CBD Oil Dose For Neuropathic Pain

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Globally, medical cannabis legalization has increased in recent years and medical cannabis is commonly used to treat chronic pain. However, there are few randomized control trials studying medical cannabis indicating expert guidance on how to dose and administer medical cannabis safely and effectively is needed. Using a multistage modified Delphi process, twenty global experts across nine countries developed consensus-based recommendations on how to dose and administer medical cannabis in patients with chronic pain. There was consensus that medical cannabis may be considered for patients experiencing neuropathic, inflammatory, nociplastic, and mixed pain. Three treatment protocols were developed. A routine protocol where the clinician initiates the patient on a CBD-predominant variety at a dose of 5 mg CBD twice daily and titrates the CBD-predominant dose by 10 mg every 2 to 3 days until the patient reaches their goals, or up to 40 mg/day. At a CBD-predominant dose of 40 mg/day, clinicians may consider adding THC at 2.5 mg and titrate by 2.5 mg every 2 to 7 days until a maximum daily dose of 40 mg/day of THC. A conservative protocol where the clinician initiates the patient on a CBD-predominant variety at a dose of 5 mg once daily and titrates the CBD-predominant dose by 10 mg every 2 to 3 days until the patient reaches their goals, or up to 40 mg/day. At a CBD-predominant dose of 40 mg/day, clinicians may consider adding THC at 1 mg/day and titrate by 1 mg every 7 days until a maximum daily dose of 40 mg/day of THC. A rapid protocol where the clinician initiates the patient on a balanced THC:CBD variety at 2.5–5 mg of each cannabinoid once or twice daily and titrates by 2.5–5 mg of each cannabinoid every 2 to 3 days until the patient reaches his/her goals or to a maximum THC dose of 40 mg/day. In summary, using a modified Delphi process, expert consensus-based recommendations were developed on how to dose and administer medical cannabis for the treatment of patients with chronic pain. Research has shown CBD alleviates neuropathic pain that didn’t respond to conventional treatment. View the best CBD oils for nerve pain.

Consensus recommendations on dosing and administration of medical cannabis to treat chronic pain: results of a modified Delphi process

Globally, medical cannabis legalization has increased in recent years and medical cannabis is commonly used to treat chronic pain. However, there are few randomized control trials studying medical cannabis indicating expert guidance on how to dose and administer medical cannabis safely and effectively is needed.

Methods

Using a multistage modified Delphi process, twenty global experts across nine countries developed consensus-based recommendations on how to dose and administer medical cannabis in patients with chronic pain.

Results

There was consensus that medical cannabis may be considered for patients experiencing neuropathic, inflammatory, nociplastic, and mixed pain. Three treatment protocols were developed. A routine protocol where the clinician initiates the patient on a CBD-predominant variety at a dose of 5 mg CBD twice daily and titrates the CBD-predominant dose by 10 mg every 2 to 3 days until the patient reaches their goals, or up to 40 mg/day. At a CBD-predominant dose of 40 mg/day, clinicians may consider adding THC at 2.5 mg and titrate by 2.5 mg every 2 to 7 days until a maximum daily dose of 40 mg/day of THC. A conservative protocol where the clinician initiates the patient on a CBD-predominant variety at a dose of 5 mg once daily and titrates the CBD-predominant dose by 10 mg every 2 to 3 days until the patient reaches their goals, or up to 40 mg/day. At a CBD-predominant dose of 40 mg/day, clinicians may consider adding THC at 1 mg/day and titrate by 1 mg every 7 days until a maximum daily dose of 40 mg/day of THC. A rapid protocol where the clinician initiates the patient on a balanced THC:CBD variety at 2.5–5 mg of each cannabinoid once or twice daily and titrates by 2.5–5 mg of each cannabinoid every 2 to 3 days until the patient reaches his/her goals or to a maximum THC dose of 40 mg/day.

Conclusions

In summary, using a modified Delphi process, expert consensus-based recommendations were developed on how to dose and administer medical cannabis for the treatment of patients with chronic pain.

Background

Cannabis is being legalized and/or decriminalized across the globe and hundreds of thousands of patients are currently being treated with medical cannabis (Abuhasira et al. 2018; Lintzeris et al. 2020). Patient-reported data indicate that chronic pain management is one of the most common reasons for medical cannabis use (Reiman et al. 2017; Boehnke et al. 2019; Kosiba et al. 2019; Azcarate et al. 2020). Chronic pain affects close to 2 billion people worldwide and is associated with impairment in physical and emotional function, reduced participation in social and vocational activities, and lower perceived quality of life (Dueñas et al. 2016; Hylands-White et al. 2017; Vos et al. 2017). In patients with chronic pain, medical cannabis treatment has been associated with an improvement in pain-related outcomes, increased quality of life, improved function, and a reduced requirement for opioid analgesia (Abrams et al. 2011; Haroutounian et al. 2016; National Academies of Sciences 2017; Cooper et al. 2018; Rod 2019; Sagy et al. 2019; Johal et al. 2020; Safakish et al. 2020; Okusanya et al. 2020).

