Lysergic acid diethylamide
 |
| Systematic (IUPAC) name |
| (6aR,9R)- N,N- diethyl- 7-methyl- 4,6,6a,7,8,9- hexahydroindolo- [4,3-fg] quinoline- 9-carboxamide |
| Clinical data |
| Pregnancy cat. |
C (US) |
| Legal status |
Prohibited (S9) (AU) Schedule III (CA) CD (UK) Schedule I (US) |
| Routes |
Oral, Intravenous, Ocular, Intramuscular |
| Pharmacokinetic data |
| Metabolism |
Hepatic |
| Half-life |
3–5 hours[1][2] |
| Excretion |
Renal |
| Identifiers |
| CAS number |
50-37-3  Y |
| ATC code |
? |
| PubChem |
CID 5761 |
| IUPHAR ligand |
17 |
| DrugBank |
DB04829 |
| ChemSpider |
5558 Y |
| UNII |
8NA5SWF92O Y |
| ChEBI |
CHEBI:6605  N |
| ChEMBL |
CHEMBL263881 Y |
| Synonyms |
LSD, LSD-25,
lysergide,
D-lysergic acid diethyl amide,
N,N- diethyl- D- lysergamide |
| Chemical data |
| Formula |
C20H25N3O |
| Mol. mass |
323.43 g/mol |
| SMILES |
eMolecules & PubChem |
-
InChI=1S/C20H25N3O/c1-4-23(5-2)20(24)14-9-16-15-7-6-8-17-19(15)13(11-21-17)10-18(16)22(3)12-14/h6-9,11,14,18,21H,4-5,10,12H2,1-3H3/t14-,18-/m1/s1 Y
Key:VAYOSLLFUXYJDT-RDTXWAMCSA-N Y
|
| Physical data |
| Melt. point |
80–85 °C (176–185 °F) |
 N (what is this?) (verify)
|
Lysergic acid diethylamide, abbreviated LSD or LSD-25, also known as lysergide and colloquially as acid, is a semisynthetic psychedelic drug of the ergoline family, well known for its psychological effects which can include altered thinking processes, closed and open eye visuals, synaesthesia, an altered sense of time and spiritual experiences, as well as for its key role in 1960s counterculture. It is used mainly as an entheogen, recreational drug, and as an agent in psychedelic therapy. LSD is non-addictive, is not known to cause brain damage, and has extremely low toxicity relative to dose, although in rare cases adverse psychiatric reactions such as anxiety or delusions are possible.[3]
LSD was first synthesized by Albert Hofmann in 1938 from ergotamine, a chemical derived by Arthur Stoll from ergot, a grain fungus that typically grows on rye. The short form "LSD" comes from its early code name LSD-25, which is an abbreviation for the German "Lysergsäure-diethylamid" followed by a sequential number.[4][5] LSD is sensitive to oxygen, ultraviolet light, and chlorine, especially in solution, though its potency may last for years if it is stored away from light and moisture at low temperature. In pure form it is a colorless, odorless, and mildly bitter solid.[6] LSD is typically delivered orally, usually on a substrate such as absorbent blotter paper, a sugar cube, or gelatin. In its liquid form, it can also be administered by intramuscular or intravenous injection. LSD is very potent, with 20–30 µg (micrograms) being the threshold dose. New experiments with LSD have started in 2009 for the first time in 40 years. [7]
Introduced by Sandoz Laboratories, with trade-name Delysid, as a drug with various psychiatric uses in 1947, LSD quickly became a therapeutic agent that appeared to show great promise.[8] In the 1950s, officials at the U.S. Central Intelligence Agency (CIA) thought the drug might be applicable to mind control and chemical warfare; the agency's MKULTRA research program propagated the drug among young servicemen and students. The subsequent recreational use of the drug by youth culture in the Western world during the 1960s led to a political firestorm that resulted in its prohibition.[9] Currently, a number of organizations—including the Beckley Foundation, MAPS, Heffter Research Institute and the Albert Hofmann Foundation—exist to fund, encourage and coordinate research into the medicinal and spiritual uses of LSD and related psychedelics.[10]
LSD can cause pupil dilation, reduced appetite (for some, it increases), and wakefulness. Other physical reactions to LSD are highly variable and nonspecific, and some of these reactions may be secondary to the psychological effects of LSD. The following symptoms have been reported: numbness, weakness, nausea, hypothermia or hyperthermia (decreased or increased body temperature), elevated blood sugar, goose bumps, increase in heart rate, jaw clenching, perspiration, saliva production, mucus production, sleeplessness, hyperreflexia, and tremors. Some users, including Albert Hofmann, report a strong metallic taste for the duration of the effects.[11]
LSD is not considered addictive by the medical community.[12] Rapid tolerance build-up prevents regular use, and there is cross-tolerance shown between LSD, mescaline[13] and psilocybin.[14] This tolerance diminishes after a few days without use and is probably caused by downregulation of 5-HT2A receptors in the brain[15][16]
LSD's psychological effects (colloquially called a "trip") vary greatly from person to person, depending on factors such as previous experiences, state of mind and environment, as well as dose strength. They also vary from one trip to another, and even as time passes during a single trip. An LSD trip can have long-term psychoemotional effects; some users cite the LSD experience as causing significant changes in their personality and life perspective. Widely different effects emerge based on what Timothy Leary called set and setting; the "set" being the general mindset of the user, and the "setting" being the physical and social environment in which the drug's effects are experienced.
Some psychological effects may include an experience of radiant colors, objects and surfaces appearing to ripple or "breathe", colored patterns behind the closed eyelids (eidetic imagery), an altered sense of time (time seems to be stretching, repeating itself, changing speed or stopping), crawling geometric patterns overlaying walls and other objects, morphing objects, a sense that one's thoughts are spiraling into themselves, loss of a sense of identity or the ego (known as "ego death"), and other powerful psycho-physical reactions.[17] Many users experience a dissolution between themselves and the "outside world".[18] This unitive quality may play a role in the spiritual and religious aspects of LSD. The drug sometimes leads to disintegration or restructuring of the user's historical personality and creates a mental state that some users report allows them to have more choice regarding the nature of their own personality.[citation needed]
If the user is in a hostile or otherwise unsettling environment, or is not mentally prepared for the powerful distortions in perception and thought that the drug causes, effects are more likely to be unpleasant than if he or she is in a comfortable environment and has a relaxed, balanced and open mindset.[19]
LSD causes an altered sensory experience of senses, emotions, memories, time, and awareness for 6 to 14 hours, depending on dosage and tolerance. Generally beginning within thirty to ninety minutes after ingestion, the user may experience anything from subtle changes in perception to overwhelming cognitive shifts. Changes in auditory and visual perception are typical.[18][20] Visual effects include the illusion of movement of static surfaces ("walls breathing"), after image-like trails of moving objects ("tracers"), the appearance of moving colored geometric patterns (especially with closed eyes), an intensification of colors and brightness ("sparkling"), new textures on objects, blurred vision, and shape suggestibility. Users commonly report that the inanimate world appears to animate in an unexplainable way; for instance, objects that are static in three dimensions can seem to be moving relative to one or more additional spatial dimensions.[21] Many of the basic visual effects resemble the phosphenes seen after applying pressure to the eye and have also been studied under the name "form constants". The auditory effects of LSD may include echo-like distortions of sounds, changes in ability to discern concurrent auditory stimuli, and a general intensification of the experience of music. Higher doses often cause intense and fundamental distortions of sensory perception such as synaesthesia, the experience of additional spatial or temporal dimensions, and temporary dissociation.
Bottle of LSD from a Swiss clinical trial of LSD for anxiety in cancer patients, c. 2007.
LSD has been used in psychiatry for its perceived therapeutic value, in the treatment of alcoholism, pain and cluster headache relief, for spiritual purposes, and to enhance creativity. However, government organizations like the United States Drug Enforcement Administration maintain that LSD "produces no aphrodisiac effects, does not increase creativity, has no lasting positive effect in treating alcoholics or criminals, does not produce a 'model psychosis', and does not generate immediate personality change."[22]
In the 1950s and 1960s LSD was used in psychiatry to enhance psychotherapy. Some psychiatrists believed LSD was especially useful at helping patients to "unblock" repressed subconscious material through other psychotherapeutic methods,[23] and also for treating alcoholism.[24][25] One study concluded, "The root of the therapeutic value of the LSD experience is its potential for producing self-acceptance and self-surrender,"[26] presumably by forcing the user to face issues and problems in that individual's psyche.
In December 1968, a survey was made of all 74 UK doctors who had used LSD in humans; 73 replied, 1 had moved overseas and was unavailable. Of the 73 replies, the majority of UK doctors with clinical experience with LSD felt that LSD was effective and had acceptable safety: 41 (56%) continued with clinical use of LSD, 11 (15%) had stopped because of retirement or other extraneous reasons, 9 (12%) had stopped because they found LSD ineffective, and 5 (7%) had stopped because they felt LSD was too dangerous.[27]
From 2008-2011 there has been ongoing research in Switzerland into using LSD to alleviate anxiety for terminally ill cancer patients coping with their impending deaths. Preliminary results from the study are promising, and no negative effects have been reported.[28][29][30]
Some studies in the 1950s that used LSD to treat alcoholism professed a 50% success rate,[31][32] five times higher than estimates near 10% for Alcoholics Anonymous.[33] A 1998 review was inconclusive.[34] However, a 2012 meta-analysis of 6 randomized controlled trials found evidence that a single dose of LSD was associated with a decrease in alcohol abuse, lasting for several months.[35]
LSD was studied in the 1960s by Eric Kast as an analgesic for serious and chronic pain caused by cancer or other major trauma.[36] Even at low (sub-psychedelic) dosages, it was found to be at least as effective as traditional opiates, while being much longer lasting in pain reduction (lasting as long as a week after peak effects had subsided). Kast attributed this effect to a decrease in anxiety; that is to say they were not experiencing less pain, but rather being less distressed by pain. This reported effect is being tested (though not using LSD) in an ongoing (as of 2006) study of the effects of the psychedelic tryptamine psilocybin on anxiety in terminal cancer patients.
