Category Archives: Addiction

Emerging trends in cannabis administration for women with chronic pain

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“Cannabis use among women who experience chronic pain is on the rise in the United States. However, little is known about women’s motives and preferences for cannabis administration. The purpose of this study was to characterize cannabis use among women with chronic pain.

This study examined self-reported forms of cannabis administration and preferred source of cannabis, frequency and quantity of use, and self-reported side effects, and type, level, and intensity of chronic pain among adult women in the United States. This study also compared women who use cannabis for chronic pain and those who do not across the level of chronic pain, length of chronic pain, and the number of types of chronic pain experienced.

Participants showed a significant preference (60%) for using recreational cannabis to treat chronic pain but reported that medical cannabis was more effective. For participants who preferred medical cannabis 24.3% reported daily use, as compared to only 7.8% of recreational cannabis users. Smoking was the most common form of administration (62.1%), followed by edibles (25.3%), vaporizing in any form (7.4%), tinctures and concentrates (3.2%), and topicals (2.1%). Participants reported using 1-6 different forms of cannabis administration. Those who preferred smoking were significantly likely to use all other forms of administration. However, those who preferred alternatives to smoking were significantly likely to use all forms of administration except for smoking. Medical cannabis users preferred to obtain cannabis from a dispensary, while recreational users preferred to obtain cannabis from unlicensed sources.

Additionally, participants who used cannabis for chronic pain reported a 74% reduction in past 30-day opioid use.

Future research is needed to investigate the health effects associated with single and combined forms of cannabis administration for women with chronic pain. Results can inform educational and intervention programs, treatment development, content regulation of products, policy formation, women’s health research, and public health guidelines.”

https://pubmed.ncbi.nlm.nih.gov/39816373/

https://onlinelibrary.wiley.com/doi/10.1002/mhs2.88

Cannabinoid-based Pharmacology for the Management of Substance Use Disorders

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“In the last two decades, the endocannabinoid system has emerged as a crucial modulator of motivation and emotional processing. Due to its widespread neuroanatomical distribution and characteristic retrograde signaling nature, cannabinoid type I receptors and their endogenous ligands finely orchestrate somatic and axon terminal activity of dopamine neurons.

Owing to these unique features, this signaling system is a promising pharmacological target to ameliorate dopamine-mediated drug-seeking behaviors while circumventing the adverse side effects of, for instance, dopaminergic antagonists.

Despite considerable preclinical efforts, an agreement on the efficacy of endocannabinoid-targeting compounds for treating drug substance use disorders in humans has not been reached. In the following chapter, we will summarize preclinical and clinical evidence addressing the therapeutic potential of cannabinoids and endocannabinoid-targeting compounds in substance use disorders.

To bridge the gap between animal and clinical research, we capitalize on studies evaluating the impact of endocannabinoid-targeting compounds in relevant settings, such as the management of drug relapse.

Finally, we discuss the therapeutic potential of novel cannabinoid compounds that hold promise for treating substance use disorders.”

https://pubmed.ncbi.nlm.nih.gov/39813001/

https://link.springer.com/chapter/10.1007/7854_2024_551

Determination of the Negative Allosteric Binding Site of Cannabidiol at the CB1 Receptor: A Combined Computational and Site-Directed Mutagenesis Study

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“Cannabinoid receptor 1 (CB1R) has been extensively studied as a potential therapeutic target for various conditions, including pain management, obesity, emesis, and metabolic syndrome. Unlike orthosteric agonists such as Δ9-tetrahydrocannabinol (THC), cannabidiol (CBD) has been identified as a negative allosteric modulator (NAM) of CB1R, among its other pharmacological targets. Previous computational and structural studies have proposed various binding sites for CB1R NAMs. An X-ray crystal structure revealed a binding site for the NAM, ORG27569, at an extrahelical location within the inner leaflet of the membrane. In contrast, multiple computational studies have previously proposed several potential allosteric binding sites for CBD within the CB1R structure. Given that a prior structural study suggested CBD might occupy the same site as ORG27569, we conducted a comprehensive investigation of potential CBD binding sites using molecular docking, molecular dynamics (MD) simulations, metadynamics (MTD) simulations, binding free-energy calculations, and in vitro mutagenesis experiments. Molecular docking, MD, and MTD simulations results, along with binding free-energy calculations, suggest that CBD may potentially bind to either the same extrahelical site as ORG27569 or a previously unidentified intracellular site located near TMHs 2, 6, and 7 and helix 8. This intracellular site is consistent with allosteric binding sites observed in other G protein-coupled receptors (GPCRs). To establish the most favorable allosteric site for CBD, we conducted site-directed mutagenesis of key residues at each site. Mutations at S4018.47ΔA and D4038.49ΔA augmented the binding of [3H]-SR141716A, suggesting these residues play critical roles in CBD binding. As a result, the combined computational and mutagenesis results identified a binding site for CBD between TMHs 2, 6, and 7 and helix 8, involving residues Y1532.40, I1562.43, M3376.29, L3416.33, S4018.47, and D4038.49. These findings provide valuable insights into how CBD binds to CB1R, thereby informing the rational design of new, selective, and potent NAMs. Moreover, the elucidation of this previously unexplored allosteric site might explain the polypharmacology of CBD due to structural conservation among Class A GPCRs.”