Despite the increased global use of medical cannabis to manage pain, systematic reviews and meta-analyses report low to substantial levels of evidence to support the use of cannabis and cannabinoids for the treatment of chronic pain (Russo 2007; Whiting et al. 2015; Allan et al. 2018; National Academies of Sciences 2017; Stockings et al. 2018; Mücke et al. 2018; Häuser et al. 2018; Johal et al. 2020; Safakish et al. 2020; Okusanya et al. 2020). Explanations as to why some describe the level of evidence is low may include limited availability of investigational products due to legal status, lack of standardization of cannabis products, lack of standardization of product administration, and overemphasis on pain scores to define efficacy. However, despite the low to moderate level of evidence, patients are being treated with medical cannabis across the world.

Therefore, the lack of randomized control trial evidence combined with the practical reality that patients are receiving a pharmaceutically active drug creates an atypical clinical scenario that necessitates expert guidance from experienced clinicians on how to safely and, perhaps, effectively dose and administer medical cannabis.

The recommendations presented herein were developed as practical guidance for clinicians who may have limited experience with prescribing or recommending (if patient is in USA) medical cannabis. It is important to note that every patient is different and medical cannabis treatment, like most other therapies, should be individualized to the patient. Shared treatment decision-making with the patient is important and establishing treatment goals during the initial medical consultation may enhance patient outcomes and adherence to medical cannabis treatment. The intent is to provide clinicians with safe and effective medical cannabis prescribing protocols, which may be considered when a clinician decides to include medical cannabis in a patient’s treatment regimen.

Methods

To address the unmet need for clinical guidance on the safe and effective use of medical cannabis for chronic pain, and to build on previous recommendations from MacCallum and Russo (2018) and Boehnke and Clauw (2019), we developed a modified Delphi process (Dalkey and Helmer 1963; Dalkey 1969; Saad et al. 2019; Oude Voshaar et al. 2019) to establish expert consensus-based recommendations on the dosage and administration of medical cannabis (Fig. 1). The modified Delphi process has been used extensively in health care settings to provide consensus-based recommendations on important clinical questions where randomized control trial data is lacking (Hasson et al. 2000).

Timeline and Flow of modified Delphi process

A global task force of twenty individuals was recruited based on extensive clinical experience and/or high academic interest in prescribing and managing patients on medical cannabis for the treatment of chronic pain (Table 1). The panel was selected based on clinical experience prescribing medical cannabis, research with medical cannabis, and a focus on inclusion of representatives from different countries. Upon recruitment, the task force participants completed a practice patterns survey (Additional file 1) to gain insights into how clinicians around the world were treating patients with medical cannabis. After the practice profile was completed, nine recent articles were provided to the task force (Habib and Artul 2018; Banerjee and McCormack 2019; Crawley et al. 2019; Maher et al. 2019; Boyaji et al. 2020; Johal et al. 2020; Montero-Oleas et al. 2020; Wong et al. 2020; Gulbransen et al. 2020). An initial draft of 37 consensus questions was developed based on the practice patterns survey and reviewed for rationale and applicability to clinical practice by a nine-member scientific committee. After review and scientific committee approval, an updated version was distributed to the other task force participants for their review of its rationale and applicability.

Table 1 Global task force on medical cannabis dosing and administration for treatment of chronic pain

Once the full task force had reviewed all questions and proposed answers, and all comments had been incorporated; the first round of voting took place on 63 questions using an online survey (Qualtrics, Provo, Utah; (Additional file 2) with the following rules in place:

For multiple choice questions, consensus is found if ≥ 75% of the responses support one answer. For ranking questions, consensus is found if ≥ 75% of the responses are agree/strongly agree or disagree/strongly disagree. This consensus threshold is similar to previous studies using a modified Delphi method (Diamond et al. 2014; Gillessen et al. 2018).

There was an “abstain” option for all questions.

For the purposes of this document, medical cannabis refers to CBD and THC extracted from a cannabis plant.

The dosing and administration protocol was focused on oral preparations (oils and gel capsules) to support harm reduction from smoking and/or e-vaping (Tashkin 2013; Sangmo et al. 2020), and to nullify the risk of e-cigarette or vaping product use-associated lung injury (EVALI) (Layden et al. 2019).

It was stressed that clinicians would need to customize the recommendations based on availability and regulations in their region of practice.

The first round of voting established consensus on several topics including the rationale for using medical cannabis, the type of pain medical cannabis could be used to treat, age limitations for CBD, when medical cannabis should be avoided, and what the patient goals of using medical cannabis could be. This first round of voting indicated that the task force members were using medical cannabis for similar patient profiles, but dosing and administration protocols were different. The consensus questions were then revised to focus on key remaining elements, and 55 questions were considered for the second round of voting using online surveys (Additional file 3).

Following analysis of the first two rounds of voting, intended live meeting discussion topics were narrowed down. However, due to the COVID-19 pandemic, the live meeting was converted to a virtual format. Over two virtual meetings, 31 questions were voted on through Zoom Meeting polling software (Zoom Video Communications, San Jose, California, Additional files 4 and 5). The key topics for discussion surrounded the dosing and administration procedures across the different medical cannabis treatment protocols. The other two sections for discussion were breakthrough pain and follow-up recommendations. The task force was encouraged to discuss the question before voting to find common ground if possible.

