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Medical Marijuana - Cannabis

Cannabis sativa, Cannabis indica, and Cannabis ruderalis Cannabis indica has a higher level of CBD compared to THC, while Cannabis sativa has a higher level of THC compared to CBD. Cannabis strains with relatively high CBD:THC ratios are less likely to induce anxiety than vice versa. This may be due to CBD's antagonistic effects at the cannabinoid receptors, compared to THC's partial agonist effect. CBD is also a 5-HT1A receptor agonist, which may also contribute to an anxiolytic effect. This likely means the high concentrations of CBD found in Cannabis indica mitigate the anxiogenic effect of THC significantly. The effects of sativa are well known for its cerebral high, hence used daytime as medical cannabis, while indica is well known for its sedative effects and preferred night time as medical cannabis. The plant Cannabis sativa is known to cause more of a "high" by stimulating hunger and by producing a rather more comedic, or energetic feeling. Conversely, the Cannabis indica plant is known to cause more of a "stoned" or meditative feeling, possibly because of a higher CBD to THC ratio. The primary effects of sativas are on the mind and emotions. These benefits can be particularly helpful for the psychological aspects of many illnesses, giving people an increased sense of well-being. Due to the stimulating nature of sativas, they are generally better for daytime use. Caution should also be taken for people experiencing heightened anxiety or those with mental health conditions. However, this association is contradicted by more recent research which suggests that CBD increases alertness.

Use

Cannabis as illustrated in Köhler's book of medicinal plants from 1897 Medical cannabis is illegal in most countries. A number of governments, including the U.S. Federal Government, allow treatment with one or more specific low doses of synthetic cannabinoids for one or more disorders. However, public opinion in several areas, including the United States, is swinging in favor of use of medical cannabis, especially for chronically ill patients. The topic is one of great controversy and is being debated more than ever.
Studies have shown cannabis does have several well-documented beneficial effects. Among these are: the amelioration of nausea and vomiting, stimulation of hunger in chemotherapy and AIDS patients, lowered intraocular eye pressure (shown to be effective for treating glaucoma), as well as gastrointestinal illness. It also has antibacterial effects and is one of the best known expectorants.
There are several methods for administration of dosage, including vaporizing or smoking dried buds, drinking, or eating extracts, and taking capsules. The comparable efficacy of these methods was the subject of an investigative study conducted by the National Institutes of Health.
Synthetic cannabinoids are available as prescription drugs in some countries. Examples are Marinol (The United States and Canada) and Cesamet (Canada, Mexico, the United Kingdom, and the United States).
While utilizing cannabis for recreational purposes is illegal in many parts of the world, many countries are beginning to entertain varying levels of decriminalization for medical usage, including Canada, Austria, Germany, Switzerland, the Netherlands, Czech Republic, Spain, Israel, Italy, Finland, and Portugal. In the United States, federal law outlaws all use of herb parts from Cannabis; States that have approved use of medical cannabis are in conflict with federal law. The United States Supreme Court has ruled in United States v. Oakland Cannabis Buyers' Coop and Gonzales v. Raich that the federal government has a right to regulate and criminalize cannabis, even for medical purposes. A person can therefore be prosecuted for a cannabis-related crime even if it is legal medical use according to state laws. The US federal government, through the National Institute on Drug Abuse (NIDA), continues to provide medical cannnabis to 4 patients who participated in the Compassionate Investigational New Drug Program. NIDA claims this is done for "compassionate purposes" and the US federal government still maintains that medical marijuana is not an effective or desirable treatment for any medical condition despite significant contrary evidence.

Clinical applications

"Victoria", the United States' first legal medical marijuana plant grown by The Wo/Men's Alliance for Medical Marijuana. A 2002 review of medical literature by Franjo Grotenhermen states that medical cannabis has established effects in the treatment of nausea, vomiting, premenstrual syndrome, unintentional weight loss, insomnia, and lack of appetite. Other "relatively well-confirmed" effects were in the treatment of "spasticity, painful conditions, especially neurogenic pain, movement disorders, asthma, and glaucoma".
Preliminary findings indicate that cannabis-based drugs could prove useful in treating adrenal disease, inflammatory bowel disease, migraines, fibromyalgia, and related conditions.
Medical cannabis has also been found to relieve certain symptoms of multiple sclerosis and spinal cord injuries by exhibiting antispasmodic and muscle-relaxant properties as well as stimulating appetite.
Other studies state that cannabis or cannabinoids may be useful in treating alcohol abuse, amyotrophic lateral sclerosis, collagen-induced arthritis, asthma, atherosclerosis, bipolar disorder, colorectal cancer, HIV-Associated Sensory Neuropathy, depression, dystonia, epilepsy, digestive diseases, gliomas, hepatitis C, Huntington's disease, leukemia, skin tumors, methicillin-resistant Staphylococcus aureus (MRSA), Parkinson's disease, pruritus, posttraumatic stress disorder (PTSD), psoriasis, sickle-cell disease, sleep apnea, and anorexia nervosa. Controlled research on treating Tourette syndrome with a synthetic version of THC called (Marinol), showed the patients taking the pill had a beneficial response without serious adverse effects; other studies have shown that cannabis "has no effects on tics and increases the individuals inner tension". Case reports found that cannabis helped reduce tics, but validation of these results requires longer, controlled studies on larger samples.
A study done by Craig Reinarman surveyed people in California who used cannabis found they did so for many reasons. Reported uses were for pain relief, muscle spasms, headaches, anxiety, nausea, vomiting, depression, cramps, panic attacks, diarrhea, and itching. Others used cannabis to improve sleep, relaxation, appetite, concentration or focus, and energy. Some patients used it to prevent medication side effects, anger, involuntary movements, and seizures, while others used it as a substitute for other prescription medications and alcohol.

Safety of cannabis

Main article: Long-term effects of cannabis
From The Lancet, "There are no confirmed published cases worldwide of human deaths from cannabis poisoning, and the dose of THC required to produce 50% mortality in rodents is extremely high compared with other commonly used drugs".
According to Associate Professor Emeritus of Psychiatry at Harvard Medical School Lester Grinspoon, "When cannabis regains its place in the US Pharmacopeia, a status it lost after the passage of the Marijuana Tax Act of 1937, it will be seen as one of the safest drugs in that compendium".
There are medical reports of occasional infarction, stroke and other cardiovascular side effects. Marijuana's cardiovascular effects are not associated with serious health problems for most young, healthy users. Researchers have reported in the International Journal of Cardiology, "Marijuana use by older people, particularly those with some degree of coronary artery or cerebrovascular disease, poses greater risks due to the resulting increase in catecholamines, cardiac workload, and carboxyhemoglobin levels, and concurrent episodes of profound postural hypotension. Indeed, marijuana may be a much more common cause of myocardial infarction than is generally recognized. In day-to-day practice, a history of marijuana use is often not sought by many practitioners, and even when sought, the patient's response is not always truthful. Thus, clinicians should be more vigilant in inquiring about use of marijuana in their patients, particularly among the younger adults who may present with cardiac events in the absence of cardiovascular disease or other obvious risk factors."
Cannabis smoke contains thousands of organic and inorganic chemical compounds. This tar is chemically similar to that found in tobacco smoke or cigars. Over fifty known carcinogens have been identified in cannabis smoke. These include nitrosamines, reactive aldehydes, and polycylic hydrocarbons, including benzapyrene. Marijuana smoke was listed as a cancer agent in California in 2009.
A large 2006 study found no causative link to oral, laryngeal, pharyngeal, esophageal or lung cancer when adjusting for several confounding factors including cigarette smoking and alcohol use. A 2012 study published in JAMA and funded by National Institutes of Health looked at a population of over 5,115 American men and women to see whether smoked cannabis has effects on the pulmonary system similar to those from smoking tobacco. The researchers found "Occasional and low cumulative marijuana use was not associated with adverse effects on pulmonary function." Smoking an average of one joint a day for seven years, they found, did not worsen pulmonary health.
Regarding the relative safety of cannabis, former US DEA chief administrative law judge Judge Francis Young said: "There is no record in the extensive medical literature describing a proven, documented cannabis-induced fatality....Despite a long history of use and the extraordinarily high numbers of social smokers, there are simply no credible medical reports to suggest that consuming marijuana has caused a single death. In practical terms, marijuana cannot induce a lethal response as a result of drug-related toxicity....Marijuana's therapeutic ratio is impossible to quantify because it is so high....Marijuana, in its natural form, is one of the safest therapeutically active substances known to man."

