Nanocarriers for Cannabinoid Delivery: Enhancing Therapeutic Potential.

Medical cannabis has potential therapeutic benefits in managing pain, anxiety, depression, and neurological and movement disorders. Phytocannabinoids derived from the cannabis plant are responsible for their pharmacological and therapeutic properties. However, the complexity of cannabis components, especially cannabinoids, poses a challenge to effective medicinal administration. Even with the increasing acceptance of cannabis-based medicines, achieving consistent bioavailability and targeted distribution remains difficult. Conventional administration methods are plagued by solubility and absorption problems requiring innovative solutions. After conducting a thorough review of research papers and patents, it has become evident that nanotechnology holds great promise as a solution. The comprehensive review of 36 research papers has yielded valuable insights, with 7 papers reporting enhanced bioavailability, while others have focused on improvements in release, solubility, and stability. Additionally, 19 patents have been analyzed, of which 7 specifically claim enhanced bioavailability, while the remaining patents describe various formulation methods. These patents outline effective techniques for encapsulating cannabis using nanocarriers, effectively addressing solubility and controlled release. Studies on the delivery of cannabis using nanocarriers focus on improving bioavailability, prolonging release, and targeting specific areas. This synthesis highlights the potential of nanotechnology to enhance cannabis therapies and pave the way for innovative interventions and precision medicine.

Cannabinoid levels description in a cohort of patients with chronic and neuropathic pain treated with Cannabis decoction: A possible role of TDM.

The phytocomplex of Cannabis is made up of approximately 500 substances: terpeno-phenols metabolites, including Δ-9-tetrahydrocannabinol and cannabidiol, exhibit pharmacological activity. Medical Cannabis has several pharmacological potential applications, in particular in the management of chronic and neuropathic pain. In the literature, a few data are available concerning cannabis pharmacokinetics, efficacy and safety. Thus, aim of the present study was the evaluation of cannabinoid pharmacokinetics in a cohort of patients, with chronic and neuropathic pain, treated with inhaled medical cannabis and decoction, as a galenic preparation. In this study, 67 patients were enrolled. Dried flower tops with different THC and CBD concentrations were used: Bedrocan® medical cannabis with THC level standardized at 19% and with a CBD level below 1%, Bediol® medical cannabis with THC and CBD level standardized at similar concentration of 6.5% and 8%, respectively. Cannabis was administered as a decoction in 47 patients and inhaled in 11 patients. The blood withdrawn was obtained before the new dose administration at the steady state and metabolites plasma concentrations were measured with an UHPLC-MS/MS method. Statistically significant differences were found in cannabinoids plasma exposure between inhaled and oral administration of medical cannabis, between male and female and cigarette smokers. For the first time, differences in cannabinoid metabolites exposures between different galenic formulations were suggested in patients. Therapeutic drug monitoring could be useful to allow for dose adjustment, but further studies in larger cohorts of patients are required in order to confirm these data.

Clinical Approaches to Cannabis: A Narrative Review.

Cannabis use in the United States is growing at an unprecedented pace. Most states in the United States have legalized medical cannabis use, and many have legalized nonmedical cannabis use. In this setting, health care professionals will increasingly see more patients who have questions about cannabis use, its utility for medical conditions, and the risks of its use. This narrative review provides an overview of the background, pharmacology, therapeutic use, and potential complications of cannabis.

Pharmacokinetics of cannabichromene in a medical cannabis product also containing cannabidiol and Δ9-tetrahydrocannabinol: a pilot study.

