Dosage, Efficacy and Safety of Cannabidiol Administration in Adults: A Systematic Review of Human Trials This article is distributed under the terms of the Creative Commons Attribution Calculate recommended CBD dosage as per body weight and other factors. Check the normal CBD dosage chart for CBD edibles, CBD oil and other products.
Dosage, Efficacy and Safety of Cannabidiol Administration in Adults: A Systematic Review of Human Trials
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The data supporting the findings of this study are available from the corresponding author upon request.
Considering data from in vitro and in vivo studies, cannabidiol (CBD) seems to be a promising candidate for the treatment of both somatic and psychiatric disorders. The aim of this review was to collect dose(s), dosage schemes, efficacy and safety reports of CBD use in adults from clinical studies. A systematic search was performed in PubMed, Embase and Cochrane library for articles published in English between January 1, 2000 and October 25, 2019. The search terms used were related to cannabis and CBD in adults. We identified 25 studies (927 patients; 538 men and 389 women), of which 22 studies were controlled clinical trials (833 patients) and three were observational designs (94 patients) from five countries. Formulations, dose and dosage schemes varied significantly between studies. Varying effects were identified from the randomized controlled trials (RCTs), more apparent effects from non-RCTs and minor safety issues in general. From the controlled trials, we identified anxiolytic effects with acute CBD administration, and therapeutic effects for social anxiety disorder, psychotic disorder and substance use disorders. In general, studies were heterogeneous and showed substantial risks of bias. Although promising results have been identified, considerable variation in dosage schemes and route of administration were employed across studies. There was evidence to support single dose positive effect on social anxiety disorder, short medium-term effects on symptomatic improvement in schizophrenia and lack of effect in the short medium-term on cognitive functioning in psychotic disorders. Overall, the administration was well tolerated with mild side effects.
Cannabis sativa L. has a long tradition of medical use. However, its clinical use has been limited due to the effects on the central nervous system and the possibility of drug abuse and addiction. The plant exudes a resin containing a mix of cannabinoids with two principal components, Δ9-tetrahydrocannbinol (THC) and cannabidiol (CBD). The structure and configuration of CBD was discovered in the 60s and has gained particular attention due to the lack of psychotropic activity. Because of its excellent tolerability in humans, the lack of psychoactive action and the low abuse potential, it seems an ideal candidate for use in a clinical context .
In addition to its good safety profile and the lack of psychoactive effects, CBD presents also a wide range of therapeutic effects . Possibly for these reasons, CBD is currently one of the most studied cannabinoids . Several experimental in vitro and in vivo studies have shown that CBD has a broad range of therapeutic applications, displaying anti-inflammatory and immunomodulatory properties , anti-psychotic , analgesic  and anti-epileptic  effects, among others. Compared to Δ9-THC, CBD shows low affinity for cannabinoid receptor type 1 (CB1) and type 2 (CB2) . CB1 receptors are mainly found in the terminals of central and peripheral neurons and CB2 receptors mainly in immune cells . Several in vitro studies have shown that CBD, at low concentrations, has weak CB1 and CB2 antagonistic effect . It has also been reported that it behaves as a negative allosteric modulator of CB1, meaning that CBD does not activate the receptor directly but alter the potency and efficacy of orthosteric ligands of this receptor: Δ9-THC and 2-arachidonoylglycerol (2-AG) . These preliminary results need further validation, but may explain the ability of CBD to antagonize some of the effects of Δ9-THC reported in in vitro, in vivo and clinical human studies . It has also been suggested that the role of CBD as an allosteric modulator of CB1 can explain its therapeutic role in the treatment of central and peripheral nervous system disorders . CBD has also shown to have a strong inhibition effect of neutrophil chemotaxis and proliferation. In addition, it may induce stimulation of arachidonic acid release, reducing prostaglandin E2 (PGE2), and nitric oxide (NO) production. Furthermore, CBD reduces the expression of specific interleukins (IL-12 while increasing that of IL-10) by macrophages, and decreases the production and release of pro-inflammatory cytokines, such as IL-1, IL-6 and interferon gamma (IFNγ) from lipopolysaccharide (LPS)-activated microglial cells . The role of CBD as an inverse agonist of CB2 receptor may explain its known anti-inflammatory effects but this needs further investigation. There is also evidence of an antagonistic effect of CBD at the novel cannabinoid receptor G protein-coupled receptor 55 (GPR55), emerging from in vitro and in vivo studies. GPR55 has a role in bone physiology via regulating osteoclast function, formation and ultimately bone mass. CBD may affect the endocannabinoid system also indirectly, for example CBD can affect the endocannabinoid tone by increasing availability of anandamide; one possible mechanism is by inhibition of fatty acid amide hydrolase (FAAH), the enzyme that hydrolyzes the endocannabinoid anandamide .