LSD has been used as a treatment for cluster headaches, an uncommon but extremely painful disorder. Researcher Peter Goadsby describes the headaches as "worse than natural childbirth or even amputation without anesthetic."[37] Although the phenomenon has not been formally investigated, case reports indicate that LSD and psilocybin can reduce cluster pain and also interrupt the cluster-headache cycle, preventing future headaches from occurring. Currently existing treatments include various ergolines, among other chemicals, so LSD's efficacy may not be surprising. A dose-response study testing the effectiveness of both LSD and psilocybin was planned at McLean Hospital, although the current status of this project is unclear. A 2006 study by McLean researchers interviewed 53 cluster-headache sufferers who treated themselves with either LSD or psilocybin, finding that a majority of the users of either drug reported beneficial effects.[38] Unlike use of LSD or MDMA in psychotherapy, this research involves non-psychological effects and often sub-psychedelic dosages.[39][40]
LSD is considered an entheogen because it can catalyze intense spiritual experiences, during which users may feel they have come into contact with a greater spiritual or cosmic order. Users claim to experience lucid sensations where they have "out of body" experiences. Some users report insights into the way the mind works, and some experience permanent shifts in their life perspective. LSD also allows users to view their life from an introspective point of view. Some users report using introspection to resolve unresolved or negative feelings towards an individual or incident that occurred in the past. Some users consider LSD a religious sacrament, or a powerful tool for access to the divine. Stanislav Grof has written that religious and mystical experiences observed during LSD sessions appear to be phenomenologically indistinguishable from similar descriptions in the sacred scriptures of the great religions of the world and the secret mystical texts of ancient civilizations.[41]
In the 1950s and 1960s, psychiatrists like Oscar Janiger explored the potential effect of LSD on creativity. Experimental studies attempted to measure the effect of LSD on creative activity and aesthetic appreciation.[42][43][44][45] Seventy professional artists were asked to draw two pictures of a Hopi Indian kachina doll, one before ingesting LSD and one after.[46]
Chart of dependence potential and effective dose/lethal dose of some psychoactive drugs.
There have been no documented human deaths from an LSD overdose.[47] It is physiologically well tolerated and there is no evidence for long-lasting physiological effects on the brain or other parts of the human organism.[48]
LSD may temporarily impair the ability to make sensible judgments and understand common dangers, thus making the user more susceptible to accidents and personal injury. It may cause temporary confusion, difficulty with abstract thinking, or signs of impaired memory and attention span similar to brain damage.[49]
There is some indication that LSD may trigger a dissociative fugue state in individuals who are taking certain classes of antidepressants such as lithium salts and tricyclics. In such a state, the user has an impulse to wander, and may not be aware of his or her actions, which can lead to physical injury. Anonymous anecdotal reports have attributed seizures and one death to the combination of LSD with lithium.[50] SSRIs noticeably reduce LSD's subjective effects.[51] MAOIs are also reported to reduce the effects of LSD.[50]
LSD may trigger panic attacks or feelings of extreme anxiety, colloquially referred to as a "bad trip". No real prolonged effects have been proven, however people with such conditions as schizophrenia and depression can worsen with LSD.[52]
While publicly available documents indicate that the CIA and Department Of Defense have discontinued research into the use of LSD as a means of mind control,[53] research from the 1960s suggests there exists evidence that both mentally ill and healthy people are more suggestible while under its influence.[54][55]
There are some cases of LSD inducing a psychosis in people who appeared to be healthy before taking LSD.[56] In most cases, the psychosis-like reaction is of short duration, but in other cases it may be chronic. It is difficult to determine whether LSD itself induces these reactions or if it triggers latent conditions that would have manifested themselves otherwise. The similarities of time course and outcomes between putatively LSD-precipitated and other psychoses suggest that the two types of syndromes are not different and that LSD may have been a nonspecific trigger.[citation needed]
Estimates of the prevalence of LSD-induced prolonged psychosis lasting over 48 hours have been made by surveying researchers and therapists who had administered LSD:
- Cohen (1960) estimated 0.8 per 1,000 volunteers (the single case among approximately 1250 study volunteers was the identical twin of a schizophrenic and he recovered within 5 days) and 1.8 per 1,000 psychiatric patients (7 cases among approximately 3850 patients, of which 2 cases were "preschizophrenic" or had previous hallucinatory experience, 1 case had unknown outcome, 1 case had incomplete recovery, and 5 cases recovered within up to 6 months).[57]
- Malleson (1971) reported no cases of psychosis among experimental subjects (170 volunteers who received a total of 450 LSD sessions) and estimated 9 per 1,000 among psychiatric patients (37 cases among 4300 patients, of which 8 details are unknown, 10 appeared chronic, and 19 recovered completely within up to 3 months).[27]
However, in neither survey study was it possible to compare the rate of lasting psychosis in these volunteers and patients receiving LSD with the rate of psychosis found in other groups of research volunteers or in other methods of psychiatric treatment (for example, those receiving placebo).
Cohen (1960) noted:[57]
- "The hallucinogenic experience is so striking that many subsequent disturbances may be attributed to it without further justification. The highly suggestible or hysterical individual would tend to focus on his LSD experience to explain subsequent illness. Patients have complained to Abramson that their LSD exposure produced migraine headaches and attacks of influenza up to a year later. One Chinese girl became paraplegic and ascribed that catastrophe to LSD. It so happened that these people were all in the control group and had received nothing but tap water."
"Flashbacks" are a reported psychological phenomenon in which an individual experiences an episode of some of LSD's subjective effects long after the drug has worn off, usually in the days after typical doses. In some rarer cases, flashbacks have lasted longer, but are generally short-lived and mild compared to the actual LSD "trip". Flashbacks can incorporate both positive and negative aspects of LSD trips, and are typically elicited by triggers such as alcohol or cannabis use, stress, caffeine, or sleepiness. Flashbacks have proven difficult to study and are no longer officially recognized as a psychiatric syndrome. However, colloquial usage of the term persists and usually refers to any drug-free experience reminiscent of psychedelic drug effects, with the typical connotation that the episodes are of short duration.
No definitive explanation is currently available for these experiences. Any attempt at explanation must reflect several observations: first, over 70 percent of LSD users claim never to have "flashed back"; second, the phenomenon does appear linked with LSD use, though a causal connection has not been established; and third, a higher proportion of psychiatric patients report flashbacks than other users.[58] Several studies have tried to determine how likely a user of LSD, not suffering from known psychiatric conditions, is to experience flashbacks. The larger studies include Blumenfeld's in 1971[59] and Naditch and Fenwick's in 1977,[60] which arrived at figures of 20% and 28%, respectively.
Although flashbacks themselves are not recognized as a medical syndrome, there is a recognized syndrome called Hallucinogen Persisting Perception Disorder (HPPD) in which LSD-like visual changes are not temporary and brief, as they are in flashbacks, but instead are persistent, and cause clinically significant impairment or distress. The syndrome is a DSM-IV diagnosis. Several scientific journal articles have described the disorder.[61]
HPPD differs from flashbacks in that it is persistent and apparently entirely visual (although mood and anxiety disorders are sometimes diagnosed in the same individuals). A recent review suggests that HPPD (as defined in the DSM-IV) is rare and affects only a distinctly vulnerable subpopulation of users.[62] However, it is possible that the prevalence of HPPD is underestimated because most of the diagnoses are applied to people who are willing to admit to their health care practitioner that they have previously used psychotropics, and presumably many people are reluctant to admit this.[63]
There is no consensus regarding the nature and causes of HPPD (or flashbacks). A study of 44 HPPD subjects who had previously ingested LSD showed EEG abnormalities.[64] Given that some symptoms have environmental triggers, it may represent a failure to adjust visual processing to changing environmental conditions. There are no explanations for why only some individuals develop HPPD. Explanations in terms of LSD physically remaining in the body for months or years after consumption have been discounted by experimental evidence.[58] Some say HPPD is a manifestation of post-traumatic stress disorder, not related to the direct action of LSD on brain chemistry, and varies according to the susceptibility of the individual to the disorder. Many emotionally intense experiences can lead to flashbacks when a person is reminded acutely of the original experience. However, not all published case reports of HPPD appear to describe an anxious hyper-vigilant state reminiscent of post-traumatic stress disorder. Instead, some cases appear to involve only visual symptoms.[58]
Early pharmacological testing by Sandoz in laboratory animals showed that LSD can stimulate uterine contractions, with efficacy comparable to ergobasine, the active uterotonic component of the ergot fungus. (Hofmann's work on ergot derivatives also produced a modified form of ergobasine which became a widely accepted medication used in obstetrics, under the trade name Methergine.) Therefore, LSD use by pregnant women could be dangerous and is contraindicated.[4] However, the relevance of these animal studies to humans is unclear, and a 2008 medical reference guide to drugs in pregnancy and lactation stated, "It appears unlikely that pure LSD administered in a controlled condition is an abortifacient."[65]
Beginning in 1967, studies raised concerns that LSD might produce genetic damage[66] or developmental abnormalities in fetuses. However, these initial reports were based on in vitro studies or were poorly controlled and have not been substantiated. In studies of chromosomal changes in human users and in monkeys, the balance of evidence suggests no increase in chromosomal damage. For example, white blood cells of people who had been given LSD in a clinical setting were examined for visible chromosomal abnormalities; overall, there appeared to be no lasting changes.[66] Several studies have been conducted using illicit LSD users and provide a less clear picture. Interpretation of these data is generally complicated by factors such as the unknown chemical composition of street LSD, concurrent use of other psychoactive drugs, and diseases such as hepatitis in the sampled populations. It seems possible the small number of genetic abnormalities reported in users of street LSD is either coincidental or related to factors other than a toxic effect of pure LSD.[66] A 2008 medical review concluded, "The available data suggest that pure LSD does not cause chromosomal abnormalities, spontaneous abortions, or congenital malformations. In 1969 Moseley (now Gottschalk) working at the University of California, Riverside, under Edward Crellin Pauling, using e. coli ligase mutant strain obtained results indicating no breakage and that therapeutically high doses actually reduced breakage."[65]
Reassurance in a calm, safe environment is beneficial. Agitation can be safely addressed with benzodiazepines such as Valium, but neuroleptics such as Haldol should be avoided because they may cause hallucinations or paranoid delusions. LSD is rapidly absorbed, so activated charcoal and emptying of the stomach may be of little benefit in the emergency department. Sedation or physical restraint is rarely required, and excessive restraint may cause complications such as hyperthermia (over-heating) or rhabdomyolysis.[67]
Massive doses require supportive care, which may include endotracheal intubation or respiratory support. High blood pressure, tachycardia (rapid heart-beat) and hyperthermia, if present, should be treated symptomatically. Treat low blood pressure initially with fluids and then with pressors if necessary. Intravenous administration of anticoagulants, vasodilators, and sympatholytics may be useful with massive doses. Balloon percutaneous transluminal angioplasty has been employed in some severe cases.[67]
The four possible stereoisomers of LSD. Only (+)-LSD is psychoactive.
LSD is an ergoline derivative. It is commonly synthesised by reacting diethylamine with an activated form of lysergic acid. Activating reagents include phosphoryl chloride[68] and peptide coupling reagents.[69] Lysergic acid is made by alkaline hydrolysis of lysergamides like ergotamine, a substance derived from the ergot fungus on rye, or from ergine (lysergic acid amide, LSA), a compound that is found in morning glory (Ipomoea tricolor) and Hawaiian baby woodrose (Argyreia nervosa) seeds.
