December 6, 2011

Science Daily/University of California - San Francisco

A UCSF study suggests patients with chronic pain may experience greater relief if their doctors add cannabinoids -- the main ingredient in cannabis or medical marijuana -- to an opiates-only treatment. The findings, from a small-scale study, also suggest that a combined therapy could result in reduced opiate dosages.

More than 76 million Americans suffer from chronic pain -- more people than diabetes, heart disease and cancer combined, according to the National Centers for Health Statistics.

"Pain is a big problem in America and chronic pain is a reason many people utilize the health care system," said the paper's lead author, Donald Abrams, MD, professor of clinical medicine at UCSF and chief of the Hematology-Oncology Division at San Francisco General Hospital and Trauma Center (SFGH). "And chronic pain is, unfortunately, one of the problems we're least capable of managing effectively."

In a paper published this month in Clinical Pharmacology & Therapeutics, researchers examined the interaction between cannabinoids and opiates in the first human study of its kind. They found the combination of the two components reduced pain more than using opiates alone, similar to results previously found in animal studies.

Researchers studied chronic pain patients who were being treated with long-acting morphine or long-acting oxycodone. Their treatment was supplemented with controlled amounts of cannabinoids, inhaled through a vaporizer. The original focus was on whether the opiates' effectiveness increased, not on whether the cannabinoids helped reduce pain.

"The goal of the study really was to determine if inhalation of cannabis changed the level of the opiates in the bloodstream," Abrams said. "The way drugs interact, adding cannabis to the chronic dose of opiates could be expected either to increase the plasma level of the opiates or to decrease the plasma level of the opiates or to have no effect. And while we were doing that, we also asked the patients what happened to their pain."

Abrams and his colleagues studied 21 chronic pain patients in the inpatient Clinical and Transitional Science Institute's Clinical Research Center at SFGH: 10 on sustained-release morphine and 11 on oxycodone. After obtaining opiate levels from patients at the start of the study, researchers exposed them to vaporized cannabis for four consecutive days. On the fifth day, they looked again at the level of opiate in the bloodstream. Because the level of morphine was slightly lower in the patients, and the level of oxycodone was virtually unchanged, "one would expect they would have less relief of pain and what we found that was interesting was that instead of having less pain relief, patients had more pain relief," Abrams said. "So that was a little surprising."

The morphine group came in with a pain score of about 35, and on the fifth day, it decreased to 24 -- a 33 percent reduction. The oxycodone group came in with an average pain score of about 44, and it reduced to 34 -- a drop of 20 percent. Overall, patients showed a significant decrease in their pain.

"This preliminary study seems to imply that people may be able to get away perhaps taking lower doses of the opiates for longer periods of time if taken in conjunction with cannabis," Abrams said.

Opiates are very strong powerful pain medicines that can be highly addictive. They also can be deadly since opiates sometimes suppress the respiratory system.

As a cancer doctor, Abrams was motivated to find safe and effective treatments for chronic pain. Patients in the cannabis-opiates study experienced no major side effects such as nausea, vomiting or loss of appetite.

"What we need to do now is look at pain as the primary endpoint of a larger trial," he said. "Particularly I would be interested in looking at the effect of different strains of cannabis."

For instance, Delta 9 THC is the main psychoactive component of cannabis but cannabis contains about 70 other similar compounds with different effects. One of those is cannabidiol, or CBD. It appears to be very effective against pain and inflammation without creating the "high" created by THC.

"I think it would be interesting to do a larger study comparing high THC versus high CBD cannabis strains in association with opiates in patients with chronic pain and perhaps even having a placebo as a control," Abrams said. "That would be the next step."

Abrams is the lead author of the paper; co-authors are Paul Couey, BA, and Mary Ellen Kelly, MPH, of the UCSF Division of Hematology-Oncology at SFGH; Starley Shade, PhD, of the UCSF Center for AIDS Prevention Studies; and Neal Benowitz, MD, of the UCSF Division of Clinical Pharmacology and Experimental Therapeutics.

The study was supported by funds from the National Institutes on Drug Abuse (NIDA), a subsidiary of the National Institutes of Health (NIH).

Major Components of Cannabis

·     Delta-9 Tetrahydrocannabinol (Delta-9 THC)-- It is the main psychoactive component of cannabis with mild to moderate painkilling effects. It also helps treat nausea associate with cancer chemotherapy and to stimulate appetite. It induces feelings of euphoria. Potential side effects include accelerated heartbeat, panic, confusion, anxiety and possible paranoia.

·     Cannabidiol (CBD)- It is a major, non-psychoactive component of cannabis that helps shrink inflammation and reduce pain without inducing the euphoria effects of THC. It has been used to treat rheumatoid arthritis, inflammatory bowel diseases, psychotic disorders and epilepsy. Larger amounts of CBD can relax the mind and body without causing negative side effects associated with THC.

·     Cannabinol (CBN)-- It is a secondary psychoactive component of cannabis. It is not associated with painkilling effects of THC or CBD. CBN is formed as THC ages. Unlike the euphoria effects of THC, CBN can induce headaches and a sense of lethargy.

·     Tetrahydrocannabivarin (THCV) -- It is found primarily in strains of African and Asian cannabis. THCV heightens the intensity of THC effects and the speed in which the component is delivered, but also causes the sense of euphoria to end sooner.

https://www.sciencedaily.com/releases/2011/12/111206151448.htm

March 4, 2015

Science Daily/Elsevier

Medical marijuana is proliferating across the country due to the ability of cannabis ingestion to treat important clinical problems such as chronic pain. However, negative side effects and the development of tolerance limit the widespread therapeutic use of Δ9-tetrahydrocannabinol (Δ9-THC), the major psychoactive ingredient in cannabis.

