Tag Archives: tetrahydrocannabinol

Marijuana cannabinoids found to help combat autism

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“(NaturalNews) The cannabinoid compounds naturally found in many varieties of cannabis, also known more commonly as marijuana, may help children with autism spectrum disorders experience dramatic behavioral improvements, and potentially even full recovery from their symptoms. These are the findings of a new study published in the journal Nature Communications that help reinforce the growing body of evidence which shows that medicinal cannabinoids hold incredible potential in both treating and potentially curing chronic illness.

Daniele Piomelli from the University of California, Irvine (UCI) and her colleague Olivier Manzoni from Inserm, a French research agency, observed that marijuana cannabinoids are very closely related to the endocannabinoid transmitters naturally found in the brain that facilitate the transport of electrical signals between neurons. Known as 2-AG, these transmitters are responsible for regulating a whole host of important bodily processes, which include things like telling the body when it is hungry or when it is experiencing pain.

Children with autism spectrum disorders; however, including those who developed these disorders as a result of Fragile X syndrome, which is said to be the most commonly-known genetic cause of autism, often have poorly or non-functioning 2-AG, which necessitates chronic synaptic failure in the brain. Many children with Fragile X-induced autism end up becoming mentally disabled as a result of this synaptic failure, and have trouble developing basic motor skills like walking and talking, or learning how to behave in various social situations.

But taking marijuana cannabinoids, which as we pointed out in an earlier article are not psychoactive in the same way that tetrahydrocannabinol (THC) is (http://www.naturalnews.com/035759_cannabis_juicing_health.html), can help effectively block the enzymes that inhibit the proper function of 2-AG. In essence, marijuana cannabinoids essentially restore synaptic communication by feeding an ailing body the cannabinoids it lacks, which are absolutely vital for proper cell function and communication.

“Endocannabinoid compounds are created naturally in the body and share a similar chemical structure with THC … (and) are distinctive because they link with protein molecule receptors — called cannabinoid receptors — on the surface of cells,” explains the UCI report. “Because the body’s natural cannabinoids control a variety of factors — such as pain, mood and appetite — they’re attractive targets for drug discovery and development.””

Learn more: http://www.naturalnews.com/037445_marijuana_cannabinoids_autism.html#ixzz2DRNu5iDg

Smoking Marijuana Eases Chronic Neuropathic Pain.

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“Smoking cannabis reduces chronic neuropathic pain and also improves sleep, according to new research published today in the Canadian Medical Association Journal.

A single inhalation of 25 mg of 9.4% tetrahydrocannabinol herbal cannabis 3 times a day for 5 days was sufficient to achieve these outcomes, lead study author Mark A. Ware, MBBS, from McGill University Health Center, Montreal, Canada, told Medscape Medical News in an interview.

“Patients have been reporting that cannabis helps control their pain, and they have been saying so for a long time,” Dr. Ware said. “At the time that we had secured the funding and began the trial, there had been no clinical trials that had established this or investigated it.”

In addition, a large body of scientific knowledge is emerging abound the role of cannabinoid receptors and cannabinoid ligands in the human body, providing a potential scientific explanation as to why cannabinoids would be analgesic, he added. “So the 2 main supports came together, and in Canada at the time, there was an environment where we were able to secure funding sufficient for studies of this.”

Posttraumatic and Postsurgical Neuropathy

The study included 21 individuals older than 18 years (mean age, 45.4 years) with posttraumatic or postsurgical neuropathic pain lasting for at least 3 months. They were randomly assigned to receive cannabis at 4 potencies — 0%, 2.5%, 6%, and 9.4% tetrahydrocannabinol — during 4 periods in a crossover design. Each period lasted 14 days and began with 5 days of cannabis use followed by a 9-day washout period.

The cannabis doses were delivered in a single smoked inhalation using a titanium pipe. Patients self-administered the first dose of each period under supervision and were instructed to inhale for 5 seconds while the cannabis was lit, hold the smoke in their lungs for 10 seconds, and then exhale. They self-administered the remaining doses for each period at home.