https://pubmed.ncbi.nlm.nih.gov/39812521/

https://pubs.acs.org/doi/10.1021/acschemneuro.4c00343

CBD and the 5-HT1A receptor: A medicinal and pharmacological review

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“Cannabidiol (CBD), a phytocannabinoid, has emerged as a promising candidate for addressing a wide array of symptoms.

It has the ability to bind multiple proteins and receptors, including 5-HT1AR, transient receptor potential vanilloid 1 (TRPV1), and cannabinoid receptors. However, CBD’s pharmacodynamic interaction with 5-HT1AR and its medicinal outcomes are still debated.

This review explores recent literature to elucidate these questions, highlighting the neurotherapeutic outcomes of this pharmacodynamic interaction and proposing a signaling pathway underlying the mechanism by which CBD desensitizes 5-HT1AR signaling.

A comprehensive survey of the literature underscores CBD’s multifaceted neurotherapeutic effects, encompassing antidepressant, anxiolytic, neuroprotective, antipsychotic, antiemetic, anti-allodynic, anti-epileptic, anti-degenerative, and addiction-treating properties, attributable in part to its interactions with 5-HT1AR.

Furthermore, evidence suggests that the pharmacodynamic interaction between CBD and 5-HT1AR is contingent upon dosage. Moreover, we propose that CBD can induce desensitization of 5-HT1AR via both homologous and heterologous mechanisms. Homologous desensitization involves the recruitment of G protein-coupled receptor kinase 2 (GRK2) and β-arrestin, leading to receptor endocytosis. In contrast, heterologous desensitization is mediated by an elevated intracellular calcium level or activation of protein kinases, such as c-Jun N-terminal kinase (JNK), through the activity of other receptors.”

https://pubmed.ncbi.nlm.nih.gov/39778776/

“Cannabis was one of the first inhaled drugs utilized by humans, with evidence of use for gout, rheumatism, and malaria dating to 2737 BCE”

“The concurrent literature revealed that CBD produces several therapeutic effects through its complex pharmacodynamic interactions with 5-HT1AR. Therapeutic applications of CBD, including its anxiolytic, antidepressant, antipsychotic, anti-degenerative, neuroprotective, anti-epileptic, and anti-addictive properties were mediated, at least in part, by its binding to 5-HT1AR.”

https://www.sciencedirect.com/science/article/abs/pii/S0006295225000048?via%3Dihub

Acute cannabidiol administration reduces alcohol craving and cue-induced nucleus accumbens activation in individuals with alcohol use disorder: the double-blind randomized controlled ICONIC trial

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“Although alcohol use disorder (AUD) is highly prevalent, only a few medications are approved for its treatment leaving much room for improvement. Cannabidiol (CBD) might be a particularly promising candidate, with preclinical data suggesting that CBD is effective in targeting AUD symptoms and disease processes that drive alcohol use and relapse, due to its anti-craving, stress-reducing, and anti-compulsive effects.

Here we report data from the double-blind randomized controlled ICONIC trial that compared the effects of a single dose of 800 mg cannabidiol against placebo (PLC) in N = 28 individuals with AUD. Cue-induced nucleus accumbens (NAc) activation, alcohol craving during a combined stress- and alcohol cue exposure session, as well as craving during an fMRI alcohol cue-reactivity task and CBD plasma levels served as outcomes.

Individuals receiving CBD showed lower bilateral cue-induced NAc activation (tleft_NAc(23) = 4.906, p < 0.001, d = 1.15; tright_NAc (23) = 4.873, p < 0.001, d = 1.13) and reported significantly lower alcohol craving after a combined stress- and alcohol cue exposure session (Fgroup(1,26) = 4.516, p = 0.043, eta2 = 0.15) and during the fMRI cue-reactivity task (Fgroup(1,24) = 6.665, p = 0.015, eta2 = 0.23). CBD levels were significantly higher in the CBD group (t(25) = 3.808, p < 0.001, d = 1.47) and showed a significant negative association with alcohol craving during the cue exposure experiment (r = -0.394, pFDR = 0.030) and during fMRI (r = -0.389, pFDR = 0.030), and with left and right NAc activation (rleft_NAc = -0.459, pFDR = 0.030; rright_NAc = -0.405, pFDR = 0.030).