Phrasing of questions was refined over the rounds of review and voting based on task force feedback. At least 16 members of the task force voted at each of the steps. The reader is directed to Additional file 2, 3, 4 and 5 for all voting results.

Role of funding source

This work was funded by Spectrum Therapeutics. Spectrum Therapeutics is the medical division of Canopy Growth Corporation, which sells both medical and recreational cannabis. The funder influenced the selection of the task force, and all authors declare they have received funding from Spectrum (Additional file 6). However, the funder had no influence on the design and conduct of the voting and discussions; collection, management, analysis, and interpretation of the data; preparation, review, approval of the manuscript; or decision to submit the manuscript for publication. The sponsor was provided the opportunity to review the manuscript for medical and scientific accuracy and did not suggest any changes to the manuscript.

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Results

Dosing and administration of medical cannabis to treat patients with chronic pain

During the Delphi voting, three streams of oral dosing and administration recommendations based on patient need evolved: Routine, Conservative, and Rapid (Figs. 2, 3, and 4). The protocols were developed with a focus on safety and what experienced prescribers observe in their practice to be effective. For each protocol, a starting cannabinoid type was voted on, followed by a titration protocol up to a maximum daily dose recommendation. If necessary, the clinician may consider moving a patient between protocols to individualize the patient’s treatment plan. There was a consensus that medical cannabis may be considered for the treatment of neuropathic pain, inflammatory pain, nociplastic pain, and mixed pain (Sihota et al. 2020). Clinicians should titrate and manage the dosing regimen to reach patient treatment goals, which may be varied and therefore individualized (Table 2).

Routine protocol for medical cannabis dosing and administration

Conservative protocol for medical cannabis dosing and administration

Rapid protocol for medical cannabis dosing and administration

Routine protocol for medical cannabis dosing and administration

The routine protocol is recommended for most patients (Fig. 2). The Delphi process led to agreement that a patient may initiate with 5 mg twice daily (bid) of a CBD-predominant strain and up-titrate by 10 mg/day (5 mg CBD bid) every 2–3 days up to 40 mg CBD per day. A key reason for choosing to initiate with a CBD-predominant variety was to prioritize safety as CBD is highly tolerable, does not induce euphoria, and has a low risk for adverse effects (Taylor et al. 2018; Larsen and Shahinas 2020). In addition, many CBD-predominant preparations contain a small percentage of THC (Bonn-Miller et al. 2017; Lachenmeier et al. 2020). It was decided that the maximum amount of THC allowed in a CBD-predominant product to be considered for these protocols would be 1:10 THC to CBD. Many global CBD-predominate products contain 0.–2% THC (Bonn-Miller et al. 2017; Corroon et al. 2020; Lachenmeier et al. 2020).

If 40 mg/day CBD-predominant dose does not reach treatment goals, clinicians may consider initiating 2.5 mg of THC per day and titrate by 2.5 mg THC every 2–7 days up to 40 mg/day while maintaining the same CBD-predominant dose. It is recommended to seek expert consultation if considering going above 40 mg/day THC. The THC titration frequency of 2–7 days is a large range to promote tailoring to the patient’s needs.

Clinicians are encouraged to titrate medical cannabis to the effects desired by each patient, as opposed to a specific CBD or THC dose. During the titration phase, the total daily dose of CBD and/or THC can be divided between two to four administrations.

Conservative protocol for dosing and administration of medical cannabis

The conservative protocol is recommended for patients who may be more sensitive to drug effects (Fig. 3). Clinically frail patients, those with complex comorbidities, polypharmacy, and/or mental health disorders may also be appropriate for the conservative approach. It was agreed a patient may start on a 5 mg once daily dose of a CBD-predominant strain and up-titrate by 5–10 mg every 2–3 days up to 40 mg CBD per day, leveraging twice daily administration when needed. If treatment goals have not been met by 40 mg/day CBD-predominant dose, consider initiating 1 mg of THC and titrating by 1 mg once per week up to 40 mg/day of THC while keeping the same CBD dose. The patient may need a higher THC dose and moving them into the routine stream may be necessary. It is recommended to seek expert consultation if the clinician and patient are considering exceeding 40 mg of THC.

Rapid protocol for dosing and administration of medical cannabis

The rapid treatment protocol may be considered for patients requiring urgent management of severe pain, palliation, and for those with significant prior use of cannabis (Fig. 4). For patients in palliative care, caution is advised when choosing the medical cannabis protocol as these patients may have higher frailty and a higher risk of terminal delirium, which would make them suitable for the conservative approach as well.

It was agreed that a patient should start on a balanced THC:CBD product of 2.5–5 mg of each cannabinoid once or twice daily and up-titrate every 2–3 days by 2.5–5 mg/day of each cannabinoid until patient goals are met, or to 40 mg THC. If choosing to initiate twice daily with a balanced product, the lower doses would be more appropriate to consider at the beginning. The recommendation to seek expert consultation at 40 mg of THC is also present in the rapid protocol. When considering patients with neuropathic pain, products that contain THC may be more suitable (Andreae et al. 2015; Longo et al. 2020).