The participants were allowed to continue their routine medications, and the use of acetaminophen as breakthrough analgesia was also permitted.

Pain intensity was measured using an 11-item numeric rating scale that used “no pain” and “worst pain possible” as anchors.

The study found that the higher dose of cannabis was the most efficient in reducing pain. The average daily pain intensity was 5.4 with the 9.4% tetrahydrocannabinol cannabis dose compared with 6.1 with the 0% or placebo dose (95% confidence interval, 0.02 – 1.4; P = .023).

In addition, participants reported significantly more drowsiness and reported getting to sleep more easily, faster, and with fewer periods of wakefulness when taking the 9.4% dose than when taking the 0% dose ( P < .05). The higher dose also improved anxiety and depression compared with the placebo dose.

Blind Held; Studies Feasible

“It was feared that participants would know right away if they were smoking cannabis because of the acute psychoactive effects of the drug, but our results do not support this,” Dr. Ware noted. “They do show that short-term placebo-controlled trials of smoked cannabis are feasible.”

He would like his study to act as a stimulus for other studies on cannabis and pain relief.

“Studies of this kind can be done. Ours was difficult to do because it was the first time we had done anything like this. We were breaking new ground with regard to regulations and so on, but it is possible. Having done it once, it’s not as difficult to do it again. So our results raise the possibility of extending the study for a longer duration, or being able to look at safety issues, and so on. It is possible to do a scientific trial with this compound. Your political views shouldn’t matter. This is just good science,” Dr. Ware said.

In a related commentary, Henry J. McQuay, DM, from Balliol College, Oxford, United Kingdom, writes that the study authors should be congratulated for tackling the question of whether cannabis helps in neuropathic pain, “particularly given that the regulatory hurdles for their trial must have been a nightmare.”

He concludes that the study “adds to the trickle of evidence that cannabis may help some of the patients who are struggling at present.””

http://www.medscape.com/viewarticle/727702

Study: Smoking Pot May Ease Chronic Pain

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By Amanda Gardner
smoking pot chronic pain 200x150 Study: Smoking Pot May Ease Chronic Pain

 “People with chronic pain who aren’t getting enough relief from medications may be able to ease their pain by smoking small amounts of marijuana, a new study suggests.

Marijuana also helps pain patients fall asleep more easily and sleep more soundly, according to the report, one of the first real-world studies to look at the medicinal use of smoked marijuana. Most previous research has used extracts of tetrahydrocannabinol (THC), the active ingredient in the cannabis plant.

“This is the first time anyone has done a trial of smoked cannabis on an outpatient basis,” says the lead researcher, Mark Ware, MBBS, the director of clinical research at McGill University’s Alan Edwards Centre for Research on Pain, in Montreal.

The study included 21 adults with nervous-system (neuropathic) pain stemming from surgery, accidents, or other trauma. Fourteen of the participants were on short-term disability or permanently disabled. All of them had tried marijuana before, but none were current or habitual smokers.

“They were not experienced marijuana users,” Ware says. “They came because they had severe pain that was not responding to any conventional treatment.”

Each patient in the study smoked four different strengths of marijuana over a period of 56 days. The THC potency ranged from 9.4%—the strongest dose the researchers could obtain legally—to 0%, a “placebo” pot that looked and tasted like the real thing but was stripped of THC. (By comparison, the
strongest marijuana available on the street has a THC potency of about 15%, Ware estimates.)

The participants—who weren’t told which strength they were getting—were instructed to smoke a thimbleful (25 milligrams) from a small pipe three times a day for five days. After a nine-day break, they switched to a different potency.

The highest dose of THC yielded the best results. It lessened pain and improved sleep more effectively than the placebo and the two medium-strength doses (which produced no measurable relief), and it also reduced anxiety and depression. The effects lasted for about 90 minutes to two hours, according to the study.”