CBD’s capacity to reduce stress- and cue-induced alcohol craving and to normalize NAc activation – a region critical to the pathophysiology of AUD – contribute to understanding the neurobiological basis of its clinical effects and support its potential as a treatment option for AUD.”

https://pubmed.ncbi.nlm.nih.gov/39668256/

“In summary, the observed potential of CBD to reduce cue-induced NAc activity and alcohol craving, together with its good safety profile, supports the potential of CBD to treat individuals with AUD. New pharmacological treatment options that target central neurobiological disease mechanisms and core symptoms of AUD, such as craving, could complement existing treatment options and reduce relapse risk and the enormous disease burden inflicted by AUD.”

https://www.nature.com/articles/s41380-024-02869-y

Cannabinoid for alcohol use disorder

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“Several pieces of evidence have implicated the endocannabinoid system on dopaminergic mesolimbic brain reward, as well as the potential role of cannabinoid receptors CB1 and CB2 on modulation of reinforced properties of drug abuse and consequently to the treatment of substance use disorder, including alcoholism.

Moreover, growing evidence has been proposed that cannabis or cannabinoid compounds may be helpful to treat alcohol use disorder (AUD).

Cannabis is prevalent among individuals who also consume alcohol. While some authors reported that cannabis may be a promising candidate as a substitute medication for AUD, some studies have demonstrated that concomitant use of alcohol and cannabis may increase the risk of adverse outcomes.

Considering that advances in the legalization and decriminalization movements regarding cannabis have led to increased availability worldwide, the current chapter aims to provide evidence on the benefits and risks of combining alcohol and cannabis, as well as the potential therapeutic use of cannabinoid compounds in treating AUD.”

https://pubmed.ncbi.nlm.nih.gov/39523058/

“Growing studies have indicated that medicinal cannabis could be reasoned as a substitute therapy for alcohol, especially among individuals who are trying to reduce drinking behavior. Based on these premises, medicinal cannabis might be safer and also produce less social harms, for this reason some studies have been pointed as a good candidate for substitute medication for alcohol.”

https://www.sciencedirect.com/science/article/abs/pii/S0074774224001089?via%3Dihub

Therapeutic potential of minor cannabinoids in psychiatric disorders: A systematic review

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“Interest in cannabinoids’ therapeutic potential in mental health is growing, supported by evidence of the involvement of the endocannabinoid system in psychiatric disorders such as anxiety, depression, and addiction.

While the major cannabinoids cannabidiol (CBD) and Δ9-tetrahydrocannabinol (Δ9-THC) have been more extensively researched, approximately 120 minor cannabinoids from the cannabis plant have been identified. Although some displayed promising pharmacological profiles, research on their application for psychiatric disorders is fragmented.

This systematic review evaluates, for the first time, both preclinical and clinical studies exploring minor cannabinoids’ therapeutic potential in psychiatric disorders. 22 preclinical studies and one clinical study were included, investigating various minor cannabinoids in substance use disorders, anxiety disorders, depressive disorders, trauma and stressor-related disorders, psychotic disorders, neurodevelopmental disorders, and eating disorders. Despite the heterogeneous results and the moderate to high risk of bias in several articles, certain compounds demonstrate promise for further investigation.

Δ8-tetrahydrocannabidivarin (Δ8-THCV) exhibited potential for nicotine addiction; Δ9-tetrahydrocannabidivarin (Δ9-THCV) for psychotic-like symptoms; cannabidiolic acid methyl ester (CBDA-ME) alleviated anxiety and depression-like symptoms, and cannabidivarin (CBDV) autism spectrum disorder-like symptoms.”

https://pubmed.ncbi.nlm.nih.gov/39541799/

https://www.sciencedirect.com/science/article/pii/S0924977X24007508?via%3Dihub

Effect of cannabis use history on postoperative opioid utilization in lumbar fusion patients: an American retrospective study

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“Study design: A retrospective cohort study.

Purpose: To examine the effect of cannabis use history on postoperative opioid utilization in patients undergoing one- to three-level lumbar fusion for degenerative spine disease.