However, not all physiological effects of CBD are mediated by cannabinoid receptors. Indeed CBD has numerous targets outside the endocannabinoid system and the cannabinoid receptor independent action is the subject of recent pharmacological studies on CBD . Some of these physiological effects such as anti-inflammatory and immunosuppressive effect are mediated by more than one target . The anti-inflammatory immunosuppressive effects are possibly mediated by activation of adenosine receptors, A1A and A2A and strychnine-sensitive α1 and α1β glycine receptors and the inhibition of the equilibrative nucleoside transporter . The activity of CBD at one defined target may also elicit different physiological effects. For example, anti-inflammatory action and suppression of neuropathic pain are mediated by the same glycine receptors or anxiolytic, panicolytic and anti-depressant effects via serotonin 5HT1A receptor sub-type . Pisano et al (2017) showed an in-depth review of the molecular pharmacology of CBD . Despite the great number of studies published on molecular pharmacology of CBD, the exact pharmacological action of CBD remains not fully characterized and ongoing efforts are directed toward fully elucidating these mechanisms .
The clinical studies on the effects of CBD date back to the 80s but recently the number of studies and registered trials evaluating the effectiveness of this compound has risen exponentially. Currently, CBD is commercially available in different formulations and used for several health conditions but could be indicated for several diseases or disorders in addition to or in replacement of medical marijuana or other medical therapy. However, it remains unclear in which form and dose CBD should be administered to assess safety and efficacy across indications. This might further be complected by the nature of altered dose depending on indication of intervention. To highlight administration and dosage for known indications (e.g. diseases and disorders), this systematic review reports the current evidence, literature and experiences of how and in which dose CBD could be administered as well as efficacy and safety reports.
Study eligibility criteria
One author (CL) systematically searched PubMed, EMBASE and the Cochrane Library for published studies in English. The search was last updated on November 5, 2019. We included human studies of reporting more than 10 adult patients. We restricted our search to studies published after the year of 2000 with no demographic limitation. We included studies with single treatment of CBD, e.g. studies with other cannabinoid add-on therapy or adjuvant regimes were excluded. Studies must report dosage and dosage schemes to be included. There was no limitation regarding study design. Studies on pediatric populations were excluded. Only studies published in English, from 2000 to the date last databases were accessed. Full-text articles were interdependently assessed by two reviewers and eventual disagreement was resolved through consensus.
PubMed, Embase and Cochrane database were searched with all combinations of CBD and dosage in human studies. Reference lists of included studies were evaluated, and if needed, authors were contacted for further information.
Data collection and critical appraisal
We extracted the following data: condition and symptoms, year of publication, country, study population, number of patients, age, gender, weight, outcome measures, effect of treatment, side effects, dosage, administration form (pills, smoking, oil, etc.), length of treatment, doses, product/brand, isolated CBD or full spectrum and funding/sponsors.
The methodological quality of randomized controlled trials (RCTs) was assessed using the Cochrane risk of bias tool . If all domains were judged as being at low risk of bias, the study was considered at low risk of bias. If at least one domain was rated high, the study was considered at high risk of bias. In situations that differ from those described above, the study was considered at unclear rick of bias. Data extraction and risk of bias was assessed by two independent reviewers and disagreements were solved by a third reviewer or with consensus.
Clinical heterogeneity was assessed by grouping studies by indication and outcome (including disease-specific outcomes and if specified adverse events (AEs)) and scheme of drug administration. Data were too heterogeneous to be pooled, so we used a narrative synthesis.
To rate the overall quality of evidence for risk of bias, the Grading of Recommendations Assessment, Development and Evaluation (GRADE) was used for each outcome of interest across all domains: methodological limitations of the studies, indirectness, imprecision, inconsistency and publication bias .
Study selection and characteristics
We identified 362 studies of which 85 were assessed for full-text eligibility ( Fig. 1 ). Finally, 25 studies were included: 22 controlled clinical trials and three non-controlled (single arm) trials [10-34]. Among controlled clinical trials, two were non-RCTs and 20 RCTs (14 individually randomized parallel group trial, five individually randomized cross-over trials and one cluster randomized cross-over trial). Studies were conducted in five countries with the majority of studies being conducted in the UK. All studies were reported in full length journal articles. The administration of CBD varied from single doses to chronic administration, up to 48 weeks. The pure form of CBD was used in the majority of the studies except for two studies using seed CBD oil and CBD-rich botanical extracts. The most common form of drug administration was in the form of oral capsules, and other forms were vaporization and sublingual oil. The most common comparator was placebo only one study used an active-control group. Results for controlled clinical trials and non-controlled studies are presented in Table 1 [17-37] and Table 2 [38-40], providing a summary of the included studies and their principal findings.