LSD is a chiral compound with two stereocenters at the carbon atoms C-5 and C-8, so that theoretically four different optical isomers of LSD could exist. LSD, also called (+)-D-LSD, has the absolute configuration (5R,8R). The C-5 isomers of lysergamides do not exist in nature and are not formed during the synthesis from D-lysergic acid. Retrosynthetically, the C-5 stereocenter could be analysed as having the same configuration of the alpha carbon of the naturally occurring amino acid L-tryptophan, the precursor to all biosynthetic ergoline compounds.
However, LSD and iso-LSD, the two C-8 isomers, rapidly interconvert in the presence of bases, as the alpha proton is acidic and can be deprotonated and reprotonated. Non-psychoactive iso-LSD which has formed during the synthesis can be separated by chromatography and can be isomerized to LSD.
A totally pure salt of LSD will emit small flashes of white light when shaken in the dark.[5] LSD is strongly fluorescent and will glow bluish-white under UV light.
"LSD," writes the chemist Alexander Shulgin, "is an unusually fragile molecule."[5] It is stable for indefinite time if stored as a solid salt or dissolved in water, at low temperature and protected from air and light exposure.
LSD has two labile protons at the tertiary stereogenic C5 and C8 positions, rendering these centres prone to epimerisation. The C8 proton is more labile due to the electron-withdrawing carboxamide attachment, but removal of the chiral proton at the C5 position (which was once also an alpha proton of the parent molecule tryptophan) is assisted by the inductively withdrawing nitrogen and pi electron delocalisation with the indole ring.[citation needed]
LSD also has enamine-type reactivity because of the electron-donating effects of the indole ring. Because of this, chlorine destroys LSD molecules on contact; even though chlorinated tap water contains only a slight amount of chlorine, the small quantity of compound typical to an LSD solution will likely be eliminated when dissolved in tap water.[5] The double bond between the 8-position and the aromatic ring, being conjugated with the indole ring, is susceptible to nucleophilic attacks by water or alcohol, especially in the presence of light. LSD often converts to "lumi-LSD", which is totally inactive in human beings (to the best of current knowledge).
A controlled study was undertaken to determine the stability of LSD in pooled urine samples.[70] The concentrations of LSD in urine samples were followed over time at various temperatures, in different types of storage containers, at various exposures to different wavelengths of light, and at varying pH values. These studies demonstrated no significant loss in LSD concentration at 25°C for up to four weeks. After four weeks of incubation, a 30% loss in LSD concentration at 37°C and up to a 40% at 45°C were observed. Urine fortified with LSD and stored in amber glass or nontransparent polyethylene containers showed no change in concentration under any light conditions. Stability of LSD in transparent containers under light was dependent on the distance between the light source and the samples, the wavelength of light, exposure time, and the intensity of light. After prolonged exposure to heat in alkaline pH conditions, 10 to 15% of the parent LSD epimerized to iso-LSD. Under acidic conditions, less than 5% of the LSD was converted to iso-LSD. It was also demonstrated that trace amounts of metal ions in buffer or urine could catalyze the decomposition of LSD and that this process can be avoided by the addition of EDTA.
White on White blotters (WoW)
Pink Elephant Blotters Containing LSD
A single dose of LSD may be between 100 and 500 micrograms—an amount roughly equal to one-tenth the mass of a grain of sand. Threshold effects can be felt with as little as 25 micrograms of LSD.[7][71] Dosages of LSD are measured in micrograms (µg), or millionths of a gram. By comparison, dosages of most drugs, both recreational and medicinal, are measured in milligrams (mg), or thousandths of a gram. For example, an active dose of mescaline, roughly 0.2 to 0.5g, has effects comparable to 100 µg or less of LSD.[4]
Typical doses in the 1960s ranged from 200 to 1000 µg while street samples of the 1970s contained 30 to 300 µg. By the 1980s, the amount had reduced to between 100 and 125 µg, lowering more in the 1990s to the 20–80 µg range,[72] and even more in the 2000s (decade).[73] [74]
Estimates for the median lethal dose (LD50) of LSD range from 200 µg/kg to more than 1 mg/kg of human body mass, though most sources report that there are no known human cases of such an overdose. Other sources note one report of a suspected fatal overdose of LSD occurring in November 1975 in Kentucky in which there were indications that ~1/3 of a gram (320 mg or 320,000 µg) had been injected intravenously. (This is a very extraordinary amount, equivalent to over 3,000 times the average LSD dosage of ~100 µg).[75][76] Experiments with LSD have also been done on animals; in 1962, an elephant named Tusko died shortly after being injected with 297 mg, but whether the LSD was the cause of his death is controversial (due, in part, to a plethora of other chemical substances administered simultaneously).[77]
LSD's effects normally last from 6–12 hours depending on dosage, tolerance, body weight and age.[5] The Sandoz prospectus for "Delysid" warned: "intermittent disturbances of affect may occasionally persist for several days."[4] Contrary to early reports and common belief, LSD effects do not last longer than the amount of time significant levels of the drug are present in the blood. Aghajanian and Bing (1964) found LSD had an elimination half-life of only 175 minutes.[1] However, using more accurate techniques, Papac and Foltz (1990) reported that 1 µg/kg oral LSD given to a single male volunteer had an apparent plasma half-life of 5.1 hours, with a peak plasma concentration of 5 ng/mL at 3 hours post-dose.[2]
LSD may be quantified in urine as part of a drug abuse testing program, in plasma or serum to confirm a diagnosis of poisoning in hospitalized victims or in whole blood to assist in a forensic investigation of a traffic or other criminal violation or a case of sudden death. Both the parent drug and its major metabolite are unstable in biofluids when exposed to light, heat or alkaline conditions and therefore specimens are protected from light, stored at the lowest possible temperature and analyzed quickly to minimize losses.[78]
File:LSDaffinities.GIF
Binding affinities of LSD for various receptors. The lower the
dissociation constant (K
i), the more strongly LSD binds to that receptor (i.e. with higher affinity). The horizontal line represents an approximate value for human plasma concentrations of LSD, and hence, receptor affinities that are above the line are unlikely to be involved in LSD's effect. Data averaged from data from the
Ki Database
LSD affects a large number of the G protein coupled receptors, including all dopamine receptor subtypes, and all adrenoreceptor subtypes, as well as many others. LSD binds to most serotonin receptor subtypes except for 5-HT3 and 5-HT4. However, most of these receptors are affected at too low affinity to be sufficiently activated by the brain concentration of approximately 10–20 nM.[79] In humans, recreational doses of LSD can affect 5-HT1A, 5-HT2A, 5-HT2C, 5-HT5A, and 5-HT6 receptors.[1][80] 5-HT5B receptors, which are not present in humans, also have a high affinity for LSD.[81] The psychedelic effects of LSD are attributed to its strong partial agonist effects at 5-HT2A receptors as specific 5-HT2A agonists are psychedelics and largely 5-HT2A specific antagonists block the psychedelic activity of LSD.[79] Exactly how this produces the drug's effects is unknown, but it is thought that it works by increasing glutamate release in the cerebral cortex and therefore excitation in this area, specifically in layers IV and V.[82] LSD, like many other drugs, has been shown to activate DARPP-32-related pathways.[83]
Main article:
History of LSDLSD was first synthesized on November 16, 1938[84] by Swiss chemist Albert Hofmann at the Sandoz Laboratories in Basel, Switzerland as part of a large research program searching for medically useful ergot alkaloid derivatives. LSD's psychedelic properties were discovered 5 years later when Hofmann himself accidentally ingested an unknown quantity of the chemical.[85] The first intentional ingestion of LSD occurred on April 19, 1943,[86] when Hofmann ingested 250 µg of LSD. He said, this would be a threshold dose based on the dosages of other ergot alkaloids. Hofmann found the effects to be much stronger than he anticipated.[87] Sandoz Laboratories introduced LSD as a psychiatric drug in 1947.[88]
Beginning in the 1950s the US Central Intelligence Agency began a research program code named Project MKULTRA. Experiments included administering LSD to CIA employees, military personnel, doctors, other government agents, prostitutes, mentally ill patients, and members of the general public in order to study their reactions, usually without the subject's knowledge. The project was revealed in the US congressional Rockefeller Commission report in 1975.
In 1963 the Sandoz patents expired on LSD.[72] Also in 1963, the US Food and Drug Administration classified LSD as an Investigational New Drug, which meant new restrictions on medical and scientific use.[72] Several figures, including Aldous Huxley, Timothy Leary, and Al Hubbard, began to advocate the consumption of LSD. LSD became central to the counterculture of the 1960s.[89] On October 24, 1968, possession of LSD was made illegal in the United States.[90] The last FDA approved study of LSD in patients ended in 1980, while a study in healthy volunteers was made in the late 1980s. Legally approved and regulated psychiatric use of LSD continued in Switzerland until 1993.[91] Today, medical research is resuming around the world.[92]
Glassware seized by the DEA
Because an active dose of LSD is very minute, a large number of doses can be synthesized from a comparatively small amount of raw material. Beginning with ergotamine tartrate, for example, one can manufacture roughly one kilogram of pure, crystalline LSD from five kilograms of the ergotamine salt. Five kilograms of LSD—25 kilograms of ergotamine tartrate—could provide 100 million doses, according to the DEA, more than enough to meet what is believed to be the entire annual U.S. demand. Since the masses involved are so small, concealing and transporting illicit LSD is much easier than smuggling other illegal drugs like cocaine or cannabis.[93]
Manufacturing LSD requires laboratory equipment and experience in the field of organic chemistry. It takes two to three days to produce 30 to 100 grams of pure compound. It is believed that LSD is not usually produced in large quantities, but rather in a series of small batches. This technique minimizes the loss of precursor chemicals in case a step does not work as expected.[93]
LSD is produced in crystalline form and then mixed with excipients or redissolved for production in ingestible forms. Liquid solution is either distributed in small vials or, more commonly, sprayed onto or soaked into a distribution medium. Historically, LSD solutions were first sold on sugar cubes, but practical considerations forced a change to tablet form. Appearing in 1968 as an orange tablet measuring about 6 mm across, "Orange Sunshine" acid was the first largely available form of LSD after its possession was made illegal. Tim Scully, a prominent chemist, made some of it, but said that most "Sunshine" in the USA came by way of Ronald Stark, who imported approximately thirty-five million doses from Europe.[94]
Over a period of time, tablet dimensions, weight, shape and concentration of LSD evolved from large (4.5–8.1 mm diameter), heavyweight (≥150 mg), round, high concentration (90–350 µg/tab) dosage units to small (2.0–3.5 mm diameter) lightweight (as low as 4.7 mg/tab), variously shaped, lower concentration (12–85 µg/tab, average range 30–40 µg/tab) dosage units. LSD tablet shapes have included cylinders, cones, stars, spacecraft and heart shapes. The smallest tablets became known as "Microdots".[95]
After tablets came "computer acid" or "blotter paper LSD", typically made by dipping a preprinted sheet of blotting paper into an LSD/water/alcohol solution.[94][95] More than 200 types of LSD tablets have been encountered since 1969 and more than 350 blotter paper designs have been observed since 1975.[95] About the same time as blotter paper LSD came "Windowpane" (AKA "Clearlight"), which contained LSD inside a thin gelatin square a quarter of an inch across.[94] LSD has been sold under a wide variety of often short-lived and regionally restricted street names including Acid, Trips, Uncle Sid, Blotter, Lucy, Alice and doses, as well as names that reflect the designs on the sheets of blotter paper.[96][97] Authorities have encountered the drug in other forms—including powder or crystal, and capsule.[98]
LSD manufacturers and traffickers in the United States can be categorized into two groups: A few large-scale producers, and an equally limited number of small, clandestine chemists, consisting of independent producers who, operating on a comparatively limited scale, can be found throughout the country.[99] As a group, independent producers are of less concern to the Drug Enforcement Administration than the larger groups, as their product reaches only local markets.[100]
LSD blotter acid mimic actually containing DOC
Different blotters which could possibly be mimics
Since 2005, law enforcement in the United States and elsewhere has seized several chemicals and combinations of chemicals in blotter paper which were sold as LSD mimics, including DOB,[101][102] 2C-I,[103][104] DOC,[104] a mixture of DOC and DOI,[105] and a mixture of DOC and DOB.[106] Street users of LSD are often under the impression that blotter paper which is actively hallucinogenic can only be LSD because that is the only chemical with low enough doses to fit on a small square of blotter paper. While it is true that LSD requires lower doses than most other hallucinogens, blotter paper is capable of absorbing a much larger amount of material. The DEA performed a chromatographic analysis of blotter paper containing 2C-C which showed that the paper contained a much greater concentration of the active chemical than typical LSD doses, although the exact quantity was not determined.[107] Blotter LSD mimics can have relatively small dose squares; a sample of blotter paper containing DOC seized by Concord, California police had dose markings approximately 6 mm apart.[104]
The United Nations Convention on Psychotropic Substances (adopted in 1971) requires its parties to prohibit LSD. Hence, it is illegal in all parties to the convention, which includes the United States, Australia, New Zealand, and most of Europe. However, enforcement of extant laws varies from country to country. Medical and scientific research with LSD in humans is permitted under the 1971 UN Convention.[108]
In Canada, LSD is a controlled substance under Schedule III of the Controlled Drugs and Substances Act.[109] Every person who seeks to obtain the substance, without disclosing authorization to obtain such substances 30 days before obtaining another prescription from a practitioner, is guilty of an indictable offense and liable to imprisonment for a term not exceeding 3 years. Possession for purpose of trafficking is an indictable offense punishable by imprisonment for 10 years.
