Tag Archives: cannabidiol

Cannabidiol–antiepileptic drug comparisons and interactions in experimentally induced seizures in rats.

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Abstract

“A comparison of the anticonvulsant and neurotoxic effects of cannabidiol (CBD), delta 9tetrahydrocannabinol, cannabinol and antiepileptic drugs (phenytoin, phenobarbital, carbamazepine, chlordiazepoxide, clonazepam, ethosuximide and trimethadione) was made in rats. Median effective potencies (ED 50 values) for maximal electroshock, audiogenic seizures and TD50 values for a rotor rod neurotoxicity test were calculated. Additionally, the interactive effects of CBD and the antiepileptic drugs against maximal electroshock and audiogenic seizures were studied. Each drug was given orally at peak effect time. CBD was an effective and relatively potent anticonvulsant in both maximal electroshock and audiogenic seizure tests. The anticonvulsant potency of phenytoin was significantly increased when combined with phenobarbital, CBD and phenobarbital plus CBD. Additionally, CBD reliably reduced the anticonvulsant potencies of chlordiazepoxide, clonazepam, trimethadione and ethosuximide. These data indicate that CBD is an effective anticonvulsant with a specificity more comparable to drugs clinically effective in major than minor seizures. Furthermore, it appears that CBD enhances the anticonvulsant effects of the former and reduces the effects of the latter types of antiepileptic drugs.”

http://www.ncbi.nlm.nih.gov/pubmed/850145

Cannabidiol exerts anti-convulsant effects in animal models of temporal lobe and partial seizures.

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    “Cannabis sativa has been associated with contradictory effects upon seizure states despite its medicinal use by numerous people with epilepsy. We have recently shown that the phytocannabinoid cannabidiol (CBD) reduces seizure severity and lethality in the well-established in vivo model of pentylenetetrazole-induced generalised seizures, suggesting that earlier, small-scale clinical trials examining CBD effects in people with epilepsy warrant renewed attention… These results extend the anti-convulsant profile of CBD; when combined with a reported absence of psychoactive effects, this evidence strongly supports CBD as a therapeutic candidate for a diverse range of human epilepsies.”

http://www.ncbi.nlm.nih.gov/pubmed/22520455

Cannabidiol Displays Antiepileptiform and Antiseizure Properties In Vitro and In Vivo

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“CBD is the major nonpsychoactive component of Cannabis sativa whose structure was first described by Mechoulam and Shvo (1963); CBD has recently attracted renewed interest for its therapeutic potential in a number of disease states. CBD has been proposed to possess anticonvulsive, neuroprotective, and anti-inflammatory properties in humans.”

 “Plant-derived cannabinoids (phytocannabinoids) are compounds with emerging therapeutic potential. Early studies suggested that cannabidiol (CBD) has anticonvulsant properties in animal models and reduced seizure frequency in limited human trials. Here, we examine the antiepileptiform and antiseizure potential of CBD using in vitro electrophysiology and an in vivo animal seizure model…. These findings suggest that CBD acts, potentially in a CB1 receptor-independent manner, to inhibit epileptiform activity in vitro and seizure severity in vivo. Thus, we demonstrate the potential of CBD as a novel antiepileptic drug in the unmet clinical need associated with generalized seizures.”

“In conclusion, our data in separate in vitro models of epileptiform activity and, in particular, the beneficial reductions in seizure severity caused by CBD in an in vivo animal model of generalized seizures suggests that earlier, small-scale clinical trials for CBD in untreated epilepsy warrant urgent renewed investigation.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2819831/

Medicinal cannabis: is delta9-tetrahydrocannabinol necessary for all its effects?