PRISMA flow diagram of literature search and selection process. PRISMA: Preferred Reporting Items for Systematic Reviews and Meta-Analyses.
|Author, year of publication||Population (no. of participants)||Study design||CBD dose and scheme||Formulation/route||Primary outcome||Measures||Effect|
|Bergamaschi et al (2011) ||Social anxiety disorder patients (24)||IR parallel group trial||600 mg; single dose||Oral capsules||Anxiety||Visual analogue mood scale (sub-scales; anxiety, cognitive impairment, discomfort and alert)||CBD significantly reduced anxiety, cognitive impairment, discomfort and alert during simulation public speaking test|
|Crippa et al (2011) ||Social anxiety disorder patients (10)||IR cross-over trial||400 mg; single dose||Oral capsules||Anxiety||Visual analogue mood scale||Acute administration reduced subjective anxiety|
|Arndt et al (2017) ||Healthy volunteers (38)||IR cross-over trial||300, 600 and 900 mg; single dose||Oral solution||Reactivity to negative stimuli||Behavioral tasks||Single doses of CBD had little effect on reactions to negative emotional stimuli|
|Crippa et al (2004) ||Healthy volunteers (10)||IR cross-over trial||400 mg; single dose||Oral capsules||Anxiety||Visual analogue mood scale (sub-scales; anxiety, physical sedation, mental sedation and other feelings and attitudes)||CBD significantly decreased subjective anxiety and increased mental sedation|
|Zuardi et al (2017) ||Healthy volunteers (60)||IR parallel group trial||100, 300 and 900 mg; single dose||Oral capsules||Anxiety||Visual analogue mood scale (anxiety and sedation factors)||CBD 300 mg reduced subjective anxiety measures and presented lower sedation level when compared with clonazepam. This was not observed with CBD 100 and 900 mg.|
|Martin-Santos et al (2012) ||Healthy volunteers (16)||NR controlled trial||600 mg; single dose||Oral||Anxiety||Spielberger State Anxiety Inventory, visual analogue mood scale||There was no difference between CBD and placebo on anxiety levels.|
|Bhattacharyya et al (2010) ||Healthy volunteers (15)||NR controlled trial||600 mg; single dose||Oral capsules||Anxiety||Visual analogue mood scale- tranquilization and calming sub-scale.||CBD single dose reduced anxiety levels.|
|Linares et al (2019) ||Healthy volunteers (57)||IR parallel group trial||150, 300 and 600 mg; single dose||Oral capsules||Anxiety||Visual analogue mood scale||300 mg of CBD significantly reduced anxiety during simulation public speaking test|
|Das et al (2013) ||Healthy volunteers (48)||IR parallel group trial||32 mg; single dose||Inhalation/vaporized||Extinction and consolidation||Skin conductance and shock expectancy measures||CBD enhanced consolidation of extinction learning|
|Hindocha et al (2015) ||High and low cannabis use and high and low schizotipy (48)||CR cross-over trial||16 mg; single dose||Inhalation/vaporized||Emotional processing||Computer-based emotional processing task||CBD improved recognition of emotional facial affect.|
|Hundal et al (2018) ||Non-clinical high paranoid group (32)||IR parallel group trial||600 mg; single dose||Oral capsules||Anxiety||Beck’s anxiety inventory||CBD apparently seemed to increase anxiety levels.|
|Hallak et al (2010) ||Schizophrenia patients (28)||IR parallel group trial||300 or 600 mg; single dose||Oral capsules||Cognitive functioning||Stroop color word test||300 and 600 mg of CBD do not lead to cognitive improvement|
|Boggs et al (2018) ||Chronic schizophrenia patients (42)||IR parallel group trial||600 mg/day; 6 weeks||Oral capsules||Psychotic symptoms, cognitive functioning||Positive and negative syndrome scale T score of MATRICS consensus cognitive battery||Psychotic symptoms improved in both groups without significant difference, cognitive functioning improved only in placebo group.|
|Leweke et al (2012) ||Acutely psychotic patients (32)||IR parallel group trial a||200 mg/day up to 800 mg/day; 4 weeks||Oral capsules||Psychotic symptoms||Positive and negative syndrome scale; brief psychiatric rating scale||CBD is as effective as amisulpride in improving psychotic symptoms|
|McGuire et al (2018) ||Schizophrenia patients (88)||IR parallel group trial||1,000 mg/day; 6 weeks b||Oral solution||Psychotic symptoms||Positive and negative syndrome scale, clinical global impressions scale||Treatment with CBD improved positive psychotic symptoms and clinicians’ impressions of illness improvement.|
|Cognitive functioning, level of functioning||Brief assessment of cognition in schizophrenia; global assessment of functioning scale||Improvement in cognitive performance and in the level of overall functioning with CBD although does not reach statistical significance.|
