Chronic PainHeadache Disorders (Cluster & Migraine)LSDPsilocybin

Response of cluster headache to psilocybin and LSD

This qualitative interview study (n=53) assessed the efficacy of psilocybin and LSD to treat cluster headaches and found that a single dose was often sufficient to terminate a cluster period and that subhallucinogenic doses were also often reported to be effective treatments.

Authors

  • James Halpern
  • Andrew Sewell

Published

Neurology
individual Study

Abstract

Introduction

Cluster headache, often considered the most painful of all types of headache,1 affects predominantly men (0.4% vs 0.08% of women) and typically begins after age 20 years. No medications are known to terminate cluster periods or extend remission periods. The effects of the ergot alkaloid derivative lysergic acid diethylamide (LSD) and the related indolalkylamine psilocybin on cluster headache have not previously been described and may include such properties.

Methods

The authors interviewed 53 cluster headache patients who had used psilocybin or lysergic acid diethylamide (LSD) to treat their condition.

Results

Twenty-two of 26 psilocybin users reported that psilocybin aborted attacks; 25 of 48 psilocybin users and 7 of 8 LSD users reported cluster period termination; 18 of 19 psilocybin users and 4 of 5 LSD users reported remission period extension.

Discussion

Research on the effects of psilocybin and LSD on cluster headache may be warranted.

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Research Summary of 'Response of cluster headache to psilocybin and LSD'

Editorial

βBlossom's Take

This case-series is useful because it brought cluster headache into the psychedelic literature before there were trials to support the idea. The retrospective design is weak for efficacy claims, but the reports of attack abortion and cluster termination gave later headache research a concrete clinical question, including whether subhallucinogenic doses might still matter.

Introduction

Cluster headache is described as an intensely painful primary headache disorder that predominantly affects men and typically begins after age 20. The condition occurs in episodic and chronic forms: episodic cluster headache arises in discrete periods of attacks separated by pain-free remissions, whereas chronic cluster headache features attacks continuing for more than one year without remissions longer than one month. Acute treatments such as high-flow oxygen and subcutaneous sumatriptan are standard for aborting individual attacks, and prophylactic agents including verapamil, lithium and corticosteroids are used to suppress attacks during cluster periods. However, no medications had been reported to reliably terminate an ongoing cluster period or to extend remission periods prior to this study. Sewell and colleagues report a case-series investigation prompted by a patient’s account that recreational use of LSD and later psilocybin produced lasting remissions of his episodic cluster periods. The study aimed to characterise the experiences of people with cluster headache who had used psilocybin-containing mushrooms or LSD specifically to treat their condition, focusing on three outcomes: aborting individual attacks, terminating cluster periods, and extending remission periods. The investigators collected structured self-reports from a sample of confirmed cluster headache patients to explore whether these substances showed signals of efficacy that might merit further research.

Methods

The study used a case-series design based on a standardised questionnaire administered to individuals who reported using psilocybin or LSD to treat cluster headache. Participants were recruited via cluster headache support groups and an Internet-based survey after an initial motivating case was identified. The protocol and consent were approved by the McLean Hospital institutional review board. Inclusion required that subjects 1) agreed to be contacted for telephone or e-mail evaluation and 2) met International Classification of Headache Disorders-2 criteria for cluster headache, with medical-record documentation of diagnosis by an MD or DO; participants whose records did not support the diagnosis were excluded. The final analysed sample comprised 53 individuals from the United States, Great Britain, The Netherlands and South Africa. The extracted text does not present a detailed age distribution but notes no significant sex differences on demographic indices or headache features. Data were principally retrospective self-reports of three outcome domains: aborting an attack (operationalised as ending the attack within 20 minutes), terminating a cluster period (prophylactic use resulting in total cessation of attacks during a cluster period), and extending a remission period (delay or prevention of the next expected cluster period). Some respondents reported route and dosing details: several episodic users took sublingual psilocybin for acute attacks, and a minority used subhallucinogenic doses of LSD or psilocybin. If medical records failed to confirm the diagnosis, subjects were excluded. The investigators also noted that six participants provided headache diaries that corroborated recall, and three participants tried psilocybin for the first time after consent but before interview, yielding prospective reports; nine additional psilocybin users and two LSD users had taken drugs for remission extension but were not yet due for another cluster period, so efficacy for them could not be scored. No controlled or blinded procedures were used; analysis consisted of descriptive tabulation of reported responses. The extracted text does not describe inferential statistical testing beyond reporting counts and percentages.