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Abstract

  “Cannabis is under clinical investigation to assess its potential for medicinal use, but the question arises as to whether there is any advantage in using cannabis extracts compared with isolated Delta9-trans-tetrahydrocannabinol (Delta9THC), the major psychoactive component. We have compared the effect of a standardized cannabis extract (SCE) with pure Delta9THC, at matched concentrations of Delta9THC, and also with a Delta9THC-free extract (Delta9THC-free SCE), using two cannabinoid-sensitive models, a mouse model of multiple sclerosis (MS), and an in-vitro rat brain slice model of epilepsy. Whilst SCE inhibited spasticity in the mouse model of MS to a comparable level, it caused a more rapid onset of muscle relaxation, and a reduction in the time to maximum effect compared with Delta9THC alone. The Delta9THC-free extract or cannabidiol (CBD) caused no inhibition of spasticity. However, in the in-vitro epilepsy model, in which sustained epileptiform seizures were induced by the muscarinic receptor agonist oxotremorine-M in immature rat piriform cortical brain slices, SCE was a more potent and again more rapidly-acting anticonvulsant than isolated Delta9THC, but in this model, the Delta9THC-free extract also exhibited anticonvulsant activity. Cannabidiol did not inhibit seizures, nor did it modulate the activity of Delta9THC in this model. Therefore, as far as some actions of cannabis were concerned (e.g. antispasticity), Delta9THC was the active constituent, which might be modified by the presence of other components. However, for other effects (e.g. anticonvulsant properties) Delta9THC, although active, might not be necessary for the observed effect. Above all, these results demonstrated that not all of the therapeutic actions of cannabis herb might be due to the Delta9THC content.”

http://www.ncbi.nlm.nih.gov/pubmed/14738597

Cannabinoid-like anti-inflammatory compounds from flax fiber.

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Abstract

“Flax is a valuable source of fibers, linseed and oil. The compounds of the latter two products have already been widely examined and have been proven to possess many health-beneficial properties. In the course of analysis of fibers extract from previously generated transgenic plants overproducing phenylpropanoids a new terpenoid compound was discovered.The UV spectra and the retention time in UPLC analysis of this new compound reveal similarity to a cannabinoid-like compound, probably cannabidiol (CBD). This was confirmed by finding two ions at m/z 174.1 and 231.2 in mass spectra analysis. Further confirmation of the nature of the compound was based on a biological activity assay. It was found that the compound affects the expression of genes involved in inflammatory processes in mouse and human fibroblasts and likely the CBD from Cannabis sativa activates the specific peripheral cannabinoid receptor 2 (CB2) gene expression. Besides fibers, the compound was also found in all other flax tissues. It should be pointed out that the industrial process of fabric production does not affect CBD activity.The presented data suggest for the first time that flax products can be a source of biologically active cannabinoid-like compounds that are able to influence the cell immunological response. These findings might open up many new applications for medical flax products, especially for the fabric as a material for wound dressing with anti-inflammatory properties.”

http://www.ncbi.nlm.nih.gov/pubmed/22706678

Medical Marijuana Inc. Marijuana Extract Cannabidiol (CBD) Anti-inflammatory Properties

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 “SAN DIEGO–(BUSINESS WIRE)–Medical Marijuana Inc (OTC: MJNA) is pleased to announce that studies have shown Cannabidiol (CBD) has anti-inflammatory properties. Medical Marijuana Inc. through CannaBANK has a patent pending on an extraction method from Cannabis (Marijuana) and its industrialized non psychoactive counterpart Hemp, allowing Cannabidiol (CBD) to be isolated in its pure form. Once isolated the Cannabidiol can be added as a direct counter agent or as an additive to other current anti-inflammatory products.

Medical Marijuana Inc. is planning on expanding its Cannabidiol sales through licensing agreements with companies already involved in the heavily marketed nutraceutical and pharmaceutical markets.

Resources and Abstracts on Anti-inflammatory properties of Cannabidiol:
United States National Library of Medicine (PubMed)”

http://www.ncbi.nlm.nih.gov/pubmed/19199042
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3034694/
http://www.ncbi.nlm.nih.gov/pubmed/19070683
http://www.ncbi.nlm.nih.gov/pubmed/18641283
http://www.ncbi.nlm.nih.gov/pubmed/18469842
http://www.ncbi.nlm.nih.gov/pubmed/14963641

http://www.businesswire.com/news/home/20110923005989/en/Medical-Marijuana-Marijuana-Extract-Cannabidiol-CBD-Anti-inflammatory?fb_action_ids=459561104080536&fb_action_types=og.likes&fb_ref=news_view&fb_source=aggregation&fb_aggregation_id=288381481237582

Cannabidiol, extracted from Cannabis sativa, selectively inhibits inflammatory hypermotility in mice

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 “Cannabidiol is a Cannabis-derived non-psychotropic compound that exerts a plethora of pharmacological actions, including anti-inflammatory, neuroprotective and antitumour effects, with potential therapeutic interest. However, the actions of cannabidiol in the digestive tract are largely unexplored. In the present study, we investigated the effect of cannabidiol on intestinal motility in normal (control) mice and in mice with intestinal inflammation.”