Pain relief

The effectiveness of cannabis as an analgesic has been the subject of numerous studies. University of Oxford doctors found that the brain on THC showed reduced response to pain, suggesting that the the drug may help patients endure pain. Brain scans showed reduced activity in two centers of the brain where pain is registered: The mid-Anterior cingulate cortex and the right Amygdala. However, cannabis did not block the sensation of pain like morphine-based pain killers. The researchers also found a great degree of variation among individual reports of pain relief.
According to Stuart Silverman, M.D., a rheumatologist at Cedars-Sinai Medical Center, "Historically and anecdotally, marijuana has been used as a painkiller". A Canadian study showed cannabis can reduce "nerve pain" from surgical complications or injuries. The study's twenty-one subjects suffered from chronic pain and patients who smoked cannabis with a 9.4% THC content reported less pain than those patients who smoked the placebo. Improved quality of sleep and reduced anxiety were other reported benefits. Igor Grant, psychiatrist and director of the Center for Medicinal Cannabis Research at the University of California San Diego, has stated, "There is good evidence now that cannabinoids may be either an adjunct or a first-line treatment". Grant explained further that not everyone experienced pain relief, but the percentage of people who did was comparable to those who said that they experienced relief from other medications commonly prescribed for neuropathic pain (the subject of his study), such as antidepressants.
A small-scale UCSF study found that patients with chronic pain may experience greater relief if cannabinoids were added to an opiate-only treatment regime. The findings further suggested that combination therapy could result in reduced opiate dosages. The College of Physicians and Surgeons at Columbia University, U.S. published a study in the Neuropsychopharmacology journal in 2013 that is based on research that was conducted with fifteen males and fifteen females who smoked marijuana every day. The study's subjects were exposed to either a placebo, inhaled marijuana, or dronabinol, a pill that contains cannabis' psychoactive ingredient. Participants were monitored to ensure that they had not smoked in the time period immediately prior to the tests and did not have other drugs (including alcohol) in their systems. The researchers concluded that “Dronabinol administration decreased pain sensitivity and increased pain tolerance that peaked later and lasted longer relative to smoked marijuana”, thereby providing evidence that the pill form was superior to smoked cannabis in terms of pain relief efficacy. However, the Columbia researchers further stated, "A primary caveat of the current findings is that the study population consisted of daily marijuana smokers; this study limitation should be considered when interpreting the findings and placing them within the context of the potential therapeutic feasibility of cannabinoids for the general population."

Glaucoma

In glaucoma, cannabis and THC have been shown to reduce intra-ocular pressure (IOP) by an average of 24% in people with normal IOP who have visual-field changes. In studies of healthy adults and glaucoma patients, IOP was reduced by an average of 25% after smoking a cannabis "cigarette" that contained approximately 2% THC—a reduction as good as that observed with most other medications available today, according to a review by the Institute of Medicine.
In a separate study, the use of cannabis and glaucoma was tested and found that the duration of smoked or ingested cannabis or other cannabinoids is very short, averaging 3 to 3.5 hours. Their results showed that for cannabis to be a viable therapy, the patient would have to take in cannabis in some form every 3 hours. They said that for ideal glaucoma treatment it would take two times a day at most for compliance purposes from patients.[80]

Spasticity in multiple sclerosis

A review of six randomized controlled trials of a combination of THC and CBD extracts for the treatment of multiple sclerosis (MS) related muscle spasticity reported, "Although there was variation in the outcome measures reported in these studies, a trend of reduced spasticity in treated patients was noted." The authors postulated that "cannabinoids may provide neuroprotective and anti-inflammatory benefits in MS." A small study done on whether or not cannabis could be used to control tremors of MS patients was conducted. The study found that there was no noticeable difference of the tremors in the patients. Although there was no difference in the tremors the patients felt as if their symptoms had lessened and their quality of life had improved. The researchers concluded that the mood enhancing or cognitive effects that cannabis has on the brain could have given the patients the effect that their tremors were getting better.

Alzheimer's disease

Cannabinoids found in medical cannabis prevent or inhibit the progression of Alzheimer's disease. Research done by the Scripps Research Institute in California shows that the active ingredient in marijuana, THC, prevents the formation of deposits in the brain associated with Alzheimer's disease. THC was found to prevent an enzyme called acetylcholinesterase from accelerating the formation of "Alzheimer plaques" in the brain more effectively than commercially marketed drugs. THC is also more effective at blocking clumps of protein that can inhibit memory and cognition in Alzheimer's patients, as reported in Molecular Pharmaceutics. Cannabinoids can also potentially prevent or slow the progression of Alzheimer's disease by reducing tau protein phosphorylation, oxidative stress, and neuroinflammation.
A 2012 review from the Philosophical Transactions of a Royal Society B suggested that activating the cannabinoid system may trigger an "anti-oxidant cleanse" in the brain by removing damaged cells and improving the efficiency of the mitochrondria. The review found cannabinoids may slow decline in age and disease-related cognitive functioning.

Breast cancer

Medical cannabis blocks the spread of breast cancer by downregulating a gene called ID1. According to a 2007 and a 2010 study at the California Pacific Medical Center Research Institute, cannabidiol (CBD) stops breast cancer from spreading throughout the body by downregulating a gene called ID1. This may provide a non-toxic alternative to chemotherapy while achieving the same results without the painful and unpleasant side effects. The research team says that CBD works by blocking the activity of a gene called ID1, which is believed to be responsible for a process called metastasis, which is the aggressive spread of cancer cells away from the original tumor site. According to findings released by the team in 2012, when the particularly aggressive "triple-negative" cells (which contain high levels of ID1 and account for 15% of breast cancers) were exposed to CBD, they "not only stopped acting 'crazy' but also returned to a healthy normal state". Human trial models are currently in development. Dr Sean McAllister, study co-leader, commented:
"The preclinical trial data is very strong, and there's no toxicity. There's really a lot of research to move ahead with and to get people excited".

