Cannabidiol versus risperidone for treatment of recent-onset psychosis with comorbid cannabis use: study protocol for a randomized controlled clinical trial

The Cannabis sativa plant contains approximately 100 active compounds (phytocannabinoids). The two major active components are the psychoactive Δ9-tetrahydrocannabinol (THC) and cannabidiol (CBD) [11].

The cannabinoid receptors (CB1 and CB2) are activated by THC and responsible for the psychotomimetic and addictive properties observed after smoking and ingestion of cannabis [12‐14]. CBD does not bind to cerebral cannabis receptors and thus has a very different mechanism of action than THC. For the same reason, CBD does not possess euphoric or psychotogenic effects. The cannabinoid receptors are part of the endocannabinoid system, which is also comprised of endogenous cannabinoids and several enzymes which control synthesis and degradation of the endocannabinoids [11]. CBD indirectly affects the endocannabinoid system by impairing the degradation of anandamide (endogenous cannabinoid ligand), which modulates and stabilizes several neurotransmitter systems including the dopaminergic, glutamatergic and GABAergic system [15, 16]. Due to this globally stabilizing effect, CBD theoretically has the potential to reduce craving for cannabis. Likewise, CBD has documented antipsychotic and anxiolytic properties [11, 17, 18], and an anticipated sleep stabilizing effect [19], though the latter has not yet been investigated clinically. Since sleep disturbances play a dominant role regarding the risk of relapse versus remission of psychosis, knowledge about the effect of CBD on sleep disturbances and circadian rhythmicity is a central factor to explore when evaluating the clinical profile of CBD [20]. The pharmacological profile of CBD comprises additionally agonism of 5-HT_1A receptors (as many antidepressants), inhibition of re-uptake of adenosine (which plays an important role in the regulation of sleep-wake) as well as antioxidative and anti-inflammatory effects [21].

Cognitive impairment is considered a core symptom of schizophrenia [22]. The potential effect of CBD on cognition has not yet been thoroughly studied. Meta-analyses and reviews have focused on the deleterious effects of THC on cognition, but it has been difficult to study the separate effects of CBD, because THC and CBD are often mixed in different ratios in available cannabis products [23, 24]. Data indicate that CBD counteracts the harmful effects of THC on cognition [23]. THC impairs cognitive functioning in general, but in particular verbal learning, memory and attention [23]. A recent trial investigating CBD as add-on to antipsychotic treatment in patients with schizophrenia found a non-significant increase in cognitive composite score and indication of improvement in motor speed and executive functioning [25].

Taken together, CBD has a multimodal mechanism of action making it potentially superior compared with traditional antipsychotic compounds whose antipsychotic effect is mainly mediated through dopamine D₂ receptor blockade. The antipsychotic effect of CBD is thought to manifest via inhibition of the degradation of the endocannabinoid anandamide which subsequently antagonizes dopamine D₂ hyperactivation [11] and thus represents a paradigmatic shift regarding treatment of psychosis.

Two published pilot trials have examined the effect of CBD for psychosis. In one study, the effect of CBD was compared with amisulpride for treatment of patients with acute schizophrenia. The results showed that the antipsychotic effect of CBD and amisulpride was comparable, but CBD was associated with significantly fewer adverse effects, such as no increase in prolactin, no weight gain and no extrapyramidal side effects [17]. In another study, CBD was examined as add-on treatment to antipsychotic treatment in patients with schizophrenia, finding a significant reduction in psychotic symptoms together with a favourable side effect profile [25].

Two recent studies investigating the effect of CBD in patients with cannabis use disorder (and no psychotic disorder) found a significant decrease in the amount and frequency of cannabis use compared to placebo [26, 27].

No previous trials have examined the effect of CBD in psychotic patients with comorbid use of cannabis.

Patients with dual diagnosis can currently be offered few established treatment options. While the development of new antipsychotics in recent years has focused on established mechanisms of action, psychopharmacological alternatives introducing new mechanisms of action and delivering more efficient and better tolerable antipsychotics are urgently required. Based on the studies outlined above, we consider CBD with its putative mechanism of action as one of the most promising candidates to supplement current standards in the therapy of psychosis regarding both efficacy and safety. CBD has unique potential regarding dual diagnosis representing both a promising antipsychotic potential as well as a means to reduce the amount of cannabis use due to its cannabinoid substituting mode of action.

