“Cannabinoids, notably cannabidiol (CBD) and delta-9-tetrahydrocannabinol (THC), have emerged as promising candidates for anxiety disorder treatment, supported by both preclinical and clinical evidence.
CBD exhibits notable anxiolytic effects with a favourable safety profile, though concerns regarding mild side effects and drug interactions remain. Conversely, THC, the primary psychoactive compound, presents a range of side effects, underscoring the importance of careful dosage management and individualized treatment strategies. So far there are no FDA approved cannabinoid medications for anxiety. The review highlights challenges in cannabinoid research, including dosage variability, variable preclinical data, and limited long-term data.
Despite these limitations, cannabinoids represent a promising avenue for anxiety management, with the potential for further optimization in formulation, dosing protocols, and consideration of interactions with conventional therapies. Addressing these challenges could pave the way for novel and personalized approaches to treating anxiety disorders using cannabinoid-based therapies.”
“Chemotherapy-induced nausea and vomiting (CINV) is a debilitating side effect of cancer treatment, affecting many patients. Cannabinoid agonists, such as nabilone and Δ9-tetrahydrocannabinol (THC), the main psychoactive component of Cannabis sativa L., have shown efficacy as antiemetics.
Here, we report the case of Michael Roberts (MR), who we believe is the first British patient reimbursed by the National Health Service (NHS) England for the cost of medicinal cannabis flowers to manage CINV. Medical data were obtained from NHS records and individual funding request (IFR) forms. Patient-reported outcome measures (PROMs) were collected using validated questionnaires as part of the standard of care at the specialized private clinics where the prescription of medicinal cannabis was initiated. The patient presented with rectosigmoid adenocarcinoma with lung metastases. He received FOLFIRI (folinic acid, fluorouracil, and irinotecan) chemotherapy and underwent an emergency Hartmann’s procedure with subsequent second-line FOLFOX (folinic acid, fluorouracil, and oxaliplatin) chemotherapy and lung ablation. MR reported severe nausea and vomiting associated with the initial FOLFIRI treatment. Antiemetics metoclopramide and aprepitant demonstrated moderated efficacy. Antiemetics ondansetron, levomepromazine, and nabilone were associated with intolerable side effects.
Inhalation of THC-predominant cannabis flowers in association with standard medication improved CINV, anxiety, sleep quality, appetite, overall mood, and quality of life.
Our results add to the available evidence suggesting that medicinal cannabis flowers may offer valuable support in cancer palliative care integrated with standard-of-care oncology treatment. The successful individual funding request in this case demonstrates a pathway for other patients to gain access to these treatments, advocating for broader awareness and integration of cannabis-based medicinal products in national healthcare services.”
“This case report highlights the potential of THC-predominant cannabis flowers in the management of CINV in a cancer patient, marking a significant step in palliative cancer care. Michael Roberts, who we believe is the first NHS patient reimbursed for medicinal cannabis flowers, experienced substantial relief from CINV, alongside improvements in pain, anxiety, sleep, appetite, and overall quality of life. His case underscores the therapeutic benefits of controlled inhalation of cannabis flowers, particularly in patients unresponsive to conventional antiemetics. This report brings further attention to the challenges faced by patients in accessing CBMPs within the NHS, despite their legalization and acknowledged potential in symptom management. The successful individual funding request in this case demonstrates a pathway for other patients to gain access to these treatments, advocating for broader awareness and integration of CBMPs in national healthcare systems.”
“Background: The belief that cannabis has analgesic and anti-inflammatory properties continues to attract patients with chronic musculoskeletal (MSK) pain towards its use. However, the role that cannabis will play in the management of chronic MSK pain remains to be determined. This study examined 1) the rate, patterns of use, and self-reported efficacy of cannabis use among patients with chronic MSK pain and 2) the interest and potential barriers to cannabis use among patients with chronic MSK pain not currently using cannabis.
Methods: Self-reported cannabis use and perceived efficacy were prospectively collected from chronic MSK pain patients presenting to the Orthopaedic Clinic at the University Health Network, Toronto, Canada. The primary dependent variable was current or past use of cannabis to manage chronic MSK pain; bivariate and multivariable logistic regression were used to identify patient characteristics independently associated with this outcome. Secondary outcomes were summarized descriptively, including self-perceived efficacy among cannabis users, and interest as well as barriers to cannabis use among cannabis non-users.
Results: The sample included 629 patients presenting with chronic MSK pain (mean age: 56±15.7 years; 56% female). Overall, 144 (23%) reported past or present cannabis use to manage their MSK pain, with 63.7% perceiving cannabis as very or somewhat effective and 26.6% considering it as slightly effective. The strongest predictor of cannabis use in this study population was a history of recreational cannabis use (OR 12.7, p<0.001). Among cannabis non-users (N=489), 65% expressed interest in using cannabis to manage their chronic MSK pain, but common barriers to use included lack of knowledge regarding access, use and evidence, and stigma.