In the United Kingdom, LSD is a class 'A' drug. This means possession of the drug without a license is punishable with 7 years imprisonment and/or an unlimited fine, and trafficking is punishable with life imprisonment and an unlimited fine (see main article on drug punishments Misuse of Drugs Act 1971).
In 2000, after consultation with members of the Royal College of Psychiatrists' Faculty of Substance Misuse, the UK Police Foundation issued the Runciman Report which recommended "the transfer of LSD from Class A to Class B".[110]
In November 2009, the UK Transform Drug Policy Foundation released in the House of Commons a guidebooks to the legal regulation of drugs, After the War on Drugs: Blueprint for Regulation, which details options for regulated distribution and sale of LSD and other psychedelics.[111]
LSD is Schedule I in the United States, according to the Controlled Substances Act of 1970.[112] This means LSD is illegal to manufacture, buy, possess, process, or distribute without a DEA license. By classifying LSD as a Schedule I substance, the Drug Enforcement Administration holds that LSD meets the following three criteria: it is deemed to have a high potential for abuse; it has no legitimate medical use in treatment; and there is a lack of accepted safety for its use under medical supervision. There are no documented deaths from chemical toxicity; most LSD deaths are a result of behavioral toxicity.[113]
There can also be substantial discrepancies between the amount of chemical LSD that one possesses and the amount of possession with which one can be charged in the U.S. This is because LSD is almost always present in a medium (e.g. blotter or neutral liquid), and the amount that can be considered with respect to sentencing is the total mass of the drug and its medium. This discrepancy was the subject of 1995 United States Supreme Court case, Neal v. U.S.[114]
Lysergic acid and lysergic acid amide, LSD precursors, are both classified in Schedule III of the Controlled Substances Act. Ergotamine tartrate, a precursor to lysergic acid, is regulated under the Chemical Diversion and Trafficking Act.
Some notable individuals have commented publicly on their experiences with LSD.[115][116] Some of these comments date from the era when it was legally available in the US and Europe for non-medical uses, and others pertain to psychiatric treatment in the 1950s and 1960s. Still others describe experiences with illegal LSD, obtained for philosophic, artistic, therapeutic, spiritual, or recreational purposes.
- Steve Jobs, co-founder and former CEO of Apple Inc. said, "Taking LSD was a profound experience, one of the most important things in my life."[117]
- In a 2004 interview, Paul McCartney said that The Beatles songs "Day Tripper" and "Lucy in the Sky with Diamonds" are about LSD. John Lennon, George Harrison, and Ringo Starr also experimented with the drug, although McCartney cautioned that "it's easy to overestimate the influence of drugs on the Beatles' music."[118]
- Kary Mullis is reported to credit LSD with helping him develop DNA amplification technology.[119]
- Aldous Huxley, author of Brave New World became a user of psychedelics after moving to Hollywood. He was at the forefront of the counterculture's experimentation with psychedelic drugs, which led to his 1954 work The Doors of Perception. Dying of cancer, on November 22, 1963, he asked his wife to inject him with 100 µg of LSD. He died from the cancer later that day.[120]
- ^ a b c Aghajanian, George K.; Bing, Oscar H. L. (1964). "Persistence of lysergic acid diethylamide in the plasma of human subjects" (PDF). Clinical Pharmacology and Therapeutics 5: 611–614. PMID 14209776. http://www.maps.org/w3pb/new/1964/1964_aghajanian_2224_1.pdf. Retrieved 2009-09-17.
- ^ a b Papac, DI; Foltz, RL (May/June 1990). "Measurement of lysergic acid diethylamide (LSD) in human plasma by gas chromatography/negative ion chemical ionization mass spectrometry" (PDF). Journal of Analytical Toxicology 14 (3): 189–190. PMID 2374410. http://www.erowid.org/references/refs_view.php?A=ShowDocPartFrame&C=ref&ID=6265&DocPartID=6624. Retrieved 2009-09-17.
- ^ Passie T, Halpern JH, Stichtenoth DO, Emrich HM, Hintzen A (2008). "The Pharmacology of Lysergic Acid Diethylamide: a Review". CNS Neuroscience & Therapeutics 14 (4): 295–314. DOI:10.1111/j.1755-5949.2008.00059.x. PMID 19040555. http://www.maps.org/w3pb/new/2008/2008_Passie_23067_1.pdf.
- ^ a b c d Hofmann, Albert. LSD—My Problem Child (McGraw-Hill, 1980). ISBN 0-07-029325-2.
- ^ a b c d e Alexander and Ann Shulgin. "LSD", in TiHKAL (Berkeley: Transform Press, 1997). ISBN 0-9630096-9-9.
- ^ Shulgin, Alexander; Shulgin, Ann (1991). "Burt". PiHKAL (1st ed.). Transform Press. p. 21. ISBN 978-0-9630096-0-9.
- ^ a b Greiner T, Burch NR, Edelberg R (1958). "Psychopathology and psychophysiology of minimal LSD-25 dosage; a preliminary dosage-response spectrum". AMA Arch Neurol Psychiatry 79 (2): 208–10. PMID 13497365.
- ^ Arthur Stoll and Albert Hofmann LSD Patent April 30, 1943 in Switzerland and Mar. 23, 1948 in the United States.
- ^ "LSD: cultural revolution and medical advances". Royal Society of Chemistry. http://www.rsc.org/chemistryworld/Issues/2006/January/LSD.asp. Retrieved 2007-09-27.
- ^ "The Albert Hofmann Foundation". Hofmann Foundation. http://www.hofmann.org/. Retrieved 2007-09-27.
- ^ Albert Hofmann. "LSD: My Problem Child". http://www.psychedelic-library.org/child5.htm. ""taste of metal on the palate""
- ^ Lüscher C, Ungless MA (November 2006). ["http://www.plosmedicine.org/article/info:doi/10.1371/journal.pmed.0030437" "The Mechanistic Classification of Addictive Drugs"]. PLoS Med. 3 (11): e437. DOI:10.1371/journal.pmed.0030437. PMC 1635740. PMID 17105338. "http://www.plosmedicine.org/article/info:doi/10.1371/journal.pmed.0030437".
- ^ Wolbach AB Jr, Isbell H, Miner EJ (1962). "Cross tolerance between mescaline and LSD-25, with a comparison of the mescaline and LSD reactions". Psychopharmacologia 3: 1–14. DOI:10.1007/BF00413101. PMID 14007904. http://www.erowid.org/references/refs_view.php?A=ShowDocPartFrame&C=ref&ID=2032&DocPartID=1893.
- ^ Isbell H, Wolbach AB, Wikler A, Miner EJ (1961). "Cross Tolerance between LSD and Psilocybin". Psychopharmacologia 2 (3): 147–59. DOI:10.1007/BF00407974. PMID 13717955. http://www.erowid.org/references/refs_view.php?A=ShowDocPartFrame&C=ref&ID=1979&DocPartID=1843.
- ^ McKenna, DJ; Nazarali, AJ; Himeno, A; Saavedra, JM (1989). "Chronic treatment with (+/-)DOI, a psychotomimetic 5-HT2 agonist, downregulates 5-HT2 receptors in rat brain". Neuropsychopharmacology 2 (1): 81–87. PMID 2803482.
- ^ Buckholtz, NS; Zhou, DF; Freedman, DX; Potter, WZ (1990). "Lysergic acid diethylamide (LSD) administration selectively downregulates serotonin2 receptors in rat brain". Neuropsychopharmacology 3 (2): 137–148. PMID 1969270.
- ^ The Good Drugs Guide. "LSD psychedelic effects". http://www.thegooddrugsguide.com/lsd/psychedelic.htm. Retrieved 2008-03-03.
- ^ a b Linton Harriet B., Langs Robert J. (1962). "Subjective Reactions to Lysergic Acid Diethylamide (LSD-25)" (PDF). Arch. Gen. Psychiat 6: 352–68. http://www.maps.org/w3pb/new/1962/1962_linton_2052_1.pdf.
- ^ "LSD dangers". The Good Drugs Guide. http://www.thegooddrugsguide.com/lsd/dangers.htm. Retrieved 2008-10-20.
- ^ Katz MM, Waskow IE, Olsson J (1968). "Characterizing the psychological state produced by LSD". J Abnorm Psychol 73 (1): 1–14. DOI:10.1037/h0020114. PMID 5639999.