Medical cannabis treatment for breakthrough pain

In patient scenarios where breakthrough pain is common, inhaled medical cannabis can be considered due to the more rapid onset of action and limited duration of action (Huestis 2007). Dried flower vaporization is the preferred mode of administration as opposed to smoking or vaporization of cannabis extracts in an electronic cigarette device (e-vaping), as smoking and e-vaping carry significant health risks. Smoking cannabis is associated with inflammation of the airways and chronic cannabis smokers may experience a heightened risk for bronchitis, respiratory infections, and pneumonia (Tashkin 2013; Volkow et al. 2014; Owen et al. 2014). E-vaping of THC containing products has been associated with a relatively novel but grave lung disease known as e-cigarette or vaping product use-associated lung injury (EVALI) (Layden et al. 2019; King et al. 2020).

When using medical cannabis to manage breakthrough pain, a balanced THC:CBD or THC-predominant product may be used as needed (prn). Clinicians could also consider that breakthrough pain may be suppressed by increasing the dose or frequency of the scheduled oral medical cannabis treatment.

Follow-up and discontinuation considerations

At the initiation of medical cannabis treatment, clinicians may consider following the patient every 2–4 weeks (Table 3). In individual patients, more frequent follow-up may be needed, particularly at the beginning of the medical cannabis treatment. Once the patient is at a stable dose or sufficiently knowledgeable with medical cannabis dosing and titration, follow-up may occur once every 3 months or even longer thereafter. However, adherence to local jurisdictional guidance may dictate follow-up frequency. The follow-up and discontinuation recommendations were consistent across the three protocols. Discontinuation of medical cannabis treatment should occur if the patient experiences intolerable, moderate, or severe cannabis-related adverse effects, the maximum agreed upon dose is reached and does not benefit the patient, and/or the patient has misuse or diversion associated with cannabis. Reporting of adverse events should be congruent with regional regulatory requirements.

Additional safety considerations for medical cannabis use

Patients who should avoid medical cannabis

There was consensus that individuals with psychotic disorders, unstable cardiovascular disorders, who are pregnant, who are planning to become pregnant, and/or who are breastfeeding, should avoid medical cannabis, similar to previous guidance documents ([CSL STYLE ERROR: reference with no printed form.]; National Academies of Sciences 2017; Canadian Medical Association 2020). The contraindications associated with medical cannabis are more closely linked to THC, but as discussed, CBD-predominant products may contain THC.

Age ranges

There was consensus for no minimum or maximum age limitation for CBD. Although it was agreed no upper age limit for THC use was necessary, there was debate regarding the minimum age recommendation for THC use, but no consensus was found. It has been reported that the human nervous system is not fully developed until 25 years of age, but different jurisdictions around the world have put varying age limits in place (Arain et al. 2013; Casey et al. 2013). In addition, it is unknown whether treatment with medical cannabis supervised by a physician influences brain development in minors. The recommendation for age limits therefore is to follow the local government regulations and consider the clinical risk-benefit ratio to each individual patient.

Drug-drug interactions

Drug-drug interactions should be considered (Balachandran et al. 2021). THC is a substrate of CYP3A4 and CYP2C9 while CBD is a substrate of CYP3A4 and CYP2C19 (Antoniou et al. 2020) CBD and THC may also inhibit or stimulate drug transporter P-glycoprotein (Zhu et al. 2006). Direct-acting oral anticoagulants all contain warnings to avoid use with drugs that inhibit CYP3A4 and P-glycoprotein. Caution is strongly encouraged when coadministering medical cannabis with direct-acting anticoagulants ( XARELTO® (rivaroxaban), 2020; https://www.pfizer.ca/sites/default/files/201910/ELIQUIS_PM_229267_07Oct2019_Marketed_E.pdf, 2020; https://www.boehringer-ingelheim.ca/sites/ca/files/documents/pradaxapmen.pdf, 2020), warfarin (Yamreudeewong et al. 2009; Yamaori et al. 2012), drugs metabolized by CYP2C19 (e.g., clopidogrel (Kazui et al. 2010) and clobazam (Geffrey et al. 2015; Cox et al. 2019), checkpoint inhibitors (e.g., PD-1 (Taha et al. 2019), and immunotherapy agents (e.g., tacrolimus (Leino et al. 2019). In addition, awareness around the potential reduced efficacy of theophylline and clozapine is important (Cox et al. 2019).

Discussion

The modified Delphi process led to the development of three treatment protocols to support dosing and administration of medical cannabis in patients with chronic pain. The clinician may consider moving patients across the streams as a means to tailor the approach. Patient participation in the treatment decisions may enhance adherence and the likelihood of improved patient outcomes. The clinical success of medical cannabis should not be limited to pain scores and should consider improvements in function and quality of life.

Routine CBD dosing and administration

There was considerable debate around the starting cannabinoid type for routine dosing. It was not until the last round of voting that the group reached consensus to start with a CBD-predominant strain. A deciding factor was ultimately the safety profile of CBD. Purified CBD has been shown to be safe and well tolerated up to 6000 mg (Taylor et al. 2018). CBD at doses ranging from 10 to 20 mg/kg/day is effective as an add-on therapy to reduce refractory seizures in two pediatric populations, Lennox-Gastaut syndrome, and Dravet syndrome (Lattanzi et al. 2018). CBD has also been studied in social anxiety where CBD doses ranging from 25 to 600 mg per day has been shown to be effective, as reviewed in Skelley et al. (2020). Our recommendations are much lower than those used in reducing seizures and are at the lowest end of dosing for social anxiety.