Conclusions: One in five patients presenting to an orthopaedic surgeon with chronic MSK pain are using or have used cannabis with the specific intent to manage their pain, and most report it to be effective. Among non-users, two-thirds reported an interest in using cannabis to manage their MSK pain, but common barriers to use existed. Future double-blind placebo-controlled trials are required to understand if this reported efficacy is accurate, and what role, if any, cannabis may play in the management of chronic MSK pain.”
“One in five patients presenting to an orthopaedic surgeon with chronic MSK pain are using or have used cannabis with the specific intent to manage their pain, and most report it to be effective. Among non-users, two-thirds reported an interest in using cannabis to manage their MSK pain, but common barriers to use existed. Future double-blind placebo-controlled trials are required to understand if this reported efficacy is accurate, and what role, if any, cannabis may play in the management of chronic MSK pain.”
“People with sickle cell disease (SCD) often experience chronic pain as well as unpredictable episodes of acute pain, which significantly affect their quality of life and life expectancy. Current treatment strategies for SCD-associated pain primarily rely on opioid analgesics, which have limited efficacy and cause serious adverse effects.
Cannabis has emerged as a potential alternative, yet its efficacy remains uncertain. In this study, we investigated the antinociceptive effects of Δ9-tetrahydrocannabinol (THC), cannabis’ intoxicating constituent, in male HbSS mice, which express >99% human sickle hemoglobin, and male HbAA mice, which express normal human hemoglobin A, as a control.
Acute THC administration (0.1-3 mg-kg-1, intraperitoneal, i.p.) dose-dependently reduced mechanical and cold hypersensitivity in HbSS, but not HbAA mice. In the tail-flick assay, THC (1 and 3 mg-kg-1, i.p.) produced substantial antinociceptive effects in HbSS mice. By contrast, THC (1 mg-kg-1, i.p.) did not alter anxiety-like behavior (elevated plus maze) or long-term memory (24-h novel object recognition). Subchronic THC treatment (1 and 3 mg-kg-1, i.p.) provided sustained relief of mechanical hypersensitivity but led to tolerance in cold hypersensitivity in HbSS mice.
Together, the findings identify THC as a possible therapeutic option for the management of chronic pain in SCD. Further research is warranted to elucidate its mechanism of action and possible interaction with other cannabis constituents.
Significance Statement The study explores THC’s efficacy in alleviating pain in sickle cell disease (SCD) using a humanized mouse model. Findings indicate that acute THC administration reduces mechanical and cold hypersensitivity in SCD mice without impacting emotional and cognitive dysfunction. Subchronic THC treatment offers sustained relief of mechanical hypersensitivity but leads to cold hypersensitivity tolerance. These results offer insights into THC’s potential as an alternative pain management option in SCD, highlighting both its benefits and limitations.”
“Cannabinoids and their receptors play a significant role in the regulation of gastrointestinal (GIT) peristalsis and intestinal barrier permeability. This review critically evaluates current knowledge about the mechanisms of action and biological effects of endocannabinoids and phytocannabinoids on GIT functions and the potential therapeutic applications of these compounds.
The results of ex vivo and in vivo preclinical data indicate that cannabinoids can both inhibit and stimulate gut peristalsis, depending on various factors. Endocannabinoids affect peristalsis in a cannabinoid (CB) receptor-specific manner; however, there is also an important interaction between them and the transient receptor potential cation channel subfamily V member 1 (TRPV1) system.
Phytocannabinoids such as Δ9-tetrahydrocannabinol (THC) and cannabidiol (CBD) impact gut motility mainly through the CB1 receptor. They were also found to improve intestinal barrier integrity, mainly through CB1 receptor stimulation but also via protein kinase A (PKA), mitogen-associated protein kinase (MAPK), and adenylyl cyclase signaling pathways, as well as by influencing the expression of tight junction (TJ) proteins.
The anti-inflammatory effects of cannabinoids in GIT disorders are postulated to occur by the lowering of inflammatory factors such as myeloperoxidase (MPO) activity and regulation of cytokine levels. In conclusion, there is a prospect of utilizing cannabinoids as components of therapy for GIT disorders.”
“In summary, our narrative review highlights the complex interaction between cannabinoids and gastrointestinal physiology, shedding light on their potential therapeutic applications in the treatment of GIT diseases.
The findings highlight the diverse effects of cannabinoids on motility, intestinal permeability, and inflammation, which are mediated by interactions with endocannabinoids and cannabinoid receptors. It is noteworthy that cannabinoids such as THC and CBD exhibit receptor-specific effects on GIT motility via CB1 receptors, causing inhibition of muscle contractility, which may suggest targets for therapeutic interventions. Moreover, the involvement of CB1 and CB2 receptors in regulating intestinal permeability underscores the complexity of mechanisms mediated by cannabinoids in gastrointestinal health.
