Intelligence Without Brains, Body Language, Brain States, Thinking, Fast and Slow, Priming Effect, Memory loss, Attention and Memory - TMS and Neuroscience, TMS EEG
Intelligence Without Brains, Body Language, Brain States, Thinking, Fast and Slow, Priming Effect, Memory loss, Attention and Memory - TMS and Neuroscience, TMS EEG
Attention in a specific Memory can awaken a Body Language without conscious awareness
Can an Attention in a specific Memory awaken a Body Language without conscious awareness?
Intelligence Without Brains: This refers to the idea that intelligence or problem-solving abilities can exist without a centralized brain. Examples include organisms like slime molds that can navigate mazes without a brain. This also delves into areas like artificial intelligence, which doesn't possess a biological brain but can perform complex tasks.
Body Language: Body language, or nonverbal communication, is the process of communicating through body movements, gestures, facial expressions, etc. It's a significant part of our daily communication and can sometimes convey more than verbal communication.
Brain States: These are different patterns of brain activity that correspond to different states of consciousness or cognition. Common states include wakefulness, sleep (with stages like REM and non-REM sleep), meditation, and various altered states induced by substances or practices.
Thinking, Fast and Slow: This is a book by Daniel Kahneman, a Nobel laureate, that delves into the dichotomy between two modes of thinking: "System 1" which is fast, intuitive, and emotional; and "System 2" which is slower, more deliberative, and more logical. The book discusses cognitive biases associated with each type of thinking.
Priming Effect: Priming is a phenomenon where exposure to one stimulus influences the response to a subsequent stimulus without conscious guidance or intention. For example, if someone is exposed to the word "yellow," they'll be slightly quicker to recognize the word "banana" later.
Memory Loss: This can refer to the inability to remember information or events. Memory loss can be temporary or permanent, and its causes range from normal aging, injuries, diseases like Alzheimer’s, or even psychological trauma.
Attention and Memory: Both are integral components of cognitive function. Attention is the process of selectively concentrating on a particular aspect of information, whether deemed subjective or objective, while ignoring other perceivable information. Memory is the faculty by which the brain encodes, stores, and retrieves information. Both processes are deeply interconnected. For instance, paying attention to something is often the first step in committing it to memory.
TMS and Neuroscience:
TMS works by delivering magnetic pulses to specific areas of the brain, which can temporarily inhibit or excite neural activity in that region.
It provides a method to create "virtual lesions," meaning that researchers can transiently "turn off" a part of the brain to study its function.
Combined with neuroimaging techniques (like fMRI or PET), TMS can provide insights into the causal relationships between brain regions and specific cognitive functions.
TMS-EEG:
Combining TMS with Electroencephalography (EEG) is a powerful technique for studying brain dynamics and connectivity.
While TMS modulates brain activity, EEG can record the immediate electrical responses, allowing researchers to study how a magnetic pulse influences neural oscillations and connectivity patterns in real-time.
This combination has been used to study various cognitive processes and to map functional connectivity in the brain.
TMS and Depression:
TMS has been approved by the U.S. Food and Drug Administration (FDA) as a treatment for major depressive disorder (MDD) for patients who don't respond to traditional antidepressant medications.
The procedure, often referred to as rTMS (repetitive TMS) when used clinically, typically targets the dorsolateral prefrontal cortex (DLPFC), a brain region implicated in mood regulation.
Studies have shown that rTMS can lead to significant improvement in depression symptoms, and in some cases, remission.
TMS and Parkinson's:
Parkinson's disease (PD) is a neurodegenerative disorder primarily affecting motor function. Some research suggests that TMS might be beneficial for people with PD.
TMS has been explored as a potential therapy to alleviate some motor symptoms associated with PD, though results have been mixed.
Studies have also investigated TMS's potential to address non-motor symptoms of PD, like depression or cognitive impairment.
While promising, more research is required to establish the most effective protocols, and TMS is not yet a standard treatment for Parkinson's.
In all cases, while TMS is a promising tool and therapeutic method, it's essential to understand that it's not suitable for everyone. Some individuals, especially those with specific medical conditions or metallic implants, may not be candidates for TMS. Always consult with a healthcare professional before considering any treatment.
Memory loss 1/2 | Attention & Memory
Attention & Memory
Memory loss 2/2
Attention & Memory | Attention & Memory
TMS EEG | TMS EEG
TMS and Depression | TMS EEG
TMS EEG
TMS and Parkinson | TMS EEG
TMS and Neuroscience | TMS EEG
Priming Effect | Priming Effect
Priming Effect
Thinking, Fast and Slow | Priming Effect
Priming Effect
Intelligence Without Brains | Priming Effect
Priming Effect
Brain States | Brain States
Brain States
Body Language | Brain States
Brain States
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 | 03:14:00 - 06:23:00 Attention & Memory |
 | 06:23:00 - 09:02:00 Attention & Memory |
 | 09:02:00 - 09:59:00 TMS EEG |
 | 09:59:00 - 11:19:00 TMS EEG |
 | 11:19:00 - 12:19:00 TMS EEG |
 | 12:19:00 - 13:34:00 TMS EEG |
 | 13:34:00 - 15:07:00 Priming Effect |
 | 15:07:00 - 16:16:00 Priming Effect |
 | 16:16:00 - 20:52:00 Priming Effect |
 | 20:52:00 - 21:41:00 Brain States |
 | 21:41:00 - 23:59:00 Brain States |