Results

Fifty-three subjects meeting diagnostic confirmation were included. Thirty-two had episodic cluster headache and 21 had chronic cluster headache. Thirty-one (58%) reported they had never used psilocybin or LSD except to treat their cluster headache, and a further 13 (25%) had only remote adolescent recreational use. Episodic cluster headache: Of the 32 episodic subjects, 19 had used sublingual psilocybin during acute attacks; 17 of these 19 reported that psilocybin aborted attacks when defined as ending the attack within 20 minutes. Only one subject reported using sublingual LSD for an acute attack and described it as effective. Twenty-nine episodic subjects used psilocybin prophylactically during a cluster period: 15 (52%) reported total cessation of attacks (cluster period termination), and a further 12 (41%) reported partial efficacy (reduced intensity or frequency but not complete cessation). Among six episodic LSD users who used it prophylactically, five reported cluster period termination. Twenty episodic subjects ingested psilocybin during a remission period; 19 reported extension of the remission (delay or prevention of the next expected cluster period). Four of five subjects reported similar remission extension with LSD. Chronic cluster headache: Among the 21 chronic subjects, seven had used psilocybin acutely and five of those seven reported that psilocybin aborted a cluster attack. Twenty chronic subjects used psilocybin prophylactically: 10 of 20 reported complete termination of cluster attacks and an additional eight reported partial efficacy. Two chronic patients used LSD at subhallucinogenic doses; one reported no attacks for 10 days and the other reported no attacks for 2 months. Subhallucinogenic dosing and corroboration: Overall, 22 (42%) of the 53 subjects reported partial or complete efficacy from subhallucinogenic doses of psilocybin or LSD. Six participants (11%) provided detailed headache diaries that corroborated their retrospective reports. Three participants tried psilocybin for the first time after consenting but before being questioned; two reported complete efficacy and one reported partial efficacy, a prospective response pattern consistent with the retrospective reports. Nine additional individuals who had taken psilocybin and two additional who had taken LSD for remission extension were not yet due for a cluster period at evaluation and so could not be scored for efficacy.

Discussion

Sewell and colleagues interpret their findings as notable for three main reasons. First, they report that participants described termination of cluster periods, an effect not previously attributed to any medication. Second, the investigators emphasise that a single dose of LSD was described by some subjects as sufficient to induce remission and that psilocybin rarely required more than three doses, which contrasts with other ergot-derived medications that require daily dosing. Third, because many respondents reported benefit from subhallucinogenic doses, the authors suggest the mechanism of action might be unrelated to the classic psychoactive effects of these compounds. The authors acknowledge several important limitations. The study relies mainly on retrospective self-report and is therefore subject to recall bias, although six participants supplied headache diaries that corroborated aspects of recall. Selection bias is possible because recruitment via support groups and the Internet may attract younger, more educated and more motivated individuals and those with positive outcomes; participants with good responses may have been more likely to come forward. Lack of blinding and the uncontrolled design raise the possibility of placebo effects, but the investigators note that cluster headache has shown very low placebo responses in controlled trials of both prophylactic and abortive medications and argue it is unlikely that placebo alone would account for the large number of reported responses. Sewell and colleagues emphasise that the uncontrolled, unblinded nature of the series likely leads to overestimation of efficacy and therefore their observations should be regarded as preliminary and not an endorsement of self-treatment with illegal substances. On balance, the authors conclude that given the high reported rates of benefit in this refractory condition and the signal observed even at subhallucinogenic doses, further controlled research into psilocybin and LSD as treatments for cluster headache is warranted.