|Hundal et al (2018) ||Non-clinical high paranoid group (32)||IR parallel group trial||600 mg; single dose||Oral capsules||Persecutory ideation||State social paranoia scale, community assessment of psychic experiences scale||CBD had no effect on precursory thinking and psychotic-like experiences|
|Cannabis use disorder|
|Haney et al (2016) ||Healthy cannabis smokers (32)||IR cross-over trial||200, 400 and 800 mg; single dose||Oral capsules||Cannabis subjective effects||Subjective mood and drug effects measured with visual analogue scale||CBD did not alter the subjective effects of smoked cannabis|
|Morgan et al (2013) ||Tobacco smokers (24)||IR parallel group trial||400 µg; 1 week||Inhalation/vaporized||Reduction in the number of cigarettes smoked||Number of cigarettes smoked||CBD reduced the number of cigarettes smoked during treatment and at follow-up|
|Hindocha et al (2018) ||Tobacco smokers (30)||IR parallel group trial||800 mg; single dose||Oral capsules||Nicotine withdrawal||Visual probe task and pleasantness rating task||CBD reduced the salience and pleasantness of cigarette cues, compared with placebo but did not influence tobacco craving or withdrawal|
|Jadoon et al (2016) ||Patients with type 2 diabetes and dyslipidemia (62)||IR parallel group trial||200 mg/day; 13 weeks||Oral capsules||HDL cholesterol concentrations||Enzymatic calorimetric assays||CBD did not produce any effect on HDL levels compared to placebo|
|Naftali et al (2017) ||Patients with diagnosis of Crohn’s disease (19)||IR parallel group trial||20 mg/day; 8 weeks b||Sublingual oil||Disease activity||Crohn’s disease activity index||A reduction in disease activity at the end of the study but no significant difference with placebo.|
|Irving et al (2018) ||Patients with mild to moderate ulcerative colitis (60)||IR parallel group trial||50 mg up to 250 mg/day; 10 weeks a, b, c||Oral capsules||Remission at the end of treatment||Mayo score of ≤ 2||The primary endpoint was negative but CBD may be beneficial for symptomatic treatment of ulcerative colitis|
a Active-controlled trial, amisulpride. b Concomitant treatment. c CBD-rich botanical extracts capsules contained other compound (up to 4.7% THC). IR: individually randomized; NR: non-randomized; CR: cluster randomized; CBD: cannabidiol; HDL: high-density lipoprotein.
|Author/year of publication||Indication||No. of participants||Dose evaluated (administration scheme)||Administration method||Follow-up||Outcome||Measure||Effect|
|Szaflarski et al (2018) ||Epilepsy||60||5 up to 50 mg/kg/day d||Oral oil||48 weeks||Seizure control||Seizure frequency, Chalfont seizure severity scale||Improved compared to baseline|
|Palmieri et al (2019) ||Skin disorders||20||N/A (two times a day/3 months)||Topical gel||3 months||Hydration||Hydration probe||Improved compared to baseline|
|Transepidermal water loss||DermaLab ® USB instrument a||Improved compared to baseline|
|Skin elasticity||ElastiMeter® b||Improved compared to baseline|
|Severity of atopic dermatitis||Scoring atopic dermatitis||Improved compared to baseline|
|Severity of acne||Acne disability index||Improved compared to baseline|
|Severity of psoriasis||Psoriasis area severity index||Improved compared to baseline|
|Palmieri et al (2017) ||ADR following HPV vaccine||12||25 mg/mL, 150 mg/mL (one time/day × 3 months) c||Sublingual oil drops||3 months||Quality of life||Medical outcome short-form health survey questionnaire||Improved compared to baseline|
a Cortex Technologies, Hadsund, Denmark. b Delfin Technologies, Kuopio, Finland. c Concomitant treatment for the condition with anti-oxidant and pain killer. d Concomitant treatment with anti-seizure drugs. N/A: non-available; HPV: human papillomavirus; ADR: adverse drug reaction.
The risk of bias within studies
Among the randomized trials, three were judged at low risk of bias, eight were judged at high risk of bias and nine at uncertain risk. Major potential sources of bias were frequent in the following domains: randomization process and selection of the reported results. Most studies reported were randomized and double-blinded but few reported methods of randomization or participants and outcome assessor blinding. Selective outcome reporting was also a potential source of bias, since some studies did not report data for all outcomes specified in the methods section or trial register or changed the primary outcome from what was specified in the trial register.
