Psychoactive drug

A psychoactive drug or psychotropic substance is a chemical that alters brain function, resulting in temporary changes in perception, mood, consciousness, or behavior. Such drugs are often used in recreational drug use and as entheogens for spiritual purposes, as well as in medication, especially for treating neurological and psychological illnesses.

Many of these substances (especially the stimulants and depressants) can be habit-forming, causing chemical dependency and often leading to substance abuse. Conversely, others (namely the psychedelics) can help to treat and even cure such addictions.

Psychoactive drug chart
The following Venn diagram attempts to organize and provide a basic overview of the most common psychoactive drugs into intersecting groups and subgroups based upon pharmacological classification and method of action. Items within each subgroup are proximitied close to those of most similar action, and also follow a general placement in accordance with the legend below the diagram. Primary intersections are represented via color mixing. (Note: this is a work in progress. Please discuss errors, changes and suggestions on the talk page).





STIMULANTS 

Sympathomimetic Amines Psychomotor Stimulants Amphetamines Cocaine Methylphenidate Cathinone

Amino ketones Bupropion Diethylpropion

Ephedrine Pseudoephedrine

Methylxanthines Caffeine Theophylline Theobromine

ANTIPSYCHOTICS Atypical antipsychotics Quetiapine Olanzapine

Typical antipsychotics Haloperidol Chlorpromazine

Aripiprazole

SSRIs Paroxetine Fluoxetine Sertraline

Cholinergics Nicotine Betel nut Muscarine

DEPRESSANTS

Sedative Hypnotics Alcohol Ether Barbiturates Chloroform Chloral hydrate Methaqualone GHB

Benzodiazepines Diazepam Lorazepam Flunitrazepam Alprazolam

Narcotic Analgesics Opium Codeine Morphine Heroin Fentanyl

Cannabis (THC) Psychedelics MDMA  MDA MDEA Mescaline DOM LSD Psilocybin AMT DMT Ibogaine

Dissociatives Phencyclidine DXM Ketamine Nitrous Oxide Salvinorin A Ibotenic acid  Muscimol

Deliriants Dimenhydrinate Diphenhydramine Scopolamine Atropine HALLUCINOGENS

Legend

 * Blue : Stimulants generally increase in potency to the upper left.
 * Red : Depressants generally increase in potency to the lower right.
 * Green : "Hallucinogens" are psychedelic to the left, dissociative to the right, generally less predictable down and to the right, and generally more potent towards the bottom.
 * Pink hue : The so called "antipsychotics". A new and controversial addition to the chart.

Sub-sections

 * White: Overlap of all three main sections (Stimulants, Depressants and Hallucinogens) — Example: cannabis exhibits effects of all three sections.
 * Magenta (purple): Overlap of Stimulants (Blue) and Depressants (Red) — Example: nicotine exhibits effects of both.
 * Cyan (light blue): Overlap of Stimulants (Blue) and Hallucinogens (Green) — Primary psychedelics exhibit a stimulant effect
 * Yellow : Overlap of Depressants (Red) and Hallucinogens (Green) — Primary dissociatives exhibit a depressant effect

A brief history of drug use
Drug use is not a new phenomenon by any means. There is archaeological evidence of the use of psychoactive substances dating back at least 10,000 years, and historical evidence of cultural use over the past 5,000 years.

While medicinal use plays a very large role, it has been suggested that the urge to alter one's consciousness is as primary as the drive to satiate thirst, hunger or sexual desire.

Some may point a finger to marketing, availability or the pressures of modern life as to why humans use so many psychoactives in their daily lives, but one only has to look back at history, or even to children with their desire for spinning, swinging, sliding amongst other activities to see that the drive to alter one's state of mind is universal.

This relationship is not limited to humans. A surprising number of animals consume different psychoactive plants and animals, berries and even fermented fruit, clearly becoming intoxicated. Traditional legends of sacred plants often contain references to animals that introduced man to their use.

Biology suggests an evolutionary connection between psychoactive plants and animals, as to why these chemicals and their receptors exist within the nervous system.

Other psychoactive drugs

 * Aphrodisiacs
 * PT-141


 * In a broader sense also:
 * Antiemetics
 * Analgesics
 * Antiepileptics

Ways psychoactive drugs affect the brain
There are many ways in which psychoactive drugs can affect the brain. While some drugs affect neurons presynaptically, others act postsynaptically and some drugs don't even attack the synapse, working on neural axons instead. Here is a general breakdown of the ways psychoactive drugs can work.


 * 1) Prevent The Action Potential From Starting
 * 2) *Lidocaine, TTX (they bind to voltage-gated sodium channels, so no action potential begins even when a generator potential passes threshold)
 * 3) Neurotransmitter Synthesis
 * 4) * Increase - L-Dopa, tryptophan, choline (precursors)
 * 5) * Decrease - PCPA (inhibits synthesis of 5HT)
 * 6) * Causes increased sensitivity to the five senses, due to an increasing number of signals being sent to the brain.
 * 7) Neurotransmitter Packaging
 * 8) * Increase - MAO Inhibitors
 * 9) * Decreasing - Resperine (pokes holes in the synaptic vesicles of catecholamines)
 * 10) Neurotransmitter Release
 * 11) * Increase - Black Widow Spider (Ach)
 * 12) * Decrease - Botulinum Toxin (Ach), Tetanus (GABA)
 * 13) Agonists - Mimic the original NTs and activate the receptors
 * 14) * Muscuraine, Nicotine (Ach)
 * 15) * AMDA, NMDA (Glu)
 * 16) * Alcohol, Benzodiazepines (GABA)
 * 17) Antagonists - Bind to the receptor sites and block activation
 * 18) * Atropine, Curare (Ach)
 * 19) * PCP (Glu)
 * 20) Prevent Ach Breakdown -
 * 21) *Insecticides, Nerve Gas
 * 22) Prevent Reuptake
 * 23) * Cocaine (DA), Amphetamines (E)
 * 24) * Tricyclics, SSRIs

- based on information taught in NSC 201, Vanderbilt University (note: a lower level college course lecture is not a sufficient citation)