- ^ See, e.g., Gerald Oster's article "Moiré patterns and visual hallucinations". Psychedelic Rev. No. 7 (1966): 33–40.
- ^ DEA Public Affairs (2001-11-16). "DEA - Publications - LSD in the US - The Drug". Web.petabox.bibalex.org. http://web.petabox.bibalex.org/web/20011116091659/www.usdoj.gov/dea/pubs/lsd/lsd-4.htm. Retrieved 2010-11-27.
- ^ Cohen, S. (1959). The therapeutic potential of LSD-25. A Pharmacologic Approach to the Study of the Mind, p251–258.
- ^ http://www.erowid.org/references/texts/show/1852docid1733
- ^ "Use of d-Lysergic Acid Diethylamide in the Treatment of Alcoholism". Hofmann.org. 2003-11-14. http://www.hofmann.org/papers/blewett_1.html. Retrieved 2012-02-22.
- ^ Chwelos N, Blewett D.B., Smith C.M., Hoffer A. (1959). "Use of d-lysergic acid diethylamide in the treatment of alcoholism". Quart. J. Stud. Alcohol 20: 577–90. PMID 13810249.
- ^ a b Malleson, Nicholas (1971). "Acute Adverse Reactions to LSD in Clinical and Experimental Use in the United Kingdom" (PDF). Br J Psychiatry 118 (543): 229–30. DOI:10.1192/bjp.118.543.229. PMID 4995932. http://www.maps.org/w3pb/new/1971/1971_malleson_5136_1.pdf.
- ^ "Psychiater Gasser bricht sein Schweigen". July 28, 2009. http://bazonline.ch/wissen/medizin-und-psychologie/Psychiater-Gasser-bricht-sein-Schweigen/story/25732295.
- ^ "LSD-Assisted Psychotherapy for Anxiety Associated with Life-Threatening Illness". http://www.maps.org/research/psilo-lsd/principal_investigator_peter_gasser_m.d._with_co-therapist_barbara_spe/.
- ^ David Jay Brown (May 27, 2011). "Landmark Clinical LSD Study Nears Completion". Patch.com. http://santacruz.patch.com/articles/landmark-clinical-lsd-study-nears-completion.
- ^ BBC - LSD "helps alcoholics to give up drinking"
- ^ Maclean, J.R.; Macdonald, D.C.; Ogden, F.; Wilby, E., "LSD-25 and mescaline as therapeutic adjuvants." In: Abramson, H., Ed., The Use of LSD in Psychotherapy and Alcoholism, Bobbs-Merrill: New York, 1967, pp. 407–426; Ditman, K.S.; Bailey, J.J., "Evaluating LSD as a psychotherapeutic agent," pp.74–80; Hoffer, A., "A program for the treatment of alcoholism: LSD, malvaria, and nicotinic acid," pp. 353–402.
- ^ Minogue SJ (May 1948). "Alcoholics Anonymous". Med. J. Aust. 1 (19): 586. PMID 18868217.
- ^ Mangini M (1998). "Treatment of alcoholism using psychedelic drugs: a review of the program of research". J Psychoactive Drugs 30 (4): 381–418. DOI:10.1080/02791072.1998.10399714. PMID 9924844.
- ^ Krebs, Teri S and Johansen, Pal-Orjan, "Lysergic acid diethylamide (LSD) for alcoholism: meta-analysis of randomized controlled trials", Journal of Psychopharmacology, March 8, 2012.
- ^ Kast, Eric (1967). "Attenuation of anticipation: a therapeutic use of lysergic acid diethylamide" (PDF). Psychiat. Quart. 41 (4): 646–57. DOI:10.1007/BF01575629. PMID 4169685. http://www.maps.org/w3pb/new/1967/1967_kast_3881_1.pdf.
- ^ Goadsby is quoted in "Research into psilocybin and LSD as cluster headache treatment", and he makes an equivalent statement in an Health Report interview on Australian Radio National (August 9, 1999). Pages accessed 2007-01-31.
- ^ Sewell, R. A.; Halpern, J. H.; Pope, H. G. Jr. (2006-06-27). "Response of cluster headache to psilocybin and LSD". Neurology 66 (12): 1920–2. DOI:10.1212/01.wnl.0000219761.05466.43. PMID 16801660.
- ^ Summarized from "Research into psilocybin and LSD as cluster headache treatment" and the Clusterbusters website. Pages accessed 2007-01-31.
- ^ Berlin pilot cluster headaches treatment with LSD study. LSD Alleviates 'Suicide Headaches'.
- ^ Grof, Stanislav; Joan Halifax Grof (1979). Realms of the Human Unconscious (Observations from LSD Research). London: Souvenir Press (E & A) Ltd. pp. 13–14. ISBN 0-285-64882-9. http://www.csp.org/chrestomathy/realms_of3.html.
- ^ Sessa, B. (2008). "Is it time to revisit the role of psychedelic drugs in enhancing human creativity?". J Psychopharmacol 22 (8): 821–7. DOI:10.1177/0269881108091597. PMID 18562421.
- ^ Janiger, O.; Dobkin de Rios M. (1989). "LSD and creativity". J Psychoactive Drugs 21 (1): 129–34. PMID 2723891. http://www.erowid.org/culture/characters/janiger_oscar/janiger_oscar.shtml.
- ^ Stafford, Peter G.; B. H. Golightly (1967). LSD, the problem-solving psychedelic. ASIN B0006BPSA0. http://www.psychedelic-library.org/staf3.htm.
- ^ McGlothlin, W.; Cohen S, McClothlin MS (1967). "Long lasting effects of LSD on normals". Archives of General Psychiatry 17 (5): 521–532. PMID 6054248. http://www.maps.org/w3pb/new/1967/1967_mcglothlin_4655_1.pdf.
- ^ Whalen, John (1998-07-09). "The Trip: Cary Grant on acid, and other stories from the LSD Studies of Dr. Oscar Janiger". LA Weekly.
- ^ Passie, Torsten; Halpern, John H.; Stichtenoth, Dirk O.; Emrich, Hinderk M.; Hintzen, Annelie (11 November 2008). "The Pharmacology of Lysergic Acid Diethylamide: A Review". CNS Neuroscience & Therapeutics 14 (4): 295–314. DOI:10.1111/j.1755-5949.2008.00059.x. PMID 19040555.
- ^ http://www.maps.org/research/cluster/psilo-lsd/cns-neuroscience+therapeutics_2008-passie.pdf
- ^ LSD AND ORGANIC BRAIN IMPAIRMENT S Cohen, AE Edwards - Drug dependence, 1969
- ^ a b "LSD and Antidepressants" (2003) via Erowid.
- ^ Kit Bonson, "The Interactions between Hallucinogens and Antidepressants" (2006).
- ^ "Erowid LSD (Acid) Vaults: Health: Excerpt from Strassman's Adverse Reactions to Psychedelic Drugs". Erowid.org. 1993-03-25. http://www.erowid.org/chemicals/lsd/lsd_health1.shtml. Retrieved 2010-11-27.
- ^ "Is Military Research Hazardous to Veterans Health? Lessons Spanning Half A Century, part F. HALLUCINOGENS". December 8, 1994 John D. Rockefeller IV, West Virginia: 103rd Congress, 2nd Session-S. Prt. 103-97; Staff Report prepared for the committee on veterans' affairs. 1994-12-08. http://www.gulfweb.org/bigdoc/rockrep.cfm#hallucinogens.
- ^ Middlefell R (March 1967). "The effects of LSD on body sway suggestibility in a group of hospital patients" (PDF). Br J Psychiatry 113 (496): 277–80. DOI:10.1192/bjp.113.496.277. PMID 6029626. http://www.lycaeum.org/research/researchpdfs/1489.pdf.
- ^ Sjoberg BM, Hollister LE (November 1965). "The effects of psychotomimetic drugs on primary suggestibility". Psychopharmacologia 8 (4): 251–62. DOI:10.1007/BF00407857. PMID 5885648.
- ^ [Rick Strassman (1984). "Adverse reactions to psychedelic drugs. A review of the literature". J Nerv Ment Dis 172 (10): 577–95. DOI:10.1097/00005053-198410000-00001. PMID 6384428.
- ^ a b Cohen, Sidney (January 1960). "Lysergic Acid Diethylamide: Side Effects and Complications" (PDF). Journal of Nervous and Mental Disease 130 (1): 30–40. DOI:10.1097/00005053-196001000-00005. PMID 13811003. http://www.maps.org/w3pb/new/1960/1960_cohen_1848_1.pdf.
- ^ a b c David Abrahart (1998). "A Critical Review of Theories and Research Concerning Lysergic Acid Diethylamide (LSD) and Mental Health". http://www.maps.org/research/abrahart.html#chp1. Retrieved 2007-02-02.
- ^ Blumenfield M (1971). "Flashback phenomena in basic trainees who enter the US Air Force". Military Medicine 136 (1): 39–41. PMID 5005369.
- ^ Naditch MP, Fenwick S (1977). "LSD flashbacks and ego functioning". Journal of Abnormal Psychology 86 (4): 352–9. DOI:10.1037/0021-843X.86.4.352. PMID 757972.
- ^ See, for example, Abraham HD, Aldridge AM (1993). "Adverse consequences of lysergic acid diethylamide". Addiction 88 (10): 1327–34. DOI:10.1111/j.1360-0443.1993.tb02018.x. PMID 8251869.
- ^ Halpern JH, Pope HG Jr (2003). "Hallucinogen persisting perception disorder: what do we know after 50 years?". Drug Alcohol Depend 69 (2): 109–19. DOI:10.1016/S0376-8716(02)00306-X. PMID 12609692. ; Halpern JH (2003). "Hallucinogens: an update". Curr Psychiatry Rep 5 (5): 347–54. DOI:10.1007/s11920-003-0067-4. PMID 13678554. [1]
- ^ Baggott et al. (2006). "Prevalence of chronic flashbacks in hallucinogen users: a web-based questionnaire" (PDF). http://www.cpdd.vcu.edu/Pages/Meetings/Meetings_PDFs/2006abstractbook.pdf. Retrieved 2009-09-25.
- ^ Abraham, H. D., & Duffy, F. H. ((1996)). "Stable quantitative EEG difference in post-LSD visual disorder by split-half analysis: Evidence for disinhibition". Psychiatry Research 67 (3): 173–187. DOI:10.1016/0925-4927(96)02833-8. PMID 8912957.
- ^ a b Gerald G. Briggs,Roger K. Freeman,Sumner J. Yaffe (2008). Drugs in pregnancy and lactation. Lippincott Williams & Wilkins. ISBN 978-0-7817-7876-3. http://books.google.com/?id=YOEV2w3XTxsC.
