INTRODUCTION
Marijuana Harmless?
In 1997, the British newspaper The Independent began a campaign to decriminalize marijuana use, describing it as a relatively harmless drug, eventually leading to the British Government downgrading the legal status of the drug. Ten years later, the same newspaper published another article entitled "Cannabis: an apology," reversing its campaign for marijuana decriminalization because, there is increasing evidence that marijuana use is far from harmless.
Marijuana (cannabis) is the most widely used illegal drug in many developed countries.1 Medical studies have shown that the active ingredient in marijuana, delta-9-tetrahydrocannabinol (THC), might provide some medical benefits in some patients. Under the impression that these benefits were substantial, voters in California and Arizona approved initiatives allowing the use of "medical" marijuana by patients under certain circumstances. This paper represents a current review of the medical literature regarding the benefits and drawbacks of using marijuana for medical or recreational purposes. A companion paper examines the moral and biblical questions about the Christian's use of marijuana.
THC mode of action
THC Structure
THC is a cannabinoid compound, which binds to CB1 cannabinoid receptors in the human brain.2 These cannabinoids mimic naturally occurring endocannabinoids produced within the brain, but with more powerful effects. CB1 receptors are found in the cerebral cortex (primarily the frontal regions), the basal ganglia, the cerebellum, the hypothalamus, the anterior cingulate cortex, and the hippocampus.3 The effects of THC have been experimentally shown through the use of animal studies and some in vitro human studies. THC acts by inhibiting the release of neurotransmitters, including L-glutamate, GABA, noradrenaline, dopamine, 5-HT and acetylcholine. Although endocannabinoids are rapidly inactivated by the enzyme fatty acid amide hydrolase, exogenous cannabinoids, such as THC, persist for extended periods of time, resulting in the noted physiological effects.
Medical benefits of marijuana
Anecdotal evidence for the beneficial effects of marijuana eventually led to the design of controlled scientific studies to examine the benefits of marijuana compared to other treatments. A 1997 review of 6059 marijuana-related articles in the medical literature revealed 194 titles on antiemetic properties, 56 on glaucoma, 10 on multiple sclerosis, 23 on appetite, and 11 on palliative or terminal care.2 Numerous studies have been performed since that time, with most concentrating on the analgesic properties of cannabis and its derivatives.
Antiemetic (anti-nausea) use
Early on, THC had been shown to be effective for some patients who suffered nausea from cancer chemotherapy treatments. However, the narrow window between the anti-emetic dose and that which caused unwanted psychic effects made THC difficult to use.3 In some studies, negative side effects occurred in up to 81% of patients.4 In one of the few studies using smoked marijuana, 20% of patients dropped out of the study, while another 22% reported no relief of nausea symptoms.5 The advent of serotonin 5-HT3 receptor antagonists as new and more powerful anti-emetic drugs that were free of unwanted psychic effects has made cannabinoid use less attractive. For this reason, physicians virtually never prescribe marijuana or THC as an antiemetic for use by chemotherapy patients.6
Multiple sclerosis
Studies have shown that cannabis can relieve muscle pain and spasticity in patients suffering from multiple sclerosis7 and can control tremors in multiple sclerosis animal models.8 However, a study in ten patients with spastic multiple sclerosis showed that smoking marijuana further impaired posture and balance in those patients.9 In addition, MS patients who used marijuana had a greater number of psychiatric diagnoses and a slower mean performance time on standard neurological tests.10 Some randomized, double-blind, placebo-controlled, parallel group crossover trials have found no significant improvement of MS symptoms during cannabis plant extract use. However, in some trials patients did show an increase in aggressive behavior and paranoiac tendencies in a standard psychological test.11 Another placebo-controlled study, examining the effect of a cannabis extract on spasticity in MS, found a positive partial relief of symptoms in 40% of patients.12 A 10-week, placebo-controlled study of MS patients found that 42% withdrew due to lack of efficacy, adverse events and other reasons. Patients reported 292 unwanted effects, of which 251 were mild to moderate, including oral pain, dizziness, diarrhea, nausea. Three patients suffered five serious adverse events, including two seizures, one fall, one aspiration pneumonia, one gastroenteritis. Four patients had first-ever seizures. A minority of patients received some relief of symptoms.13 So, overall, studies show that a minority of multiple sclerosis patients can receive some symptom relief through the use of marijuana extracts or THC, although a significant percentage of patients suffer unwanted adverse effects.