Read more: http://news.health.com/2010/08/30/marijuana-chronic-pain/

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

 

Marijuana Relieves Chronic Pain, Research Shows – WebMD

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“Three puffs a day of cannabis, better known as marijuana, helps people with chronic nerve pain due to injury or surgery feel less pain and sleep better, a Canadian team has found.

”It’s been known anecdotally,” says researcher Mark Ware, MD, assistant professor of anesthesia and family medicine at McGill University in Montreal. “About 10% to 15% of patients attending a chronic pain clinic use cannabis as part of their pain [control] strategy,” he tells WebMD.

But Ware’s study is more scientific — a clinical trial in which his team compared placebo with three different doses of cannabis. The research is published in CMAJ, the Canadian Medical Association Journal.

The new study ”adds to the trickle of evidence that cannabis may help some of the patients who are struggling [with pain] at present,” Henry McQuay, DM, an emeritus fellow at Balliol College, Oxford University, England, writes in a commentary accompanying the study…” More: http://www.webmd.com/pain-management/news/20100830/marijuana-relieves-chronic-pain-research-show

“Smoked cannabis for chronic neuropathic pain: a randomized controlled trial… A single inhalation of 25 mg of 9.4% tetrahydrocannabinol herbal cannabis three times daily for five days reduced the intensity ofpain, improved sleep and was well tolerated.”  http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2950205/

Inhibitors of monoacylglycerol lipase, fatty-acid amide hydrolase and endocannabinoid transport differentially suppress capsaicin-induced behavioral sensitization through peripheral endocannabinoid mechanisms

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 “Monoacylglycerol lipase (MGL) and fatty acid amide hydrolase (FAAH) degrade the endocannabinoids 2-arachidonoylglycerol (2-AG) and anandamide (AEA), respectively… peripheral inhibition of enzymes hydrolyzing 2-AG and AEA suppresses capsaicin-evoked behavioral sensitization with distinct patterns of pharmacological specificity… Modulation of endocannabinoids in the periphery suppressed capsaicin-evoked nocifensive behavior and thermal hyperalgesia through either CB1 or CB2 receptor mechanisms but suppressed capsaicin-evoked mechanical allodynia through CB1 mechanisms only. Inhibition of endocannabinoid transport was more effective in suppressing capsaicin-induced sensitization compared to inhibition of either FAAH or MGL alone. These studies are the first to unveil the effects of pharmacologically increasing peripheral endocannabinoid levels on capsaicin-induced behavioral hypersensitivities. Our data suggest that 2-AG, the putative product of MGL inhibition, and AEA, the putative product of FAAH inhibition, differentially suppress capsaicin-induced nociception through peripheral cannabinoid mechanisms.”

“Cannabis has been used for centuries for its pain-relieving properties. The main active ingredient of cannabis, Δ9-tetrahydrocannabinol, produces antinociception by binding to G protein-coupled CB1 and CB2 receptors. Cannabinoids produce antinociception in animal models of both acute and chronic pain.”

Read more: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2900457/

The diverse CB1 and CB2 receptor pharmacology of three plant cannabinoids: Δ9-tetrahydrocannabinol, cannabidiol and Δ9-tetrahydrocannabivarin