The aim of this study is to evaluate the efficacy of CBD versus a first-choice second-generation antipsychotic (risperidone) in terms of cessation of cannabis use and psychotic symptom reduction in patients with early-stage psychosis and comorbid cannabis use. We hypothesize that CBD will have superior efficacy compared with risperidone for both cessation of cannabis use and symptom reduction.

Patients will be recruited from psychiatric hospitals and outpatient clinics under The Mental Health Services in the Capital Region of Denmark, where doctors or nursing staff will inform relevant patients about the project and contact the study team if the patient accepts and might fulfil the eligibility criteria.

Information about the study medication and potential side effects are provided by a research physician or the principal investigator, who will also collect the written informed consent.

The study will be carried out at Mental Health Centre Glostrup that hosts Centre for Neuropsychiatric Schizophrenia Research. This research centre has extensive experience and knowledge in clinical research of psychosis and has an established efficient recruitment set-up.

To ensure steady recruitment to the trial, we will establish a network of committed clinicians from mental health care services across the capital region.

Participants will be compensated for their travel expenses to participate in the present trial. No other economic compensation for study participation will be offered.

When the participants are enrolled in the project, the treatment and monitoring will be carried out in collaboration with the psychiatric hospital or outpatient clinic taking care of the patient before and after participation in the trial. If the participant is not enrolled in an outpatient clinic by the time of inclusion, the project staff will refer the patient to an outpatient clinic upon completion of the trial.

All study participants are covered by the general insurance for patients treated in public hospitals and by the general right to receive compensation for injuries due to pharmaceutical drugs.

Relevant information about health status as judged by the investigator after the baseline visit may justify a subsequent exclusion from the study. Relevant information could be information concerning inclusion or exclusion criteria or information that implies an increased risk for the subject in case of participation in the trial.

Reasons for exclusion from the trial:

Subjects are free to discontinue their participation in the study at any time. Subjects who are not willing to continue the study will be asked about the reason(s) for their discontinuation and about the presence of any adverse events. Dropouts will be seen and assessed by an investigator and the full follow-up test battery will be performed if the participant agrees.

Participants will be randomly assigned in a 1:1 ratio to receive 600 mg of CBD or 4 mg of risperidone, administered in two divided doses morning and evening. Trial duration is seven weeks. After the baseline visit there will be a visit after week 1, 3, 5 and 7 as well as brief evaluations of symptom/disease severity by telephone interview in between, i.e. week 2, 4, and 6. In addition, there will be a safety follow-up visit two weeks after the end of study (week 9). Efficacy will be assessed at the end of the trial, i.e. after seven weeks (Fig. 1).

According to the literature there is no need to titrate the dose of CBD. For risperidone, dose will start at 2 mg and after four days be increased to 2 mg BID. In clinical practice, risperidone is usually titrated within 2–7 days to 4 mg which is a dose that most subjects can tolerate with few adverse effects. To make the groups comparable, the dose of CBD will start at 300 mg once daily and after four days be increased to 300 mg BID. Participants can ingest the total dose once daily if they so prefer. If participants experience intolerable side effects after increasing the dose to two times daily after the first four days, it will be possible to reduce the dose to once daily after discussion and agreement with the investigator.

No other psychotropic medication can be added during the trial except benzodiazepines at a maximum dose equivalent to lorazepam 6 mg daily.

Cannabidiol is delivered as an oral solution with a CBD concentration of 100 mg/ml. Risperidone is administered as encapsulated tablets of 2 mg each. Thus, the CBD solution will be dosed as 3 ml in the morning and 3 ml in the evening, equivalent to CBD 300 mg BID. The risperidone capsules will be dosed as 2 mg in the morning and 2 mg in the evening. Participants are requested to ingest the study medication with a meal to increase the amount of CBD absorbed.

The trial has a double-dummy design, and each group of participants will ingest either CBD solution and risperidone placebo tablets, or risperidone tablets and CBD placebo solution. The CBD solution and the CBD placebo solution will be identical in colour, taste, smell and viscosity, and the same will be true for the encapsulated risperidone tablets and the risperidone placebo capsules.

To enhance adherence to the medication, participants will receive a phone call on day 4 to ensure that the dose is doubled. Adherence will be evaluated by documenting the amount of medication returned at the end of the study and by measuring plasma levels of CBD and risperidone.