There are some data to suggest that CBD may support pain relief and quality of life. In a recent patient-reported outcomes audit study from New Zealand (n = 400), CBD was well-tolerated and improved pain outcomes and quality of life (Gulbransen et al. 2020). The CBD doses used in this study ranged from 40 to 300 mg/day, but there was no statistical association between CBD dose and patient-reported benefit. In a single-arm prospective cohort study investigating the effect of CBD from hemp on opioid use over 8 weeks, CBD reduced opioid use and improved quality of life (Capano et al. 2019). In this study, over 90% of the participants used a dose of 30 mg/day CBD. In a commissioned review by the Australian government, CBD below 60 mg/day was deemed tolerable and safe (Goods Administration 2020). In line with these publications, our Delphi process with global experts in medical cannabis led to the recommendation that in the absence of achieving treatment goals by 40 mg/day of CBD, THC should be considered.

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Another deciding factor in choosing CBD-predominant as the initiating product was the fact that many CBD-predominant preparations contain a small percentage of THC (Bonn-Miller et al. 2017; Lachenmeier et al. 2020). If the ratio of THC to CBD is 1:20, a patient taking 40 mg of a CBD-predominant product is also receiving 2 mg of THC. Two milligrams of THC is close to the recommended initiating dose of 2.5 mg. Unexpectedly, experiencing the psychotropic effects of THC may be undesirable for the patient, and treating clinicians should always be aware of the THC concentration within any given product.

Unlike THC, the mechanism of action of CBD is not believed to be primarily through its binding to the cannabinoid receptor. CBD is thought to exert its action on G-coupled protein receptors, transient receptor potential (TRP) channels, reducing intracellular transporters of endocannabinoids, and decreasing metabolism of endocannabinoids through its interaction with the enzyme FAAH and the P450 isoenzyme system (Mlost et al. 2020). CBD has a wide spectrum of biological activity, including antioxidant and anti-inflammatory activity (Atalay et al. 2020). Through these mechanisms of action, CBD is thought to improve symptoms in a variety of chronic pain conditions (Mlost et al. 2020). Preclinical trials have demonstrated a potential anti-nociceptive effect of CBD and when combined with other compounds in several pain-related diseases (Atalay et al. 2020; Mlost et al. 2020).

The 40 mg/day dose of a CBD-predominant strain before adding THC is lower than the CBD doses recommended by Boehske and Clauw (2019). However, the cost of CBD may restrict the use of CBD at high doses (Gulbransen et al. 2020). Moving forward, purified isolates of CBD will likely become more available such that the concern around THC inclusion with CBD-predominant product will be unnecessary.

Sihota et al. recently examined how to use medical cannabis to support opioid tapering (Sihota et al. 2020). The modified Delphi process was also applied in this report to pragmatically align on how to titrate medical cannabis while reducing the opioid dose. This report differs from the present report as we did not specifically consider opioid sparing but considered all patients living with chronic pain. However, similar recommendations on how to dose and administer medical cannabis were observed across the two studies, i.e., start with CBD and titrate THC for most patients. The main difference between the two studies is that the medical cannabis recommendations for opioid tapering are larger in range, while we have provided three titration protocols that may be used depending on the patient. It is encouraging that two Delphi processes resulted in similar recommendations.

Routine THC dosing and administration

In line with two previous clinical dosing and administration recommendation documents (MacCallum and Russo 2018; Boehnke and Clauw 2019), it was agreed that an initiating THC dose of 2.5 mg was appropriate. A large number of studies in various indications, including chronic pain, have observed that in most patients, the analgesic effects of THC start between 2 and 2.5 mg THC (Beal et al. 1995). It is important to note that analgesic effects of THC in chronic neuropathic pain in humans have been shown to occur at plasma levels well below those associated with euphoria (Ware et al. 2010; Wallace et al. 2020). Therefore, the patient may not need to experience the psychotropic effects of THC to achieve pain relief. However, before considering THC, clinicians should review local jurisdictional regulations on THC, as local guidance on THC may differ from CBD and require additional attention.

There was consensus that the daily dose of THC should not exceed 40 mg unless coupled with expert consultation. As the initiating dose is 2.5 mg, the clinician should titrate slowly with THC and ensure the patient is comfortable with each increasing dose. If considering THC above 40 mg, a consult with a cannabinoid specialist or an experienced medical cannabis clinician is highly recommended as tolerance to cannabis may be developing (Nguyen et al. 2018; Wilkerson et al. 2019).

When considering the pharmacodynamics of orally ingested THC, a recent crossover study examining 17 healthy adults who had not consumed recreational or medical cannabis for at least 60 days, completed four experimental sessions where they ingested 0, 10, 25, or 50 mg of THC (Schlienz et al. 2020). Subjective effects, vital signs, cognitive/psychomotor performance, and blood THC concentrations were assessed before, and then every 30 min for 8 h post ingestion. The 10 mg THC dose produced subjective drug effects and elevated heart rate but did not impact cognitive/psychomotor performance. The 25 and 50 mg doses of THC elicited pronounced subjective effects and impaired cognitive and psychomotor functioning compared to placebo. Subject-reported “good drug effect” was similar between the three doses, but the risk of “bad drug effect” increased with the 25 and 50 mg of THC doses. Although there is wide variation, when considering the majority of patients, 10 mg of THC per day is a typical therapeutic dose. If necessary, the tentative maximum daily dose of 40 mg is still safe but is unlikely to be needed often.