Most studies reported outcomes differently and even in cases where the same outcome was reported it was measured differently. Outcome level assessment was performed only for anxiety in social anxiety disorder (SAD) and psychotic symptoms and cognitive function in schizophrenia patients following recommendations applying GRADE approach in narrative synthesis . GRADE rating is presented in Table 3 . Two studies assessed anxiety in treatment-naive SAD populations, and three assessed cognitive function and positive and negative symptoms in schizophrenia patients.
|Outcomes||No. of participants (studies) follow-up||Certainty of the evidence (GRADE) a||Impact|
|Anxiety symptoms assessed with visual analogue mood scale||44 (two RCTs)||⨁⨁◯◯
|All studies showed a reduction in symptoms compared to placebo.|
|Psychotic symptoms assessed with positive and negative syndrome scale, brief psychiatric rating scale||171 (three RCTs)||⨁⨁⨁◯
|Two studies showed improvement in psychotic symptoms. Some variability in the intervention (doses) and population (stage of illness) was noted.|
|Cognitive function assessed with T score of MATRICS consensus cognitive battery, stroop color word test, composite score on the brief assessment of cognition in schizophrenia||148 (three RCTs)||⨁⨁⨁◯
|Two studies showed no improvement in cognitive function. One showed only small improvements.|
The outcome of interest are: anxiety symptoms, psychotic symptoms and cognitive function. A pooled effect estimate was not available and a narrative synthesis of the evidence was provided. a Symbols are used to describe certainty in evidence profiles. High certainty: ⨁⨁⨁⨁; Moderate certainty: ⨁⨁⨁◯; Low certainty: ⨁⨁◯◯; Very low certainty: ⨁◯◯◯. RCT: randomized controlled trial.
Anxiety was assessed in 11 studies (358 participants) [17-27]. Anxiety was the main outcome in eight studies, while possible anxiolytic effects were evaluated in the remaining three studies, through indirect measures such as emotional processing, reactivity to negative stimuli, etc. Among the studies providing data on anxiety, there were only two restricted analyses to patients with anxiety disorders and another to non-clinic paranoia patients. Nine studies were randomized clinical trials: one of the studies was judged at low risk of bias, four at uncertain risk and four at high risk. Single doses of pure CBD 150 – 900 mg in the form of gelatin capsules were administered in the majority of the cases. Two individually randomized parallel-group trials evaluated the effect of CBD on subjective anxiety on patients with SAD  or healthy subjects [18, 19] during simulated public speaking. These studies reported that acute oral administration of 600 mg (SAD subjects) and 300 mg (healthy subjects) of CBD reduced anxiety assessed by the visual analogue mood scale compared to placebo. Linares et al (2018) and Zuardi et al (2017) also tested other doses and observed no effect on anxiety levels after acute administration of 150, 600 and 900 mg of CBD on anxiety levels. No effect was found for the physiological measures such as heart rate and systolic/diastolic blood pressure [17-19]. Another small, individually randomized parallel-group trial, reported that acute administration of oral CBD (600 mg) had a negative effect on anxiety levels, measured with the Beck’s anxiety inventory, compared to placebo . Single oral doses of 400 and 600 mg decreased anxiety and increased mental sedation measured with visual analogue mood scale in two individually randomized cross-over trials [21, 22]. Two small non-RCTs administered 600 mg of oral CBD to health volunteers. One found no difference between placebo and CBD group on anxiety levels , while the other found a reduction on anxiety measured with visual analogue mood scale .
One randomized cross-over trial measured reactivity to negative stimulus through behavioral tasks and reported no effect at different incremental single doses of CBD (300, 600 and 900 mg). This measure was based on the hypotheses that drug anxiolytic effect should be manifested through changes in responses to negative stimuli, which also occur with single doses for common anxiolytics . A cluster randomized cross-over trial assessed the effect of small doses (16 mg) administered through inhalation on fear extinction and consolidation and found that it was effective when compared to placebo . Das et al (2013) found that acute administration of 32 mg of CBD, before training, enhances extinction of conditioned fear responses .
