Tag Archives: medical marijuana

medical marijuana

Cannabinoids: the other side of the coin, side effects, drug-drug interaction and possible problems of cannabidiol and tetrahydrocannabinol

Virginia Thornley, M.D., Board-Certified Neurologist, Epileptologist

@VThornleyMD

April 6, 2018

 

Introduction

Medical marijuana seems like the shining breakthrough drug the shining pill in armor, the magic pill that seems to cure everything. However, there are always two sides to every coin. One must still proceed with caution. The phytocannabinoids, cannabidiol, and tetrahydrocannabinol exert their effects through the endocannabinoid pathway, the CB1 receptor is most abundantly found in the nervous system. Cannabidiol which has no euphoria acts weakly with the CB1 receptor almost as a reverse agonist blocking the THC from exerting its effect offsetting potent side effects of tetrahydrocannabinol.

The medical benefits are overwhelmingly numerous including ameliorating seizures, spasms from multiple sclerosis, peripheral neuropathy in HIV patients, chronic debilitating pain, post-traumatic stress disorder symptoms and other associated diseases. Despite the stigma of using it, the delay in clinical trials and marked hesitation of the medical community, medical marijuana has landed and there is no going back. Yet even with its numerous health benefits, it is always prudent to take a step back and examine any flaws as with any other new kid on the block or any new agent that comes along even though it’s been around for thousands of years.

Is marijuana safe for medical use? The take on medical marijuana by the FDA

So far from the FDA official website, the FDA does not recognize medical marijuana coming from the botanical plant with any medical indication. The FDA does not recognize it to be safe or beneficial for any type of disease or condition. The FDA will facilitate any companies interested in bringing quality products including science-based research. The full take of the FDA on marijuana can be found here https://www.fda.gov/NewsEvents/PublicHealthFocus/ucm421168.htm#use

Long-term effects on the brain

Perusing the scientific literature, it is difficult to find any long-term damage to the brain. There was a report in a heavy marijuana user where there was damage to the corpus callosum, possibly worse with young users (1). This is a small study of 11 heavy marijuana users with 11 age-matched cohorts. Diffusion tensor imaging was used. Previous reports alluded towards poor cognition with heavy marijuana use. This study is aligned with that. It was suggested that there may be increased diffusibility within the white matter tracts of the corpus callosum. Young age is thought to make the corpus more susceptible to white matter damage. The only caveat is this is with heavy use and the substance found in recreational marijuana is going to be a different form compared to medical marijuana extracted from the marijuana plant used for medicinal purposes. It is not clear if this report would carry over to medical marijuana users where the preparation of the product is much different(1).

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Effect on schizophrenia spectrum diseases

In a large study of 171 patients, it was found that with heavy use of cannabis, the age of onset of schizophrenia spectrum disorders seems to occur earlier (6). This is one of the reasons why in some dispensaries, it is not sold to patients with a history of schizophrenia. There are some anecdotal reports of some patients having a paranoia with medical marijuana that is reversible once taken off.

Effect on the heart, reports of myocardial infarcts and ST elevations

While the literature suggests low toxicity and most side effects are related to cognition and gastrointestinal problems, there are several cannabis-associated myocardial infarcts in the literature. The dispensaries in the state of Florida use a previous history of a previous myocardial infarct as a contraindication in using medical marijuana. These were synthetic drugs used recreationally. There was one case report where a heavy user suffered from an ST elevation and subsequent myocardial infarct after becoming toxic to marijuana used recreationally.  In one study, synthetic cannabis was used, the myocardial happened to a young patient where an atheromatous plaque was excluded as the source. Etiology and mechanism are unclear why infarcts should occur. It is quite possible that because it works on the 5HT receptor for anxiety which can cause vasoconstriction, this may be one mechanism. Other studies are needed to elucidate the mechanism of action.

Drug-drug interactions

Because medical marijuana is used as an adjunctive agent for epilepsy, perhaps off-label since it has not been approved through FDA as an anti-epileptic agent yet, it was found that medical marijuana used in conjunction with Clobazam (Onfi) tended to elevate Onfi at higher levels.

In one small clinical study, in 13 patients, 9 had an increase of about 60 in the Clobazam level and by 300 in Norclobazam level. There was, however, a tremendous reduction of seizures by >50% but Onfi (Clobazam and Norclobazam levels) should be monitored (3) on a routine basis to avoid any untoward toxicity.

Other milder symptoms

In one large study on Lennox-Gastaut syndrome where cannabidiol was titrated to a 20mg/kg over a course of 14 weeks, mild to moderate symptoms were noted including pyrexia, sedation, dizziness, and diarrhea. However, the titration rate was very rapid and the patents who were 50kg were quickly at 1000mg within 14 weeks which does not usually happen in the real world. Medications are usually increased over a longer period of time in slower increments.

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In summary

While everybody is touting the horn of medical marijuana it is always prudent to stand back and ensure there are no possible risk factors for adverse side effects. The most serious and common seen in the literature appear to be related to schizophrenia spectrum disorders and cannabis associated myocardial infarct. The only caveat is that the literature is peppered with these reports, however, the quality of the recreational drugs are vastly different from medical marijuana which tends to be organic and all natural extracted from the plant in licensed medical dispensaries. The extraction of the medical components is vastly different from the smoked synthetic version of tetrahydrocannabinol. So, is difficult to know if these reports would actually corroborate with use in medical marijuana. The ones with side effects were heavy users of recreational smoked types of marijuana, it is unclear if it was synthetic or organic. As the popularity of medical marijuana progresses, more information will be available regarding the side effect profile.

