Convulsions associated with the use of a synthetic cannabinoid product.

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Abstract

“INTRODUCTION:

Clinical presentations following the use of various “spice” or synthetic cannabinoids have included agitation, anxiety, emesis, hallucinations, psychosis, tachycardia, and unresponsiveness. Convulsions were described in a one report although there was not laboratory confirmation for synthetic cannabinoids. In another published report laboratory confirmation for a synthetic cannabinoid was done in which the patient manifested activity that was interpreted as a possible convulsion.

CASE REPORT:

We describe a patient who had two witnessed generalized convulsions soon after smoking a “spice” product that we later confirmed to have four different synthetic cannabinoids.

DISCUSSION:

Convulsions have only rarely been associated with marijuana exposures. Recreational use of synthetic cannabinoids is a very recent phenomenon and there is a very limited, albeit burgeoning, literature detailing the associated complications including convulsions we have reported here. The absence of anticonvulsant phytocannabinoids in spice products could potentially be one of multiple unknown mechanisms contributing to convulsions.”

http://www.ncbi.nlm.nih.gov/pubmed/22160733

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

High hopes for new marijuana drug

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Marijuana

“Researchers have developed a synthetic compound which gives the benefits of marijuana without the high.

US researchers are developing a marijuana-derived synthetic compound to relieve pain and inflammation without the mood-altering side effects associated with other marijuana based drugs.

Professor Sumner Burstein, from the University of Massachusetts Medical School in Worcester, presented his team’s findings at last week’s national meeting of the American Chemical Society in Boston.

He is hopeful about the potential of the synthetic compound to treat a variety of conditions, including chronic pain, arthritis and Multiple Sclerosis.

The synthetic compound is called ajulemic acid, and has a formula based on that of THC. It has already produced encouraging results in animal studies of pain and inflammation, and is currently being tested on humans.

Exactly how ajulemic acid works is still under investigation but it appears to suppress chemical mediators, such as prostaglandins and cytokines, known to cause inflammation.

“We believe the compound will replace aspirin and similar drugs in most applications because of its lack of toxic side effects”, said Professor Burstein, referring to extensive animal studies, as well as a safety trial of the compound conducted in France last year among 15 healthy volunteers.

No clinically adverse effects were reported, including gastrointestinal ulcers, which have been associated with other non-steroidal anti-inflammatory compounds such as aspirin and ibuprofen.

But most significantly, no mood-altering side effects were reported. With an increasing number of medically beneficial compounds being found in marijuana, such as THC and CBD, researchers have been searching for years for ways to utilise these therapeutically without their associated “high”. They have had little success until now.

“Some people want the high,” admits Professor Burstein. “But the medical community wants efficacy without this effect.”

As well as animal studies of their own that show the compound is as potent a painkiller as morphine, Professor Burstein notes other promising animal studies that have been published. In rodent models of rheumatoid arthritis, the compound prevented joint damage. Tests of MS in rats showed the drug relieves muscle stiffness associated with the disease.

It is now undergoing tests in Germany in a group of 21 patients with chronic pain who take ajulemic acid orally twice daily, in capsule form.

Depending on these results, which will be available in about six weeks, the researchers predict the synthetic compound could be on offer by prescription within two years.

It could also be a promising alternative to current drugs used to treat arthritis, such as COX-2 inhibitors. These have been linked to adverse side effects, including heart attacks and stroke.”

http://www.abc.net.au/science/articles/2002/08/26/656786.htm?fb_action_ids=460011707368809&fb_action_types=og.likes&fb_source=aggregation&fb_aggregation_id=288381481237582

Cannabis drug ‘fights pain without high’

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   “Scientists have developed a cannabis-based medicine which relieves chronic pain without any of the “high” normally associated with the drug.

They believe the discovery could pave the way for cannabis-based medication to become available by prescription within two years.

Much of the controversy surrounding the medicinal use of cannabis has centred on fears that it would be used solely for its mood-altering effects.

However, scientists at the University of Massachusetts in the United States say their discovery should help authorities to overcome these fears.

Dr Sumner Burstein and colleagues say early trials of the medication in animals and healthy patients have been promising.

The medication, called ajulemic acid or CT3, has been manufactured in laboratories.

It maximises the medicinal effects of tertrahydrocannabinol – the key ingredient of cannabis – without any of the mind-altering effects.

‘More effective’

In animal tests, this compound was found to be between 10 to 50 times more effective at reducing pain than tetrahydrocannabinol.