When orally administering THC, the pharmacodynamic effects may begin as early as 30 min and continue to rise between 1 and 3 h post ingestion (Grotenhermen 2003; Schlienz et al. 2020). This coincides with whole blood THC concentrations peaking at 1 h (Schlienz et al. 2020). The delay of drug effect when orally ingesting THC and duration of effect are important considerations for patients being treated with medical cannabis. Oral cannabis products (e.g., edibles) are responsible for the majority of emergency room visits related to cannabis intoxication, and understanding when and how long to expect a drug effect may help prevent accidental intoxication (Hudak et al. 2015; Barrus et al. 2016; Monte et al. 2019).

Conservative THC dosing and titration

The conservative protocol was developed to be lower and slower than routine with a focus on prevention of side effects and creating comfort with medical cannabis. The initiating and titrating doses of THC are different between the conservative and routine dosing and administration protocols as there may be concern with the psychotropic effects of THC. Our Delphi process led to agreement that 1 mg THC should be considered as the initiating dose, which is consistent with the lowest range set out in the Boehnke and Clauw guidance document (Boehnke and Clauw 2019). The tentative maximum dose of 40 mg THC for conservative regimen is the same as routine. There was discussion on the importance of exercising caution regarding the rate at which THC is titrated, but not the maximum THC dose.

Medical cannabis safety considerations

The predicted median lethal dose (LD50) for THC is > 1000-fold higher than the effective dose (Thompson et al. 1973; World Health Organization 2012). Unlike opioids, there are limited cannabinoid receptors in the brain stem areas that control vital functions such as respiration (Herkenham et al. 1990). Following oral administration, the LD50 of THC is 800 mg/kg in rats, 3000 mg/kg in dogs, and up to 9000 mg/kg in monkeys. A lethal THC dose for a 70-kg human is therefore estimated at approximately 4000 mg/kg of THC, which is a dose of 280,000 mg THC and likely unachievable with oral consumption, smoking, or vaporization (World Health Organization 2012). Clinicians may feel comfortable with tailoring the medical cannabis treatment regimen knowing that patients are not at a significant overdose death risk. However, cannabis-associated health risks including Cannabis Use Disorder and complications resulting from the psychoactive effects of THC need to be considered, even at low doses (Adam et al. 2020). This concept is important for the operation of motor vehicles, as well as occupational and recreational hazardous activity. When adding THC, the clinician may consider starting the first dose in the evening to limit potential issues with workplace functioning and driving. In addition, THC at night may support sleep quality and many patients with chronic pain suffer from sleep disturbances. Patients often experience an improvement in function as a result of improved sleep quality when treated with medical cannabis (Sanford et al. 2008; Bachhuber et al. 2019). However, the role of medical cannabis and sleep is currently being tested in a placebo-controlled randomized control trial (Suraev et al. 2020).

Conclusions

In summary, this modified Delphi process, led by global experts in the field of medical cannabis/cannabinoid medicine, resulted in the development of three protocols for the dosing and administration of medical cannabis to treat chronic pain. We hope that these recommendations will support clinicians and patients in achieving safe and effective dosing and administration of medical cannabis. Future randomized control trials examining the safety and efficacy of medical cannabis compared against current standards of care will be required to elucidate whether the developed protocols result in improved patient outcomes. The recommendations provided will be updated as new clinical trial evidence becomes available to inform on the type of dosing and mode of administration of medical cannabis for the treatment of chronic pain.

Best CBD Oil For Nerve Pain: Benefits & Dosage For Neuropathic Pain

Only 40% to 60% of patients able to find partial relief from their symptoms with conventional treatments.

Recent evidence suggests CBD oil may be a powerful natural treatment option for nerve-related pain.

Learn how it works & how to use it.

Article By

The human body is full of sensors leading to the brain. They sense temperature, touch, and tissue damage, and relay that information back to the brain for processing.

Neuropathic pain can be the result of damage to the nerves or pain sensors.

Learn what makes CBD so useful for treating neuropathic pain, how to use it effectively, and what other measures you can do to get the best chances of finding relief from your pain.

So, without further ado, let’s get into it.

MEDICALLY REVIEWED BY

Updated on October 20, 2021

Table of Contents
  • Can CBD Oil Help With Neuropathic (Nerve) Pain?
  • What is a Spinal Cord Injury?
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Can CBD Oil Help With Neuropathic (Nerve) Pain?

CBD and other cannabinoids offer relief from various causes of neuropathic pain in humans [2, 3].

It offers most of these benefits through its ability to interact with the endocannabinoid system (ECS).

The ECS consists of a series of receptors and eicosanoids (called endocannabinoids) that regulate homeostasis (balance) throughout the body. There are endocannabinoid receptors found on virtually every organ in the human body, with the highest concentration in the central nervous system.

The endocannabinoid system functions like “read receipts” used in text messages.

When the nerves send a message, the receiving nerve cell uses the endocannabinoid system to tell the sending nerve that the message was received.

