Tag Archives: treatment

Hypoxia mimetic activity of VCE-004.8, a cannabidiol quinone derivative: implications for multiple sclerosis therapy.

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“Multiple sclerosis (MS) is characterized by a combination of inflammatory and neurodegenerative processes variously dominant in different stages of the disease. Thus, immunosuppression is the goal standard for the inflammatory stage, and novel remyelination therapies are pursued to restore lost function.

Cannabinoids such as 9Δ-THC and CBD are multi-target compounds already introduced in the clinical practice for multiple sclerosis (MS). Semisynthetic cannabinoids are designed to improve bioactivities and druggability of their natural precursors. VCE-004.8, an aminoquinone derivative of cannabidiol (CBD), is a dual PPARγ and CB2agonist with potent anti-inflammatory activity.

Activation of the hypoxia-inducible factor (HIF) can have a beneficial role in MS by modulating the immune response and favoring neuroprotection and axonal regeneration.

We investigated the effects of VCE-004.8 on the HIF pathway in different cell types.

CONCLUSIONS:

This study provides new significant insights about the potential role of VCE-004.8 for MS treatment by ameliorating neuroinflammation and demyelination.”

https://www.ncbi.nlm.nih.gov/pubmed/29495967

https://jneuroinflammation.biomedcentral.com/articles/10.1186/s12974-018-1103-y

Prospective analysis of safety and efficacy of medical cannabis in large unselected population of patients with cancer

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Cover image volume 49, Issue

“Cancer is a major public health problem as the leading cause of death. Palliative treatment aimed to alleviate pain and nausea in patients with advanced disease is a cornerstone of oncology.

In 2007, the Israeli Ministry of Health began providing approvals for medical cannabis for the palliation of cancer symptoms. The aim of this study is to characterize the epidemiology of cancer patients receiving medical cannabis treatment and describe the safety and efficacy of this therapy.

Methods

We analyzed the data routinely collected as part of the treatment program of 2970 cancer patients treated with medical cannabis between 2015 and 2017.

Results

The average age was 59.5 ± 16.3 years, 54.6% women and 26.7% of the patients reported previous experience with cannabis. The most frequent types of cancer were: breast (20.7%), lung (13.6%), pancreatic (8.1%) and colorectal (7.9%) with 51.2% being at stage 4. The main symptoms requiring therapy were: sleep problems (78.4%), pain (77.7%, median intensity 8/10), weakness (72.7%), nausea (64.6%) and lack of appetite (48.9%). After six months of follow up, 902 patients (24.9%) died and 682 (18.8%) stopped the treatment. Of the remaining, 1211 (60.6%) responded; 95.9% reported an improvement in their condition, 45 patients (3.7%) reported no change and four patients (0.3%) reported deterioration in their medical condition.

Conclusions

Cannabis as a palliative treatment for cancer patients seems to be well tolerated, effective and safe option to help patients cope with the malignancy related symptoms.”

https://www.ncbi.nlm.nih.gov/pubmed/29482741

http://www.ejinme.com/article/S0953-6205(18)30023-2/pdf

“Cannabis to be a “Safe,” “Effective” Medical Treatment in First-of-its-Kind, Peer-Reviewed Study of Thousands of Cancer Patients Using Tikun Olam™ Strains”  http://markets.businessinsider.com/news/stocks/cannabis-to-be-a-safe-effective-medical-treatment-in-first-of-its-kind-peer-reviewed-study-of-thousands-of-cancer-patients-using-tikun-olam-strains-1017297749

“For the first time, a major scientific study has confirmed what cannabis advocates have known for decades: that cannabis can be a safe and effective palliative treatment in patients suffering from the debilitating effects of cancer.”  https://www.prnewswire.com/news-releases/cannabis-to-be-a-safe-effective-medical-treatment-in-first-of-its-kind-peer-reviewed-study-of-thousands-of-cancer-patients-using-tikun-olam-strains-300604361.html

Cannabidiol inhibits pathogenic T cells, decreases spinal microglial activation and ameliorates multiple sclerosis-like disease in C57BL/6 mice.

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British Journal of Pharmacology

“Cannabis extracts and several cannabinoids have been shown to exert broad anti-inflammatory activities in experimental models of inflammatory CNS degenerative diseases.

Clinical use of many cannabinoids is limited by their psychotropic effects. However, phytocannabinoids like cannabidiol (CBD), devoid of psychoactive activity, are, potentially, safe and effective alternatives for alleviating neuroinflammation and neurodegeneration.

Treatment with CBD during disease onset ameliorated the severity of the clinical signs of EAE.