Four randomized parallel-group trials (196 participants) assessed the role of CBD on cognitive impairment and psychotic symptoms in patients with psychotic disorders (schizophrenia) [28-31]. One study was judged as being at high risk of bias and three at uncertain risk of bias. Studies included patients with a confirmed diagnosis of schizophrenia. CBD was administered orally, in the form of oral gelatin capsules with doses ranging from 600 to 1,000 mg/day and the effects were compared to a placebo and active control. Boggs et al (2018) assessed the effects of CBD (600 mg/day for 6 weeks) as an adjunctive treatment in chronic schizophrenia patients, for a period of 6 weeks. No significant difference was observed between placebo and CBD group on cognitive function and psychotic symptoms . Leweke et al (2012) included a small group of acute schizophrenia patients who were administered 200 up to 800 mg/day for 4 weeks or amisulpride, a potent antipsychotic. CBD was as effective as amisulpride in improving psychotic symptoms and associated with marked tolerability and safety, when compared with amisulpride . McGurie et al (2019) administered 1,000 mg/day for 6 weeks to a group of schizophrenia patients as an adjunct to current antipsychotic treatment and found a significant improvement on positive psychotic symptoms and clinicians’ impressions of illness improvement. Despite improvement on cognitive function and overall level of functioning, no significant difference was found compared to placebo . Hallak et al (2010) included a small group of heterogeneous schizophrenia patients and administered a single dose of CBD (300 or 600 mg). They found no effect of CBD on selective attention, measured by Stroop color and word test .
Substance use disorder
In a randomized cross-over design trial, Haney et al (2016) tested a range (200, 400 and 800 mg) of oral single doses of pure CBD, on cannabis smokers to assess the reinforcing subjective and psychological effects of smoked cannabis. The authors found no evidence with this treatment and dose scheme, and CBD can reduce the reinforcing or positive effects of smoked cannabis in current smokers . Optional use of inhaled pure CBD (400 µg/dose) over 1 week produced positive effects with regard to nicotine addiction, as measured by a reduction on the number of cigarette smoked in a group of healthy smokers willing to quit the habit. However, CBD did not show effect on carving symptoms . After overnight tobacco abstinence single doses of 800 mg of CBD reduced the salience and pleasantness of cigarette cues which indicate that CBD may have a potential effect on motivational aspects of addiction . Two studies were judged at uncertain risk of bias and one at high risk.
Three RCTs, all individually randomized parallel group, reported on different medical conditions (one study for each category) [28-37]. Doses ranged from 20 to 250 mg/day with treatment duration from 8 to 13 weeks. Isolated compound or plant exacts rich in CBD were administered in the form of hard oral capsules or oil. One study was judged at uncertain risk of bias and two at high risk.
In one trial, 200 mg/day was administered for 13 weeks as an adjunct to current treatment to patients with type 2 diabetes. Compared to placebo, CBD did not have a significant effect on the level of high-density lipoproteins, the primary endpoint for this study . The effect of oral administration of CBD (20 mg/day for 8 weeks) on disease activity assessed by the Crohn’s disease activity index was evaluated in a small group of patients with long-standing Crohn’s disease taking concomitant medications. CBD had no effect on disease activity at the end of treatment and at 2 weeks follow-up . Irvin et al (2018) reported no effects of CBD-rich extracts (100 mg/day up to 250/day for 8 weeks) added to current treatment and administrated in the form of oral capsules to patients diagnosed with ulcerative colitis .
Non-controlled intervention studies
AEs were reported in 10 studies. In most studies reporting on AEs [20, 28-30, 35-38, 40, 41], CBD was administered chronically, with follow-up ranging from 6 to 48 weeks, except for two studies where AEs were reported after a single dose of CBD (600 and 750 mg, respectively) [20-41]. The total number of reported patients, withdrawing from the study due to experience of side effects, was 16 in the CBD group. One study reported that side effects did not differ between the CBD and placebo groups after 8 weeks of follow-up , and another study reported a decrease of AEs 12 weeks after CBD initiation . In another study side effects were monitored by answering question to a questionnaire . The only study comprising CBD effects with an active group receiving an antipsychotic drug, amisulpride, in patients with schizophrenia reported that the CBD group had fewer extrapyramidal symptoms, less weight gain and prolactin release . Results for the remaining studies, by indication and follow-up, for the number of participants experiencing any AEs compared to placebo AEs, classified by primary system organ class are reported in Table 4 .