PURPOSE: Cannabichromene (CBC) is a phytocannabinoid commonly found in cannabis, yet its acute post-dose pharmacokinetics (PK) have not been examined in humans. This is a secondary data analysis from a trial investigating Spectrum Yellow oil, an oral cannabis product used for medical purposes that contained 20 mg cannabidiol (CBD), 0.9 mg Δ9-tetrahydrocannabinol (THC), and 1.1 mg CBC, per 1 mL of oil. METHODS: Participants (N = 43) were randomized to one of 5 groups: 120 mg CBD, 5.4 mg THC, and 6.6 mg CBC daily; 240 mg CBD, 10.8 mg THC, and 13.2 mg CBC daily; 360 mg CBD, 16.2 mg THC, and 19.8 mg CBC daily; 480 mg CBD, 21.6 mg THC, and 26.4 mg CBC daily; or placebo. Study medication was administered every 12 h for 7 days. Plasma CBC concentrations were analyzed by a validated two-dimensional high-performance liquid chromatography-tandem mass spectrometry assay. RESULTS: After a single dose and after the final dose, the Cmax of CBC increased by 1.3-1.8-fold for each twofold increase in dose; the tmax range was 1.6-4.3 h. Based on the ratio of administered CBD, THC, and CBC to the plasma concentration, the dose of CBD was 18 times higher than the dose of CBC, yet the AUC0-t of CBD was only 6.6-9.8-fold higher than the AUC0-t of CBC; the dose of THC was similar to the dose of CBC, yet THC was quantifiable in fewer plasma samples than was CBC. CONCLUSIONS: CBC may have preferential absorption over CBD and THC when administered together. TRIAL REGISTRATION: Australian New Zealand Clinical Trials Registry #ACTRN12619001450101, registered 18 October 2019.

Safety and pharmacokinetics of medical cannabis preparation in a monocentric series of young patients with drug resistant epilepsy.

OBJECTIVES: To evaluate safety and pharmacokinetic parameters (PK) of medical cannabis in add-on for children and young adults with drug-resistant epilepsy. DESIGN, SETTING: Ten patients (4 females, 6 males, age 2.5-23.2 years) were enrolled in a prospective open trial with a galenic preparation (decoction) of Italian cannabis (FM2, ratio THC:CBD = 3:5, range THC 5.2-7.2 %; CBD 8.2-11.1 %). Patients received the first dose in Hospital, progressively augmented by CBD dose titration (from 1 to 4 mg/kg/day). OUTCOME MEASURES: In order to assess safety, blood parameters, heart rates and electrocardiograms (ECGs) were evaluated before the enrollment and during the follow up. The PK study was performed measuring THC and CBD concentrations by UHPLC-MS/MS in plasma samples collected during the first administration and at each follow-up visit. RESULTS: Two out of ten patients stopped the treatment for adverse events (detected in 6/10: gastroenteric, sleep or behavioral disorders) and difficulties in drug supply. We observed minor ECG alterations in two patients and asymptomatic transient reductions of fibrinogen after 6 months of therapy. The PK study during follow-up revealed statistically significant correlations between THC-CBD blood concentrations and: volumes of decoction, FM2 and THC-CBD daily dosages. CONCLUSIONS: The present study, although with some limitations, shows a good safety profile of medical cannabis in children and young patients with drug-resistant epilepsy and encourages the possibility of further studies with oral cannabis-based drugs. The correlations between THC-CBD plasma concentrations and their administered dosages underline the need of a therapeutic drug monitoring for cannabinoids therapy.

Fast and sensitive UHPLC-MS/MS analysis of cannabinoids and their acid precursors in pharmaceutical preparations of medical cannabis and their metabolites in conventional and non-conventional biological matrices of treated individual.

Monitoring pharmacological active compounds in pharmaceutical preparations of medical cannabis and in conventional and non-conventional biological matrices of treated individuals use requires both a wide linear range and sensitive detection. We have developed and validated a fast and sensitive method using ultra-high performance liquid chromatography coupled with tandem mass spectrometry (UHPLC-MS/MS) for analysis of Δ-9-tetrahydrocannabinol (THC), cannabidiol (CBD), their acidic precursors Δ-9-tetrahydrocannabinolic acid A (THCA-A) and cannabidiolic acid (CBDA) and some major metabolites of THC such as 11-nor-9-carboxy-THC (THC-COOH), 11-hydroxy-THC (11-OH-THC), Δ-9-THC-Glucuronide (THC-GLUC) and THC-COOH-Glucuronide (THC-COOH-GLUC) in conventional (whole blood and urine) and non-conventional (oral fluid and sweat) of individual treated with medical cannabis preparation. Specifically, THC, THCA-A, CBD and CBD-A were determined in cannabis decoction and oil prepared to treat individuals. The method used positive electrospray ionization (ESI) mode to reach the sensitivity needed to detect minimal amounts of analytes under investigations exposure with limits of quantification ranging from 0.2 to 0.5 ng per milliliter (ng/mL) or ng per patch in case of collected sweat. The validation results indicated this method was accurate (average inter/intra-day error, <10%), precise (inter/intra-day imprecision, <10%), and fast (10 min run time). In addition, time-consuming sample preparation was avoided applying dilute and shoot procedure, meeting the needs for potential large-scale population studies. The analysis of real samples demonstrated a pharmacokinetics of cannabinoids, their precursors and their metabolites dependent from quantity of carboxylated and decarboxylated compounds in pharmaceutical preparations.

