based on their EEG and other physiological measures.
Transcranial Current Stimulation (tCS or tES as it is also called, including tDCS, tACS and tRNS) is a non-invasive form of electrical neuromodulation. It is being intensely used in basic neuroscience and clinical research. Recent studies by several groups worldwide indicate that tCS holds significant potential in the treatment of chronic pain, stroke rehabilitation, depression, addiction and cognitive enhancement.
Top athletes and scientists from Burke / Cornell joined together at Red Bull Headquarters in Santa Monica to study the role of the brain in sports and fatigue. According to the central governor theory, fatigue is essentially an emotion controlled by the brain, which is trying to protect the body from injury. How much reserve is really there, and how can we access it safely? Understanding this will have a tremendous impact in training programs. Watch as some of the most finely tuned athletes dig deeper into the science behind endurance using advance techniques for brain monitoring (EEG) and neuromodulation (tDCS) as well as other physiological measures.
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