Adverse Events (Treatment-Related All Causality) by Primary System Organ Class and Duration of Follow-Up
|Follow-up < 1 day||Follow-up 1 week||Follow-up 10 weeks||Follow-up 13 weeks|
|Cannabidiol (%)||Placebo (%)||Cannabidiol (%)||Placebo (%)||Cannabidiol (%)||Placebo (%)||Cannabidiol (%)||Placebo (%)|
|Subjects experiencing any TEAE (%)||66.7||62.5||100||83.3||90||48||84.6||92.9|
|Nervous system disorders||33.3||37.5||66.7||33.3||83||26|
|Gastrointestinal system disorders||16.7||50.0||66.7||50.0||38||16|
|Infections and infestations||22.2|
|General disorders and administration site conditions||22.2||50.0||21||10|
|Musculoskeletal and connective tissue disorders||16.7||14|
|Skin and subcutaneous tissue disorders||2.2||16.7||3|
This systematic review assessed the dosage schemes, effects and safety issues associated with the use of CBD. We included 20 RCTs, two non-RCTs and three observational studies for all indications of CBD use. In summary, 20 RCTs evaluated efficacy of CBD-use for schizophrenia, anxiety, Crohn’s disease, ulcerative colitis, dyslipidemia, nicotine addiction and cannabis use disorder. Most of these studies reported positive effect of CBD on anxiety, schizophrenia, tobacco addiction and minor effects or no effect on primary outcome measures for Crohn’s disease, ulcerative colitis, dyslipidemia and cannabis use disorder. All observational studies (skin disorders, ADR following HPV vaccine and epilepsy) reported positive effect of CBD when compared to baseline measures.
Regarding safety issues, most studies reported no AEs with acute administration and mild to moderate adverse effects with chronic administration. In comparison to other drugs, a better side effect profile was presented [29, 30]. The chronic administration of CBD for most of the included studies had a duration of few weeks (4 – 6 weeks). There is a need for longer term safety data and systematic/uniform reporting of AEs to better weight benefit and harms in future reviews. At least, two systematic reviews have been published on safety and side effects of CBD. The comprehensive review by Bergamaschi et al included animal and clinical studies reporting a favorable safety profile of CBD in humans . The other review was an update of the previous focusing more on clinical data. The authors reported that most commonly side effects were tiredness, diarrhea and changes of appetite/weight. In comparison to other treatments used for epilepsy and psychotic disorders, CBD administration presented fewer side effects .
Most of the studies included in this review showed an improvement of anxiety levels after single doses of oral CBD with doses ranging from 300 to 600 mg [17-19, 21, 22, 24, 26, 27]. It is important to note that only two studies included a clinical population (SAD) while the majority involved healthy subjects. Both studies tested acute administration of CBD and found a reduction in subjective anxiety. A systematic review on specific anxiety conditions which included data from clinical and pre-clinical studies found strong evidence arising from pre-clinical studies to support the anxiolytic effects of CBD, and similarly that evidence from human studies was limited to acute dosing in mostly healthy subjects . There is a need for better designed studies to evaluate the therapeutic potential of CBD in this clinical population, possibly with chronic dosing in a relevant clinical population.
A systematic review providing evidence from clinical studies, mainly randomized clinical trial and case series, on the efficacy of CBD in the treatment of schizophrenia and/or substance abuse disorders observed large differences in study population, doses and administration . In the present review, two principal outcomes were considered for schizophrenia patients, psychotic symptoms and cognitive functioning. CBD had positive effect on psychotic symptoms especially in acutely psychotic patients , while it had small or no effect on chronic schizophrenia patients who had been treated with anti-psychotics. The possibility that larger effects may be observed for patients in the early phases of the disease had been suggested [28, 45]. Regarding cognitive function little or no effects were observed after chronic or acute administration. A recent systematic review including 27 RTCs that investigated the effects of CBD on different psychiatric disorders such as psychosis, moods disorders and anxiety found that because of large heterogeneity across studies CBD doses, formulations and the study populations, it was not possible to make definitive conclusion about clinical effects . The authors suggested that large-scale placebo controlled studies are needed to investigate the effects of CBD as an adjunct treatment for psychiatric disorder .
No effect was reported in the studies included in this review for the treatment of Crohn’s disease, ulcerative colitis and type 2 diabetes with doses ranging between 20 and 250 mg/day for a treatment duration of 8 – 13 weeks [38-40]. While positive results were reported on seizure improvement with doses ranging from 350 to 2,000 mg/day and on the quality of life for patients with ADRs following HPV vaccine, with doses ranging from 25 to 150 mg/day, after 12 weeks of treatment [31, 33]. No definitive conclusion can be made on doses required for a positive effect since this may depend on the outcome assessed and study population.
In all studies, expect for one that used plant extracts , purified CBD was administered. Data derived from pre-clinical animal models indicate that purified CBD may have a bell shape response  which was also confirmed in two studies included in this review [25, 26]. It is likely that the use of a single cannabinoid may be inferior to the extract where other components synergize with CBD to obtain the desired effect, known as the “entourage effect” . Further, the main route of administration for the studies included in this review was oral (either in the form of capsules or sublingual oil). Animal studies suggest that oral bioavailability is low ; on the other hand, as highlighted in a recent systematic review on the pharmacokinetics of the CBD in humans , there is a lack of data in humans .