Using Therapeutic Drug Monitoring and Pharmacovigilance to Overcome Some of the Challenges of Developing Medicinal Cannabis from Botanical Origins.

PURPOSE: Plants belonging to the genus Cannabis have been domesticated and used by humans for millennia. Thought to have originated from central Asia, cannabis has been harnessed for its nutritional, therapeutic, and psychoactive properties, and as a source of fiber (Office of Medicinal Cannabis. Analytical Monograph Cannabis Flos. Den Haag, The Netherlands: Office of Medicinal Cannabis; 2014). Human use of cannabis is not novel; however, its medicalization offers a new pharmacotherapeutic frontier. METHODS: The authors recently reported a systematic review of the contaminants of cannabis (National Academies of Sciences Engineering, and Medicine. The health effects of cannabis and cannabinoids: the current state of evidence and recommendations for research. Washington, DC; 2017). This article draws on the research limitations identified by that review and examines a collection of the relevant literature to provide an appreciation of the current evidence base. RESULTS: The review explores the current status of cannabis in medical use, the drug development aspects that apply when taking a plant through to pill development, and the roles that therapeutic drug monitoring and pharmacovigilance have to guide practice until the drug development information on medicinal cannabis preparations is complete. CONCLUSIONS: A surge of public and clinical interest in the possible therapeutic applications of constituent cannabinoids has potentiated global legislative and policy reform. However, our understanding of its properties, optimized use, and harmful effects remains incomplete (Therapeutic Goods Administration. Guidance for the use of medicinal cannabis in Australia In: Department of Health Department, editor. Woden ACT Australian Government 2017; Dryburgh LM, Bolan NS, Grof CP, Galettis P, Schneider J, Lucas CJ, et al. Cannabis contaminants: sources, distribution, human toxicity and pharmacologic effects. Brit J Clin Pharm. 2018;84(11):2468-2476). In particular, a comprehensive appreciation of its toxicity profile is lacking.

Pharmacological evidence of medicinal cannabis in oncology: a systematic review.

PURPOSE: This systematic literature review examines research into the use of medicinal cannabis in cancer management. The aim was to identify the gaps in knowledge on the dose, dosing schedule and absorption of the administration routes of medicinal cannabis use in oncology. METHODS: A comprehensive search of the literature was conducted across six databases to identify original data reporting the pharmacology of medicinal cannabis in oncology. RESULTS: Eighteen articles were selected for review. Of the selected articles, ten were identified as randomised control trials, two experimental studies, two retrospective cohort studies and four case studies. Four articles reported absorption data and one drug interaction study was identified. CONCLUSIONS: There is little evidence reported in the literature on the absorption of medicinal cannabis in cancer populations. Various reasons are explored for the lack of pharmacokinetic studies for medicinal cannabis in cancer populations, including the availability of assays to accurately assess cannabinoid levels, lack of clinical biomarkers and patient enrolment for pharmacokinetic studies.

Evaluation of medical marijuana topics in the PharmD curriculum: A national survey of schools and colleges of pharmacy.

INTRODUCTION: To summarize the status of medical marijuana instruction in the PharmD curriculum and capture future plans for the incorporation of medical marijuana content. METHODS: One hundred and forty United States schools and colleges of pharmacy were contacted to complete an anonymous survey regarding inclusion of medical marijuana topics in their curriculum, future plans for inclusion, and evaluation of perceived importance of specific topics. RESULTS: Forty nine percent (68/140) of schools and colleges completed the survey and 62% (44/68) include medical marijuana content in their curriculum. Of the schools and colleges that do not include it, 23% (6/26) plan to incorporate medical marijuana topics within the next 12 months. In regards to perceived importance of specific topics related to medical marijuana, all topics received a median score of three on a scale of one to five, with one being of high importance. CONCLUSION: With more states legalizing medical marijuana, schools and colleges of pharmacy need to evaluate inclusion of medical marijuana topics in their curriculum to prepare student pharmacists to effectively care for patients using this product.