CBD, a non-psychoactive cannabinoid, ameliorates clinical signs of EAE in mice, immunized against MOG. Suppression of microglial activity and T-cell proliferation by CBD appeared to contribute to these beneficial effects.”

https://www.ncbi.nlm.nih.gov/pubmed/21449980

“In summary, we have shown that CBD administered to MOG-immunized C57BL/6 mice, at the onset of EAE disease, reduced the severity of the clinical signs of EAE. CBD treatment was accompanied by diminished axonal loss and inflammation (infiltration of T cells and microglial activation). Moreover, CBD prevented proliferation of myelin-specific T cells in vitro. These observations suggest that CBD may have potential for alleviating MS-like pathology.” http://onlinelibrary.wiley.com/doi/10.1111/j.1476-5381.2011.01379.x/full

“Study Shows Cannabidiol (CBD) Improves MS-Like Symptoms”  http://www.prohealth.com/library/showarticle.cfm?libid=31211

Exogenous Cannabinoid Efficacy: Merely a Pharmacokinetic Interaction?

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Clinical Pharmacokinetics

“Endocannabinoid pharmacology is now relatively well understood with a number of endocannabinoids and endogenous cannabinoid neurotransmitters identified and the pharmacokinetics relatively well ascertained.

Further, the cannabinoid receptors are now molecularly and pharmacologically characterised and the cell processes involved in endocannabinoid transcription, synthesis, post-translational modification and protein expression are reported.

Endogenous cannabinoids have been shown to have key roles in immune and pain pathways and neuro-behavioural signalling including appetite regulation. Significant recent interest has thus been shown in understanding these pathways to guide the development of agents that inhibit the natural catabolism of endogenous cannabinoids to modify pain and appetite, and to synthesise antagonists for the treatment of disease such as obesity.

This research is concurrent with the renewed clinical interest in exogenous cannabinoids and their use in disease. However, the complex pharmacology and physiological effects of exogenous cannabinoids, either as individual components or in combination, as extracts or via administration of the whole plant in humans, are less well known.

Yet as with all other therapeutics, including those derived from plants, knowledge of the pharmacokinetics and dynamics of the complete plant, the individual chemical molecules and their synthetic versions, including formulations and excipients is a standard part of drug development.

This article covers the key pharmacological knowledge required to guide further exploration of the toxicity and efficacy of different cannabinoids and their formulations in blinded placebo-controlled studies.”

https://www.ncbi.nlm.nih.gov/pubmed/28921125

https://link.springer.com/article/10.1007%2Fs40262-017-0599-0

Time-dependent effect of phytocannabinoid treatments in fat cells.

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“The objectives of this paper is to investigate, demonstrate, and compare the mechanism of action of phytocannabinoids as antidiabetic and anti-obesity agents in preadipocytes and adipocytes, relative to rosiglitazone and metformin.

Briefly, cannabis extract, Δ9 -tetrahydrocannabinol and cannabidiol (in very low dosages) were shown to promote glucose uptake higher or to equivalent levels, reduce fat accumulation, and reverse the insulin-resistant state of 3T3-L1 cells more effectively, relative to rosiglitazone and metformin. The phytocannabinoids had a more pronounced effect in preadipocytes undifferentiated model rather than the differentiated model. They induced a protective effect at the mitochondrial level by preventing overactivity of the succinate dehydrogenase pathway (p < .01), unlike rosiglitazone, through activation of the glycerol-3-phosphate dehydrogenase shuttling system. An increase in oxygen consumption and an increased expression of beta to alpha adrenoceptors (p < .05) in treated cells were noted.

These findings contribute toward understanding the mechanism of action of phytocannabinoids in fat cells and highlight the antidiabetic and anti-obesity properties of various phytocannabinoids that could potentially support the treatment of obesity-related insulin resistance.”

https://www.ncbi.nlm.nih.gov/pubmed/29464872

Medical Cannabis for the Treatment of Fibromyalgia.

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“Fibromyalgia is a chronic pain syndrome, characterized by chronic musculoskeletal pain, fatigue, and mood disturbances. There are nearly no data on the effect of medical cannabis (MC) treatment on patients with fibromyalgia.

Data were obtained from the registries of 2 hospitals in Israel (Laniado Hospital and Nazareth Hospital) on patients with a diagnosis of fibromyalgia who were treated with MC. After obtaining patient consent, demographic, clinical, and laboratory parameters were documented. All the patients also completed the Revised Fibromyalgia Impact Questionnaire regarding the period before and after MC treatment.

Thirty patients were identified, and 26 patients were included in the study. There were 19 female patients (73%), and the mean age of the study group was 37.8 ± 7.6 years. The mean dosage of MC was 26 ± 8.3 g per month, and the mean duration of MC use was 10.4 ± 11.3 months. After commencing MC treatment, all the patients reported a significant improvement in every parameter on the questionnaire, and 13 patients (50%) stopped taking any other medications for fibromyalgia. Eight patients (30%) experienced very mild adverse effects.