Those tests showed that ajulemic acid was very effective at preventing the joint damage associated with arthritis and relieving the muscle stiffness associated with multiple sclerosis.”

Read more: http://news.bbc.co.uk/2/hi/health/2207478.stm

Marijuana-Derived Compound Targets Pain, Inflammation

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   “Researchers are developing a marijuana-derived synthetic compound to relieve pain and inflammation without the mood-altering side effects associated with other marijuana based drugs.

  They say the compound could improve treatment of a variety of conditions, including chronic pain, arthritis and multiple sclerosis. Their findings were presented at the 224th national meeting of the American Chemical Society, the world’s largest scientific society.

   The compound, called ajulemic acid, has produced encouraging results in animal studies of pain and inflammation. It is undergoing tests in a group of people with chronic pain and could be available by prescription within two to three years, the researchers say.

 “We believe that [the compound] will replace aspirin and similar drugs in most applications primarily because of a lack of toxic side effects,” says Sumner Burstein, Ph.D., lead investigator in the study and a professor in the department of biochemistry and molecular pharmacology at the University of Massachusetts Medical School in Worcester. “The indications so far are that it’s safe and effective,” he added.”

Read more: http://www.sciencedaily.com/releases/2002/08/020822071026.htm

The cannabinoid acids: nonpsychoactive derivatives with therapeutic potential.

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Abstract

   “The discovery of carboxylic acid metabolites of the cannabinoids (CBs) dates back more than three decades. Their lack of psychotropic activity was noted early on, and this resulted in a total absence of further research on their possible role in the actions of the CBs. More recent studies have revealed that the acids possess both analgesic and anti-inflammatory properties and may contribute to the actions of the parent drug. A synthetic analog showed similar actions at considerably lower doses. In this review, a brief survey of the extensive literature on metabolism of delta 9-tetrahydrocannabinol to the acids is presented, while more emphasis is given to the recent findings on the biological actions of this class of CBs. A possible mechanism involving effects on eicosanoids for some of these actions is also suggested. Finally, an analogy with a putative metabolite of anandamide, an endogenous CB, is discussed.”

http://www.ncbi.nlm.nih.gov/pubmed/10341359

Suppression of human monocyte interleukin-1beta production by ajulemic acid, a nonpsychoactive cannabinoid.

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Abstract

   “Oral administration of ajulemic acid (AjA), a cannabinoid acid devoid of psychoactivity, reduces joint tissue damage in rats with adjuvant arthritis. Because interleukin-1beta (IL-1beta) and tumor necrosis factor-alpha (TNFalpha) are central to the progression of inflammation and joint tissue injury in patients with rheumatoid arthritis, we investigated human monocyte IL-1beta and TNFalpha responses after the addition of AjA to cells in vitro… Reduction of IL-1beta by AjA may help explain the therapeutic effects of AjA in the animal model of arthritis. Development of nonpsychoactive therapeutically useful synthetic analogs of Cannabis constituents, such as AjA, may help resolve the ongoing debate about the use of marijuana as medicine.”

http://www.ncbi.nlm.nih.gov/pubmed/12566094

Ajulemic acid, a synthetic cannabinoid acid, induces an antiinflammatory profile of eicosanoids in human synovial cells.

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“AIMS:

To better understand mechanisms whereby Ajulemic acid (AjA), a synthetic antiinflammatory cannabinoid, promotes resolution of acute and chronic inflammation in animal models, we investigated its influence on cyclooxygenase 2 (COX2) expression and eicosanoid production in human fibroblast-like synovial cells (FLS).”

“KEY FINDINGS:

AjA increased the steady state levels of COX2 mRNA in and arachidonic acid release from FLS. Treatment of FLS with AjA increased 15-deoxy-delta(12,14)-PGJ(2) (15d-PGJ(2)) production in a concentration dependent manner, but did not affect PGE(2) production significantly.”

“SIGNIFICANCE:

The capacity of AjA to increase selectively and markedly 15d-PGJ(2), an eicosanoid which facilitates resolution of inflammation, suggests that AjA may have value as a therapeutic agent for the treatment of rheumatoid arthritis (RA) and other diseases characterized by acute and chronic inflammation.”

http://www.ncbi.nlm.nih.gov/pubmed/18840450

Suppression of fibroblast metalloproteinases by ajulemic acid, a nonpsychoactive cannabinoid acid.