HIV/AIDS

Medical cannabis helps to alleviate pain and to improve quality of life for HIV-positive patients. Investigators at Columbia University published clinical trial data in 2007 showing that HIV/AIDS patients who inhaled cannabis four times daily experienced substantial increases in food intake with little evidence of discomfort and no impairment of cognitive performance. They concluded that smoked cannabis has a clear medical benefit in HIV-positive patients. In another study in 2008, researchers at the University of California, San Diego School of Medicine found that marijuana significantly reduces HIV-related neuropathic pain when added to a patient's already-prescribed pain management regimen and may be an "effective option for pain relief" in those whose pain is not controlled with current medications. Mood disturbance, physical disability, and quality of life all improved significantly during study treatment. Despite management with opioids and other pain modifying therapies, neuropathic pain continues to reduce the quality of life and daily functioning in HIV-infected individuals. Cannabinoid receptors in the central and peripheral nervous systems have been shown to modulate pain perception. No serious adverse effects were reported, according to the study published by the American Academy of Neurology. A study examining the effectiveness of different drugs for HIV associated neuropathic pain found that smoked Cannabis was one of only three drugs that showed evidence of efficacy.

Brain cancer

THC found in medical cannabis eliminates brain cancer while leaving healthy brain cells intact. A study by Complutense University of Madrid found the chemicals in cannabis promote the death of brain cancer cells by essentially helping them feed upon themselves in a process called autophagy. The research team discovered that cannabinoids such as THC had anticancer effects in mice with human brain cancer cells and in people with brain tumors. When mice with the human brain cancer cells received the THC, the tumor shrank. Using electron microscopes to analyze brain tissue taken both before and after a 26-to 30-day THC treatment regimen, the researchers found that THC eliminated cancer cells while leaving healthy cells intact. The patients did not have any toxic effects from the treatment; previous studies of THC for the treatment of cancer have also found the therapy to be well tolerated.

Opioid dependence

Medical cannabis is useful in the prevention and treatment of opiate dependence. Injections of THC eliminate dependence on opiates in stressed rats, according to a research team at the Laboratory for Physiopathology of Diseases of the Central Nervous System (France) in the journal Neuropsychopharmacology. Deprived of their mothers at birth, rats become hypersensitive to the rewarding effect of morphine and heroin (substances belonging to the opiate family), and rapidly become dependent. When these rats were administered THC, they no longer developed typical morphine-dependent behavior. In the striatum, a region of the brain involved in drug dependence, the production of endogenous enkephalins was restored under THC, whereas it diminished in rats stressed from birth which had not received THC. Researchers believe the findings could lead to therapeutic alternatives to existing substitution treatments.
In humans, drug treatment subjects who use cannabis intermittently are found to be more likely to adhere to treatment for opioid dependence. Historically, similar findings were reported by Edward Birch, who, in 1889, reported success in treating opiate and chloral addiction with cannabis.

Controlling ALS symptoms

Medical cannabis is moderately effective in reducing symptoms of Amyotrophic lateral sclerosis (ALS) (Lou Gehrig's Disease). The potential role of cannabis in treating symptoms of ALS (or Lou Gehrig's Disease) has been the subject of recent research. A survey was conducted on 131 people suffering from ALS. The survey asked if the subjects had used cannabis in the last 12 months to control some of their symptoms. Of the 131 subjects, 13 had used the drug in some form to control symptoms. The survey found that cannabis was moderately effective in reducing symptoms of appetite loss, depression, pain, spasticity, drooling and weakness, and the longest relief reported was for depression. The pattern of symptom relief was consistent with those reported by people with other conditions, including multiple sclerosis (Amtmann et al. 2004).

Medicinal compounds

Cannabis contains 483 compounds. At least 80 of these are cannabinoids, which are the basis for medical and scientific use of cannabis. This presents the research problem of isolating the effect of specific compounds and taking account of the interaction of these compounds. Cannabinoids can serve as appetite stimulants, antiemetics, antispasmodics, and have some analgesic effects. Six important cannabinoids found in the cannabis plant are tetrahydrocannabinol, tetrahydrocannabinolic acid, cannabidiol, cannabinol, β-caryophyllene, and cannabigerol.

Tetrahydrocannabinol

Chemical structure of tetrahydrocannabinol (THC) Tetrahydrocannabinol (THC) is the primary compound responsible for the psychoactive effects of cannabis. The compound is a mild analgesic, and cellular research has shown the compound has antioxidant activity. THC is believed to interact with parts of the brain normally controlled by the endogenous cannabinoid neurotransmitter, anandamide. Anandamide is believed to play a role in pain sensation, memory, and sleep.

Cannabidiol

Cannabidiol has been shown to relieve convulsions, inflammation, anxiety, cough, congestion and nausea, and it inhibits cancer cell growth. Cannabidiol (CBD) is a major constituent of medical cannabis. CBD represents up to 40% of extracts of medical cannabis. Cannabidiol has been shown to relieve convulsion, inflammation, anxiety, cough, congestion and nausea, and it inhibits cancer cell growth. Recent studies have shown cannabidiol to be as effective as atypical antipsychotics in treating schizophrenia and psychosis. Because cannabidiol relieves the aforementioned symptoms, cannabis strains with a high amount of CBD may benefit people with multiple sclerosis, frequent anxiety attacks and Tourette syndrome.

Cannabinol

Structure of Cannabinol Cannabinol (CBN) is a therapeutic cannabinoid found in Cannabis sativa and Cannabis indica. It is also produced as a metabolite, or a breakdown product, of tetrahydrocannabinol (THC). CBN acts as a weak agonist of the CB1 and CB2 receptors, with lower affinity in comparison to THC.

β-Caryophyllene

Chemical structure of β-caryophyllene Part of the mechanism by which medical cannabis has been shown to reduce tissue inflammation is via the compound β-caryophyllene. A cannabinoid receptor called CB2 plays a vital part in reducing inflammation in humans and other animals. β-Caryophyllene has been shown to be a selective activator of the CB2 receptor. β-Caryophyllene is especially concentrated in cannabis essential oil, which contains about 12–35% β-caryophyllene.

Cannabigerol

Like cannabidiol, cannabigerol is not psychoactive. Cannabigerol has been shown to relieve intraocular pressure, which may be of benefit in the treatment of glaucoma.