Medicinal cannabinoids in palliative care.

The treatment of symptoms in people with palliative diagnoses begins with meticulous clinical assessment with treatment choice(s) selected based on an understanding of the symptom aetiology and the evidence which underpins its treatment. Increasingly, the merits of palliative care have been established earlier in the disease trajectory where treatment outcomes may include increased survival and maintenance of function. There is strong public support for the availability of medicinal cannabis, particularly for people with palliative diagnoses. There are several areas where there is potential for symptom benefits through modulation of the endocannabinoid system, though clinical data to date has been inconclusive in key symptoms such as pain and nausea, and data from other settings such as chemotherapy-induced nausea and vomiting not readily extrapolated. Ideally exploration of medicinal cannabinoids should occur within a clinical trial to accelerate the evidence base to inform practice. In people with refractory symptoms, the consideration of unregistered products or off-label prescribing should be guided by the potential influences of pharmacokinetic, pharmacodynamic and drug-drug interactions, supported by an informed discussion with the patient, and regular review of net clinical benefit.

Sex-Dependent Effects of Cannabis and Cannabinoids: A Translational Perspective.

Recent policy changes have led to significant increases in the use of cannabis for both medical and recreational purposes. Although men are more likely to endorse past month cannabis use and are more frequently diagnosed with Cannabis Use Disorder relative to women, a growing proportion of medical cannabis users are reported to be women. The increased popularity of cannabis for medical purposes and the narrowing gap in prevalence of use between men and women raises questions regarding sex-dependent effects related to therapeutic efficacy and negative health effects of cannabis and cannabinoids. The objective of this review is to provide a translational perspective on the sex-dependent effects of cannabis and cannabinoids by synthesizing findings from preclinical and clinical studies focused on sex comparisons of their therapeutic potential and abuse liability, two specific areas that are of significant public health relevance. Hormonal and pharmacological mechanisms that may underlie sex differences in the effects of cannabis and cannabinoids are highlighted.

Patient Counseling Guidelines for the Use of Cannabis for the Treatment of Chemotherapy-Induced Nausea/Vomiting and Chronic Pain.

The use of cannabis medications has grown in recent years for the symptomatic relief of chemotherapy-induced nausea/vomiting (CINV) and chronic pain (cancer-related and non-cancer-related). As states legalize the use of cannabis, it is important for pharmacists and other health care professionals to be aware of how to counsel patients receiving prescriptions for cannabis medications. The aim of this study was to develop patient counseling guidelines for the use of cannabis products in treatment of CINV and chronic pain. A literature search was performed using Medline/PubMed resources and Google Scholar between July 2015 and August 2018 using broad search terms, e.g., cannabinoids adverse effects, cannabis, natural cannabinoids, and tetrahydrocannabinol. Using the American Society of Health-System Pharmacists patient counseling guidelines and medical information on cannabis medications gathered from drug databases, a comprehensive counseling guideline was developed. Medical evidence of the use of natural cannabis medications that are smoked or orally ingested have not been studied as extensively as oral therapeutic agents currently available. Cannabis medications have become more prevalent by approval of legislators in several states. Hence, pharmacists and health care professionals should counsel patients effectively on its use. This guideline needs to be tested to assess its utility in patients.

A review of oral cannabinoids and medical marijuana for the treatment of chemotherapy-induced nausea and vomiting: a focus on pharmacokinetic variability and pharmacodynamics.

