Tag Archives: therapeutic

CB1 and CB2 receptor agonists promote analgesia through synergy in a murine model of tumor pain

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“Pain associated with cancer and tumor growth is often difficult to manage.”

“Cannabis sativa has a long history of use for management of pain.”

“In light of the adverse side effects of opioids, cannabinoid (CB) receptor agonists may provide an effective alternative for the treatment of cancer pain. The present study examined the potency and efficacy of synthetic CB1 and CB2 receptor agonists in a murine model of tumor pain.”

“Co-administering both CB receptor agonists attenuated mechanical hyperalgesia through a synergistic mechanism.”

 

“Together these data support the use of combined CB1 and CB2 receptor agonists in the development of strategies for the treatment of tumor related pain.”

“These data extend our previous findings that the peripheral cannabinoid receptors are a promising target for the management of cancer pain and mixed cannabinoid receptor agonists may have a therapeutic advantage over selective agonists.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3155626/

Toward Fulfilling the Promise of Molecular Medicine in Fragile X Syndrome

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“Fragile X syndrome (FXS) is the most common inherited form of mental retardation and a leading known cause of autism. It is caused by loss of expression of the fragile X mental retardation protein (FMRP), an RNA-binding protein that negatively regulates protein synthesis. In neurons, multiple lines of evidence suggest that protein synthesis at synapses is triggered by activation of group 1 metabotropic glutamate receptors (Gp1 mGluRs) and that many functional consequences of activating these receptors are altered in the absence of FMRP. These observations have led to the theory that exaggerated protein synthesis downstream of Gp1 mGluRs is a core pathogenic mechanism in FXS. This excess can be corrected by reducing signaling by Gp1 mGluRs, and numerous studies have shown that inhibition of mGluR5, in particular, can ameliorate multiple mutant phenotypes in animal models of FXS. Clinical trials based on this therapeutic strategy are currently under way. FXS is therefore poised to be the first neurobehavioral disorder in which corrective treatments have been developed from the bottom up: from gene identification to pathophysiology in animals to novel therapeutics in humans. The insights gained from FXS and other autism-related single-gene disorders may also assist in identifying molecular mechanisms and potential treatment approaches for idiopathic autism…

It is already clear that diverse molecular mechanisms can contribute to the synaptic abnormalities that underlie ASDs. In order to design appropriate therapeutic strategies for idiopathic autism, it will be critical to identify biomarkers that report the pathophysiological processes at work in the brains of the affected individuals.

Based on these findings, treatments that successfully target protein synthesis pathways in the single-gene disorders mentioned above, including mGluR5 modulators, may very well have broader therapeutic applications in idiopathic autism.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3100156/

 

Cannabinoids for treatment of chronic non-cancer pain; a systematic review of randomized trials.

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“Effective therapeutic options for patients living with chronic pain are limited. The pain relieving effect of cannabinoids remains unclear. A systematic review of randomized controlled trials (RCTs) examining cannabinoids in the treatment of chronic non-cancer pain was conducted according to the PRISMA statement update on the QUORUM guidelines for reporting systematic reviews that evaluate health care interventions. Cannabinoids studied included smoked cannabis, oromucosal extracts of cannabis based medicine, nabilone, dronabinol and a novel THC analogue. Chronic non-cancer pain conditions included neuropathic pain, fibromyalgia, rheumatoid arthritis, and mixed chronic pain. Overall the quality of trials was excellent. Fifteen of the eighteen trials that met the inclusion criteria demonstrated a significant analgesic effect of cannabinoid as compared with placebo and several reported significant improvements in sleep. There were no serious adverse effects. Adverse effects most commonly reported were generally well tolerated, mild to moderate in severity and led to withdrawal from the studies in only a few cases. Overall there is evidence that cannabinoids are safe and modestly effective in neuropathic pain with preliminary evidence of efficacy in fibromyalgia and rheumatoid arthritis. The context of the need for additional treatments for chronic pain is reviewed. Further large studies of longer duration examining specific cannabinoids in homogeneous populations are required.

In conclusion this systematic review of 18 recent good quality randomized trials demonstrates that cannabinoids are a modestly effective and safe treatment option for chronic non-cancer (predominantly neuropathic) pain. Given the prevalence of chronic pain, its impact on function and the paucity of effective therapeutic interventions, additional treatment options are urgently needed. More large scale trials of longer duration reporting on pain and level of function are required.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3243008/

Cannabinoid mechanisms of pain suppression.