Glaucoma
THC has been shown to reduce intraocular pressure in laboratory animals and humans who have glaucoma.14 However, it was found that intraocular pressure was reduced only when patients stayed under the effects of THC almost continuously.15 Since the early studies, more effective medications, such as 13-blockers and prostaglandins, have been developed to control intraocular pressure. Obviously, glaucoma medications that don't require one to be continuously high are preferable to those that have unwanted side effects.
Appetite
Regular marijuana users are aware of the phenomenon known as the "munchies." Laboratory studies have shown that THC does increase the appetite (not a good thing for most of us).16 However, for those suffering from debilitating diseases, such as AIDS-related wasting syndrome, THC has been shown to be effective in maintaining body weight.17
Analgesia (pain relief)
Some clinical studies have indicated that THC has some analgesic activity in patients with cancer.18 However, there is a narrow therapeutic window between doses that produce useful analgesia and those that produce unacceptable central nervous system effects. Several studies have shown improvement of pain at higher doses,19 while others have shown no effect or a negative effect at higher doses compared with placebo.20
Medical marijuana summary
The use of marijuana or cannabis extracts for medical treatment has been extensively studied over the last 20 years. Initial enthusiasm for THC as an antiemetic or to reduce intraocular pressure has waned with the advent of new medications that provide superior medical benefits with fewer adverse effects. The main success of THC has been found in patients suffering from AIDS-related wasting syndrome and in some cases in which patients are suffering from intractable pain. However, nearly all of these studies involved the use of controlled doses of purified cannabinoids, bypassing the adverse effects associated with smoking marijuana. Dr. Robert L. DuPont, Georgetown University School of Medicine, says that most opponents of the medical use of smoked marijuana are not hostile to the medical use of THC, while "most supporters of smoked marijuana are hostile to the use of purified chemicals from marijuana, insisting that only smoked marijuana leaves be used as 'medicine,' revealing clearly that their motivation is not scientific medicine but the back door legalization of marijuana."21
Detrimental effects of marijuana
Studies examining the efficacy of "medical" marijuana have found that a significant percentage of patients suffer from some form of adverse side effects. However, these studies have been limited to a duration of a few weeks to months. Another series of studies have examined the long-term effects of recreational marijuana use.
Dosage Problems
One of the main problems with the use of crude "medical" marijuana is that the amount of THC in the preparations varies up to 10-fold, depending upon if the marijuana is made from the flowers or the whole plant.22 Those who can afford the "good stuff" usually get a substantially higher dose of THC than those who buy the "cheap stuff." In addition, studies demonstrate a trend for increasing concentration of THC over the last ten years.23 Because of dosage problems, crude marijuana as a medical "treatment" has proved problematic, despite California's assertion that there is such a thing as "medical" marijuana.
Brain effects
Cannabis & Brain
A recent study using an MRI technique, diffusion tensor imaging, mapped the structural integrity of brain tissue in eleven heavy marijuana users and eleven age matched controls. The study found impaired structural integrity affecting the fibre tracts of the corpus callosum, suggesting the possibility that the structural abnormalities in the brain may underlie cognitive and behavioral consequences of long-term heavy marijuana use.24 Another MRI study found that heavy cannabis users had an averaged 12 per cent volume reduction of the hippocampus, and a 7 per cent reduction of the amygdala compared to controls (see image to right).25 In addition, the study found that long-term cannabis users suffered from psychotic experiences, such as persecutory beliefs and social withdrawal, in addition to the loss of memory equivalent to 15 additional years of aging.25 Another study measured slow brain potentials in response to Go and No Go conditions before, during and after marijuana smoking. The study found normal responses both before and during smoking, but severely disrupted responses 20-40 minutes later,26 during the period of peak intoxication, resembling those found in patients with lateral prefrontal cortex lesions. Another study utilized BOLD fMRI to examine the brain activation patterns in chronic marijuana users and matched control subjects during a set of visual attention tasks.27 Although all subjects demonstrated similar task and cognitive test performance, active and abstinent marijuana users showed decreased activation in the right prefrontal, medial and dorsal parietal, and medial cerebellar regions (regions affected by THC), but greater activation in various frontal, parietal and occipital brain regions. Investigators hypothesized that marijuana users had lost some functionality in parts of the brain affected by marijuana use, which was compensated in other regions of the brain. The long-term consequences of such damage was not assessed, since the average age of marijuana users was less than 30. Another study examined the ability of 25-day abstinent marijuana users to perform decision-making tasks, simultaneously measuring brain activity using PET H215O.28 The marijuana group showed greater activation in the left cerebellum and less activation in the right lateral orbitofrontal cortex (OFC) and the right dorsolateral prefrontal cortex (DLPFC) compared with the control group. The investigator concluded that heavy marijuana users had persistent decision-making deficits and alterations in brain activity.28
