Prophylactic Effects of Psilocybin on Chronic Cluster Headache (EPOCH)
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|ClinicalTrials.gov Identifier: NCT04280055|
Recruitment Status : Terminated (Not possible to achieve the anticipated no. of patients due to Covid-19 pandemic)
First Posted : February 21, 2020
Last Update Posted : August 10, 2022
|Condition or disease||Intervention/treatment||Phase|
|Cluster Headache||Drug: Psilocybin||Phase 1 Phase 2|
Cluster headache (CH) is one of the most painful conditions known. CH affects 1 out 1000 and exists in two well-defined forms: episodic (ECH) and chronic (CCH). Ten to fifteen percent of patients have CCH and have less than three months of pain-free time during a year. Medical treatment for CH is divided into acute abortive treatment for the single attack and a prophylactic treatment. The most commonly used prophylactic, verapamil, decreases attack frequency but does not induce remission and very high doses are needed. Although most therapeutic options ameliorate CH, they may be problematic due to major side effects, unsatisfactory treatment response or availability. Thus, novel treatment options are needed. According to several studies, patients that self-medicate with low doses of the serotonin 2A receptor (5-HT2AR) agonist and psychedelic psilocybin report that this is effective as CH prophylaxis or even to induce remission. So far, no clinical trials to confirm this have been conducted, nor is there any objective measures of brain function in association with psilocybin intake in CH. There is, however, already some evidence from functional magnetic resonance (fMRI) imaging studies suggesting that CH patients have abnormal functional connectivity patterns involving the hypothalamus and distributed brain networks, but the implication of these abnormalities is unknown.
The investigators are conducting a prospective pilot study, evaluating prophylactic effects of psilocybin in CCH using an open-label study design. They're also going to investigate psilocybin's active metabolite psilocin and brain function (fMRI) to identify possible brain mechanisms underlying CCH and treatment response, including the correlation of treatment response with psilocin levels and estimated 5-HT2AR occupancy and the extent to which brain network changes are affected by psilocybin and correlated with treatment response.
Effects of psilocybin on headache frequency, duration and intensity will be assessed in a sample of 20 patients with CCH. Participants will fill out headache logs during the entire study period, in total 10 weeks. Before study inclusion, participants taking prophylactic medication will first go through a 2-week wash-out period to allow for elimination of the medicine. Inclusion is followed by a baseline observation period lasting four weeks, after which patients will first undergo a baseline rs fMRI scanning followed by the first dose of 0.14 mg/kg psilocybin p.o. Blood samples will be collected during the first psilocybin intervention to establish psilocin plasma concentrations, which will be used for estimating receptor occupancy. Participants will then undergo two additional psilocybin administrations spaced by one-week. The last psilocybin dose will be followed by 4 weeks of observation. One week after the last administration of psilocybin, participants will undergo a follow-up MRI scan. Participants will be contacted 3, 6 and 12 months after the last psilocybin dose to gain information about the duration of potential remission periods. All regular acute treatments are permitted during the study period and a systematic record hereof has to be noted in the headache diary. No other prophylactic medication is allowed during the trial and at least a two-week washout period before inclusion is required. Prophylactics are allowed again after the 4 weeks follow-up, with dose and type carefully recorded. Participants will fill out questionnaires during the observation period, in conjunction with psilocybin interventions and at follow-up.
|Study Type :||Interventional (Clinical Trial)|
|Actual Enrollment :||10 participants|
|Intervention Model:||Single Group Assignment|
|Masking:||None (Open Label)|
|Official Title:||Prophylactic Effects of Psilocybin on Chronic Cluster Headache: an Open-label Clinical Trial and Neuroimaging Study|
|Actual Study Start Date :||January 21, 2020|
|Actual Primary Completion Date :||November 1, 2020|
|Actual Study Completion Date :||June 1, 2022|
0.14 mg/kg p.o. in three sessions spaced by one week
- Headache frequency [ Time Frame: Week 6-10 (post drug observation) compared to week 0-4 (baseline observation) ]Change in headache frequency in number of attacks/week
- Resting state FC fMRI analyses [ Time Frame: Day 1 of first psilocybin session to 1 week after last psilocybin session (3 weeks) ]Resting state FC fMRI analyses, including hypothalamic FC, comparing baseline and rescan, comparison with healthy control sample, and evaluation of correlation between headache frequency changes and FC changes.
- Proportion of reduced frequency [ Time Frame: Week 6-10 (post drug observation) compared to week 0-4 (baseline observation) ]Proportion of patients with a 50% reduction in headache frequency
- Headache intensity [ Time Frame: Week 6-10 (post drug observation) compared to week 0-4 (baseline observation) ]Change in average headache intensity of attacks (0-10 on Visual Analog Scale (VAS), where 0 is no pain and 10 is worst pain imaginable)
- Need of acute therapy [ Time Frame: Week 6-10 (post drug observation) compared to week 0-4 (baseline observation) ]Number of attacks requiring acute therapy
- Sideeffects [ Time Frame: Whole observation period (10 weeks) ]Proportion of patients experiencing serious side effects
- Remission [ Time Frame: Day 1 after first psilocybin session until 12 month follow up (1 year). ]Proportion of patients with remission lasting more than 1 month
- Remission duration [ Time Frame: Day 1 after first psilocybin session until 12 month follow up (1 year). ]Duration of induced remission (number of weeks)
- SF-36 [ Time Frame: Week 6-10 (post drug observation) compared to week 0-4 (baseline observation) ]Quality of life assessed by questionnaires: The Short Form (36) Health Survey. SF-36 consists of eight scaled scores, which are the weighted sums of the questions in their section. Each scale is directly transformed into a 0-100 scale on the assumption that each question carries equal weight. A score of zero is equivalent to maximum disability and a score of 100 is equivalent to no disability.
- Preferred treatment [ Time Frame: Whole observation period (10 weeks) ]Proportion of patients that prefers to continue with psilocybin if this was an option or want to return to usual prophylactics.
- Mood [ Time Frame: Pre-psilocybin (week 1 and 5) vs post-psilocybin (week six and eight). ]Changes in mood measured be the POMS questionaire.
- Sleep quality [ Time Frame: Pre-psilocybin (week 1 and 5) vs post-psilocybin (week six and eight). ]Sleep quality measured by the PSQI questionaire.
- Depressive symptoms [ Time Frame: Pre-psilocybin (week 1 and 5) vs post-psilocybin (week six and eight). ]Depressive symptoms measured by the MDI questionaire.
- Stress [ Time Frame: Pre-psilocybin (week 1 and 5) vs post-psilocybin (week six and eight). ]Perceived stress measured by the PSS questionaire.
To learn more about this study, you or your doctor may contact the study research staff using the contact information provided by the sponsor.
Please refer to this study by its ClinicalTrials.gov identifier (NCT number): NCT04280055
|Neurobiology Research Unit, Rigshospitalet|
|Copenhagen, Denmark, 2100|
|Study Chair:||Gitte Moos Knudsen, MD, DMSc||Neurobiology Research Unit, Rigshospitalet|