Difference between revisions of "Dissociative"

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The primary area of activation for dissociatives is blockade of the Ca++ ion in the NDMA receptor.  Also known as '''uncompetitive  NMDA receptor antagonists'''.
 
The primary area of activation for dissociatives is blockade of the Ca++ ion in the NDMA receptor.  Also known as '''uncompetitive  NMDA receptor antagonists'''.
  
NONcompetitive antagonists result in the same affect on the receptor, but achieve it in a slightly different way.
+
Noncompetitive antagonists result in the same effect on the receptor, but achieve it in a slightly different way.
  
 
See images D & E [[File:NewNMDA.PNG]]
 
See images D & E [[File:NewNMDA.PNG]]
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Gacyclidine
 
Gacyclidine
  
Ketamine
+
[Ketamine]
  
 
Metaphit
 
Metaphit
  
Methoxetamine
+
[Methoxetamine MXE]
  
 
Neramexane
 
Neramexane
  
Phencyclidine (PCP)
+
[Phencyclidine PCP]
  
 
Phenylhexylcyclopyrrolidine
 
Phenylhexylcyclopyrrolidine
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----'''Morphinans'''----
+
==Morphinans==
 +
 
 
Dextromethorphan
 
Dextromethorphan
 +
 
Dextrorphan
 
Dextrorphan
 +
 
Methorphan
 
Methorphan
 +
 
Morphanol
 
Morphanol
Others
+
 
 +
 
 +
==Others==
 
2-MDP
 
2-MDP
 
8A-PDHQ
 
8A-PDHQ
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---kappa-opioid agonists---
+
==kappa-opioid agonists==
  
 
salvinorin
 
salvinorin

Revision as of 21:38, 9 December 2012

Dissociatives are a class of hallucinogen, which distort perceptions of sight and sound and produce feelings of detachment - dissociation - from the environment and self. This is done through reducing or blocking signals to the conscious mind from other parts of the brain. Although many kinds of drugs are capable of such action, dissociatives are unique in that they do so in such a way that they produce hallucinogenic effects, which may include sensory deprivation, dissociation, hallucinations, and dream-like states or trances. Some, which are nonselective in action and affect the dopamine and/or opioid systems, may be capable of inducing euphoria. Many dissociatives have general depressant effects and can produce sedation, respiratory depression[citation needed], analgesia, anesthesia, and ataxia, as well as cognitive and memory impairment and amnesia.

The primary area of activation for dissociatives is blockade of the Ca++ ion in the NDMA receptor. Also known as uncompetitive NMDA receptor antagonists.

Noncompetitive antagonists result in the same effect on the receptor, but achieve it in a slightly different way.

See images D & E NewNMDA.PNG


Dissociatives can also be classified by molecular structure. The most well known dissociatives used recreationally and in medicine are known as arylcyclohexylamines Arylcyclohexylamine.gif

Another well known dissociative Dextromethorphan (DXM) has a very opioid like structure. It is classified as a morphinan


NMDA receptor antagonists

Adamantanes

Amantadine

Memantine

Rimantadine

Arylcyclohexylamines

Dieticyclidine

Esketamine

Eticyclidine

Gacyclidine

[Ketamine]

Metaphit

[Methoxetamine MXE]

Neramexane

[Phencyclidine PCP]

Phenylhexylcyclopyrrolidine

Rolicyclidine

Tenocyclidine

Tiletamine

Methoxydine (4-MeO-PCP)



Morphinans

Dextromethorphan

Dextrorphan

Methorphan

Morphanol


Others

2-MDP 8A-PDHQ Aptiganel Dexoxadrol Diethyl ether Dizocilpine Etoxadrol Ibogaine (found in Tabernanthe iboga) Midafotel NEFA Nitrous oxide Noribogaine Perzinfotel Remacemide Selfotel Xenon


kappa-opioid agonists

salvinorin

Ketamine

Methoxetamine(MXE)