 

CONCLUSIONS:

Medical cannabis treatment had a significant favorable effect on patients with fibromyalgia, with few adverse effects.”

 https://www.ncbi.nlm.nih.gov/pubmed/29461346

https://insights.ovid.com/crossref?an=00124743-900000000-99352

Sex differences in antinociceptive response to Δ-9-tetrahydrocannabinol and CP 55,940 in the mouse formalin test.

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“Cannabinoids have shown promise for the treatment of intractable pain states and may represent an alternative pharmacotherapy for pain management.

A growing body of clinical evidence suggests a role for sex in pain perception and in cannabinoid response.

We examined cannabinoid sensitivity and tolerance in male and female mice expressing a desensitization-resistant form (S426A/S430A) of the cannabinoid type 1 receptor (CB1R).

Mice were assessed for acute and inflammatory nociceptive behaviors in the formalin test following pretreatment with either vehicle or mixed CB1R/CB2R agonists, Δ-9-tetrahydrocannabinol ([INCREMENT]-THC) (1-6 mg/kg) or CP 55,940 (0.06-0.2 mg/kg). Tolerance to the effects of 6 mg/kg [INCREMENT]-THC or 0.1 mg/kg CP 55,940 was examined by the formalin test following chronic daily dosing.

Female mice showed decreased sensitivity to the effects of [INCREMENT]-THC and CP 55,940 compared with male mice. The S426A/S430A mutation increased the attenuation of nociceptive behaviors for both agonists in both sexes. Female mice displayed delayed tolerance to [INCREMENT]-THC compared with male mice, whereas the S426A/S430A mutation conferred a delay in tolerance to [INCREMENT]-THC in both sexes. Male S426A/S430A mutant mice also display resistance to tolerance to CP 55,940 compared with wild-type controls.

This study demonstrates sex and genotype differences in response for two different cannabinoid agonists. The results underscore the importance of including both male and female mice in preclinical studies of pain and cannabinoid pharmacology.”

https://www.ncbi.nlm.nih.gov/pubmed/29461336

https://insights.ovid.com/crossref?an=00001756-900000000-98413

Cannabis for vismodegib-related muscle cramps in a patient with advanced basal cell carcinoma

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Journal of Pain and Symptom Management Home“Vismodegib is a hedgehog inhibitor drug indicated for metastatic or locally advanced basal cell carcinoma (BCC) that is not fit for surgery or radiation therapy.

One of the most common side effects of vismodegib is muscle cramps which can cause a decrease in quality of life (QoL) and treatment discontinuation. Cannabis is known to improve spasticity (including muscle cramps) in multiple sclerosis patients.”

http://www.jpsmjournal.com/article/S0885-3924(18)30070-8/fulltext

“Medical marijuana for the treatment of vismodegib-related muscle spasm. We report a case of vismodegib-related muscle spasm that was successfully treated with medical marijuana (MM).” http://www.jaadcasereports.org/article/S2352-5126(17)30124-8/fulltext

Cannabis as an anticonvulsant

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BMJ Journals“There are records of the cannabis plant being used for medicinal purposes in ancient times, and in the 19th century it was used as an effective anti-epileptic drug (AED) in children.

However, because of its abuse potential, most countries imposed laws restricting its cultivation and use, and this has greatly inhibited research into possible therapeutic uses.

Things are now changing, and cannabis derivatives are now used legally to treat, for example, pain, nausea and spasticity.

The plant contains over 100 biologically active compounds, and recently it has been possible to isolate these and identify the neurochemical mechanisms by which some of them operate: one in particular, cannabidiol”

https://www.ncbi.nlm.nih.gov/pubmed/29449212

http://adc.bmj.com/content/early/2018/02/15/archdischild-2018-314921

Neuroprotective Effects of MAGL (Monoacylglycerol Lipase) Inhibitors in Experimental Ischemic Stroke.

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American Heart Association Learn and Live

“MAGL (monoacylglycerol lipase) is an enzyme that hydrolyzes the endocannabinoid 2-arachidonoylglycerol and regulates the production of arachidonic acid and prostaglandins-substances that mediate tissue inflammatory response. Here, we have studied the effects of the selective MAGL inhibitors JZL184 and MJN110 and their underlying molecular mechanisms on 3 different experimental models of focal cerebral ischemia.

Pharmacological inhibition of MAGL significantly attenuated infarct volume and hemispheric swelling. MAGL inhibition also ameliorated sensorimotor deficits, suppressed inflammatory response, and decreased the number of degenerating neurons. These beneficial effects of MAGL inhibition were not fully abrogated by selective antagonists of cannabinoid receptors, indicating that the anti-inflammatory effects are caused by inhibition of eicosanoid production rather than by activation of cannabinoid receptors.

Our results suggest that MAGL may contribute to the pathophysiology of focal cerebral ischemia and is thus a promising therapeutic target for the treatment of ischemic stroke.”

https://www.ncbi.nlm.nih.gov/pubmed/29440474

http://stroke.ahajournals.org/content/early/2018/02/12/STROKEAHA.117.019664