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Abstract

“A large body of literature indicates that cannabinoids suppress behavioral responses to acute and persistent noxious stimulation in animals. This review examines neuroanatomical, behavioral, and neurophysiological evidence supporting a role for cannabinoids in suppressing pain at spinal, supraspinal, and peripheral levels. Localization studies employing receptor binding and quantitative autoradiography, immunocytochemistry, and in situ hybridization are reviewed to examine the distribution of cannabinoid receptors at these levels and provide a neuroanatomical framework with which to understand the roles of endogenous cannabinoids in sensory processing. Pharmacological and transgenic approaches that have been used to study cannabinoid antinociceptive mechanisms are described. These studies provide insight into the functional roles of cannabinoid CB1 (CB1R) and CB2 (CB2R) receptor subtypes in cannabinoid antinociceptive mechanisms, as revealed in animal models of acute and persistent pain. The role of endocannabinoids and related fatty acid amides that are implicated in endogenous mechanisms for pain suppression are discussed. Human studies evaluating therapeutic potential of cannabinoid pharmacotherapies in experimental and clinical pain syndromes are evaluated. The potential of exploiting cannabinoid antinociceptive mechanisms in novel pharmacotherapies for pain is discussed.”

http://www.ncbi.nlm.nih.gov/pubmed/16596786

Recent data on cannabinoids and their pharmacological implications in neuropathic pain.

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Abstract

“Natural cannabinoids have been used for centuries for their psychotropic properties, but their possible therapeutic implications in analgesia have been recently documented. The present review intended to make an analysis of the neuroanatomy and physiology of the cannabinoid system (receptors, functions, agents acting on these receptors) and of its implications in neuropathic pain. There were also described the complex phenomena implicated in the generation and maintenance of neuropathic pain, by high lightening the implications of endogenous cannabinoids in this complex of painful conditions. The pharmacological analgesia test proves of cannabinoid implication in neuropathic pain was sustained by many studies presented in this paper. Therapeutic approaches using natural and synthetic cannabinoid receptor agonists were reviewed. Therapeutic perspectives in neuropathic pain might involve the development of new agents that influence the cannabinoid system. Thus, peripheral acting cannabinoid 1 receptors agonists, selective cannabinoid 2 receptor agonists and also modulators of endocannabinoids metabolism might be a way to success in the treatment of this complex entity called neuropathic pain.”

http://www.ncbi.nlm.nih.gov/pubmed/20108515

Research: Marijuana can treat chronic pain – ABC

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“SACRAMENTO, CA (KGO) — A program commissioned more than a decade ago by the state Legislature to look into the therapeutic value of medicinal marijuana is expected to release a report on its findings today, a spokeswoman for state Sen. Mark Leno said.

A UC medical marijuana research panel today released the results of a ten year clinical study and according to its report, pot can effectively treat chronic pain.

Volunteers with multiple sclerosis and spinal cord injuries were randomly treated with marijuana or a placebo. Patients given cannabis reported fewer multiple sclerosis muscle spasms, and less spinal injury pain.

In another study, the panel found that pot effectively also treats migraines.

But researchers used marijuana grown by the federal government, not the kinds available to California medical marijuana users.

Medical marijuana has been legal under California law since voters approved Proposition 215, also known as the Compassionate Use Act, in 1996.

The state Legislature clarified in 2004 that the Compassionate Use Act allows qualified patients and their primary caregivers to cultivate marijuana for medicinal use.

Medical marijuana remains illegal under federal law, though, leaving patients and providers open to prosecution in federal court.”

http://abclocal.go.com/kgo/story?section=news/state&id=7283032

Marijuana component could ease pain from chemotherapy drugs

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“A chemical component of the marijuana plant could prevent the onset of pain associated with drugs used in chemo therapy, particularly in breast cancer patients, according to researchers at Temple University’s School of Pharmacy.

“We found that cannabidiol completely prevented the onset of the neuropathic, or caused by the chemo drug Paclitaxel, which is used to treat ,” said Ward, who is also a research associate professor in Temple’s Center for Substance Abuse Research.

Ward said that one of cannabidiol’s major benefits is that, unlike other chemicals found in marijuana such as THC, it does not produce psycho-active effects such as euphoria, increased appetite or cognitive deficits. “Cannabidiol has the therapeutic qualities of marijuana but not the side effects,” she said.”