- ^ a b c Dishotsky NI, Loughman WD, Mogar RE, Lipscomb WR (1971). "LSD and genetic damage" (PDF). Science 172 (3982): 431–40. DOI:10.1126/science.172.3982.431. PMID 4994465. http://www.maps.org/w3pb/new/1971/1971_dishotsky_5148_1.pdf.
- ^ a b Brenner S & Corden TE (22 March 2012). "LSD Toxicity Treatment & Management". Medscape. http://emedicine.medscape.com/article/1011615-treatment. Retrieved 27 April 2012.
- ^ Monte AP, Marona-Lewicka D, Kanthasamy A, Sanders-Bush E, Nichols DE (March 1995). "Stereoselective LSD-like activity in a series of d-lysergic acid amides of (R)- and (S)-2-aminoalkanes". J. Med. Chem. 38 (6): 958–66. DOI:10.1021/jm00006a015. PMID 7699712.
- ^ Nichols DE, Frescas S, Marona-Lewicka D, Kurrasch-Orbaugh DM (September 2002). "Lysergamides of isomeric 2,4-dimethylazetidines map the binding orientation of the diethylamide moiety in the potent hallucinogenic agent N,N-diethyllysergamide (LSD)". J. Med. Chem. 45 (19): 4344–9. DOI:10.1021/jm020153s. PMID 12213075.
- ^ Li Z., McNally A. J., Wang H., Salamone S. J. (October 1998). "Stability study of LSD under various storage conditions". J. Anal. Toxicol. 22 (6): 520–5. PMID 9788528. http://designer-drugs.com/pte/12.162.180.114/dcd/pdf/lsd.storage.stability.pdf.
- ^ Stoll, W.A. (1947). Ein neues, in sehr kleinen Mengen wirsames Phantastikum. Schweiz. Arch. Neur. 60,483.
- ^ a b c Henderson, Leigh A.; Glass, William J. (1994). LSD: Still with us after all these years. San Francisco: Jossey-Bass. ISBN 978-0-7879-4379-0.
- ^ Erowid & Eduardo Hidalgo, Energy Control (Spain) (2009). "LSD Samples Analysis". Erowid. http://www.erowid.org/chemicals/lsd/lsd_article3.shtml. Retrieved 2010-02-08.
- ^ Fire & Earth Erowid (2003). "LSD Analysis - Do we know what's in street acid?". Erowid. http://www.erowid.org/chemicals/lsd/lsd_article1.shtml. Retrieved 2010-02-08.
- ^ "LSD Vault: Dosage". 2006-07-06. http://www.erowid.org/chemicals/lsd/lsd_dose.shtml. Retrieved 2007-01-31.
- ^ "LSD Toxicity: A Suspected Cause of Death". Journal of the Kentucky Medical Association. http://www.erowid.org/references/refs_view.php?A=ShowDocPartFrame&ID=1389&DocPartID=1151. Retrieved 2007-11-26.
- ^ Erowid & R. Stuart (2002). "LSD Related Death of an Elephant - Controversy surrounding the 1962 death of an elephant after an injection of LSD". Erowid. http://www.erowid.org/chemicals/lsd/lsd_history4.shtml. Retrieved 2008-07-28.
- ^ R. Baselt, Disposition of Toxic Drugs and Chemicals in Man, 8th edition, Biomedical Publications, Foster City, CA, 2008, pp. 871-874.
- ^ a b Nichols, David E. (2004). "Psychotropics". Pharmacology & Therapeutics 101 (2): 131–81. DOI:10.1016/j.pharmthera.2003.11.002. PMID 14761703. http://www.erowid.org/references/refs_view.php?A=ShowDoc1&ID=6318.
- ^ "PDSP database". http://pdsp.cwru.edu/pdsp.php. Retrieved 2009-11-02.
- ^ Nelson, DL (February 2004). "5-HT5 receptors". Current drug targets. CNS and neurological disorders 3 (1): 53–8. DOI:10.2174/1568007043482606. PMID 14965244.
- ^ BilZ0r. "The Neuropharmacology of Hallucinogens: a technical overview". Erowid, v3.1 (August 2005).
- ^ Svenningsson P. , Nairn A. C., Greengard P. (2005). "DARPP-32 mediates the actions of multiple drugs of abuse". AAPS Journal 7 (2): E353–E360. DOI:10.1208/aapsj070235. PMC 2750972. PMID 16353915. http://www.aapsj.org/view.asp?art=aapsj070235.
- ^ Albert Hofmann; translated from the original German (LSD Ganz Persönlich) by J. Ott. MAPS-Volume 6, Number 69, Summer 1969
- ^ Nichols, David (2003-05-24). "Hypothesis on Albert Hofmann's Famous 1943 "Bicycle Day"". Hofmann Foundation. http://www.erowid.org/general/conferences/conference_mindstates4_nichols.shtml. Retrieved 2007-09-27.
- ^ Albert Hofmann. "LSD My Problem Child". http://www.psychedelic-library.org/child1.htm. Retrieved 2010-04-19.
- ^ Hofmann, Albert. "History Of LSD". http://www.a1b2c3.com/drugs/lsd01.htm. Retrieved 2007-09-27.
- ^ DEA Public Affairs (2001-11-16). "LSD: The Drug". Web.petabox.bibalex.org. http://web.petabox.bibalex.org/web/20011116091659/www.usdoj.gov/dea/pubs/lsd/lsd-4.htm. Retrieved 2010-11-27.
- ^ Brecher, Edward M; et al. (1972). "How LSD was popularized". Consumer Reports/Drug Library. http://www.druglibrary.org/schaffer/Library/studies/cu/CU50.html. Retrieved 2008-07-14.
- ^ United States Congress (1968-10-24). "Staggers-Dodd Bill, Public Law 90-639". http://www.erowid.org/psychoactives/law/law_fed_staggers-dodd.pdf. Retrieved 2009-09-08.
- ^ Gasser, Peter (1994). "Psycholytic Therapy with MDMA and LSD in Switzerland". http://www.maps.org/news-letters/v05n3/05303psy.html. Retrieved 2009-09-08.
- ^ Psychedelic Research Around the World: MDMA Studies: In Progress
- ^ a b DEA (2007). "LSD Manufacture - Illegal LSD Production". LSD in the United States. U.S. Department of Justice Drug Enforcement Administration. Archived from the original on 2007-08-29. http://web.archive.org/web/20070829023659/http://www.fas.org/irp/agency/doj/dea/product/lsd/lsd-5.htm.
- ^ a b c Stafford, Peter (1992). "Chapter 1 - The LSD Family". Psychedelics Encyclopaedia (Third Expanded ed.). Ronin Publishing Inc. p. 62. ISBN 0-914171-51-8.
- ^ a b c Laing, Richard R.; Barry L. Beyerstein, Jay A. Siegel (2003). "Chapter 2.2 - Forms of the Drug". Hallucinogens: A Forensic Drug Handbook. Academic Press. pp. 39–41. ISBN 0-12-433951-4. http://books.google.co.uk/books?id=l1DrqgobbcwC&printsec=frontcover&source=gbs_summary_r&cad=0#PPA39,M1.
- ^ Honig, David. Frequently Asked Questions via Erowid
- ^ "Street Terms: Drugs and the Drug Trade". Office of National Drug Control Policy. 2005-04-05. http://www.whitehousedrugpolicy.gov/streetterms/ByType.asp?intTypeID=6. Retrieved 2007-01-31.
- ^ DEA (2008). "Photo Library (page 2)". US Drug Enforcement Administration. http://www.usdoj.gov/dea/photo_library2.html#lsd. Retrieved 2008-06-27.
- ^ ^ Maclean, J.R.; Macdonald, D.C.; Ogden, F.; Wilby, E., "LSD-25 and mescaline as therapeutic adjuvants." In: Abramson, H., Ed., The Use of LSD in Psychotherapy and Alcoholism, Bobbs-Merrill: New York, 1967, pp. 407–426; Ditman, K.S.; Bailey, J.J., "Evaluating LSD as a psychotherapeutic agent," pp.74–80; Hoffer, A., "A program for the treatment of alcoholism: LSD, malvaria, and nicotinic acid," pp. 353–402.
- ^ ^ LSD: The Drug
- ^ United States Drug Enforcement Administration (October 2005). Microgram Bulletin 38 (10). http://www.usdoj.gov/dea/programs/forensicsci/microgram/mg1005/mg1005.html. Retrieved 2009-08-20.
- ^ United States Drug Enforcement Administration (November 2006). Microgram Bulletin 39 (11). http://www.usdoj.gov/dea/programs/forensicsci/microgram/mg1106/mg1106.html. Retrieved 2009-08-20.
- ^ United States Drug Enforcement Administration (February 2007). Microgram Bulletin 40 (2). http://www.usdoj.gov/dea/programs/forensicsci/microgram/mg0207/mg0207.html. Retrieved 2009-08-20.
- ^ a b c United States Drug Enforcement Administration (December 2007). Microgram Bulletin 40 (12). http://www.usdoj.gov/dea/programs/forensicsci/microgram/mg1207/mg1207.html. Retrieved 2009-08-20.
- ^ United States Drug Enforcement Administration (March 2008). Microgram Bulletin 41 (3). http://www.usdoj.gov/dea/programs/forensicsci/microgram/mg0308/mg0308.html. Retrieved 2009-08-20.
- ^ United States Drug Enforcement Administration (March 2009). Microgram Bulletin 42 (3). http://www.usdoj.gov/dea/programs/forensicsci/microgram/mg0309/mg0309.html. Retrieved 2009-08-20.
- ^ United States Drug Enforcement Administration (November 2005). Microgram Bulletin 38 (11). http://www.usdoj.gov/dea/programs/forensicsci/microgram/mg1105/mg1105.html. Retrieved 2009-08-20.
- ^ UN Convention on Psychotropic Substances, 1971Final act of the United Nations Conference
- ^ Canadian government (1996). "Controlled Drugs and Substances Act". Justice Laws. Canadian Department of Justice. http://laws.justice.gc.ca/en/showdoc/cs/C-38.8//20070705/en?command=HOME&caller=SI&fragment=lsd&search_type=all&day=5&month=7&year=2007&search_domain=cs&showall=L&statuteyear=all&lengthannual=50&length=50. Retrieved 2007-07-05.
- ^ Drugs and the law: Report of the inquiry into the Misuse of Drugs Act 1971 London: Police Foundation, 2000, Runciman Report
- ^ After the War on Drugs: Blueprint for Regulation Transform Drug Policy Foundation 2009
- ^ From [2]: LSD is a Schedule I substance under the Controlled Substances Act.
- ^ "Toxicity, Hallucinogens - LSD". Emedicine.medscape.com. http://emedicine.medscape.com/article/1011615-overview. Retrieved 2010-11-27.
- ^ Neal v. United States, U.S. 284 (1996). , originating from U.S. v. Neal, 46 F.3d 1405 (7th Cir. 1995)
- ^ "Famous LSD users". The Good Drugs Guide. http://www.thegooddrugsguide.com/articles/famous_users/lsd.htm. Retrieved 2008-10-20.