Pharmacologic THC and THC derivatives

In the USA, the FDA has approved several cannabinoids for use as medical therapies: dronabinol (Marinol) and nabilone. These medicines are taken orally.
These medications are usually used when first line treatments for nausea and vomiting associated with cancer chemotherapy fail to work. In extremely high doses and in rare cases "psychotomimetic" side effects are possible. The other commonly used antiemetic drugs are not associated with these side effects.
Marinol's manufacturer stated on their website: "The most frequently reported side effects in patients with AIDS during clinical studies involved the central nervous system (CNS). These CNS effects (euphoria, dizziness, or thinking abnormalities, for example) were reported by 33% of patients taking MARINOL". Four documented fatalities resulting from Marinol have been reported.
Canasol is a cannabis-based medication for glaucoma that relieves intraocular pressure symptoms associated with late-stage glaucoma.
It was created by an ophthalmologist, Dr. Albert Lockhart and Dr. Manley E. West, and began distribution in 1987. As of 2003, it was still being distributed in the United Kingdom, several US states, and several Caribbean nations.
It is notable for being one of the first cannabis-containing pharmaceuticals to be developed for the modern pharmaceutical market and being one of the few such pharmaceuticals to have ever been legally marketed in the United States.
The prescription drug Sativex, an extract of cannabis administered as a sublingual spray, has been approved in Canada for the adjunctive treatment (use alongside other medicines) of both multiple sclerosis and cancer related pain.[128][129] Sativex has also been approved in the United Kingdom, New Zealand, and the Czech Republic, and is expected to gain approval in other European countries. William Notcutt is one of the chief researchers that has developed Sativex, and he has been working with GW and founder Geoffrey Guy since the company's inception in 1998. Notcutt states that the use of MS as the disease to study "had everything to do with politics."

Nabilone

1985
USA, Canada
Nausea of cancer chemotherapy that has failed to respond adequately to other antiemetics
US$4000.00 for a year's supply (in Canada)
Canasol
1987
USA, Canada, several Caribbean nations
Introcular pressure associated with late-stage Glaucoma

Marinol

1985
USA Canada (1992)
Nausea and vomiting associated with cancer chemotherapy in patients who have failed to respond adequately to conventional treatments
US$652 for 30 doses @ 10 mg online
1992
USA
Anorexia associated with AIDS–related weight loss

Sativex

1995
Canada
Adjunctive treatment for the symptomatic relief of neuropathic pain in multiple sclerosis in adults
C$ 9,351 per year
1997
Canada
Pain due to cancer
Criticism
One of the major criticisms of cannabis as medicine is opposition to smoking as a method of consumption. However, smoking is no longer necessary due to the development of healthier methods. Medicinal cannabis patients can use vaporizers, where the essential cannabis compounds are extracted and inhaled. In addition, edible cannabis, which is produced in various baked goods, is also available, and has demonstrated longer lasting effects.
The United States Food and Drug Administration (FDA) issued an advisory against smoked medical cannabis stating that, "marijuana has a high potential for abuse, has no currently accepted medical use in treatment in the United States, and has a lack of accepted safety for use under medical supervision." The National Institute on Drug Abuse NIDA state that "Marijuana itself is an unlikely medication candidate for several reasons: (1) it is an unpurified plant containing numerous chemicals with unknown health effects; (2) it is typically consumed by smoking further contributing to potential adverse effects; and (3) its cognitive impairing effects may limit its utility".
The Institute of Medicine, run by the United States National Academy of Sciences, conducted a comprehensive study in 1999 to assess the potential health benefits of cannabis and its constituent cannabinoids. The study concluded that smoking cannabis is not recommended for the treatment of any disease condition, but did conclude that nausea, appetite loss, pain and anxiety can all be mitigated by marijuana. While the study expressed reservations about smoked cannabis due to the health risks associated with smoking, the study team concluded that until another mode of ingestion was perfected that could provide the same relief as smoked cannabis, there was no alternative. In addition, the study pointed out the inherent difficulty in marketing a non-patentable herb. Pharmaceutical companies will probably make less investments in product development if the result is not possible to patent. The Institute of Medicine stated that there is little future in smoked cannabis as a medically approved medication. The report also concluded that for certain patients, such as the terminally ill or those with debilitating symptoms, the long-term risks are not of great concern.
Marinol was less effective than the steroid megestrol in helping cancer patients regain lost appetites. A phase III study found no difference in effects of an oral cannabis extract or THC on appetite and quality of life (QOL) in patients with cancer-related anorexia-cachexia syndrome (CACS) to placebo. "Citing the dangers of cannabis and the lack of clinical research supporting its medicinal value" the American Society of Addiction Medicine in March 2011 issued a white paper recommending a halt to using marijuana as a medicine in U.S. states where it has been declared legal.

Mental disorders

A study of 50,000 Swedish soldiers who had smoked at least once were twice as likely to develop schizophrenia as those who had not smoked. The study concluded that either smoking caused a higher rate of schizophrenia, or that those with schizophrenia were more likely to be drawn to cannabis.
A study by Keele University commissioned by the British government found that between 1996 and 2005 there had been significant reductions in the incidence and prevalence of schizophrenia. From 2000 onwards there were also significant reductions in the prevalence of psychoses. The authors say this data is "not consistent with the hypothesis that increasing cannabis use in earlier decades is associated with increasing schizophrenia or psychoses from the mid-1990s onwards".
A 10-year study on 1923 individuals from the general population in Germany, aged 14–24, concluded that cannabis use is a risk factor for the development of incident psychotic disorder symptoms, and the continued use might increase the risk. However a medical study published in 2009 taken by the Medical Research Council in London, showed there was no significant effect of THC on 11C-raclopride binding. Thus concluding, recreational cannabis users do not release significant amounts of dopamine from an oral THC dose equivalent to a standard cannabis cigarette. This result challenges current models of striatal dopamine release as the mechanism mediating cannabis as risk factor for schizophrenia.

Lung cancer and chronic obstructive pulmonary disease

The evidence to date is conflicting as to whether smoking cannabis increases the risk of developing lung cancer or chronic obstructive pulmonary disease (COPD) among people who do not smoke tobacco. In 2006 a study by Hashibe, Morgenstern, Cui, Tashkin, et al. suggested that smoking cannabis does not, by itself, increase the risk of lung cancer. Many studies did report a strongly synergistic effect, however, between tobacco use and smoking cannabis such that tobacco smokers who also smoked cannabis dramatically increased their already very high risk of developing lung cancer or chronic obstructive pulmonary disease by as much as 300%. Some of these research results follow below:
In 2006, Hashibe, Morgenstern, Cui, Tashkin, et al. presented the results from a study involving 2,240 subjects that showed non-tobacco users who smoked marijuana did not exhibit an increased incidence of lung cancer or head-and-neck malignancies. These results were supported even among very long-term, very heavy users of marijuana. Tashkin, a pulmonologist who has studied cannabis for 30 years, commenting in news reports in the lay media on the results of the study he co-authored, suggested, "It's possible that tetrahydrocannabinol (THC) in cannabis smoke may encourage apoptosis, or programmed cell death, causing cells to die off before they have a chance to undergo malignant transformation". He summarized the results found by his study, saying "We hypothesized that there would be a positive association between cannabis use and lung cancer, and that the association would be more positive with heavier use. What we found instead was no association at all, and even a suggestion of some protective effect." A case-control study of lung cancer in adults 55 years of age and younger found that the risk of lung cancer increased 8% (95% confidence interval (CI) 2–15) for each joint-year of cannabis smoking, after adjustment for confounding variables including cigarette smoking, and 7% (95% CI 5–9) for each pack-year of cigarette smoking, after adjustment for confounding variables including cannabis smoking. The study involved 79 cases and 324 controls. A 2008 study by Hii, Tam, Thompson, and Naughton found that cannabis smoking leads to asymmetrical bullous disease, often in the setting of normal CXR and lung function. In subjects who smoke cannabis, these pathological changes occur at a younger age (approximately 20 years earlier) than in tobacco smokers. However this study involved only 10 patients who also smoked tobacco and had symptoms of the disease prior to the study. There was no control group in the study. Researchers from the University of British Columbia presented a study at the American Thoracic Society 2007 International Conference showing that smoking cannabis and tobacco together more than tripled the risk of developing COPD over just smoking tobacco alone. Similar findings were released in April 2009 by the Vancouver Burden of Obstructive Lung Disease Research Group. The study reported that smoking both tobacco and cannabis synergistically increased the risk of respiratory symptoms and COPD. Smoking only cannabis, however, was not associated with an increased risk of respiratory symptoms of COPD.[156] In a related commentary, pulmonary researcher Donald Tashkin wrote, "...we can be close to concluding that cannabis smoking by itself does not lead to COPD".