Read more: http://medicalxpress.com/news/2011-10-marijuana-component-ease-pain-chemotherapy.html

Cannabis spray blunts pain

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 Erica Klarreich

“Early trials suggest cannabis spritz may give relief to chronic pain sufferers.”

Cannabis: 5,000 years of medicinal use.Cannabis: 5,000 years of medicinal use.© Photodisc

“A spray that delivers the active ingredient of cannabis under the tongue may ease chronic pain, preliminary clinical trials suggest.

Of the 23 patients who participated in the controlled study, only a few failed to respond to the spray, William Nortcutt of James Paget Hospital in Gorleston, UK told the British Association for the Advancement of Science’s Annual Festival of Science on Monday. Seventeen have gone on to use the drug to treat their pain in the long term, he said.

“Some of the patients said it made a huge difference; others just said it lets them sleep,” Nortcutt said. “But when you’re in chronic pain, being able to sleep is one of the most important things.”

Earlier clinical trials have also shown the pain-relieving benefits of cannabis. But researchers have struggled to find a good way to deliver the drug, says Roger Pertwee, a neuropharmacologist and cannabis expert at the University of Aberdeen, UK.

“The study with a spray is very interesting,” he says. “The past clinical trials have been with pills, but absorption by swallowing is very unreliable.”

About half of the trial’s participants had multiple sclerosis; the rest suffered chronic pain from severe nerve damage and spinal-cord injuries. Although a few of the multiple sclerosis patients had been using cannabis to treat pain before the trials, most participants had seldom or never used it.

The most common side-effect appeared to be dry mouth, Nortcutt reports. Several patients experienced panic or a high during tests to find appropriate dosages. Most preferred a drug in which the active substance, tetrahydrocannabinol (THC), was mixed with another, less psychoactive ingredient of cannabis. Previous clinical studies have involved only pure THC, Pertwee says.

The research comes as many groups are pushing for cannabis to be legalized for therapeutic use in the United Kingdom. If cannabis were to be made legal, Nortcutt says, the path to approval might be much faster than for typical drugs, which take an average of six years.

“There is a huge amount of anecdotal evidence that would help scientists,” Nortcutt told the Glasgow meeting. “We have to recognize that cannabis has been used for 5,000 years.” But much more work is needed to understand how cannabis might be exploited as a pain treatment, Nortcutt warned. “I wouldn’t call for it to be prescribed now.””

http://www.nature.com/news/1998/010906/full/news010906-7.html

 

The Endocannabinoid System and Pain

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“Cannabis has been used for more than twelve thousand years and for many different purposes (i.e. fiber, medicinal, recreational). However, the endocannabinoid signaling system has only recently been the focus of medical research and considered a potential therapeutic target. Endocannabinoids … Continue reading Continue reading

The cannabinoid system and pain: towards new drugs?

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Abstract

“The various components of the endocannabinoid system were discovered in the last twenty years. The cannabinoid system has attracted pharmacologists interest for its potential as therapeutic targets for several diseases ranging from obesity to Parkinson’s disease and from multiple sclerosis to pain. Research initially focused on cannabinoid receptor 1 (CB1), but, due to psychotropic side effects related to its activation, the attempts to develop an agonist drug for this receptor has been so far unsuccessful. Recently the possibility to target CB2 has emerged as an alternative for the treatment of pain. The main advantage of targeting CB2 resides in the possibility to elicit the analgesic effect without the psychotropic side effects. Evidence of the analgesic effect of CB2 selective agonists has been obtained in various models of both inflammatory and neuropathic chronic pain. To explain the mechanism at the basis of this analgesic effect different hypotheses have been proposed: effect on inflammatory cells, reduction of basal NGF tone, induction of beta-endorphin release from keratinocytes, direct action on nociceptors. Evidence in support of this last hypothesis comes from down regulation of capsaicin-induced CGRP release in spinal cord slices and Dorsal Root Ganglia (DRG) neurons in culture after treatment with CB2 selective agonists. CB2 agonists are probably acting through several mechanisms and thus CB2 represents an interesting and promising target in the chronic pain field. Further clarification of the mechanisms at the basis of CB2 analgesic effect would surely be an intriguing and stimulating area of research for the years to come.”

http://www.ncbi.nlm.nih.gov/pubmed/19358815