THC's side effects are produced via its actions at cannabinoid CB1 receptors in the brain. Thus, scientists theorized that an agent with similar mechanistic actions, but that activate CB2 receptors instead, may eliminate the unwanted side effects while maintaining an equivalent level of efficacy.

Dr. Andrea Hohmann and her colleagues at Indiana University tested this strategy and found that, unlike Δ9-THC, repeated dosing with the cannabinoid CB2 agonist AM1710 suppresses chemotherapy-induced pain in mice without producing tolerance, physical withdrawal, motor dysfunction, or hypothermia. Moreover, the therapeutic effects of AM1710 were preserved in mice lacking CB1 receptors but absent in mice lacking CB2 receptors.

Their findings are reported in the current issue of Biological Psychiatry.

"Our study is important because it demonstrates beyond doubt that activation of cannabinoid CB2 receptors suppresses neuropathic pain without producing signs of physical dependence (i.e., a withdrawal syndrome) or other unwanted side effects associated with activation of CB1 receptors in the brain," said Hohmann.

Their studies used animals that were treated with a chemotherapeutic agent (paclitaxel) to produce pain. When animals were given AM1710, a CB2 agonist, its pain-suppressive effects were fully preserved and its therapeutic effects were maintained even after repeated dosing.

Alternatively, and as expected, when animals were given Δ9-THC, they developed complete tolerance to the pain-suppressing effects of THC and with repeated dosing, THC was no longer effective in suppressing neuropathic pain.

When the THC-treated animals were challenged with a drug that blocks CB1 receptors in the brain, the animals showed a prominent withdrawal syndrome, indicating signs of physical dependence following removal of THC. Strikingly, this was not the case with the CB2 agonist; blocking either CB1 or CB2 receptors produced no signs of withdrawal in animals treated chronically with the CB2 agonist.

Hohmann added, "We think our data suggests that CB2 receptors are an important target for suppressing chronic pain without unwanted side effects (e.g. psychoactivity, addiction)."

"It is important to know whether the benefits of cannabis ingestion for pain could be attributed in large part to the stimulation of CB2 receptors," commented Dr. John Krystal, Editor of Biological Psychiatry. "CB2 agonists, in theory, would present less risk regarding addiction and intoxication than the ingestion of cannabis or THC."

More work will be necessary before CB2 receptor agonists could be prescribed for use in humans, but for now, these data support the therapeutic potential of CB2 agonists for managing pain without the adverse effects associated with cannabis.

https://www.sciencedaily.com/releases/2015/03/150304075336.htm

February 15, 2015

Science Daily/McGill University Health Centre

While debate about recreational marijuana use continues, researchers are investigating the effectiveness of cannabis for treating pain, spasticity, and a host of other medical problems. In a symposium organized by the McGill University Health Centre (MUHC) as part of the 2015 American Association for the Advancement of Science Annual Meeting held this week in San Jose, California, experts from North America and the U.K. share their perspectives on the therapeutic potential of medical cannabis and explore the emerging science behind it.

"We need to advance our understanding of the role of cannabinoids in health and disease through research and education for patients, physicians and policy-makers," says Dr. Mark Ware, director of clinical research at the Alan Edwards Pain Management Unit at the MUHC, in Canada.

As a pain specialist Dr. Ware regularly sees patients with severe chronic pain at his clinic in Montreal, and for some of them, marijuana appears to be a credible option. "I don't think that every physician should prescribe medical cannabis, or that every patient can benefit but it's time to enhance our scientific knowledge base and have informed discussions with patients."

Increasing numbers of jurisdictions worldwide are allowing access to herbal cannabis, and a range of policy initiatives are emerging to regulate its production, distribution, and authorization. It is widely believed that there is little evidence to support the consideration of cannabis as a therapeutic agent. However, several medicines based on tetrahydrocannabinol (THC), the psychoactive ingredient of cannabis, have been approved as pharmaceutical drugs.

Leading British cannabis researcher Professor Roger Pertwee, who co-discovered the presence of tetrahydrocannabivarin (THCV) in cannabis in the 70's, recently published with collaborators some findings of potential therapeutic relevance in the British Journal of Pharmacology. "We observed that THCV, the non-psychoactive component of cannabis, produces anti-schizophrenic effects in a preclinical model of schizophrenia," says Pertwee, professor of Neuropharmacology at Aberdeen University. "This finding has revealed a new potential therapeutic use for this compound."

Neuropsychiatrist and Director of the Center for Medicinal Cannabis Research (CMCR) at the University of California, San Diego Dr. Igor Grant is interested in the short and long-term neuropsychiatric effects of marijuana use. The CMCR has overseen some of the most extensive research on the therapeutic effects of medical marijuana in the U.S. "Despite a commonly held view that cannabis use results in brain damage, meta analyses of extensive neurocognitive studies fail to demonstrate meaningful cognitive declines among recreational users," says Dr. Grant. "Bain imaging has produced variable results, with the best designed studies showing null findings."

Dr. Grant adds that while it is plausible to hypothesize that cannabis exposure in children and adolescents could impair brain development or predispose to mental illness, data from properly designed prospective studies is lacking.

https://www.sciencedaily.com/releases/2015/02/150215070209.htm