Method of consumption

The harm caused by smoking can be minimized or eliminated by the use of a vaporizer or ingesting the drug in an edible form. Vaporizers are devices that heat the active constituents to a temperature below the ignition point of the cannabis, so that their vapors can be inhaled. Combustion of plant material is avoided, thus preventing the formation of carcinogens such as polyaromatic hydrocarbons, benzene and carbon monoxide. A pilot study led by Donald Abrams of UC San Francisco showed that vaporizers eliminate the release of irritants and toxic compounds, while delivering equivalent amounts of THC into the bloodstream. According to Matthew Seamon and his co-authors “Vaporizers are the optimal route of administration because they allow for rapid and complete absorption with minimal combustible byproducts, often considered the major health risk associated with smoking tobacco.”
In order to kill microorganisms, especially the molds A. fumigatus, A. flavus and A. niger, Levitz and Diamond suggested baking marijuana at 150 °C (302 °F) for five minutes. They also found that tetrahydrocannabinol (THC) was not degraded by this process.

Pharmaceutical products

Nabiximols (USAN, trade name Sativex) is an aerosolized mist for oral administration intended for the treatment of pain.
Reclassification
A number of medical organizations have endorsed reclassification of marijuana to allow for further study. These include, but are not limited to:
The American Medical Association
The American College of Physicians – America's second largest physicians group
Leukemia & Lymphoma Society – America's second largest cancer charity
American Academy of Family Physicians opposes the use of marijuana except under medical supervision
Other medical organizations recommend a halt to using marijuana as a medicine in U.S.
The American Society of Addiction Medicine

History

Ancient China and Taiwan
The use of cannabis, at least as fiber, has been shown to go back at least 10,000 years in Taiwan. "Dà má" (Pinyin pronunciation) is the Chinese expression for cannabis, the first character meaning "big" and the second character meaning "hemp."
Cannabis, called má 麻 (meaning "hemp; cannabis; numbness") or dàmá 大麻 (with "big; great") in Chinese, was used in Taiwan for fiber starting about 10,000 years ago. The botanist Li Hui-Lin wrote that in China, "The use of Cannabis in medicine was probably a very early development. Since ancient humans used hemp seed as food, it was quite natural for them to also discover the medicinal properties of the plant."[169] The oldest Chinese pharmacopeia, the (ca. 100 CE) Shennong Bencaojing 神農本草經 ("Shennong's Materia Medica Classic"), describes dama "cannabis".
The flowers when they burst (when the pollen is scattered) are called 麻蕡 [mafen] or 麻勃 [mabo]. The best time for gathering is the seventh day of the seventh month. The seeds are gathered in the ninth month. The seeds which have entered the soil are injurious to man. It grows in [Taishan] (in [Shandong] ...). The flowers, the fruit (seed) and the leaves are officinal. The leaves and the fruit are said to be poisonous, but not the flowers and the kernels of the seeds.
Emperor Shen-Nung, who was also a pharmacologist, wrote a book on treatment methods in 2737 that included the medical benefits of cannabis. He recommended the substance for many ailments, including constipation, gout, rheumatism, and absent-mindedness. Hua Tuo lived many years later, yet he is credited with being the first person known to use cannabis as an anesthetic. He reduced the plant to powder and mixed it with wine for administration. In China, the era of Han Western, the 3rd century the great surgeon Hua Tuo conducts operations under anesthesia using Indian hemp. The Chinese term for anesthesia (麻醉: má zui ) is also composed of the ideogram which means hemp, followed by means of intoxication. Elizabeth Wayland Barber says the Chinese evidence "proves a knowledge of the narcotic properties of Cannabis at least from the 1st millennium B.C." when ma was already used in a secondary meaning of "numbness; senseless." "Such a strong drug, however, suggests that the Chinese pharmacists had now obtained from far to the southwest not THC-bearing Cannabis sativa but Cannabis indica, so strong it knocks you out cold.
Cannabis is one of the 50 "fundamental" herbs in traditional Chinese medicine, and is prescribed to treat diverse indications.
Every part of the hemp plant is used in medicine; the dried flowers (勃), the achenia (蕡), the seeds (麻仁), the oil (麻油), the leaves, the stalk, the root, and the juice. The flowers are recommended in the 120 different forms of (風 feng) disease, in menstrual disorders, and in wounds. The achenia, which are considered to be poisonous, stimulate the nervous system, and if used in excess, will produce hallucinations and staggering gait. They are prescribed in nervous disorders, especially those marked by local anaesthesia. The seeds, by which is meant the white kernels of the achenia, are used for a great variety of affections, and are considered to be tonic, demulcent, alterative, laxative, emmenagogue, diuretic, anthelmintic, and corrective. They are made into a congee by boiling with water, mixed with wine by a particular process, made into pills, and beaten into a paste. A very common mode of exhibition, however, is by simply eating the kernels. It is said that their continued use renders the flesh firm and prevents old age. They are prescribed internally in fluxes, post-partum difficulties, aconite poisoning, vermillion poisoning, constipation, and obstinate vomiting. Externally they are used for eruptions, ulcers, favus, wounds, and falling of the hair. The oil is used for falling hair, sulfur poisoning, and dryness of the throat. The leaves are considered to be poisonous, and the freshly expressed juice is used as an anthelmintic, in scorpion stings, to stop the hair from falling out and to prevent it from turning gray. They are especially thought to have antiperiodic properties (prevention of regular recurrence of the symptoms of a disease). The stalk, or its bark, is considered to be diuretic, and is used with other drugs in gravel. The juice of the root is used for similar purposes, and is also thought to have a beneficial action in retained placenta and post-partum hemorrhage. An infusion of hemp (for the preparation of which no directions are given) is used as a demulcent drink for quenching thirst and relieving fluxes.

Ancient Egypt

The Ebers Papyrus (ca. 1550 BCE) from Ancient Egypt has a prescription for medical marijuana applied directly for inflammation
The Ebers Papyrus (ca. 1550 BCE) from Ancient Egypt describes medical cannabis. Other ancient Egyptian papyri that mention medical cannabis are the Ramesseum III Papyrus (1700 BC), the Berlin Papyrus (1300 BC) and the Chester Beatty Medical Papyrus VI (1300 BC). The ancient Egyptians even used hemp (cannabis) in suppositories for relieving the pain of hemorrhoids. Around 2,000 B.C., the ancient Egyptians used cannabis to treat sore eyes. The egyptologist Lise Manniche notes the reference to "plant medical cannabis" in several Egyptian texts, one of which dates back to the eighteenth century BCE.