- ^ "Publicly expressed thoughts and ideas about the effects of psychedelic drugs". Tietoiseen.fi. 2010-05-12. http://www.tietoiseen.fi/w/index.php?title=Main_Page. Retrieved 2010-11-27.
- ^ Bosker, Bianca (21 October 2011). "The Steve Jobs Reading List: The Books And Artists That Made The Man". The Huffington Post. http://www.huffingtonpost.com/2011/10/21/the-steve-jobs-reading-list-the-books_n_1024021.html. Retrieved 23 October 2011.
- ^ Matus, Victorino (June 2004). "The Truth Behind "LSD"". The Weekly Standard. http://www.weeklystandard.com/Content/Public/Articles/000/000/004/197vgrel.asp?page=1.
- ^ Ann Harrison (2006-01-16). "LSD: The Geek's Wonder Drug?". Wired. Wired. http://www.wired.com/science/discoveries/news/2006/01/70015. Retrieved 2008-03-11. "Like Herbert, many scientists and engineers also report heightened states of creativity while using LSD. During a press conference on Friday, Hofmann revealed that he was told by Nobel-prize-winning chemist Kary Mullis that LSD had helped him develop the polymerase chain reaction that helps amplify specific DNA sequences."
- ^ Colman, Dan. "Aldous Huxley’s LSD Death Trip". http://www.openculture.com/2011/10/aldous_huxleys_lsd_death_trip.html. Retrieved 1 November 2011.
- BBC News: Pont-Saint-Esprit poisoning: Did the CIA spread LSD?
- Bebergal, Peter, "Will Harvard drop acid again? Psychedelic research returns to Crimsonland", The Phoenix (Boston), June 2, 2008
- Grof, Stanislav. LSD Psychotherapy. (April 10, 2001)
- Lee, Martin A. and Bruce Shlain. Acid Dreams: The Complete Social History of LSD: The CIA, the Sixties, and Beyond (1992) ISBN 978-0-8021-3062-4
- Marks, John. The Search for the Manchurian Candidate: The CIA and Mind Control (1979), ISBN 0-8129-0773-6
- Roberts, Andy. Albion Dreaming: A Popular History of LSD in Britain (2008), Marshall Cavendish,U.K, ISBN 1-905736-27-4
- Stevens, Jay. Storming Heaven: LSD And The American Dream (1998) ISBN 978-0-8021-3587-2
- Hofmann, Albert. LSD My Problem Child: Reflections on Sacred Drugs, Mysticism and Science (1983) ISBN 978-0-9660019-8-3
- Henderson, Leigh A. and William J. Glass. LSD: Still With Us After All These Years: Based on the National Institute of Drug Abuse Studies on the Resurgence of Contemporary LSD Use (1st edition 1994, 2nd edition 1998) ISBN 978-0-7879-4379-0
- de Rios, Marlene Dobkin and Oscar Janiger. LSD, spirituality, and the creative process (2003, Inner Traditions) ISBN 978-0-89281-973-7 - "An exploration of how LSD influences imagination and the creative process. Based on the results of one of the longest clinical studies of LSD that took place between 1954 and 1962, before LSD was illegal. Includes personal reports, artwork, and poetry from the original sessions as testimony of the impact of LSD on the creative process."
- Passie T, Halpern JH, Stichtenoth DO, Emrich HM, Hintzen A (2008). "The pharmacology of lysergic acid diethylamide: a review". CNS Neuroscience & Therapeutics 14 (4): 295–314. DOI:10.1111/j.1755-5949.2008.00059.x. PMID 19040555.
Documentaries
|
|
|
| Major recreational drugs |
|
|
|
| Drug culture |
|
|
| Problems with drug use |
|
|
| Legality of drug use |
|
International
|
|
|
|
State level
|
|
|
|
Drug policy
by country
|
|
|
|
Other
|
|
|
|
| Lists of countries by... |
|
|
|
|
|
Psychedelics
5-HT2AR agonists |
- Lysergamides: AL-LAD
- ALD-52
- BU-LAD
- CYP-LAD
- DAM-57
- Diallyllysergamide
- Ergometrine
- ETH-LAD
- LAE-32
- LSA
- LSD
- LSH
- LPD-824
- LSM-775
- Lysergic acid 2-butyl amide
- Lysergic acid 2,4-dimethylazetidide
- Lysergic acid 3-pentyl amide
- Methylergometrine
- Methylisopropyllysergamide
- Methysergide
- MLD-41
- PARGY-LAD
- PRO-LAD
Phenethylamines: Aleph
- 2C-B
- 2C-B-Dragonfly
- 2C-B-FLY
- 2C-C-FLY
- 2C-D-FLY
- 2C-E-FLY
- 2C-I-FLY
- 2CBFly-NBOMe
- 2C-T-7-FLY
- 2C-C
- 2C-C-NBOMe
- 2C-CN-NBOMe
- 2C-D
- 2CD-5EtO
- 2C-D-NBOMe
- 2C-E
- 2C-EF
- 2C-E-NBOMe
- 2C-F
- 2C-F-NBOMe
- 2C-G
- 2C-G-NBOMe
- 2C-H-NBOMe
- 2C-I
- 2C-N
- 2C-N-NBOMe
- 2C-O
- 2C-O-4
- 2C-P
- 2C-T
- 2C-T-2
- 2C-T-4
- 2C-T-4-NBOMe
- 2C-T-7
- 2C-T-7-NBOH
- 2C-T-8
- 2C-T-9
- 2C-T-13
- 2C-T-15
- 2C-T-17
- 2C-T-21
- 2C-TFM
- 2C-TFM-NBOMe
- 2C-YN
- 2CBCB-NBOMe
- 25B-NBOMe
- 25I-NBMD
- 25I-NBOH
- 25I-NBOMe
- 3C-AL
- 3C-E
- 3C-P
- 5-APB
- 5-APDB
- 6-APB
- 6-APDB
- Br-DFLY
- DESOXY
- DMMDA
- DMMDA-2
- DOB
- DOB-FLY
- DOM-FLY
- DOC
- DOEF
- DOET
- DOF
- DOI
- DOM
- DON
- DOPR
- DOTFM
- Escaline
- Ganesha
- HOT-2
- HOT-7
- HOT-17
- IAP
- Isoproscaline
- Jimscaline
- Lophophine
- MDA
- MDEA
- MDMA
- MMA
- MMDA
- MMDA-2
- MMDA-3a
- MMDMA
- Macromerine
- Mescaline
- Methallylescaline
- NBOMe-mescaline
- Proscaline
- TCB-2
- TFMFly
- TMA
Piperazines: pFPP
- TMFPP
Tryptamines: 1-Methyl-5-methoxy-diisopropyltryptamine
- 2,N,N-TMT
- 4,N,N-TMT
- 4-HO-5-MeO-DMT
- 4-Acetoxy-DET
- 4-Acetoxy-DIPT
- 4-Acetoxy-DMT
- 4-Acetoxy-DPT
- 4-Acetoxy-MiPT
- 4-HO-DPT
- 4-HO-MET
- 4-Propionyloxy-DMT
- 4-HO-MPMI
- 5-Me-MIPT
- 5-N,N-TMT
- 5-AcO-DMT
- 5-MeO-2,N,N-TMT
- 5-MeO-4,N,N-TMT
- 5-MeO-α,N,N-TMT
- 5-MeO-α-ET
- 5-MeO-α-MT
- 5-MeO-DALT
- 5-MeO-DET
- 5-MeO-DIPT
- 5-MeO-DMT
- 5-MeO-DPT
- 5-MeO-EiPT
- 5-MeO-MET
- 5-MeO-MIPT
- 5-MeO-MPMI
- 7,N,N-TMT
- α,N,N-TMT
- α-ET
- α-MT
- AL-37350A
- Baeocystin
- Bufotenin
- DALT
- DBT
- DCPT
- DET
- DIPT
- DMT
- DPT
- EiPT
- Ethocin
- Ethocybin
- Iprocin
- MET
- Miprocin
- MIPT
- Norbaeocystin
- PiPT
- Psilocin
- Psilocybin
Others: AL-38022A
- Elemicin
- Ibogaine
- Myristicin
- Noribogaine
- Voacangine
|
|
Dissociatives
NMDAR antagonists |
|
|
Deliriants
mAChR antagonists |
|
|
| Miscellaneous |
|
|
|
|
|
|
|
|
|
|
- Agonists: 5-FNE
- 6-FNE
- Amidephrine
- Anisodamine
- Anisodine
- Cirazoline
- Dipivefrine
- Dopamine
- Ephedrine
- Epinephrine
- Etilefrine
- Ethylnorepinephrine
- Indanidine
- Levonordefrin
- Metaraminol
- Methoxamine
- Methyldopa
- Midodrine
- Naphazoline
- Norepinephrine
- Octopamine
- Oxymetazoline
- Phenylephrine
- Phenylpropanolamine
- Pseudoephedrine
- Synephrine
- Tetrahydrozoline
Antagonists: Abanoquil
- Adimolol
- Ajmalicine
- Alfuzosin
- Amosulalol
- Arotinolol
- Atiprosin
- Benoxathian
- Buflomedil
- Bunazosin
- Carvedilol
- CI-926
- Corynanthine
- Dapiprazole
- DL-017
- Domesticine
- Doxazosin
- Eugenodilol
- Fenspiride
- GYKI-12,743
- GYKI-16,084
- Indoramin
- Ketanserin
- L-765,314
- Labetalol
- Mephendioxan
- Metazosin
- Monatepil
- Moxisylyte
- Naftopidil
- Nantenine
- Neldazosin
- Nicergoline
- Niguldipine
- Pelanserin
- Phendioxan
- Phenoxybenzamine
- Phentolamine
- Piperoxan
- Prazosin
- Quinazosin
- Ritanserin
- RS-97,078
- SGB-1,534
- Silodosin
- SL-89.0591
- Spiperone
- Talipexole
- Tamsulosin
- Terazosin
- Tibalosin
- Tiodazosin
- Tipentosin
- Tolazoline
- Trimazosin
- Upidosin
- Urapidil
- Zolertine
* Note that many TCAs, TeCAs, antipsychotics, ergolines, and some piperazines like buspirone and trazodone all antagonize α1-adrenergic receptors as well, which contributes to their side effects such as orthostatic hypotension.
