I googled and found a paper about LFP research on monkeys.Cincinnatus said:Also there's been a lot of interest in LFP oscillations in schizophrenia research...
Cincinnatus said:Zoobyshoe is correct that we do only record directly from the brains of (consenting) brain surgery patients. So far this only happens during an intervening step in the middle of a long procedure that certain intractable epilepsy patients must go through...
The fact is that the only human electrophysiology data we have (or will ever have) is from epilepsy patients. This is a confounding variable that cannot easily be overcome.
zoobyshoe said:Thanks. I am concerned about your mention of interest in LFP with respect to schizophrenia research, which raises the question of how they could collect any data non-invasively.
Brain waves are electrical signals produced by the brain that can be measured using an electroencephalogram (EEG). They are generated by the synchronized activity of neurons and reflect different states of consciousness or mental processes. Brain waves have different frequencies that correspond to different levels of arousal and cognitive activity.
Brain waves are classified according to their frequency, which is measured in Hertz (Hz). The five main categories of brain waves are delta (0.5-4 Hz), theta (4-8 Hz), alpha (8-12 Hz), beta (12-30 Hz), and gamma (30-100 Hz). Each frequency range is associated with different mental states and functions.
The frequency of brain waves is closely related to our level of consciousness and cognitive abilities. Delta waves are associated with deep sleep and unconsciousness, while theta waves are linked to dreaming and meditative states. Alpha waves are present during relaxed wakefulness, while beta waves are associated with alertness and focused attention. Gamma waves are believed to be involved in higher cognitive functions such as perception, problem-solving, and memory.
Yes, brain waves can be influenced and controlled through various techniques such as meditation, biofeedback, and neurofeedback. These techniques can train the brain to produce specific brain waves associated with desired mental states, leading to improved cognitive and emotional functioning.
Research has shown that imbalances or abnormalities in brain wave frequencies can be associated with various neurological and psychiatric conditions. For example, individuals with high levels of delta waves may experience symptoms of depression, while those with excessive beta waves may have anxiety or attention deficit hyperactivity disorder (ADHD). However, further research is needed to fully understand the role of brain waves in these conditions and how they can be used for diagnosis and treatment.