Emery Brown (Harvard Med., MIT) 1: Unconsciousness Under General Anesthetic is a Dynamic State
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- čas přidán 25. 07. 2024
- www.ibiology.org/neuroscience...
What happens to your brain under general anesthesia? EEG recordings can measure brain dynamics of patients under general anesthesia and may inform the development of safer and more specific anesthetics.
Dr. Emery Brown explains that under general anesthesia your brain is not turned off but is very dynamic. Electrical oscillations in the brain can be recorded using an electroencephalogram (EEG). Brown shows how oscillations induced by anesthesia interfere with normal communication between different regions of the brain. By following oscillations of different frequencies, it is possible to monitor and adjust a patient’s level of unconsciousness under anesthesia.
All general anesthetics act in the brain stem region to induce slow brain oscillations. Brown shares EEG spectrograms that clearly show that the brain response to anesthesia varies with age. Younger brains show strong oscillations while those of older brains show weaker oscillations. Interestingly, not all brains “age” at the same rate. By using EEG spectrogram to visualize brain dynamics, anesthesiologists can optimize drug dosage for individual patients. Brown closes his talk by presenting recent research suggesting that it may be possible to “turn the brain back on” after general anesthesia as a way to speed patient recovery.
Speaker Biography:
Dr. Emery Brown is an expert in understanding the neurophysiological basis for how general anesthesia works and passionate about his desire to pass this understanding on to others. Recent technological advances allow large amounts of data to be recorded from the brain. Brown’s lab is developing statistical tools and algorithms to analyze and interpret this data with the goal of more effectively monitoring the depth of brain anesthesia and developing safer and more specific anesthetic drugs.
Brown is the Warren M. Zapol Professor of Anesthesia at Harvard Medical School and a practicing anesthesiologist at Massachusetts General Hospital. He is also Edward Hood Taplin Professor of Medical Engineering and of Computational Neuroscience at MIT and an Investigator of the Picower Center for Learning and Memory at MIT. Brown received his BA in mathematics, his PhD in statistics, and his MD, all from Harvard University.
Brown has received numerous honors and awards over the course of his career. He is one of only a handful of scientists to be elected to all three branches of the National Academies: Science, Engineering and Medicine. Recently, his pioneering research was recognized with the Dickson Prize for Science in 2018.
Learn more about Dr. Brown’s research here:
picower.mit.edu/emery-n-brown
and here:
www.neurostat.mit.edu - Věda a technologie
ahhh... now this is what youtube is for
Thanks for sharing this lecture Prof. Brown. Very clear explanation about brain monitoring during Anesthesia
Very well presented. Very interesting. Very informative.
thank you so much for the content! super helpful and informative
Excellent lecture! Thank you!
Very detail and clear. Thanks
Great lecture! I was wondering when you said that no drug reproduces sleep patterns, what about dexmedetomidine or other alpha2 agonists? I understood their mechanism is quite similar to locus coeruleus suppression found in falling asleep.
Edit: I wanted to point out that I love hearing from physician scientists more like this wiukd be great.
Nowadays the contribution of Morton is not so clear cut. Morton’s mentor Charles Jackson may have used it before and Crowford Long have used first.
Very interesting!! Very well done sir
Thanks you
How does anesthesia always create rhythms that are out of phase? It would seem that the timing of the induced rhythms would be random, so that they might be induced but be in phase, so that at ~33 min, the red and green areas could fire together.
Have you discovered yet the drugs the body uses to induce sleep? I'd imagine there's some good research value if we can find out the chemical mechanisms which induce sleep. Even though it's not the same as general anaesthesia; it surely could help if you knew what those chemicals were.
Melatonin
Are the inhibitory neurons that act as a router what Michael Pollen calls the Default Mode Network?
(Ignore me. I'm only commenting to be notified in case someone responds.)
I LOVE YOU TOO
🗽
if we can understand the brain to any decent degree we as humans will be able to achieve almost anything. The only path to utopia is through neuroscience and pharmacology
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God is merciful and blessed us with a great drug for our relief