PURPOSE: Oral cannabinoids (i.e., dronabinol, nabilone) containing the active component of marijuana, delta(Δ)9-tetrahydrocannabinol (THC), are available for the treatment of chemotherapy-induced nausea and vomiting (CINV) in patients with cancer who have failed to adequately respond to conventional antiemetic therapy. The aim of this article is to provide an overview of the efficacy, pharmacokinetics (PK), pharmacodynamics (PD), and safety of oral cannabinoids for patients with CINV. METHODS: A PubMed search of the English-language literature available through 4 January 2017 was conducted to identify relevant articles for inclusion in the review. RESULTS: Oral cannabinoids have been shown to have similar or improved efficacy compared with conventional antiemetics for the resolution of nausea and/or vomiting in patients with cancer. However, oral THC has high PK variability, with variability in oral dronabinol peak plasma concentrations (C max) estimated between 150 and 200%. A new oral dronabinol solution has decreased intraindividual variability (area under the curve) vs oral dronabinol capsules. Further, oral THC has a slower time to C max compared with THC administered intravenously (IV) or by smoking, and a lower systemic availability than IV or smoked THC. The PD profile (e.g., "high") of oral THC differs from that of IV or smoked THC in healthy individuals. Oral cannabinoids are associated with greater incidence of adverse effects compared with conventional antiemetic therapy or placebo (e.g., dizziness, hypotension, and dysphoria or depression). CONCLUSIONS: A new formulation of oral cannabinoids (i.e., dronabinol oral solution) minimized the PK/PD variability currently observed with capsule formulations.

Cannabis en el tratamiento del dolor: consideraciones clínicas y de investigación / Cannabis in pain treatment: clinical and research considerations

No disponible

Comprehensive Review of Medicinal Marijuana, Cannabinoids, and Therapeutic Implications in Medicine and Headache: What a Long Strange Trip It's Been .

BACKGROUND: The use of cannabis, or marijuana, for medicinal purposes is deeply rooted though history, dating back to ancient times. It once held a prominent position in the history of medicine, recommended by many eminent physicians for numerous diseases, particularly headache and migraine. Through the decades, this plant has taken a fascinating journey from a legal and frequently prescribed status to illegal, driven by political and social factors rather than by science. However, with an abundance of growing support for its multitude of medicinal uses, the misguided stigma of cannabis is fading, and there has been a dramatic push for legalizing medicinal cannabis and research. Almost half of the United States has now legalized medicinal cannabis, several states have legalized recreational use, and others have legalized cannabidiol-only use, which is one of many therapeutic cannabinoids extracted from cannabis. Physicians need to be educated on the history, pharmacology, clinical indications, and proper clinical use of cannabis, as patients will inevitably inquire about it for many diseases, including chronic pain and headache disorders for which there is some intriguing supportive evidence. OBJECTIVE: To review the history of medicinal cannabis use, discuss the pharmacology and physiology of the endocannabinoid system and cannabis-derived cannabinoids, perform a comprehensive literature review of the clinical uses of medicinal cannabis and cannabinoids with a focus on migraine and other headache disorders, and outline general clinical practice guidelines. CONCLUSION: The literature suggests that the medicinal use of cannabis may have a therapeutic role for a multitude of diseases, particularly chronic pain disorders including headache. Supporting literature suggests a role for medicinal cannabis and cannabinoids in several types of headache disorders including migraine and cluster headache, although it is primarily limited to case based, anecdotal, or laboratory-based scientific research. Cannabis contains an extensive number of pharmacological and biochemical compounds, of which only a minority are understood, so many potential therapeutic uses likely remain undiscovered. Cannabinoids appear to modulate and interact at many pathways inherent to migraine, triptan mechanisms ofaction, and opiate pathways, suggesting potential synergistic or similar benefits. Modulation of the endocannabinoid system through agonism or antagonism of its receptors, targeting its metabolic pathways, or combining cannabinoids with other analgesics for synergistic effects, may provide the foundation for many new classes of medications. Despite the limited evidence and research suggesting a role for cannabis and cannabinoids in some headache disorders, randomized clinical trials are lacking and necessary for confirmation and further evaluation.

Medical marijuana in the workplace: challenges and management options for occupational physicians.

Although possession and use of marijuana is prohibited by federal law, legalization in four states (Alaska, Colorado, Oregon, and Washington) and allowance for palliation and therapy in 19 others may reposition the drug away from the fringes of society. This evolving legal environment, and growing scientific evidence of its effectiveness for select health conditions, requires assessment of the safety and appropriateness of marijuana within the American workforce. Although studies have suggested that marijuana may be used with reasonable safety in some controlled environments, there are potential consequences to its use that necessitate employer scrutiny and concern. Several drug characteristics must be considered, including Δ-tetrahydrocannabinol (Δ-THC, or THC) concentration, route of administration, dose and frequency, and pharmacokinetics, as well as the risks inherent to particular workplace environments.

The pharmacokinetics, efficacy, safety, and ease of use of a novel portable metered-dose cannabis inhaler in patients with chronic neuropathic pain: a phase 1a study.