We used the Cochrane risk of bias tool to assess the included RCTs . Overall, several methodological weaknesses were identified, e.g. selective outcome reporting, inadequate randomization and blinding. Further, sample sizes were very small in most studies significantly decreasing strength of detecting differences between study groups. An important finding of this review is the heterogeneous use of doses, dosage schemes and formulations (inhalation, oral capsules and sublingual oil, topical gel) across all indications of CBD. This has several implications. Besides excluding the option of pooling data for a meta-analysis to evaluate efficacy, the consequence of non-consensus of CBD dose is important when evaluating safety issues. Commercially, several online “dose-calculators” are available for dose recommendations (e.g. https://www.mydosage.com/); the data to support such calculators remain unclear on appropriate doses for efficacy although it seems reasonable to guide patients to safe dosage schemes and avoid adverse effects and gathering more data on how CBD is commonly being applied .
Although this review followed the recommendations for rigorous systematic reviews, it bears limitations here amongst a language and date restriction applied as well as a search strategy limited to electronic databases. However unlikely, other studies may not have been identified which can limit the applicability of the findings. Most of the disorders/diseases were only evaluated in single studies providing limited experience and no option to pool data, and some studies failed to present specific inclusion criteria meaning no restriction as to study group. The studies identified that evaluated identical conditions, regrettably employed different endpoints or tools of assessment.
RCTs are needed to confirm the effect of CBD on skin disorders, epilepsy and ADR following HPV vaccine. In addition, large and robust RTCs are needed to confirm the effects of CBD particularly on anxiety and psychosis. Studies should adhere to reporting standards for trials and use similar outcomes, standard measurements/tools to assess outcomes, and comparable treatment regimens to allow comparisons in future review studies. International guidelines should be implemented before the justification of further trials.
Studies included in this review evaluated mainly oral administration of purified CBD with placebo group as a comparator. However, there was larger heterogeneity between studies with regard to the population, schemes and doses of CBD, outcomes and tool of measurement. There is some evidence, even though low quality, that supports anxiolytic effect of acute administration of oral CBD. There is moderate-quality evidence that chronic and acute administration of CBD can improve psychotic symptoms in schizophrenia patients. Further, large RCTs are needed to confirm the effect of CBD for the treatment of Crohn’s disease, ulcerative colitis, dyslipidemia and cannabis use disorders. Insufficient data regarding safety issues were provided, but most studies reported no AEs with acute administration and mild to moderate adverse effects with chronic administration.
DAILY CBD DOSAGE
For your convenience, here, you can see the differences between the dose levels in the bodyweight dosage table.
Note: If you have calculated your dosage at which you get the right desired effect, you no longer need to increase the CBD dosage. Also, if necessary, due to the individual characteristics of your body, if you do not feel the desired effect and you want to improve your experience you can slightly increase the dosage or repeat CBD dosage later.
Why Do You Need to Calculate the Dosage of CBD?
The Food and Drug Administration (FDA) has not issued a recommended daily dose since the daily dosage is subjective and individual. Given your weight, metabolic rate, as well as the desired effect of consumption.
Which Factors Influence Your CBD Dosage Level?
• Human’s body weight plays an essential role in calculating the daily dosage of a CBD product. The more bodyweight – the higher the dosage is needed. And vice versa.
• The rate of absorption and distribution of CBD by endocannabinoid receptors, which is also an individual factor.
• Purpose of use and desired effect.
• Method of use (bioavailability indicator). For example, Oil and Edible CBD products before entering the bloodstream must pass through the digestive system. In contrast, the use of CBD by vaporization, bypassing the digestive system, enters the bloodstream from the lungs faster.
Can You Overdose on CBD?
The answer is simple: unlikely. CBD is a natural product, non-toxic, and non-psychoactive. The World Health Organization (WHO) has suggested that the CBD is relatively safe to use.
To “overdose” you will need a very high dose of CBD in one go (more than 2000 mg CBD consistency). It is not necessary to increase the dosage, as at a low level, you can be quite satisfied with the result. We also want to note that CBD is a natural component and side effects are possible with a sharp increase in dosage or case of individual intolerance. However, even in this case, the side effects will not be long-term or have serious consequences.
In any case, if you are new to the use of CBD, we recommend starting with small doses and, if necessary, may increase.
To start taking CBD, we suggest using minimum dosage, not more than 10 – 15 mg per day for the first week. If necessary, after this, you can gradually increase the level of daily CBD until you find the right desired effect for you.
Consider the condition of which particular symptoms you want to improve.
A severe condition (glaucoma, chronic pain, sleep disturbances, cramps, etc.) requires higher doses than alleviating anxiety states.
*This product is not intended to diagnose, treat, cure or prevent disease. Also please note the information on this page is for recommendation only and each individual is different. If you have any difficulties or questions, please contact us.