Ramesseum III Papyrus (1700 BC)

Main article: Ramesseum medical papyri
Papyrus Ramassei III, col. 26:
K.t phr.t: mɜt.t šmšm.t qnqn, sdr n ỉɜd.t, ỉc ỉr.ty n=s ỉm dwɜy
Alia praecepta: parsley, hemp and obey, in the dew of rest, wash eyes in that early in the morning

Ancient India

Cannabis was a major component in religious practices in ancient India as well as in religious practices. For many centuries, most parts of life in ancient India incorporated cannabis of some form. Surviving texts from ancient India confirm that cannabis' psychoactive properties were recognized, and doctors used it for treating a variety of illnesses and ailments. These included insomnia, headaches, a whole host of gastrointestinal disorders, and pain: cannabis was frequently used to relieve the pain of childbirth. One Indian philosopher expressed his views on the nature and uses of bhang (a form of cannabis), which combined religious thought with medical practices. "A guardian lives in the bhang leaf...To see in a dream the leaves, plant, or water of bhang is lucky... A longing for bhang foretells happiness. It cures dysentry and sunstroke, clears hlegm, quickens digestion, sharpens appetite, makes the tongue of the lisper plain, freshens the intellect and gives alertness to the body and gaiety to the mind. Such are the useful and needful ends for which in His goodness the Almighty made bhang.."

Ancient Greece

The Ancient Greeks used cannabis not only for human medicine, but also in veterinary medicine to dress wounds and sores on their horses.
The Ancient Greeks used cannabis to dress wounds and sores on their horses. In humans, dried leaves of cannabis were used to treat nose bleeds, and cannabis seeds were used to expel tapeworms. The most frequently described use of cannabis in humans was to steep green seeds of cannabis in either water or wine, later taking the seeds out and using the warm extract to treat inflammation and pain resulting from obstruction of the ear.
In the 5th century BCE Herodotus, a Greek historian, described how the Scythians of the Middle East used cannabis in steam baths. These baths drove the people to a frenzied state.

South East Asia

Patani from Asia are primary natural producers of the diuretic, antiemetic, antiepileptic, anti-inflammatory, pain killing and antipyretic properties of Cannabis sativa, and used it extensively for 'Kopi Kapuganja' and 'Pecel Ganja', as recreation food, drinks and relaxing medication for centuries.[citation needed]

Medieval Islamic world

In the medieval Islamic world, Arabic physicians made use of the diuretic, antiemetic, antiepileptic, anti-inflammatory, Analgesic and antipyretic properties of Cannabis sativa, and used it extensively as medication from the 8th to 18th centuries.

Modern history

Medical cannabis ad from Sweden (1800) An Irish physician, William Brooke O'Shaughnessy, is credited with introducing the therapeutic use of cannabis to Western medicine. He was Assistant-Surgeon and Professor of Chemistry at the Medical College of Calcutta, and conducted a cannabis experiment in the 1830s, first testing his preparations on animals, then administering them to patients to help treat muscle spasms, stomach cramps or general pain.
Cannabis as a medicine became common throughout much of the Western world by the 19th century. It was used as the primary pain reliever until the invention of aspirin.[183] Modern medical and scientific inquiry began with doctors like O'Shaughnessy and Moreau de Tours, who used it to treat melancholia and migraines, and as a sleeping aid, analgesic and anticonvulsant. At the local level authorities introduced various laws that required the mixtures that contained cannabis, that was not sold on prescription, must be marked with warning labels under the so-called poison laws.
A Swedish lexicon printed in 1912 describes cannabis drug and cannabis extract as a now with us deserted method for medical treatment.
There were at least 2000 cannabis medicines prior to 1937 with over 280 manufacturers.
Later in the century, researchers investigating methods of detecting cannabis intoxication discovered that smoking the drug reduced intraocular pressure. In 1955 the antibacterial effects were described at the Palacký University of Olomouc. Since 1971 Lumír Ondřej Hanuš was growing cannabis for his scientific research on two large fields in authority of the University. The marijuana extracts were then used at the University hospital as a cure for aphthae and haze. In 1973 physician Tod H. Mikuriya reignited the debate concerning cannabis as medicine when he published "Marijuana Medical Papers". High intraocular pressure causes blindness in glaucoma patients, so he hypothesized that using the drug could prevent blindness in patients. Many Vietnam War veterans also found that the drug prevented muscle spasms caused by spinal injuries suffered in battle. Later medical use focused primarily on its role in preventing the wasting syndromes and chronic loss of appetite associated with chemotherapy and AIDS, along with a variety of rare muscular and skeletal disorders.
In 1964, Dr. Albert Lockhart and Manley West began studying the health effects of traditional cannabis use in Jamaican communities. They discovered that Rastafarians had unusually low glaucoma rates and local fishermen were washing their eyes with cannibis extract in the belief that it would improve their sight. Lockhart and West developed, and in 1987 gained permission to market, the pharmaceutical Canasol: one of the first to cannabis extracts. They continued to work with cannabis throughout the years, developing more pharmaceuticals and eventually receiving the Jamaican Order of Merit for their work.
Later, in the 1970s, a synthetic version of THC was produced and approved for use in the United States as the drug Marinol. It was delivered as a capsule, to be swallowed. Patients complained that the violent nausea associated with chemotherapy made swallowing capsules difficult. Further, along with ingested cannabis, capsules are harder to dose-titrate accurately than smoked cannabis because their onset of action is so much slower. Smoking has remained the route of choice for many patients because its onset of action provides almost immediate relief from symptoms and because that fast onset greatly simplifies titration. For these reasons, and because of the difficulties arising from the way cannabinoids are metabolized after being ingested, oral dosing is probably the least satisfactory route for cannabis administration. Relatedly, some studies have indicated that at least some of the beneficial effects that cannabis can provide may derive from synergy among the multiplicity of cannabinoids and other chemicals present in the dried plant material. Such synergy is, by definition, impossible with respect to the use of single-cannabinoid drugs like Marinol.
During the 1970s and 1980s, six U.S. states' health departments performed studies on the use of medical cannabis. These are widely considered some of the most useful and pioneering studies on the subject. Voters in eight states showed their support for cannabis prescriptions or recommendations given by physicians between 1996 and 1999, including Alaska, Arizona, California, Colorado, Maine, Michigan, Nevada, Oregon, and Washington, going against policies of the federal government. In May 2001, "The Chronic Cannabis Use in the Compassionate Investigational New Drug Program: An Examination of Benefits and Adverse Effects of Legal Clinical Cannabis" (Russo, Mathre, Byrne et al.) was completed. This three-day examination of major body functions of four of the five living US federal cannabis patients found "mild pulmonary changes" in two patients.