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
- Adamantanes: Amantadine
- Memantine
- Rimantadine; Aminotetralins: 7-OH-DPAT
- 8-OH-PBZI
- Rotigotine
- UH-232; Benzazepines: 6-Br-APB
- Fenoldopam
- SKF-38,393
- SKF-77,434
- SKF-81,297
- SKF-82,958
- SKF-83,959; Ergolines: Bromocriptine
- Cabergoline
- Dihydroergocryptine
- Epicriptine
- Lisuride
- LSD
- Pergolide; Dihydrexidine derivatives: 2-OH-NPA
- A-86,929
- Ciladopa
- Dihydrexidine
- Dinapsoline
- Dinoxyline
- Doxanthrine; Others: A-68,930
- A-77636
- A-412,997
- ABT-670
- ABT-724
- Aplindore
- Apomorphine
- Aripiprazole
- Bifeprunox
- BP-897
- CY-208,243
- Dizocilpine
- Etilevodopa
- Flibanserin
- Ketamine
- Melevodopa
- Modafinil
- Pardoprunox
- Phencyclidine
- PD-128,907
- PD-168,077
- PF-219,061
- Piribedil
- Pramipexole
- Propylnorapomorphine
- Pukateine
- Quinagolide
- Quinelorane
- Quinpirole
- RDS-127
- Ro10-5824
- Ropinirole
- Rotigotine
- Roxindole
- Salvinorin A
- SKF-89,145
- Sumanirole
- Terguride
- Umespirone
- WAY-100,635
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
- Agonists: Azapirones: Alnespirone
- Binospirone
- Buspirone
- Enilospirone
- Eptapirone
- Gepirone
- Ipsapirone
- Perospirone
- Revospirone
- Tandospirone
- Tiospirone
- Umespirone
- Zalospirone; Antidepressants: Etoperidone
- Nefazodone
- Trazodone
- Vortioxetine; Antipsychotics: Aripiprazole
- Asenapine
- Clozapine
- Quetiapine
- Ziprasidone; Ergolines: Dihydroergotamine
- Ergotamine
- Lisuride
- Methysergide
- LSD; Tryptamines: 5-CT
- 5-MeO-DMT
- 5-MT
- Bufotenin
- DMT
- Indorenate
- Psilocin
- Psilocybin; Others: 8-OH-DPAT
- Adatanserin
- Bay R 1531
- Befiradol
- BMY-14802
- Cannabidiol
- Dimemebfe
- Ebalzotan
- Eltoprazine
- F-11,461
- F-12,826
- F-13,714
- F-14,679
- F-15,063
- F-15,599
- Flesinoxan
- Flibanserin
- Lesopitron
- LY-293,284
- LY-301,317
- MKC-242
- Naluzotan
- NBUMP
- Osemozotan
- Oxaflozane
- Pardoprunox
- Piclozotan
- Rauwolscine
- Repinotan
- Roxindole
- RU-24,969
- S 14,506
- S-14,671
- S-15,535
- Sarizotan
- SSR-181,507
- Sunepitron
- U-92,016-A
- Urapidil
- Vilazodone
- Xaliproden
- Yohimbine
Antagonists: Antipsychotics: Iloperidone
- Risperidone
- Sertindole; Beta blockers: Alprenolol
- Cyanopindolol
- Iodocyanopindolol
- Oxprenolol
- Pindobind
- Pindolol
- Propranolol
- Tertatolol; Others: AV965
- BMY-7,378
- CSP-2503
- Dotarizine
- Flopropione
- GR-46611
- Isamoltane
- Lecozotan
- Mefway
- Metitepine/Methiothepin
- MPPF
- NAN-190
- Robalzotan
- S-15535
- SB-649,915
- SDZ 216-525
- Spiperone
- Spiramide
- Spiroxatrine
- UH-301
- WAY-100,135
- WAY-100,635
- Xylamidine
|
|
|
|
|
|
|
|
- Agonists: Lysergamides: Dihydroergotamine
- Methysergide; Triptans: Almotriptan
- Avitriptan
- Eletriptan
- Frovatriptan
- Naratriptan
- Rizatriptan
- Sumatriptan
- Zolmitriptan; Tryptamines: 5-CT
- 5-Ethyl-DMT
- 5-MT
- 5-(Nonyloxy)tryptamine; Others: CP-135,807
- CP-286,601
- GR-46611
- L-694,247
- L-772,405
- PNU-109,291
- PNU-142,633
Antagonists: Lysergamides: Metergoline; Others: Alniditan
- BRL-15,572
- Elzasonan
- GR-127,935
- Ketanserin
- LY-310,762
- LY-367,642
- LY-456,219
- LY-456,220
- Metitepine/Methiothepin
- Ritanserin
- Yohimbine
- Ziprasidone
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
- Agonists: Phenethylamines: 2C-B
- 2C-E
- 2C-I
- 2C-T-2
- 2C-T-7
- 2C-T-21
- DOB
- DOC
- DOI
- DOM
- MDA
- MDMA
- Mescaline; Piperazines: Aripiprazole
- mCPP
- TFMPP; Tryptamines: 5-CT
- 5-MeO-α-ET
- 5-MeO-α-MT
- 5-MeO-DET
- 5-MeO-DiPT
- 5-MeO-DMT
- 5-MeO-DPT
- 5-MT
- α-ET
- α-Methyl-5-HT
- α-MT
- Bufotenin
- DET
- DiPT
- DMT
- DPT
- Psilocin
- Psilocybin; Others: A-372,159
- AL-38022A
- CP-809,101
- Dimemebfe
- Lorcaserin
- Medifoxamine
- MK-212
- Org 12,962
- ORG-37,684
- Oxaflozane
- PNU-22394
- Ro60-0175
- Ro60-0213
- Vabicaserin
- WAY-629
- WAY-161,503
- YM-348
Antagonists: Atypical antipsychotics: Clorotepine
- Clozapine
- Iloperidone
- Melperone
- Olanzapine
- Paliperidone
- Pimozide
- Quetiapine
- Risperidone
- Sertindole
- Ziprasidone
- Zotepine; Typical antipsychotics: Chlorpromazine
- Loxapine
- Pipamperone; Antidepressants: Agomelatine
- Amitriptyline
- Amoxapine
- Aptazapine
- Etoperidone
- Fluoxetine
- Mianserin
- Mirtazapine
- Nefazodone
- Nortriptyline
- Tedatioxetine
- Trazodone; Others: Adatanserin
- CEPC
- Cinanserin
- Cyproheptadine
- Deramciclane
- Dotarizine
- Eltoprazine
- Esmirtazapine
- FR-260,010
- Ketanserin
- Ketotifen
- Latrepirdine
- Metitepine/Methiothepin
- Methysergide
- Pizotifen
- Ritanserin
- RS-102,221
- S-14,671
- SB-200,646
- SB-206,553
- SB-221,284
- SB-228,357
- SB-242,084
- SB-243,213
- SDZ SER-082
- Xylamidine
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
- Agonists: Lysergamides: Dihydroergotamine
- Ergotamine
- Lisuride
- LSD
- Mesulergine
- Metergoline
- Methysergide; Tryptamines: 2-Methyl-5-HT
- 5-BT
- 5-CT
- 5-MT
- Bufotenin
- E-6801
- E-6837
- EMD-386,088
- EMDT
- LY-586,713
- N-Methyl-5-HT
- Tryptamine; Others: WAY-181,187
- WAY-208,466
Antagonists: Antidepressants: Amitriptyline
- Amoxapine
- Clomipramine
- Doxepin
- Mianserin
- Nortriptyline; Atypical antipsychotics: Aripiprazole
- Asenapine
- Clorotepine
- Clozapine
- Fluperlapine
- Iloperidone
- Olanzapine
- Tiospirone; Typical antipsychotics: Chlorpromazine
- Loxapine; Others: BGC20-760
- BVT-5182
- BVT-74316
- Cerlapirdine
- EGIS-12,233
- GW-742,457
- Ketanserin
- Latrepirdine
- Lu AE58054
- Metitepine/Methiothepin
- MS-245
- PRX-07034
- Ritanserin
- Ro04-6790
- Ro 63-0563
- SB-258,585
- SB-271,046
- SB-357,134
- SB-399,885
- SB-742,457
|
|
|
|
- Agonists: Lysergamides: LSD; Tryptamines: 5-CT
- 5-MT
- Bufotenin; Others: 8-OH-DPAT
- AS-19
- Bifeprunox
- E-55888
- LP-12
- LP-44
- RU-24,969
- Sarizotan
Antagonists: Lysergamides: 2-Bromo-LSD
- Bromocriptine
- Dihydroergotamine
- Ergotamine
- Mesulergine
- Metergoline
- Methysergide; Antidepressants: Amitriptyline
- Amoxapine
- Clomipramine
- Imipramine
- Maprotiline
- Mianserin; Atypical antipsychotics: Amisulpride
- Aripiprazole
- Clorotepine
- Clozapine
- Olanzapine
- Risperidone
- Sertindole
- Tiospirone
- Ziprasidone
- Zotepine; Typical antipsychotics: Chlorpromazine
- Loxapine; Others: Butaclamol
- EGIS-12,233
- Ketanserin
- LY-215,840
- Metitepine/Methiothepin
- Pimozide
- Ritanserin
- SB-258,719
- SB-258,741
- SB-269,970
- SB-656,104
- SB-656,104-A
- SB-691,673
- SLV-313
- SLV-314
- Spiperone
- SSR-181,507
- Vortioxetine
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
AL-LAD • DBT • DET • DiPT • 5-MeO-α-MT • DMT • 2,α-DMT • α,N-DMT • DPT • EiPT • α-ET • ETH-LAD • Harmaline • Harmine • 4-HO-DBT • 4-HO-DET • 4-HO-DiPT • 4-HO-DMT • 5-HO-DMT • 4-HO-DPT • 4-HO-MET • 4-HO-MiPT • 4-HO-MPT • 4-HO-pyr-T • Ibogaine • LSD • MBT • 4,5-MDO-DiPT • 5,6-MDO-DiPT • 4,5-MDO-DMT • 5,6-MDO-DMT • 5,6-MDO-MiPT • 2-Me-DET • 2-Me-DMT • Melatonin • 5-MeO-DET • 5-MeO-DiPT • 5-MeO-DMT • 4-MeO-MiPT • 5-MeO-MiPT • 5,6-MeO-MiPT • 5-MeO-NMT • 5-MeO-pyr-T • 6-MeO-THH • 5-MeO-TMT • 5-MeS-DMT • MiPT • α-MT • NET • NMT • PRO-LAD • pyr-T • Tryptamine • Tetrahydroharmine • α,N,O-TMS
|
|
| International Chemical Identifier |
| InChI= |
1/C20H25N3O/c1-4-23(5-2)20(24)14-9-16-15-7-6-8-17-19(15)13(11-21-17)10-18(16)22(3)12-14/h6-9,11,14,18,21H,4-5,10,12H2,1-3H3/t14-,18-/m1/s1 |
| InChIKey= |
VAYOSLLFUXYJDT-RDTXWAMCBY |
| CASRN= |
50-37-3 |
| PIN= |
Lysergic acid diethylamide |
![Mad Men: LSD Scene [HD] 720p](http://web.archive.org./web/20130704223153im_/http://i.ytimg.com/vi/GpWlKCfSPcU/default.jpg "Mad Men: LSD Scene [HD] 720p")
