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[[File:Psilocybin neural connections.png|300px|thumbnail|right|The diagram above demonstrates the neural connections associated with sobriety in comparison to being under the influence of psilocybin as demonstrated through the use of MRI scans.<ref>What your brain looks like on magic mushrooms | http://www.telegraph.co.uk/news/science/science-news/11207979/What-your-brain-looks-like-on-magic-mushrooms.html</ref>]]
[[File:Psilocybin neural connections.png|300px|thumbnail|right|The diagram above demonstrates the neural connections associated with sobriety in comparison to being under the influence of psilocybin as demonstrated through the use of MRI scans.<ref>What your brain looks like on magic mushrooms | http://www.telegraph.co.uk/news/science/science-news/11207979/What-your-brain-looks-like-on-magic-mushrooms.html</ref>]]
[[File:Lsd brain scan.jpg|thumbnail|300px|right|This image shows how, with eyes-closed, much more of the brain contributes to the visual experience under LSD (right image) than under placebo (left image). The magnitude of this effect correlates with participants’ reports of complex, dreamlike visions.<ref>LSD's impact on the brain revealed in groundbreaking images  | https://www.theguardian.com/science/2016/apr/11/lsd-impact-brain-revealed-groundbreaking-images</ref>]]
[[File:Lsd brain scan.jpg|thumbnail|300px|right|This image shows how, with eyes-closed, much more of the brain contributes to the visual experience under LSD (right image) than under placebo (left image). The magnitude of this effect correlates with participants’ reports of complex, dreamlike visions.<ref>LSD's impact on the brain revealed in groundbreaking images  | https://www.theguardian.com/science/2016/apr/11/lsd-impact-brain-revealed-groundbreaking-images</ref>]]
'''Serotonergic psychedelics''' (also known as '''serotonergic hallucinogens''') are a class of [[hallucinogenic]] drugs with a method of action strongly tied to the [[neurotransmitter]] [[serotonin]]. Serotonin (often referred to as '''5-HT''', short for its full chemical name ''5-'''h'''ydroxy'''t'''ryptamine'') is a naturally occurring neurotransmitter which is tied to positive mood, certain involuntary muscle control, and countless other functions, many of which are not yet fully understood.
'''Serotonergic psychedelics''' (also known as '''serotonergic hallucinogens''') are a class of [[hallucinogenic]] drugs with a method of action strongly tied to the [[neurotransmitter]] [[serotonin]]. Serotonin (often referred to as '''5-HT''', which is short for its full chemical name ''5-'''h'''ydroxy'''t'''ryptamine'') is a naturally occurring neurotransmitter which is tied to positive mood, certain involuntary muscle control, and countless other functions, many of which are not yet fully understood.


==Method of action==
==Method of action==

Revision as of 19:08, 12 June 2016

Psychedelic structural comparison diagram
The diagram above demonstrates the neural connections associated with sobriety in comparison to being under the influence of psilocybin as demonstrated through the use of MRI scans.[1]
This image shows how, with eyes-closed, much more of the brain contributes to the visual experience under LSD (right image) than under placebo (left image). The magnitude of this effect correlates with participants’ reports of complex, dreamlike visions.[2]

Serotonergic psychedelics (also known as serotonergic hallucinogens) are a class of hallucinogenic drugs with a method of action strongly tied to the neurotransmitter serotonin. Serotonin (often referred to as 5-HT, which is short for its full chemical name 5-hydroxytryptamine) is a naturally occurring neurotransmitter which is tied to positive mood, certain involuntary muscle control, and countless other functions, many of which are not yet fully understood.

Method of action

While the method of action of serotonergic psychedelics is not fully understood, serotonergic psychedelics are known to show affinities for various 5-HT receptors in different ways and levels, and may be classified by their activity at different 5-HT sub-sites, such as 5-HT1A, 5-HT1B, 5-HT2A, etc.

Many serotonergic psychedelics, such as the family of tryptamines, have very strong structural similarities to serotonin itself, which partially explains the affinity for certain 5-HT sites. It is almost unanimously agreed that most serotonergic psychedelics produce their effect by acting as strong partial agonists at the 5-HT2A receptors.

The cortico-striato-thalamo-cortical loops[3] ("CSTC-loops") seem to be central to the function of psychedelics, which are also regulated by the serotonergic system. These control loops connect brain areas like the frontal lobe, the striatum and the thalamus; they aggregate, process and forward internal and external information.

The disruption of the neurotransmitter balance causes these control loops to collapse overwhelmed, leading to the flooding of the frontal lobe with neuronal excitatory glutamate; internal and external stimuli as well as all kinds of non-conscious contents can freely move up to the cerebral cortex and appear as visions in consciousness.[4][5] Furthermore, there is an over-activation of the locus coerlueus and thereby widespread norepinephrine secretion, causing a state of spiritual transcendence and sometimes even intense spiritual experiences.

Worth noting is that selective serotonin reuptake inhibitors (a class of antidepressants including Paxil, Prozac, and Zoloft) can increase the dosage required for hallucinogenic effects of serotonergic psychedelics, in some people, based on anecdotal reports. Some users, however, have found this to be entirely untrue for them, so users who are using daily antidepressants should, at first, only attempt a common dosage.

Examples

Specific compounds

Entheogens

See also

References

  1. What your brain looks like on magic mushrooms | http://www.telegraph.co.uk/news/science/science-news/11207979/What-your-brain-looks-like-on-magic-mushrooms.html
  2. LSD's impact on the brain revealed in groundbreaking images | https://www.theguardian.com/science/2016/apr/11/lsd-impact-brain-revealed-groundbreaking-images
  3. [1] - Taylor SB, Lewis CR, Olive MF. (2013) The neurocircuitry of illicit psychostimulant addiction: acute and chronic effects in humans. Substance abuse and rehabilitation.; [..] The overall output of the basal ganglia is predominantly via the thalamus, which then projects back to the PFC to form cortico-striatal-thalamo-cortical (CSTC) loops. [..]
  4. [2] - Vollenweider F. X. (2001). Brain mechanisms of hallucinogens and entactogens. Dialogues Clin. Neurosci. 3
  5. Edelrausch im LaborNeuro Culture Lab (German)
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