National and international regulations

Main article: Legal and medical status of cannabis
Worldwide laws on cannabis possession for medical purposes. Medical use of cannabis or preparation containing THC as the active substance is legalized in Canada, Belgium, Austria, Netherlands, UK, Spain, Israel, Finland and some states in the U.S., although it is still illegal under U.S. federal law.
Cannabis is in Schedule IV of the United Nations´ Single Convention on Narcotic Drugs, making it subject to special restrictions. Article 2 provides for the following, in reference to Schedule IV drugs:
A Party shall, if in its opinion the prevailing conditions in its country render it the most appropriate means of protecting the public health and welfare, prohibit the production, manufacture, export and import of, trade in, possession or use of any such drug except for amounts which may be necessary for medical and scientific research only, including clinical trials therewith to be conducted under or subject to the direct supervision and control of the Party.
The convention thus allows countries to outlaw cannabis for all non-research purposes but lets nations choose to allow medical and scientific purposes if they believe total prohibition is not the most appropriate means of protecting health and welfare. The convention requires that states that permit the production or use of medical cannabis must operate a licensing system for all cultivators, manufacturers and distributors and ensure that the total cannabis market of the state shall not exceed that required "for medical and scientific purposes."

Africa

Cannabis has been used in Africa since at least the 15th century. Its use was introduced by Arab traders, somehow connected to India. “In Africa, the plant was used for snake bite, to facilitate childbirth, malaria, fever, blood poisoning, anthrax, asthma, and dysentery.” (Zuardi, 2006, 4) Though African governments have tried to limit and stop its use, it still seems to be deeply ingrained, mostly through religious rituals.

Austria

In Austria both Δ9-THC and pharmaceutical preparations containing Δ9-THC are listed in annex V of the Narcotics Decree (Suchtgiftverordnung). Compendial formulations are manufactured upon prescription according to the German Neues Rezeptur-Formularium.
On 9 July 2008, the Austrian Parliament approved cannabis cultivation for scientific and medical uses.[198] Cannabis cultivation is controlled by the Austrian Agency for Health and Food Safety (Österreichische Agentur für Gesundheit und Ernährungssicherheit, AGES).

Canada

Centre compassion de Montréal, au Québec. In Canada, the regulation on access to cannabis for medical purposes, established by Health Canada in February 2000, defines two categories of patients eligible for access to medical cannabis. BC College of Physicians and Surgeons’ recommendation, as well as the CMPA position, is that physicians may prescribe cannabis if they feel comfortable with it. The MMAR forms are a confidential document between Health Canada, the physician and the patient. The information is not shared with the College or with the RCMP. No doctor has ever gone to court or faced prosecution for filling out a form or for prescribing medical cannabis. Category 1 covers any symptoms treated within the context of providing compassionate end-of-life care or the symptoms associated with different medical conditions. Category 2 is for applicants who have debilitating symptom(s) of medical condition(s), other than those described in Category 1. The application of eligible patients must be supported by a medical practitioner.
The cannabis distributed by Health Canada is provided under the brand CannaMed by the company Prairie Plant Systems Inc. In 2006, 420 kg of CannaMed cannabis was sold, representing an increase of 80% over the previous year. However, patients complain of the single strain selection as well as low potency, providing a pre-ground product put through a wood chipper (which deteriorates rapidly) as well as gamma irradation and foul taste and smell.
Reception desk at the Kingston Compassion Club Society in Kingston, Ontario It is also legal for patients approved by Health Canada to grow their own cannabis for personal consumption, and it's possible to obtain a production license as a person designated by a patient. Designated producers were permitted to grow a cannabis supply for only a single patient, however. That regulation and related restrictions on supply were found unconstitutional by the Federal Court of Canada in January 2008. The court found that these regulations did not allow a sufficient legal supply of medical cannabis, and thus forced many patients to purchase their medicine from unauthorized, black market sources. This was the eighth time in the previous ten years that the courts ruled against Health Canada's regulations restricting the supply of the medicine. On 14 Dec 2012 the Canadian government announced plans to overhaul its rules regarding medical cannabis.
In Canada there are four forms of medical cannabis. The first one is a cannabis extract called Sativex that contains THC and cannabidiol in a spray form. The second is a synthetic or manmade THC called dronabinol marketed as Marinol. The third also a synthetic version of THC called nabilone that is called Cesamet on the markets. The fourth product is the herbal form of cannabis often referred to as marijuana.

Czech Republic

Medical use of cannabis has been legal and regulated in the Czech republic since the 1 April 2013.

Germany

In February 2008, seven German patients could legally be treated with medicinal cannabis, distributed by prescription in pharmacies. To regulate therapeutic use, Germany modeled on Dutch neighbor who distributes this way since in 2003 (120 kg in 2008).
In Germany dronabinol was rescheduled in 1994 from annex I to annex II of the Narcotics Law (Betäubungsmittelgesetz) in order to ease research; in 1998 dronabinol was rescheduled from annex II to annex III and since then has been available by prescription, whereas Δ9-THC is still listed in annex I. Manufacturing instructions for dronabinol containing compendial formulations are described in the Neues Rezeptur-Formularium.

Israel

Professor Raphael Mechoulam and Yechiel Gaoni isolated THC from Cannabis in 1964 and later discovered anandamide. Marijuana for medical use has been permitted in Israel since the early 1990s for cancer patients and those with pain-related illnesses such as Parkinson's, multiple sclerosis, Crohn's Disease, other chronic pain and post-traumatic stress disorder. Patients can smoke the drug, ingest it in liquid form, or apply it to the skin as a balm. The numbers of patients authorized to use marijuana in Israel in 2012 is about 10,000.
There are eight government-sanctioned cannabis growing operations in Israel, which distribute it for medical purposes to patients who have a prescription from a doctor, via either a company's store, or in a medical center.
THC, the psychoactive chemical component in marijuana that causes a high, was first isolated by Israeli scientists Raphael Mechoulam of the Hebrew University in Jerusalem’s Center for Research on Pain and Yechiel Gaoni of the Weizmann Institute in 1964.
The Tikkin Olam company has developed a variety of marijuana that is reported to provide the medical benefits of cannabis, but without THC. The cannabis instead contains high quantities of CBD, a substance that is believed to be an anti-inflammatory ingredient, which helps alleviate pain.

Netherlands

Prescription Bedica medical cannabis in the Netherlands Since 2003, the country's pharmacies distribute medicinal cannabis (pharmaceutical form of the natural plant) by prescription, in addition to other drugs containing cannabinoids (dronabinol, Sativex).
The four therapeutic qualities produced by the company Bedrocan and distributed in the pharmacy are:
Bedrocan (18% dronabinol / THC. + <1% Cannabidiol / CBD)
Bedica (14% dronabinol / THC. + <1% Cannabidiol / CBD) granules
Bediol (11% dronabinol / THC. + <1% Cannabidiol / CBD)
Bedrobinol (6% dronabinol / THC. + 7.5% Cannabidiol / CBD) granules