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Abstract

   “Production of matrix metalloproteinases (MMP) in joint tissue of patients with inflammatory arthritis facilitates cartilage degradation and bone erosion, and leads to joint deformities and crippling. Thus, MMPs are important targets for agents designed to treat inflammatory arthritis. Oral administration of ajulemic acid (AjA), a synthetic, nonpsychoactive cannabinoid acid, prevents joint tissue injury in rats with adjuvant arthritis. AjA binds to and activates PPARgamma directly. Therefore, we investigated the influence of AjA on MMP production in human fibroblast-like synovial cells (FLS), and examined the role of PPARgamma in the mechanism of action of AjA. FLS, treated or not with a PPARgamma antagonist, were treated with AjA then stimulated with TNFalpha or IL-1alpha. Release of MMPs-1, 3, and 9 was measured by ELISA. The influence of AjA on MMP-3 release from stimulated PPARgamma positive (PPAR+/-) and PPARgamma null (PPAR-/-) mouse embryonic fibroblasts (MEF) was also examined. Addition of AjA to FLS suppressed production of MMPs whether or not PPARgamma activation was blocked. Secretion of MMP-3 was also suppressed by AjA in both TNFalpha- and IL-1alpha-stimulated PPARgamma+/- and PPARgamma-/- MEF. Suppression of MMP secretion from FLS by AjA appears to be PPARgamma independent. Prevention by AjA of joint tissue injury and crippling in the rat adjuvant arthritis model may be explained in large part by inhibition of MMPs. These results suggest that AjA may be useful for treatment of patients with rheumatoid arthritis and osteoarthritis.”

http://www.ncbi.nlm.nih.gov/pubmed/16927387

Cannabimimetic Properties of Ajulemic Acid

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   “Side effects of marijuana-based drugs and synthetic analogs of Δ9-tetrahydrocannabinol (Δ9-THC), including sedation and dysphoria, have limited their therapeutic application. Ajulemic acid (AJA), a side-chain synthetic analog of Δ8-THC-11-oic acid, has been reported to have anti-inflammatory properties without producing undesired psychoactive effects. Moreover, it has been suggested that AJA does not interact with cannabinoid receptors to produce its pharmacological effects. The aim of the present study was to conduct a thorough evaluation of the pharmacological effects of AJA then to determine whether actions at cannabinoid receptor (CB)1 mediated these effects… These studies demonstrated that AJA shares a number of CB1-mediated pharmacological properties with Δ9-THC, including cannabimimetic, discriminative stimulus, and antihyperalgesic effects. Furthermore, a separation between doses that produced antinociception and those that produced the other pharmacological effects in mice was not observed. Moreover, AJA showed nearly equipotency for therapeutic efficacy in the CFA model and for substitution in Δ9-THC discrimination. In summary, this study shows that AJA, like Δ9-THC, exhibits psychoactive and therapeutic effects at nearly equal doses in preclinical models, suggesting similar limitations in their putative therapeutic profiles.”

“Cannabis sativa (marijuana plant) has been used since antiquity for its presumed therapeutic, as well as for its euphoric effects. Although Δ9-tetrahydrocannabinol (Δ9-THC) has been identified as the major psychoactive ingredient in C. sativa, difficulty in dissociating unwanted side effects, such as sedation and psychotropic effects, from therapeutic effects has limited clinical application of Δ9-THC-based drugs. For example, dronabinol, an orally administered synthetic version of Δ9-THC, has been developed as an appetite stimulant and antiemetic for use in chronic diseases such as AIDS and cancer. In addition, recent evidence suggests oral Δ9-THC may be effective as an adjunct to opioid analgesics. The therapeutic utility of Δ9-THC, however, has been limited due to patient complaints of dysphoria and unpleasant subjective effects. Previous research has suggested that Δ9-THC carboxylic acid, one of the acid metabolites of Δ9-THC, lacks psychoactive properties of the parent compound and yet retains antinociceptive and other effects. Since this metabolite has a relatively low potency, structural changes that increased potency and stability of Δ9-THC analogs in previous structure-activity relationship studies were applied to the structure Δ9-THC carboxylic acid. The resulting compound, ajulemic acid (AJA), substitutes a 1′,1-dimethylheptyl side chain for the pentyl group of Δ9-THC and changes the Δ9-THC core structure to a more stable confirmation, Δ8-THC (Fig. 1).”

Fig. 1

 
“To date, the efficacy of AJA has been demonstrated in numerous pain and inflammation studies…”
 
“These findings also underscore the importance of thoroughly evaluating the pharmacological characteristics of novel Δ9-THC-like compounds…”