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  “Cannabis sativa is the source of a unique set of compounds known collectively as plant cannabinoids or phytocannabinoids. This review focuses on the manner with which three of these compounds, (−)-trans9-tetrahydrocannabinol (Δ9-THC), (−)-cannabidiol (CBD) and (−)-trans9-tetrahydrocannabivarin (Δ9-THCV), interact with cannabinoid CB1 and CB2 receptors. Δ9-THC, the main psychotropic constituent of cannabis, is a CB1 and CB2 receptor partial agonist and in line with classical pharmacology, the responses it elicits appear to be strongly influenced both by the expression level and signalling efficiency of cannabinoid receptors and by ongoing endogenous cannabinoid release. CBD displays unexpectedly high potency as an antagonist of CB1/CB2 receptor agonists in CB1– and CB2-expressing cells or tissues, the manner with which it interacts with CB2 receptors providing a possible explanation for its ability to inhibit evoked immune cell migration. Δ9-THCV behaves as a potent CB2 receptor partial agonist in vitro. In contrast, it antagonizes cannabinoid receptor agonists in CB1-expressing tissues. This it does with relatively high potency and in a manner that is both tissue and ligand dependent. Δ9-THCV also interacts with CB1 receptors when administered in vivo, behaving either as a CB1 antagonist or, at higher doses, as a CB1 receptor agonist. Brief mention is also made in this review, first of the production by Δ9-THC of pharmacodynamic tolerance, second of current knowledge about the extent to which Δ9-THC, CBD and Δ9-THCV interact with pharmacological targets other than CB1 or CB2 receptors, and third of actual and potential therapeutic applications for each of these cannabinoids.”

“…cannabis is a source not only of Δ9-THC, CBD and Δ9-THCV but also of at least 67 other phytocannabinoids and as such can be regarded as a natural library of unique compounds. The therapeutic potential of many of these ligands still remains largely unexplored prompting a need for further preclinical and clinical research directed at establishing whether phytocannabinoids are indeed ‘a neglected pharmacological treasure trove’. As well as leading to a more complete exploitation of Δ9-THC and CBD as therapeutic agents and establishing the clinical potential of Δ9-THCV more clearly, such research should help to identify any other phytocannabinoids that have therapeutic applications per se or that constitute either prodrugs from which semisynthetic medicines might be manufactured or lead compounds from which wholly synthetic medicines might be developed.”

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2219532/

In vivo effects of cannabinoids on macromolecular biosynthesis in Lewis lung carcinomas.

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Abstract

“Cannabinoids represent a novel class of drugs active in increasing the life span mice carrying Lewis lung tumors and decreasing primary tumor size. In the present studies, the effects of delta9-THC, delta8-THC, and cannabidiol on tumor macromolecular biosynthesis were studied. These drugs inhibit thymidine-3H incorporation into DNA acutely, but did not inhibit leucine uptake into tumor protein. At 24 h after treatment, cannabinoids did not inhibit thymidine-3H incorporation into DNA, leucine-3H uptake into protein or cytidine-3H into RNA.”

http://www.ncbi.nlm.nih.gov/pubmed/616322

Cannabidiol inhibits lung cancer cell invasion and metastasis via intercellular adhesion molecule-1.

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   “Cannabinoids inhibit cancer cell invasion via increasing tissue inhibitor of matrix metalloproteinases-1 (TIMP-1). This study investigates the role of intercellular adhesion molecule-1 (ICAM-1) within this action. In the lung cancer cell lines A549, H358, and H460.. Overall, our data indicate that cannabinoids induce ICAM-1, thereby conferring TIMP-1 induction and subsequent decreased cancer cell invasiveness.”

http://www.ncbi.nlm.nih.gov/pubmed/22198381

Anti-proliferative and anti-angiogenic effects of CB2R agonist (JWH-133) in non-small lung cancer cells (A549) and human umbilical vein endothelial cells: an in vitro investigation.

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“Non-small cell lung cancer has one of the highest mortality rates among cancer-suffering patients. It is well known that the unwanted psychotropic effects of cannabinoids (CBs) are mediated via the CB(1) receptor (R), and selective targeting of the CB(2)R would thus avoid side effects in cancer treatment…

the aim of our study was to evaluate the effect of selective CB(2)R agonist, JWH-133, on A549 cells (non-small lung cancer) and human umbilical vein endothelial cells (HUVECs)…

The present study demonstrates the in vitro anti-proliferative and anti-angiogenic potential of CB(2)R agonist, JWH-133, in nonsmall lung cancer cells and HUVECs.

Our results generate a rationale for further in vivo efficacy studies with this compound in preclinical cancer models.”

http://www.ncbi.nlm.nih.gov/pubmed/22578958