Short term memory
Marijuana usage severely impacts short term memory,29 probably by interfering with the hippocampus.30 Impairment is especially noted in tests that depend heavily on attention.31 Specifically, marijuana intoxication causes deficits in spatial learning tasks,32 delays in matching or non-matching tests,32-33 and impaired performance in a radial arm maze in rodents.34
Long term cognitive functionStudies have found that regular cannabis use can cause small but significant impairments in cognitive function that may persist after drug use stops.35 Heavy cannabis use in adolescence may induce subtle changes in the adult brain circuits resulting in altered emotional and cognitive performance and enhanced susceptibility for more harmful drugs of abuse in certain individuals.36 Several studies have found deficits in attention and memory in heavy marijuana users.37-39 However, normalization of cognitive function has been found with prolonged abstinence (after 28 days),38-40 although other studies have observed persistent cognitive deficits.41 Another study found that chronic cannabis use had little effect on cognitive function except for possible decrements in the ability to learn and remember new information.42
Psychiatric illness
Some marijuana users can suffer from cannabis psychosis when they take large doses over a period of time, with symptoms characteristic of paranoid schizophrenia.43 A recent study found that marijuana use significantly increased the risk of developing mental health problems among those young people who possessed a genetic high risk for schizophrenia (familial risk factors).44 Among cannabis users who developed cannabis-induced psychosis, 44.5% developed schizophrenia-spectrum disorders, with about half of those being diagnosed more than a year after seeking treatment for their cannabis-induced psychosis.45 Another study examined the associations between cannabis use and the development of mood and anxiety disorders.46 The study found no association between cannabis used and the development of anxiety disorders, although there was a significant correlation with the development of depression and bipolar disorder.46 Another study found an association between cannabis use and the development of panic attacks.47
Marijuana abuse and withdrawal
Although originally believed not be addictive, marijuana studies have shown that a substantial percentage of users suffer from abuse or dependence.48 An Australian studied found that 10.7% of marijuana users users suffered from substance abuse and another 21% suffered from substance dependence.49 Another study, in the USA, found that 46% of those interviewed had ever used marijuana and 9% of those users became dependent.50 In addition, studies have shown that addicted individuals suffer a clinically significant withdrawal syndrome, which includes craving for cannabis, decreased appetite, sleep difficulty and weight loss, and sometimes anger, aggression, increased irritability, restlessness and strange dreams.51 A study of teens showed that the overall severity of withdrawal was correlated with irritability, depression, twitches and shakes, perspiring, and thoughts and cravings for cannabis.52 Animal studies have shown that THC withdrawal leads to physiological symptoms similar to those seen in animals suffering from opiate withdrawal.53 The symptoms of withdrawal can be lessened by using the CB1 receptor agonist THC, demonstrating that cannabis use results in true addictive withdrawal.54 A recent study has shown that the withdrawal symptoms are comparable to those seen in tobacco withdrawal.55
Gateway hypothesis:
There is a tendency for marijuana users to go on to use other addictive drugs, following their initial experience with marijuana.56 Whether marijuana use predisposes individuals to drug abuse as a "gateway drug" or whether it is just the most easily available illicit drug, is not completely known. However, a study of 311 pairs of same-sex twins found that the twins with earlier marijuana use (before age 17 years) were 2–5 times more likely to use other illicit drugs, especially psychostimulants.57
Concomitant drug use
A large percentage of Ecstasy/MDMA users (90-98%) also use marijuana.58 Studies have found that each drug is functionally damaging, and polydrug users generally display cumulative neurobiological impairments.58 Another study found that those who use both drugs suffer from immunological impairments characterized by a significant decrease in interleukin-2 and an increase in anti-inflammatory transforming growth factor-β1, along with a decrease in the number of total lymphocytes, CD4+ and natural killer cells.59 Probably as a result of these immunological impairments Ecstasy/cannabis users suffered a significantly higher rate of mild infections.