This system keeps the entire nervous system in constant feedback with itself and prevents sending the same message more than once — which is essentially what happens when we experience neuropathic pain.

CBD also supports nerve pain by reducing inflammation, activating the vanilloid pain receptors, and alleviating many of the common side effects of nerve pain.

The benefits of CBD oil for neuropathic pain include:
  • Protects the nerve cells & brain
  • Supports nerve cell regeneration
  • Blocks pain transmission
  • Regulates electrical activity in the brain
  • Alleviates anxiety & depression
  • Supports sleep

What’s The Effective Dose of CBD For Neuropathic Pain?

When it comes to treating neuropathic pain — a notoriously difficult type of pain to alleviate — a higher strength of CBD is generally recommended. Most of the research showing benefits from CBD noted an abnormally large dose of the compound to achieve this success.

For this reason, it’s a good idea to work out the dose yourself to find out what’s best for you and your symptoms.

You can use our CBD oil dosage calculator to find the best dose based on your weight and desired level of effects.

Start small and increase the dose every day until you either experience relief from symptoms — meaning you’ve found your dose — or experience side effects. If you experience side effects, you may need to dial the dose back to the last side-effect-free dose.

If you’re still not getting any reduction in pain symptoms with this dose, you may need to combine CBD with other forms of pain management — after consulting with a doctor, of course.

CBD Dosage Calculator

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What Are The Side-Effects of CBD?

Although CBD has been proven to be highly safe many times over, it’s important to know about the potential side effects it may produce.

Everybody is different, and what works for one person doesn’t always work the same way for another.

Here are some of the most common side-effects of CBD:

Which Type of CBD Should I Use?

CBD comes in all different forms — not all are going to work for every condition.

1. CBD Oils & Tinctures

CBD oils and tinctures provide the easiest methods of taking CBD. All you need to do is measure out the desired dose (more on this later) and pop it into your mouth. You can choose to hold the oil/tincture under your tongue for faster absorption or swallow it right away — both will work well.

2. CBD Capsules

CBD capsules are another excellent dosing option you can employ. Capsules are small and easy to carry, deliver standardized CBD doses, and have great bioavailability. They’re also an excellent option for people who don’t want to taste the CBD oil — which can have an earthy, undesirable taste in some cases.

3. Topical CBD Products

Topical CBD is another good option, but only if the source of your neuropathic pain is close to the surface of the skin. It’s recommended that you use it alongside internal forms of CBD, such as capsules, edibles, or oils. This is because the cannabinoids in topical CBD products won’t reach the spinal cord and brain where most of the pain relief comes from when treating neuropathic pain.

4. CBD Edibles

CBD Edibles, including gummies or baked goods, are certainly a fun way of taking CBD — but they’re often inconsistent with dosing (with the exception of gummies). The dosages listed are estimates, and the actual CBD content inside can vary significantly.

For this reason, we don’t recommend relying on CBD edibles as your everyday maintenance dose of CBD for neuropathic pain.

What is Neuropathic Pain?

Neuropathic pain is a type of pain involving damage to or dysfunction of the nerves and somatic sensors found throughout the body.

Any damage to or dysfunction of the nerves and sensory tissues can send pain signals to the brain. These signals warn the body of real damage or dysfunction, but they can also be caused by false messages sent to the brain.

These messages warn the brain of damage that may or may not exist. This makes neuropathic pain difficult to treat, especially when the underlying cause can’t be identified.

1. Central Neuropathic Pain

The central nervous system is any part of the nervous system inside the brain and spinal cord. This is separated from the peripheral nervous system by a semipermeable barrier called the blood-brain barrier.

Central neuropathic pain, therefore, involves pain originating from nerves located inside the central nervous system.

It’s caused by conditions such as:

2. Peripheral Neuropathic Pain

The peripheral nervous system involves any part of the nervous system outside of the brain and spinal cord. This includes all the nerves in the limbs, abdominal cavity, legs, and face.

Often, when a nerve becomes damaged, the repair process may not go as planned. Instead of returning the nerve to the way it was before the damage, the nerve becomes unusually sensitive and will send pain signals to the brain when it shouldn’t.

The original damage can happen from many different causes, primarily traumatic injuries or specific viruses that target the nerve cells directly — such as herpes virus or shingles.

This type of pain is caused by conditions such as:

3. Mixed — Peripheral and Central Neuropathic Pain

Mixed neuropathic pain involves pain stemming from nerves found both inside the central nervous system and inside the peripheral nervous system.

Causes for mixed neuropathic pain include:

  • Cancer
  • Chemotherapy treatments
  • HIV and other viral infections
  • Heavy metal toxicity

What Are The Causes of Neuropathic (Nerve) Pain?

Neuropathic pain is caused by damage or dysfunction of the nerve cells. There are many causes for nerve damage in the body, such as:

Treatments for Neuropathic Pain

  • Antidepressants (SSRIs, SNRIs, and tricyclic antidepressants)
  • Opiate pain medications (morphine, fentanyl, tramadol, and methadone)
  • Surgical nerve blocks (severe cases only)
  • Capsaicin
  • Topical analgesics (lidocaine)

CBD For Spinal Cord Injury

Spinal cord injuries can have debilitating and life-altering consequences. Injuries can cause varying levels of paralysis, spasticity, loss of sensation, muscle weakness, and nerve pain that can persist for the rest of that person’s life.