“Cannabidiol selectively reduces croton oil-induced hypermotility in mice in vivo and this effect involves cannabinoid CB1 receptors and FAAH. In view of its low toxicity in humans, cannabidiol may represent a good candidate to normalize motility in patients with inflammatory bowel disease.”

“The plant Cannabis sativa contains more than 60 terpenophenolic compounds, named phytocannabinoids. The best-studied phytocannabinoid is Δ9-tetrahydrocannabinol, which binds specific G-protein-coupled receptors, named cannabinoid (CB1 and CB2) receptors. The well-known psychotropic effects of Δ9-tetrahydrocannabinol, which are largely mediated by activation of brain cannabinoid CB1 receptors, have always raised a number of clinical and ethical problems. Therefore, a valid therapeutic alternative may be the use of non-psychotropic phytocannabinoids, including cannabidiol (CBD). CBD, unlike Δ9-tetrahydrocannabinol, has very low affinity for both cannabinoid CB1 and CB2 receptors, although it has been proposed that CBD may modulate endocannabinoid function through its ability to inhibit the hydrolysis of anandamide and to act as a transient receptor potential vanilloid 1 agonist. CBD is a major component of Sativex, a preparation of cannabinoids, which has been approved by Health Canada for the treatment of neuropathic pain in multiple sclerosis.”

“The pharmacological profile of CBD has been recently reviewed. Briefly stated, CBD has been shown to exert (1) antioxidant, neuroprotective and antiproliferative actions in cultured cells and (2) anti-anxiety, hypnotic, anticonvulsant, neuroprotective, antinausea, anti-ischaemic, anticancer and notably anti-inflammatory effects in rodents in vivo. The anti-inflammatory effects of CBD have been demonstrated in both acute and chronic experimental models of inflammation, that is, paw oedema and arthritis.”

“In conclusion, we have shown that the marijuana component CBD normalize intestinal motility in an experimental model of ileitis. In vitro results showed antispasmodic actions of CBD on intestinal ileal segments. The inhibitory effect of CBD involves, at least in vivo, cannabinoid CB1 receptors and FAAH. In view of its safety records in humans (an average daily dose of about 700 mg/day for 6 weeks was found to be non-toxic, relative to placebo, in clinical trials; and because CBD reduced motility during inflammation and not in physiological conditions, CBD might be considered as a good candidate to be clinically evaluated for the treatment of hypermotility associated with inflammatory bowel disease.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2451037/

Cannabidiol reduces lipopolysaccharide-induced vascular changes and inflammation in the mouse brain: an intravital microscopy study

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  Journal of Neuroinflammation logo

“The phytocannabinoid cannabidiol (CBD) exhibits antioxidant and antiinflammatory properties. The present study was designed to explore its effects in a mouse model of sepsis-related encephalitis by intravenous administration of lipopolysaccharide (LPS).”.

“CBD prevented LPS-induced arteriolar and venular vasodilation as well as leukocyte margination. In addition, CBD abolished LPS-induced increases in tumor necrosis factor-alpha and cyclooxygenase-2 expression as measured by quantitative real time PCR. The expression of the inducible-nitric oxide synthase was also reduced by CBD. Finally, preservation of Blood Brain Barrier integrity was also associated to the treatment with CBD.”

“These data highlight the antiinflammatory and vascular-stabilizing effects of CBD in endotoxic shock and suggest a possible beneficial effect of this natural cannabinoid.”