In addition, cannabinoids show promise as anti-inflammatory agents, offering potential benefits in the treatment of Crohn’s disease, ulcerative colitis, and IBD. Moreover, their role in modulating intestinal motility and relieving pain implicates cannabinoids as potential agents for improving quality of life in gastrointestinal disorders, especially chronic such as IBS. The results of clinical trials and data on the adverse effects of phytocannabinoids indicate that further research is needed to elucidate the exact mechanisms and optimize therapeutic strategies to realize the full potential of cannabinoids in clinical practice.”
“The enduring relationship between humanity and the cannabis plant has witnessed significant transformations, particularly with the widespread legalization of medical cannabis.
This has led to the recognition of diverse pharmacological formulations of medical cannabis, containing 545 identified natural compounds, including 144 phytocannabinoids like Δ9-THC and CBD. Cannabinoids exert distinct regulatory effects on physiological processes, prompting their investigation in neurodegenerative diseases. Recent research highlights their potential in modulating protein aggregation and mitochondrial dysfunction, crucial factors in conditions such as Alzheimer’s Disease, multiple sclerosis, or Parkinson’s disease.
The discussion emphasizes the importance of maintaining homeodynamics in neurodegenerative disorders and explores innovative therapeutic approaches such as nanoparticles and RNA aptamers. Moreover, cannabinoids, particularly CBD, demonstrate anti-inflammatory effects through the modulation of microglial activity, offering multifaceted neuroprotection including mitigating aggregation. Additionally, the potential integration of cannabinoids with vitamin B12 presents a holistic framework for addressing neurodegeneration, considering their roles in homeodynamics and nervous system functioning including the hippocampal neurogenesis.
The potential synergistic therapeutic benefits of combining CBD with vitamin B12 underscore a promising avenue for advancing treatment strategies in neurodegenerative diseases. However, further research is imperative to fully elucidate their effects and potential applications, emphasizing the dynamic nature of this field and its potential to reshape neurodegenerative disease treatment paradigms.”
“Since neurodegenerative diseases like Alzheimer’s, Parkinson’s, multiple sclerosis, Huntington’s, and amyotrophic lateral sclerosis present significant healthcare and therapeutic challenges due to not only their complex etiology or pathophysiology but symptoms severity as well, it is important to keep the attention on improving constantly effective therapeutic methods devoted to neurodegenerative diseases treatment.
Recent studies indicate cannabinoids, particularly from Cannabis sativa, to hold promise in addressing key pathological processes associated with these disorders.
Cannabinoids, especially THC and CBD, demonstrate anti-aggregative effects, modulating the endocannabinoid system and interacting with cannabinoid receptors 1 and 2, offering potential in mitigating protein aggregation seen in disorders like multiple sclerosis. They also activate CBR1, protecting against mitochondrial dysfunction, crucial in diseases disrupting energy distribution, such as demyelination.
Emerging evidence suggests that vitamin B12, essential for cellular processes, could complement therapeutic strategies, potentially enhancing the effects of CBD. Additionally, CBD shows promise in reversing locomotor changes in Parkinson’s disease independently of NPR-19 receptors, while also protecting dopaminergic neurons and reducing reactive oxygen species accumulation. Thus, the integration of nanoparticles of β-caryophyllene, a CB2R binder, as explored by Alberti et al. (2020) [4], represents potential advancement in developing therapies that improve drug BBB crossing and enhance overall treatment efficacy, moreover, accordingly, the process aimed at combining RNA aptamers with cannabinoids and vitamin B12 may offer precise targeted therapies, but rigorous testing is necessary before clinical use.
This combined approach represents a promising frontier in neurodegenerative disease treatment, highlighting ongoing research into cannabinoids’ effects and applications across various disease contexts. Understanding their interaction with mitochondrial function and cellular communication holds potential for novel therapeutic strategies. Further investigation is needed to fully grasp cannabinoids’ effects and applications in diverse disease contexts.”
“Autism Spectrum Disorder (ASD) encompasses a wide range of neurodevelopmental conditions characterized by deficits in social interaction, communication and behavior. Current pharmacological options are limited and feature significant side effects.
In this study, we conducted a retrospective, observational, and cross-sectional cohort study to evaluate the effects of Cannabidiol (CBD)-dominant, full-spectrum cannabis extract, containing Tetrahydrocannabinol (THC) in a ratio of 33:1 (CBD:THC), on non-syndromic children and adolescents (5-18 years old) with moderate to severe ASD.
Thirty volunteers were recruited, underwent neuropsychological evaluations and were treated with individualized doses of CBD-dominant extract. Clinical assessments were conducted by the designated clinician. Additionally, parents or caregivers were independently interviewed to assess perceived treatment effects.