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SECTION

R. Andrew Sewell, MD; John H. Halpern, MD; and Harrison G. Pope, Jr., MD Cluster headache, often considered the most painful of all types of headache,affects predominantly men (0.4% vs 0.08% of women) and typically begins after age 20 years. The disorder is categorized as either episodic, occurring for 1-week to 1-year periods, interspersed with pain-free remission periods, or chronic, in which the headaches occur constantly for more than a year with no remission longer than 1 month.Ten percent of episodic cluster headaches ultimately evolve into the chronic form, and these are termed secondary chronic. In standard descriptions of cluster headache, an attack refers to the actual paroxysm of pain, a cluster period refers to a period of time when attacks occur regularly, and a remission period refers to a prolonged attack-free interval.Oxygen and sumatriptan are the mainstays of acute abortive treatment, whereas verapamil, lithium, corticosteroids, and other neuromodulators can suppress attacks during cluster periods. No medications are known to terminate cluster periods or extend remission periods. The effects of the ergot alkaloid derivative lysergic acid diethylamide (LSD) and the related indolalkylamine psilocybin on cluster headache have not previously been described and may include such properties. Case series. We were contacted by a 34-year-old man, diagnosed with episodic cluster headache at age 16 years, who reported a complete remission of his cluster periods when he repeatedly used LSD on a recreational basis between ages 22 and 24 years. Cluster periods resumed once he stopped. Based on this experience, he attempted to treat his cluster headache by ingesting psilocybin-containing mushrooms every 3 months and again achieved lasting remission. On three occasions when he missed his scheduled dose, a cluster period reoccurred. Intrigued by this history, we located-through cluster headache support groups and an Internet-based survey-several hundred people with cluster headache who reported use of psilocybincontaining mushrooms or LSD specifically to treat their disorder, and we administered a standardized questionnaire (available from the authors). The consent form and study were approved by the McLean Hospital institutional review board. We restricted our analysis to the 53 individuals who 1) agreed to be contacted for evaluation by telephone or e-mail and 2) met International Classification of Headache Disorders-2 criteria for cluster headache and allowed us to obtain copies of medical records documenting a diagnosis of cluster headache by an MD or DO. If the medical records did not support the diagnosis, the subject was excluded from further analysis. The final sample included subjects from across the United States as well as Great Britain, The Netherlands, and South Africa. We found no significant differences between men and women on demographic indices or headache features (table). Notably, 31 (58%) of the 53 individuals reported that they had never used psilocybin or LSD except to treat their cluster headache, and a further 13 (25%) had used these drugs for recreational purposes only in the remote past during adolescence. Results are summarized in table 2 and listed in complete form in table E-1 (on the Neurology Web site at www.neurology.org). Of the 32 subjects with episodic cluster headache, 19 had used sublingual psilocybin during cluster attacks; 17 found psilocybin to be effective in aborting attacks (defined as ending the attack within 20 minutes). Only one subject had used sublingual LSD for an acute attack, reporting it to be effective. Twenty-nine subjects had used psilocybin prophylactically during a cluster period; 15 (52%) reported that it was effective (defined as causing total cessation of attacks), and a further 12 (41%) reported partial efficacy (defined as attacks decreasing in intensity or frequency but not ceasing). Five of six LSD users reported cluster period termination. Twenty subjects ingested psilocybin during a remission period; 19 reported an extension of their remission period, in that their next expected cluster period was delayed or prevented entirely. Four of five subjects reported similar remission extension with LSD. Of the 21 subjects with chronic cluster headache, 5 of 7 reported that psilocybin aborted a cluster attack; 10 of 20 reported that psilocybin induced a complete termination of cluster attacks; and a further 8 reported partial efficacy. Of two chronic cluster headache patients who ingested LSD, both at subhallucinogenic doses, one reported no attacks for 10 days, and the other reported none for 2 months. Interestingly, 22 (42%) of the 53 subjects reported partial or complete efficacy (as defined above) from subhallucinogenic doses of psilocybin or LSD. Discussion. Our results are interesting for three reasons. First, no other medication, to our knowledge, has been reported to terminate a cluster period. Second, unlike other ergot-based medications, which must be taken daily, a single dose of LSD was described as sufficient to induce remission of a clus-Additional material related to this article can be found on the Neurology Web site. Go to www.neurology.org and scroll down the Table of Contents for the June 27 issue to find the title link for this article. ter period, and psilocybin rarely required more than three doses. Third, given the apparent efficacy of subhallucinogenic doses, these drugs might benefit cluster headache by a mechanism unrelated to their psychoactive effects. Several limitations of this study should be considered. First, it is subject to recall bias, because it relies primarily on participants' retrospective reports. However, 6 participants (11%) provided detailed headache diaries that corroborated their recall. In addition, 3 (6%) of the 53 participants tried psilocybin for the first time subsequent to consenting to participate in the study but before being questioned; 2 reported complete efficacy and 1 reported partial efficacy-a prospective response rate consistent with our retrospective findings. A second consideration is the possibility of selection bias, in that individuals with a good outcome may have been more likely to participate. Recruitment over the Internet also selects for younger, more educated, and more motivated subjects, 4 likely leading to increased reported efficacy. Third, participants were not blind to their treatment, raising the possibility of a placebo response. However, cluster headache is known to respond poorly to placebo; controlled trials have shown a placebo response of 0% to prophylactic medications such as verapamil, 5 capsaicin,and melatonin,and less than 20% to abortive medications such as sumatriptan.Therefore, it seems unlikely that we would have found more than 50 cases of apparent response to psilocybin or LSD through placebo effects alone. Our observations must be regarded as preliminary, in that they are unblinded, uncontrolled, and subject to additional limitations as described above. Therefore, our findings almost certainly overestimate the response of cluster headache to psilocybin and LSD and should not be misconstrued as an endorsement of the use of illegal substances for the self-treatment of cluster headache. However, given the high reported efficacy for this notoriously refrac- Nine additional individuals had taken psilocybin and two additional had taken lysergic acid diethylamide (LSD) purposefully for remission extension but were not yet due for another cluster period at the time of our evaluation; hence, for them, efficacy could not be scored. tory condition, it is difficult to dismiss this series of cases as entirely artifactual. Further research is warranted.

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