Driving & cannabis
In Europe, three million people use cannabis every day and more than two thirds of those drive after having smoked cannabis.60 Over 50% of drivers in Austria, Belgium, Germany, Switzerland and the United Kingdom suspected of driving under the influence of drugs have been found to have THC in their bloodstream.60 Numerous studies have shown that driving under the influence of marijuana use results in a significant increase in motor vehicle accidents especially those resulting in fatalities or serious injuries, even with low blood concentrations of THC.60-63 These studies have been done around the world, including Canada,61 Norway,62 and France.63
Use during pregnancy
A study conducted in the Netherlands found that 2.9% of women used cannabis both before and during pregnancy.64 Factors coincident with cannabis use included use by the biological father, being single, childhood trauma, delinquency, and lower educational level.64 The reason why cannabis use is of concern is because it has been shown that THC crosses the placenta, thus entering the fetus during development.65 It has also been found that THC is secreted in breast milk, so it would fed to the newborn during breast feeding.65
A study at the University of Pittsburg examined the effect of prenatal marijuana exposure on subsequent child intelligence.66 Heavy marijuana use (one or more cigarettes per day) during the first trimester was associated with lower verbal reasoning scores on the Stanford-Binet Intelligence Scale at age 6. Heavy use during the second trimester predicted deficits in the composite, short-term memory, and quantitative scores. Third-trimester heavy use was negatively associated with the quantitative score, indicating that prenatal marijuana exposure has a significant effect on subsequent school-age intellectual development.66 Another study found that prenatal marijuana exposure in the first and third trimesters predicted significantly increased levels of depressive symptoms in 10-year olds.67 A 2006 survey of the literature revealed that cannabis use during pregnancy was associated with a number of negative outcomes in the child, including symptoms of inattention, impulsivity, deficits in learning and memory, and a deficiency in aspects of executive functions.68 Another study found no effect of marijuana on IQ, but did find that prenatal use negatively impacted executive functions, influencing the application of these skills in problem-solving situations requiring visual integration, analysis, and sustained attention.69
Use during adolescence
Adolescent exposure to cannabinoid compounds has been shown to affect the postnatal development of opioid neurons.70 These alterations are likely to produce important long-lasting functional changes in these neurons in the adult brain,71 including alterations in neuroendocrine control,72 pain sensitivity,73 and reward processes.70, 74 Animal studies have shown that cannabis exposure during adolescence can produce lasting memory deficits and hippocampal alterations75 that affect memory and social interaction.76
Hormonal effects
Since THC affects the hypothalamus, which directly or indirectly modulates anterior pituitary function, it has been hypothesized that it might affect human endocrine function. Animal and human studies have shown that THC suppresses the reproductive hormones, prolactin, growth hormone, and the thyroid axis, while the hypothalamic pituitary-adrenal axis is activated.77 However, it appears that in humans many of these effects are transitory, likely due to the development of tolerance with continued use of the drug.77
Cancer risks
Although smoking marijuana doesn't have the same degree of risk as smoking tobacco (because of the frequency of usage), smoking anything over long periods of time does add to risks of contracting forms of cancer of the respiratory tract. Studies have suggested that smoking marijuana increases the risk of both oral cancers78 and lung cancer.79 This is because marijuana smoke contains carcinogenic materials, including vinyl chlorides, phenols, nitrosamines, reactive oxygen species, and various polycyclic aromatic hydrocarbons, including Benzo[a]pyrene, which is present in marijuana tar at a higher concentration than in tobacco tar.80 Ammonia was found in marijuana smoke at levels up to 20-fold greater than that found in tobacco.81 Hydrogen cyanide, NO, NO x , and some aromatic amines were found in marijuana smoke at concentrations 3-5 times those found in tobacco smoke.81 However, absolute correlation of marijuana smoking with cancer risks are complicated by concomitant tobacco smoking and increased alcohol use among marijuana users.80
Adverse cardiovascular events
Some studies have suggested that marijuana might be a trigger for adverse cardiovascular events, including tachyarrhythmias, acute coronary syndrome, and vascular complications, especially in older users, and may be a risk factor in congenital heart defects for their children.82 Mixing marijuana with cocaine can cause cardiac problems, including the death of an otherwise healthy 31 year old male83 and an acute myocardial infarction in a 21-year old male.84
Stroke
Ischemic stroke is found almost exclusively in people of advanced age. However a number of reports have shown an association between cannabis abuse and ischemic stroke in young people85 (one at the age of 1586). Using Doppler sonography scientists were able to determine that cerebrovascular resistance and systolic velocity were significantly increased in marijuana abusers compared to the control subjects and that cerebral perfusion observed in 18-30 year old marijuana abusers was comparable to that of normal 60 year-olds.87 Another study showed that 6 of 10 subjects experienced reduced cerebral blood velocity and dizziness following marijuana use.88 One heavy cannabis user was found to have a right temporal lobe hemorrhage, which was cleared within three months by reducing cannabis use from 2–6 cannabis cigarettes per day to 3–4 cigarettes per week.89