Spain

In Spain, since the late 1990s and early 2000s, medical cannabis underwent a process of progressive decriminalization and legalisation. The parliament of the region of Catalonia was the first in Spain to have voted unanimously in 2001 legalizing medical marijuana; it was quickly followed by parliaments of Aragon and the Balearic Islands. The Spanish Penal Code prohibits the sale of cannabis but it does not prohibit consumption (although consumption on the street is fined). Until early 2000, the Penal Code did not distinguish between therapeutic use of cannabis and recreational use, however, several court decisions show that this distinction is increasingly taken into account by judges. From 2006, the sale of seed is legalized, the sale and public consumption remains illegal, and private cultivation and use are permitted to associations.
Several studies have been conducted to study the effects of cannabis on patients suffering from diseases like cancer, AIDS, multiple sclerosis, seizures or asthma. This research was conducted by various Spanish agencies at the Universidad Complutense de Madrid headed by Manuel Guzman, the hospital of La Laguna in Tenerife led neurosurgeon Luis González Feria or the University of Barcelona.
Several cannabis consumption clubs and user associations have been established throughout Spain. These clubs, the first of which was created in 1991, are non-profit associations who grow cannabis and sell it at cost to its members. The legal status of these clubs is uncertain: in 1997, four members of the first club, the Barcelona Ramón Santos Association of Cannabis Studies, were sentenced to 4 months in prison and a 3000 euro fine, while at about the same time, the court of Bilbao ruled that another club was not in violation of the law. The Andalusian regional government also commissioned a study by criminal law professors on the "Therapeutic use of cannabis and the creation of establishments of acquisition and consumption. The study concluded that such clubs are legal as long as they distribute only to a restricted list of legal adults, provide only the amount of drugs necessary for immediate consumption, and not earn a profit. The Andalusian government never formally accepted these guidelines and the legal situation of the clubs remains insecure. In 2006 and 2007, members of these clubs were acquitted in trial for possession and sale of cannabis and the police were ordered to return seized crops.

United Kingdom

In England and Wales, the use of cannabis medicinally is accepted as a mitigating factor under Sentencing Council guidelines, if it is being cultivated or found in possession of someone. However, in the United Kingdom, possession of small quantities of cannabis does not usually warrant an arrest or court appearance (street cautions or fines are often given out instead). Under UK law, certain cannabinoids are permitted medically, but these are strictly controlled with many provisos under the Misuse of Drugs Act 1971 (in the 1985 amendments).
The British Medical Association's official stance is "users of cannabis for medical purposes should be aware of the risks, should enrol for clinical trials, and should talk to their doctors about new alternative treatments; but we do not advise them to stop."

United States

Main article: Medical cannabis in the United States
Medical Marijuana Dispensary
The Health and Human Services Division of the Federal government of the United States holds a patent US 6630507 for medical cannabis.
In the United States federal level of government, cannabis per se has been made criminal by implementation of the Controlled Substances Act which classifies cannabis as a Schedule I drug, the strictest classification on par with heroin, LSD and ecstasy, and the Supreme Court ruled in 2005 that the Commerce Clause of the U.S. Constitution allowed the government to ban the use of cannabis, including medical use. The United States Food and Drug Administration states "marijuana has a high potential for abuse, has no currently accepted medical use in treatment in the United States, and has a lack of accepted safety for use under medical supervision".
Two American (for-profit) companies, Cannabis Science Inc., and Medical Marijuana, Inc., are working towards getting FDA approval for cannabis based medicines (including smoked cannabis). Cannabis Science Inc. wants to have medical cannabis approved by the FDA so anyone, regardless of state, will have access to the medicine. Also, there is one non-profit organization, the Multidisciplinary Association for Psychedelic Studies (MAPS) working towards getting Cannabis approved by the FDA for PTSD.
Since the medical marijuana movement began, twenty states and the District of Columbia, starting with California in 1996, have legalized medical cannabis or effectively decriminalized it: Alaska, Arizona, California, Colorado, Connecticut, Delaware, Hawaii, Maine, Massachusetts, Michigan, Montana, Nevada, New Jersey, New Mexico, Oregon, Rhode Island, Vermont, Virginia, Washington; and Washington D.C. Maryland allows for reduced or no penalties if cannabis use has a medical basis. Despite its legality in Washington, and Colorado, an employee can still be fired if they test positive on a drug test, despite having a doctor's recommendation. California, Colorado, New Mexico, Maine, Rhode Island, Montana, and Michigan are currently the only states to utilize dispensaries to sell medical cannabis. Connecticut will be the eighth but has yet to issue any licenses. California's medical cannabis industry took in about $2 billion a year and generated $100 million in state sales taxes during 2008 with an estimated 2,100 dispensaries, co-operatives, wellness clinics and taxi delivery services in the sector colloquially known as "cannabusiness".
Some individual states such as Oregon choose to issue medical marijuana cards to residents with a doctors recommendation after paying a fee.
On 19 October 2009 the US Deputy Attorney General issued a US Department of Justice memorandum to "All United States Attorneys" providing clarification and guidance to federal prosecutors in US States that have enacted laws authorizing the medical use of marijuana. The document is intended solely as "a guide to the exercise of investigative and prosecutorial discretion and as guidance on resource allocation and federal priorities." The US Deputy Attorney General David W. Ogden provided seven criteria, the application of which acts as a guideline to prosecutors and federal agents to ascertain whether a patient's use, or their caregiver's provision, of medical cannabis "represents part of a recommended treatment regiment consistent with applicable state law", and recommends against prosecuting patients using medical cannabis products according to state laws. Not applying those criteria, the Dep. Attorney General Ogden concludes, would likely be "an inefficient use of limited federal resources". The memorandum does not change any laws. Sale of cannabis remains illegal under federal law. The U.S. Food and Drug Administration's position, that marijuana has no accepted value in the treatment of any disease in the United States, has also remained the same.
The Health and Human Services Division of the federal government holds a patent US 6630507 for medical cannabis. The patent, "Cannabinoids as antioxidants and neuroprotectants", issued October 2003 reads:
“
Cannabinoids have been found to have antioxidant properties, unrelated to NMDA receptor antagonism. This new found property makes cannabinoids useful in the treatment and prophylaxis of wide variety of oxidation associated diseases, such as ischemic, age-related, inflammatory and autoimmune diseases. The cannabinoids are found to have particular application as neuroprotectants, for example in limiting neurological damage following ischemic insults, such as stroke and trauma, or in the treatment of neurodegenerative diseases, such as Alzheimer's disease, Parkinson's disease and HIV dementia.
”
On 17 November 2011, in accordance with 35 U.S.C. 209(c)(1) and 37 CFR part 404.7(a)(1)(i), the National Institutes of Health, Department of Health and Human Services, published in the Federal Register, that it is contemplating the grant of an exclusive patent license to practice the invention embodied in U.S. Patent 6,630,507, entitled "Cannabinoids as antioxidants and neuroprotectants" and PCT Application Serial No. PCT/US99/08769 and foreign equivalents thereof, entitled "Cannabinoids as antioxidants and neuroprotectants" [HHS Ref. No. E-287-1997/2] to KannaLife Sciences Inc., which has offices in New York, U.S. This patent and its foreign counterparts have been assigned to the Government of the United States of America. The prospective exclusive license territory may be worldwide, and the field of use may be limited to: The development and sale of cannabinoid(s) and cannabidiol(s) based therapeutics as antioxidants and neuroprotectants for use and delivery in humans, for the treatment of hepatic encephalopathy, as claimed in the Licensed Patent Rights.


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