Central randomization is performed by The Capital Region Pharmacy with computer generated, permuted randomization allocation sequence with block size unknown to the investigator. The Capital Region Pharmacy delivers consecutively numbered and labelled medication packages. When a subject is included, he/she is given the next consecutive corresponding medication package number. The Capital Region Pharmacy delivers sealed envelopes for each randomization number with information of randomization group.

Trial participants as well as trial staff are blinded to the allocated treatment. The blinding will be maintained by using similarly bottled CBD/placebo and similar capsules of risperidone/placebo. The Capital Region Pharmacy will perform the randomization and do the packaging and labelling of trial medication. The Capital Region Pharmacy holds the randomization code which will not be broken until all data are registered, primary analyses finished, and conclusions drawn. The randomization code will only be broken during the trial period in case of emergency if the investigator decides that knowledge about the trial medication will affect the treatment of a serious adverse event (SAE) or in case of a suspected unexpected serious adverse reaction (SUSAR).

Data will be entered in an electronic Case Report Form (eCRF) using the software RedCap which is hosted by the Capital Region and approved as research database by the Danish Data Protection Agency. The trial complies with Danish law on data confidentiality. Data storing and handling is reported to the Danish Data Agency.

RedCap is a web-based and secure database, with real-time entry validation and audit trails. Some clinical data will be entered directly into the eCRF in a RedCap database designed specifically for this study. Other clinical data will initially be registered on paper and then entered manually into the RedCap database. The entered data will be checked by a second person to avoid errors. Study medication will be logged and documented.

Only the investigators will have access to the final dataset. Access to the protocol, data and statistical code can be shared upon request.

Results of this trial, both positive, negative and inconclusive findings, will be published by the investigators in international journals and presented at national and international meetings and conferences.

The trial will be monitored by the Good clinical Practice (GCP) unit at Copenhagen University Hospital. Trial-related monitoring according to ICH-CGP (International Conference on Harmonisation-Good Clinical Practice) guidelines will be permitted including direct access to the eCRF/source data by the GCP unit. Study monitors from the GCP unit will check that the study procedures are followed correctly and are in accordance with the study protocol.

Due to the short duration of the trial and the minimal risk associated with the intervention, we will not establish a data monitoring committee.

The efficacy of the intervention with respect to the PANSS positive subscale at seven weeks follow-up is analysed using the univariate general linear model with the seven weeks value as the dependent variable (using the last observation carried forward) and the indicator of intervention, age and the baseline value as the independent variables. If the assumptions of the model cannot be fulfilled either directly or after transformation a non-parametric method will be used.

The efficacy of the intervention with respect to the proportion of participants who cease use of cannabis is analysed using a logistic regression model where logit(p) is the dependent variable, p is the probability of cannabis cessation (using the last observation carried forward), and a binary intervention indicator and age are the independent variables.

All analyses will be carried out with the intention-to-treat sample. As secondary analyses the per-protocol sample will be evaluated.

The secondary endpoints will be analysed along the same lines as for the primary efficacy variables.

Subgroup analyses will be performed according to gender.

A sensitivity analysis of the participants with negative plasma-THC at the end of treatment will be carried out.

We consider a relative difference between cannabis cessation proportion in the two intervention groups of 0,50 (i.e. risk ratio for cannabis cessation at follow-up in risperidone group vs. CBD group = 0,5) as a relevant clinical difference. This yields a sample size of 50 patients in each group with a two-tailed 5% significance level and 80% power. Subjects will be randomized in a 1:1 ratio to each intervention group.

We consider that an improvement of 6 points (delta) in the PANSS positive subscale is of minimum clinical relevance (MIREDIF). Leucht et al. defined a clinically meaningful change on the PANSS total scale to be 15 points [42]. Extrapolating this to the positive subscale yields an improvement of 6 points (delta) on the PANSS positive subscale as the MIREDIF. We assume that the PANSS positive score is approximately normally distributed in both treatment groups with a standard deviation of 5 points (sigma) [17]. Thus, with a sample size of 50 subjects, we will be able to detect a difference between groups of 4 points on the PANSS positive subscale, with alfa = 0.05 and a power of 80%.

We expect a drop-out rate between 20 and 30% [43] and thus we reckon that N = 130 must be included in the study.