“Cannabidiol (CBD] is a phytocannabinoid with well-known antiinflammatory and antioxidant properties. El-Remessy et al recently reported that CBD prevented inflammatory and oxidative damage and preserved endothelial integrity in an experimental model of diabetic retinopathy. Furthermore, CBD preserves cerebral circulation in pathological conditions such as brain ischemia. Recent data support the clinical use of CBD for the treatment of a variety of damaging conditions, including nephropathy and diabetic cardiomyopathy. In particular, the antioxidant properties of CBD seem to play a major role in the protective effects of this phytocannabinoid against the oxidative and nitrosative stress induced by chemoterapy agents and by high glucose conditions.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3034694/

https://jneuroinflammation.biomedcentral.com/articles/10.1186/1742-2094-8-5

Prolonged oral cannabinoid administration prevents neuroinflammation, lowers β-amyloid levels and improves cognitive performance in Tg APP 2576 mice

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“Background

Alzheimer’s disease (AD) brain shows an ongoing inflammatory condition and non-steroidal anti-inflammatories diminish the risk of suffering the neurologic disease. Cannabinoids are neuroprotective and anti-inflammatory agents with therapeutic potential.”

“… we have shown that chronically administered cannabinoid showed marked beneficial effects concomitant with inflammation reduction and increased Aβ clearance.”

“Cannabinoids, whether plant derived, synthetic or endocannabinoids, interact with two well characterized cannabinoid receptors, CB1 and CB2 . In addition, some cannabinoids may interact with other receptors, such as the TRPV1 receptor or the orphan receptor GPR55. The CB1 receptor is widely distributed, with a particularly high expression in brain, which contrasts with the limited expression of the CB2 receptor, which is characteristic of immune organs and cells. In fact, while CB1 receptors are expressed by all types of cells in the brain (neurons and glial cells), CB2 are mainly localized in microglial cells, the resident immune cell of the brain.”

“We and others have proposed cannabinoids as preventive treatment for AD, based on their neuroprotective and anti-inflammatory effects. Indeed, cannabinoids are able to decrease the release of cytokines and nitric oxide in cultured microglial cells induced by lipopolysacharide and Aβ addition. In several in vitro studies cannabidiol (CBD), the major non-psychotropic constituent of cannabis, has shown to be neuroprotective against β-amyloid (Aβ) addition to cultured cells.”

“Conclusions

In summary, cannabinoid agonists, in particular CB2 selective agonists, interfere with several interconnected events of importance in the pathophysiology of AD. These compounds by directly interacting with cannabinoid receptors, in particular CB2, decrease microglial activation thereby reducing inflammation and its consequences (eg cognitive deficits). At the same time they may indirectly have beneficial effects on microglial activation (eg decrease cytokine release) by lowering brain Aβ levels.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3292807/

The non-psychoactive cannabis constituent cannabidiol is an orally effective therapeutic agent in rat chronic inflammatory and neuropathic pain.

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Abstract

“Cannabidiol, the major psycho-inactive component of cannabis, has substantial anti-inflammatory and immunomodulatory effects. This study investigated its therapeutic potential on neuropathic (sciatic nerve chronic constriction) and inflammatory pain (complete Freund’s adjuvant intraplantar injection) in rats. In both models, daily oral treatment with cannabidiol (2.5-20 mg/kg to neuropathic and 20 mg/kg to adjuvant-injected rats) from day 7 to day 14 after the injury, or intraplantar injection, reduced hyperalgesia to thermal and mechanical stimuli. In the neuropathic animals, the anti-hyperalgesic effect of cannabidiol (20 mg/kg) was prevented by the vanilloid antagonist capsazepine (10 mg/kg, i.p.), but not by cannabinoid receptor antagonists. Cannabidiol’s activity was associated with a reduction in the content of several mediators, such as prostaglandin E(2) (PGE(2)), lipid peroxide and nitric oxide (NO), and in the over-activity of glutathione-related enzymes. Cannabidiol only reduced the over-expression of constitutive endothelial NO synthase (NOS), without significantly affecting the inducible form (iNOS) in inflamed paw tissues. Cannabidiol had no effect on neuronal and iNOS isoforms in injured sciatic nerve. The compound’s efficacy on neuropathic pain was not accompanied by any reduction in nuclear factor-kappaB (NF-kappaB) activation and tumor necrosis factor alpha (TNFalpha) content. The results indicate a potential for therapeutic use of cannabidiol in chronic painful states.”

http://www.ncbi.nlm.nih.gov/pubmed/17157290