We found significant improvements in various symptomatic and non-symptomatic aspects of ASD, with minimal untoward effects, as reported by both clinical assessments and parental perceptions. The observed improvements included increased communicative skills, attention, learning, eye contact, diminished aggression and irritability, and an overall increase in both the patient’s and family’s quality of life.
Despite its limitations, our findings suggest that treatment with full-spectrum CBD-dominant extract may be a safe and effective option for core and comorbid symptoms of ASD, and it may also increase overall quality of life for individuals with ASD and their families.”
“In the present study, we show that the benefits of treatment with full-spectrum CBD oil for non-syndromic individuals with ASD are not only noticeable to the clinical eye but are also perceived and experienced by the families and caregivers. In short, the findings corroborate that this treatment, combined with a gradual and individualized dosage regimen, is safe and efficient for broader treatment of central and comorbid symptoms associated with ASD, being able to improve aspects such as social interaction, communication and quality of life.”
“The endocannabinoid system has been linked to various physiological and pathological processes, because it plays a neuromodulator role in the central nervous system.
In this sense, cannabinoids have been used off-label for neurodevelopmental disorders, such as autism spectrum disorder (ASD) and attention-deficit/hyperactivity disorder (ADHA), as well as in Alzheimer’s disease (AD), a more prevalent neurodegenerative disease. Thus, this study aims, through a comprehensive literature review, to arrive at a better understanding of the impact of cannabinoids in the therapeutic treatment of patients with ASD, ADHD, and Alzheimer’s disease (AD).
Overall, cannabis products rich in CBD displayed a higher therapeutic potential for ASD children, while cannabis products rich in THC have been tested more for AD therapy. For ADHD, the clinical studies are incipient and inconclusive, but promising. In general, the main limitations of the clinical studies are the lack of standardization of the cannabis-based products consumed by the participants, a lack of scientific rigor, and the small number of participants.”
“Objectives: Polycystic ovary syndrome (PCOS) is a complex metabolic and endocrine disorder associated with chronic inflammation. However, the effect of ∆ tetrahydrocannabinol-9 (THC) on PCOS has not been evaluated. Therefore, this study aimed to investigate the immunomodulatory effects of THC in an animal model of PCOS.
Materials and methods: Twenty female Sprague-Dawley rats, aged 4 weeks, were divided into four groups. The control group received a normal diet, the sham group received a vehicle (carboxymethyl cellulose), the PCOS group received a high-fat diet (HFD) for 16 weeks followed by letrozole for 4 weeks, and the THC group received an HFD for 16 weeks followed by letrozole+THC (0.02 mg/kg) for 4 weeks.
Results: The PCOS animals exhibited significantly higher levels of testosterone, insulin, triglycerides, and total cholesterol, along with elevated inflammatory and oxidative stress markers compared to the control group. Flow cytometry and real-time PCR analysis revealed an increase in M1 macrophage markers and a decrease in M2 macrophage markers compared to the control group. However, the administration of a low dose of THC mitigated these disturbances.
Conclusion: Low-dose THC improved inflammatory responses and shifted the balance of M1/M2 macrophage markers towards M2 macrophages in the animal model of PCOS.”
“Cannabinoids, the bioactive compounds found in Cannabis sativa, have been used for medicinal purposes for centuries, with early discoveries dating back to the BC era (BCE). However, the increased recreational use of cannabis has led to a negative perception of its medicinal and food applications, resulting in legal restrictions in many regions worldwide.
Recently, cannabinoids, notably Δ9-tetrahydrocannabinol (THC) and cannabidiol (CBD), have gained renewed interest in the medical field due to their anti-cancer properties. These properties include the inhibition of tumour growth and cell invasion, anti-inflammatory effects, and the induction of autophagy and apoptosis.
As a result, the use of cannabinoids to treat chemotherapy-associated side effects, like nausea, vomiting, and pain, has increased, and there have been suggestions to implement the large-scale use of cannabinoids in cancer therapy. However, these compounds’ cellular and molecular mechanisms of action still need to be fully understood.
This review explores the recent evidence of CBD’s efficacy as an anti-cancer agent, which is of interest due to its non-psychoactive properties. The current review will also provide an understanding of CBD’s common cellular and molecular mechanisms in different cancers. Studies have shown that CBD’s anti-cancer activity can be receptor-dependent (CB1, CB2, TRPV, and PPARs) or receptor-independent and can be induced through molecular mechanisms, such as ceramide biosynthesis, the induction of ER stress, and subsequent autophagy and apoptosis.
It is projected that these molecular mechanisms will form the basis for the therapeutic applications of CBD. Therefore, it is essential to understand these mechanisms for developing and optimizing pre-clinical CBD-based therapies.”
“Overall, the studies presented herein have given insights into the potential of CBD as an anti-cancer agent and a possible sustainable alternative to current treatments.”