Chronic neuropathic pain is often refractory to standard pharmacological treatments. Although growing evidence supports the use of inhaled cannabis for neuropathic pain, the lack of standard inhaled dosing plays a major obstacle in cannabis becoming a "main stream" pharmacological treatment for neuropathic pain. The objective of this study was to explore the pharmacokinetics, safety, tolerability, efficacy, and ease of use of a novel portable thermal-metered-dose inhaler (tMDI) for cannabis in a cohort of eight patients suffering from chronic neuropathic pain and on a stable analgesic regimen including medicinal cannabis. In a single-dose, open-label study, patients inhaled a single 15.1 ± 0.1 mg dose of cannabis using the Syqe Inhaler device. Blood samples for Δ(9)-tetrahydrocannabinol (THC) and 11-hydroxy-Δ(9)-THC were taken at baseline and up to 120 minutes. Pain intensity (0-10 VAS), adverse events, and satisfaction score were monitored following the inhalation. A uniform pharmacokinetic profile was exhibited across all participants (Δ(9)-THC plasma Cmax ± SD was 38 ± 10 ng/mL, Tmax ± SD was 3 ± 1 minutes, AUC0→infinity ± SD was 607 ± 200 ng·min/mL). Higher plasma Cmax increase per mg Δ(9)-THC administered (12.3 ng/mL/mg THC) and lower interindividual variability of Cmax (25.3%), compared with reported alternative modes of THC delivery, were measured. A significant 45% reduction in pain intensity was noted 20 minutes post inhalation (P = .001), turning back to baseline within 90 minutes. Tolerable, lightheadedness, lasting 15-30 minutes and requiring no intervention, was the only reported adverse event. This trial suggests the potential use of the Syqe Inhaler device as a smokeless delivery system of medicinal cannabis, producing a Δ(9)-THC pharmacokinetic profile with low interindividual variation of Cmax, achieving pharmaceutical standards for inhaled drugs.

Utilidad terapéutica del Cannabis y derivados / Therapeutic uses of cannabis

En este capítulo se expone el estado actual del conocimiento sobre las propiedades terapéuticas del Cannabis (marihuana y derivados sintéticos). En los últimos años se han presentado un gran número de evidencias científicas sobre las propiedades terapéuticas de los cannabinoides, en especial analgesia, disminución de la presión intraocular, efecto antiemético en vómitos inducidos por quimioterapia antineoplásica, propiedades relajantes musculares en esclerosis múltiple, traumatismos medulares y alteraciones del movimiento. Además, algunas aportaciones recientes indican otros posibles usos de estas sustancias como neuroprotectores (en modelos animales de enfermedades neurodegenerativas e isquemia cerebral), antiasmáticos y anticonvulsivantes. Más recientemente, algunos compuestos naturales y agentes sintéticos agonistas de receptores CB han demostrado efectos antineoplásicos in vivo e in vitro. En la actualidad se está llevando a cabo un amplio debate internacional sobre las evidencias científicas versus las restricciones de tipo legal sobre el posible uso de estos compuestos. Se necesitan más estudios clínicos con el fin de establecer qué dosis, vías de administración son las más adecuadas en cada caso, así como el balance entre beneficio y riesgo comparando los cannabinoides con otras estrategias terapéuticas (AU)

This chapter aims to present the current knowledge of the therapeutic properties of cannabinoids (marijuana and its synthetic derivatives). A growing body of evidence has been presented over the last years about the therapeutic properties of cannabinoids including analgesia, ocular hypotension, antiemesis in cancer chemotherapy, muscle-relaxing properties in multiple sclerosis, medullar traumatisms and movement disorders. Furthermore, recent reports indicates other potential therapeutic roles for cannabinoids as neuroprotectants (in animal models of neurodegenerative diseases and brain ischaemia), antiathsmatic or anticonvulsivants. More recently some naturally occurring compounds as well as several others CB agonists receptor have demonstrated antineoplastic effects both in vitro and in vivo. A large international debate is currently carry on scientific evidences versus legal restrictions about the possible use of these compounds. More clinical studies are needed to establish a rationale for dosage regimen, routes of administration, and a complete risk - benefit balance comparing cannabinoids and other therapeutic approaches (AU)