Oral health
Marijuana users generally have poorer oral health than non-users, with an increased risk of dental caries (cavities) and periodontal diseases, along with dysplastic changes and pre-malignant lesions within the oral mucosa.90 In addition, users are prone to oral infections, possibly due to immunosuppressive effects.90
Medical Marijuana Survey 1998-2008
Marijuana studies 1998-2008
In any review of the literature, it is possible that reviewer bias can enter the picture and distort the overall impact and conclusions of the review. To mitigate potential reviewer bias, the author initiated a complete Ovid-Medline search of marijuana/cannabis research in February 2009 for the years 1998-2008. Studies were categorized as being "Very Negative," "Mostly Negative," "Neutral," "Mostly Positive," or "Very Positive." Data was collated and is presented in the figure to the right. The data shows that research on the medical effects of marijuana is becoming increasingly negative and decreasingly positive over the last 11 years of medical research. In addition, the number of studies examining the medical aspects of marijuana has increased markedly over the last 5 years, dramatically expanding our knowledge of the mostly negative aspects of marijuana usage (see original data).91
Legalize marijuana?
The California state legislature, in its infinite wisdom, is considering a bill (AB 390)92 to legalize the growing of cannabis, its use, and sale. In return, the state expects to get over a billion dollars from the sale of permits and taxes. Besides the revenue, they expect to save millions of dollars from not having to enforce marijuana laws. And, of course, we know that all the people who grow marijuana will do so legally by paying the several thousand dollar permit fee! Although the sale of marijuana is restricted to those 21 years old and older, the penalties for selling to underage persons is $100 or less. As a result of such lenient penalties, it is clear that adolescents will be able to obtain marijuana more easily, leading to increased use, which is especially troublesome given its effect upon the maturing brain. What the legislature seems to have ignored in its financial analysis is the almost astronomical costs that will be incurred through increased health care and mental health costs that will result from increased marijuana use in the population of California. In addition, the number of people driving under the influence of marijuana will increase dramatically, as it has in Europe, since its legalization there. The cost in terms of increased deaths from automobile accidents could be in the hundreds to thousands of lives lost. What are they thinking?
CONCLUSION
Having received dozens of emails saying how good marijuana is (mostly from "Christians"), I have felt the need for a thorough review of the scientific literature regarding the positive and negative aspects of marijuana use. The vast majority of studies show that there is no such thing as "medical marijuana." In general, physicians in the United States are not thrilled with the idea that marijuana should be allowed to be prescribed, since only 36% take that stance.93 The act of smoking marijuana is fraught with so many adverse side effects that it really isn't useful in treating symptoms in any specific disease for the vast majority of sufferers. However, the active ingredient in marijuana (THC) has been shown to be useful for some patients who suffer from chronic pain, especially in refractory cases of multiple sclerosis, and in patients who are suffering from AIDS-related wasting syndrome. Even in those diseases, a minority of patients actually derive a benefit that is without unwanted side effects. THC's use as an anti-emetic for patients suffering nausea from cancer chemotherapy or as a way to lower intraocular pressure for glaucoma has been replaced by far superior new medicines that don't have the negative side effects.
As a recreational drug, marijuana is not quite as benign as most of its proponents would claim. Heavy marijuana use results in long-term effects on the brain, including lower responses in those areas which are affected by THC. Although users are able to compensate somewhat through the use of other brain areas, the long term effects of this damage, as users age, has not been determined. This damage may be responsible for impairments noted in short-term and long-term memory, along with a host of possible other psychiatric illnesses. A proportion of marijuana users become addicted and suffer from classic withdrawal symptoms upon abstinence. For a minority of users, marijuana is a gateway drug, and they proceed to use and abuse more powerful psychostimulants. Besides its effects upon the brain, marijuana use can lead to increased risks for respiratory cancers and may have some adverse cardiovascular and cerebrovascular effects in some users. Marijuana use during pregnancy has been shown to result in lower child intelligence, while increasing the incidence of mental health problems. The idea that marijuana is a harmless recreational pastime has been disproved through continuing scientific research.
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