Overview of literature: Strategies to minimize dosing and chronic opioid use are needed for spine surgery given their widespread prescription for postsurgical pain management.

Methods: In this database study, medical coding was used to identify patients who had undergone one- to three-level lumbar fusions between 2012 and 2021. Propensity score matching was used to create two equal cohorts with respect to cannabis use history. Opioid utilization rates (morphine milligram equivalents [MME]/day) and overuse rates at 6 months post-index procedure were assessed. All pvalues <0.05 were considered statistically significant.

Results: Following examination of 153,500 patient records, 1,216 patients were matched into cannabis user and non-cannabis user cohorts. Cannabis users had lower rates of opioid utilization compared to non-cannabis users as early as 2 months after fusion (47.7% vs. 41.1%, p <0.05), a relationship which persisted at 6 months (46.2% vs. 37.7%, p <0.01). Additionally, cannabis users had lower rates of high-dose opioid utilization (≥100 MME per day) during the initial 14-30 days following surgery (6.91% vs. 3.79%, p <0.05).

Conclusions: Patients with a history of cannabis use were less likely to be using opioids as early as 2 months postoperatively and had lower rates of high-dose opioid utilization in the immediate postoperative period. Physicians operating on these patients should consider their cannabis use patterns to provide appropriate titration of pain medication over time.”

https://pubmed.ncbi.nlm.nih.gov/39434224/

https://www.asianspinejournal.org/journal/view.php?doi=10.31616/asj.2024.0194

Proof of Concept for High-Dose Cannabidiol Pretreatment to Antagonize Opioid Induced Persistent Apnea

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“Using a mouse equivalent of FDA-approved cannabidiol (CBD) dosing, we found high dose CBD affects opioid induced persistent apnea (OIPA), the principal cause of opioid related fatalities.

CBD pretreatment mitigated respiratory depression from fentanyl in awake mice and significantly delayed OIPA onset in anesthetized mice, effective as the opioid antagonist naloxone.

The powerful effect of CBD pretreatment on OIPA suggests a novel therapeutic strategy to reduce fatal opioid overdose incidence.”

https://pubmed.ncbi.nlm.nih.gov/39314412/

https://www.biorxiv.org/content/10.1101/2024.09.13.612358v1

“Naloxone is a life-saving medication that can reverse an overdose from opioids—including heroin, fentanyl, and prescription opioid medications—when given in time.”

https://www.cdc.gov/stop-overdose/caring/naloxone.html#:~:text=What%20is%20naloxone%3F,use%20and%20small%20to%20carry.

Cannabidiol Modulation of Nicotine-Induced Toxicity: Assessing Effects on Behavior, Brain-Derived Neurotrophic Factor, and Oxidative Stress in C57BL/6 Male Mice

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“High doses of nicotine administered to rodents serve as a model for studying anxiety and test compounds’ potential anxiolytic effects. At these doses, anxiety in rodents is accompanied by disruption of brain-derived neurotrophic factor (BDNF). The endocannabinoids and nicotine modulate several central nervous system processes via their specific receptors, impacting locomotion, anxiety, memory, nociception, and reward.

Cannabidiol (CBD), an active ingredient of Cannabis sativa L., is devoid of psychoactive actions and has gained attention for its anxiolytic, antioxidant, and anti-inflammatory properties, among others. This work aims to examine the potential anxiety-reducing properties of CBD in a well-established experimental mouse model of anxiety-like behavior induced by high doses of nicotine on male C57BL/6 mice.

In this context, the open-field behavioral test was specially conducted to assess CBD’s effects on anxiety-like behavior and locomotion. Brain neuronal plasticity, modulated by BDNF, along with a diverse array of blood’s metabolic markers, was examined as a means of evaluating systemic toxicity under various treatments. Finally, oxidative stress was evaluated through the measurement of glutathione (GSH), superoxide dismutase (SOD), and malondialdehyde (MDA), while pro-inflammatory cytokine assessments were conducted to evaluate redox status and immune system function.

Our research suggests that CBD shows potential in reducing anxiety-like behaviors induced by high doses of nicotine, by mitigating changes in BDNF protein levels in cerebral hemispheres and cerebellum. At the same time, CBD targets specific liver enzymes, maintains tissue’s systemic toxicity (i.e., renal, kidney, and pancreatic), balances redox status (SOD, GSH, and MDA), and regulates the secretion of pro-inflammatory cytokines (TNF-alpha and IL-6).”

https://pubmed.ncbi.nlm.nih.gov/39297526/

https://onlinelibrary.wiley.com/doi/10.1002/jnr.25384