There are some treatments available for this condition, most of which are supportive — helping those affected manage pain, depression, and other side-effects of the condition.

CBD cannot cure a spinal cord injury — however, it does likely offer a great deal of support for those affected by managing symptoms and promoting the repair of nerve cells in the damaged areas of the spinal cord.

There’s also some indication that CBD can support the recovery process — lowering the severity of side effects and improving motor function in the affected nerves [5].

The Benefits of CBD Oil For Spinal Cord Injury Includes:
  • Managing chronic pain
  • Relieving symptoms of mild to moderate depression
  • Adjunctive treatment to prevent antibiotic resistance during lung infection
  • Alleviating insomnia
  • Promoting nerve regeneration
  • Possibly reducing the extent of nerve damage from the incident

What is a Spinal Cord Injury?

The spinal cord is an extension of the brain. It contains high concentrations of nerve cell tracts that send and receive messages between the body and the brain. Any damage to the spinal cord can result in serious consequences, including paralysis, spasms, neuropathic pain, or loss of organ function.

The spinal cord contains millions of nerve “intersections” that distribute signals to every part of the body. The area of the spinal cord that is damaged will determine what side-effects develop and where.

For example, if the region of the spine containing the nerves that control leg muscles is damaged, it means that there will be a weakness or complete loss of function in those muscles and sensory deficits in one or both legs.

Spinal Cord Injury Symptoms
Types of Spinal Cord Injury

Depending on how severe the injury is, there are three main classifications that doctors use to describe the condition:

  1. Incomplete spinal cord injury — involves damage that hasn’t completely inhibited nerve transmission past the site of injury.
  2. Complete spinal cord injury — damage to the spinal cord is severe enough that no nerve signals can pass across the site of injury.
  3. Brown Séquard Syndrome— damage to exactly one half section of the cord, either left or right hemisection.

There are also several other types of spinal cord injury such as dorsal column lesion, irregular lesions, small or large central lesion, tumor of the dorsal root, or tumor of the meninges or bone.

The Location of the Spinal Cord Injury Matters

Nerves leave the brain and head down the spinal cord in bundles and pairs. They branch off at various points along the way to go to their target organs, and some tracts will cross sides.

The location of the damage to the spinal cord will determine which areas of the body are affected.

Complete damage of the spinal cord will prevent all nerves below the damaged point to stop receiving or sending messages. Therefore, to classify the level of injury, doctors will assess the lowest levels of different sensations and functions of the nerves in the spinal cord.

There are four main divisions of the spinal cord — organized according to the vertebral column. The vertebral column starts at one at the base of the skull and goes all the way to the coccyx. The spinal cord, in fact, actually ends between vertebrae L1-L2, and is followed by a bundle of nerves called the cauda equina the rest of the way down.

Causes of Spinal Cord Injuries

What the Research Says

In 2012, researchers conducted a study on the use of CBD for spinal cord injuries in rats [5]. Rats were either placed in the treatment group and given CBD, or into the control group where no treatment was given. At the end of the six-day study, rats in the CBD treatment group had significant improvements in motor function and reduced injury side-effects than rats in the no-treatment group. Therefore, the researchers conducting this study concluded that CBD might be a useful treatment option for spinal cord lesions (injuries).

Another study used a survey that was handed out to 10 spinal cord injury patients at the Spinal Cord Injury ward of the Miami V.A. Hospital who were using marijuana to treat their symptoms. The survey was kept confidential and involved questions about the most common symptoms of the condition and how marijuana use affected them.

Results of This Survey Listed:
Symptoms Made Worse Made Better No Effect Distraction Not Applicable
Phantom Pain 1 4 2 2 1
Muscle Spasticity 5 3 2
Bladder Spasms 1 1 7 1
Urinary Retention 2 8 1
Headaches 5 4 1

THC has also offered benefits for spinal cord injuries. For this reason, a full-spectrum cannabis extract containing both CBD and THC is considered the best option.

Potential Benefits of THC for Spinal Cord Injuries
  • Reduces muscle spasms involved with spinal cord injuries [6]
  • Improves bladder control in spinal cord injuries [7]
  • Reduces pain associated with spinal cord injuries [8]

THC remains illegal throughout most of the world, so it may be difficult to find products containing more than 0.3% THC concentration. Further robust studies will be needed to better characterize standard effects and determine efficacy.

Key Takeaways: Does CBD Oil Work For Neuropathic Pain?

The causes of neuropathic pain can range from neurological issues such as multiple sclerosis or a stroke to nutritional deficiencies and diabetes.

No matter what’s causing neuropathic pain, the benefits of CBD remain much the same.

CBD can support neuropathic pain in the following ways:

  • Increases anandamide levels
  • Activates the vanilloid receptors
  • Inhibits inflammation that may be causing neuropathic pain
  • Mildly activates the opioid receptors in the spinal cord and brain

When it comes to treating neuropathic pain, a higher dose is usually recommended — however, this can vary from person to person. Whenever using CBD for the first time, it’s wise to start low and increase slowly over time until you receive the benefits you’re looking for.

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