References

  1. Arnone, et al, “Corpus callosum damage in heavy use: preliminary evidence from diffusion tensor tractography and tract-based spatial statistics,” Neuroimage, 2008, Jul., 1, 41 (3): 1067-74.  “J Addict Med. 2017 Sep/Oct;11(5):405-407. doi: 10.1097/ADM.0000000000000326.
  2. Volpon, et al, “Multiple cerebral infarcts in a young patient associated with marijuana use, ” Journ. Addic. Med, 2017, Sep./Oct., 11(5):405-407.
  3. Geffrey, Drug-drug interaction between clobazam and cannabidiol in children with refractory epilepsy,” Epilepsia, 2015, Aug., 58 (8):1246-1251.
  4. Stewart, et al, “Obstructive sleep apnea due to laryngospasm links ictal to postictal events in SUDEP cases and offers practical biomarkers for review of past cases and prevention of new ones,” Epilepsia, 2017, Jun., 58(6): e87-90
  5. https://www.fda.gov/NewsEvents/PublicHealthFocus/ucm421168.htm#use
  6. Shahzade, et al, “Patterns in adolescent cannabis use predict the onset and symptom structure of schizophrenia-spectrum disorder,” Schizophrenia Research, 2018, Feb., 2 pii S090-9964 doi:10. 1016/j. schres. 2018.01.008 (Epub ahead of print)
  7. Orsini, et al, “Prolonged cardiac arrest complicating massive ST-segment elevation myocardial infarct associated with myocardial consumption,” J. Community Hosp. Intern. Med. Perspect, 2016, Sep., 7. 6 (4):31695
  8. Thiele, et al, “Cannabidiol in patients with seizures from Lennox-Gastaut Syndrome (GWPCARE4): a randomized, double-blind placebo-controlled phase 3 trial,” Lancet, 2018, Jan., 390 (10125):1085-1096

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Post-Traumatic Stress Disorder

Post-traumatic stress disorder and traumatic brain injury among military veterans and use of non-intoxicating medical marijuana as a treatment

 

Virginia Thornley, M.D., Neurologist, Epileptologist

@VThornleyMD

March 28, 2018

Introduction

Post-traumatic stress disorder occurs due to a single or a sequence of traumatic events which causes a great deal of anxiety when exposed to situations similar to the event. Flashbacks and nightmares may occur. In military veterans returning from the Iraqi or war in Afghanistan and even to this day in Vietnam War veterans, emotional disruption is noticeable. It is difficult to know if this is related to blast injury or is a symptom of post-traumatic stress disorder.

PTSD correlated with mild traumatic brain injury

In a retrospective study reviewing medical records of 27,169 military personnel of the U.S. Army Special Operations Command (USASOC), 2831 met criteria of mild traumatic brain injury using the Immediate post-concussion assessment cognitive test, PTSD checklist, and the post-concussion symptom scale. Of these, 28% exhibited symptoms of post-traumatic stress disorder. Military veterans of blunt, blast or a combination injury had a higher percent of meeting criteria for post-traumatic stress disorder than those without mild traumatic brain injury. Those with blast/combination injury had a higher percent of post-traumatic stress disorder and performed worse with visual memory and time for reacting compared the cohort without any blunt or mild traumatic brain injury.  Repetitive exposure to blast-type injuries may have a lingering effect (2). This study found a  high degree of PTSD symptoms in those with blast, blunt and combination injury compared to the cohort without it.

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In a study, disrupted emotional responses correlate with PTSD rather than blast-related traumatic brain injury

Another study tried to dissect whether the emotional responses of war veterans are due to PTSD or due to the mild brain injury itself.  In one study of 123 military veterans from the war in Iraq and Afghanistan, affective evaluations and psychological assessments were made in response to pleasant, neutral, unpleasant and war-related images.  Those with emotional disruption due to PTSD rated pleasant images as unpleasant and had increased physiological responses towards combat-related images. Symptoms of post-traumatic stress disorder included increased skin conductance responses, greater corrugator muscle electromyography responses, and reduced heart decelerations. There were no effects noted in veterans with mild traumatic brain injury.  This points towards the emotional disruption seen in military veterans as related with post-traumatic stress disorder rather than due to the mild traumatic brain injury itself. This study may help guide treatment as military veterans transition to civilian life (1).

Medical marijuana and mechanism of action, a non-intoxicating solution when cannabidiol is used alone or in conjunction with low dose tetrahydrocannabinol

Cannabidiol is a non-intoxicating endocannabinoid that works within the endocannabinoid system found naturally in our systems. It has only a weak affinity to the CB1 receptor which is found abundantly within the neurological system.  CB1 receptors are found to be increased in response to cerebral cell damage and seem to work as a repair mechanism for neural systems that are not functioning. Tetrahydrocannabinol at low concentrations has medical properties without the intoxication of high dose THC. THC should be used in combination with CBD to offset the possible side effects such as hyperactivity.

There are increasing studies showing the value of medical marijuana, especially in the central nervous system especially given the large abundance of the CB1 receptor within the nervous system. The receptors are found to be upregulated in the face of disease suggesting a cell repair role or a response to the abnormalities within the brain, For example, in patient with seizures, the CB1 receptor is found to be increased in the temporal lobe within the dentate gyrus compared to other cells almost as a response to the aberrant system within the cortex. The receptors are found to be increased in patients with Parkinson’s disease.

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Medical Marijuana as a solution for symptoms of cognitive impairment in war veterans

In one study, 24 patients were enrolled in a study for executive function and were registered medical marijuana users. After 3 months, 11 patients returned and using the Stroop Color Word Test, were found to have a higher level of executive function and increased speed completing tasks without being inaccurate. Patients reported less insomnia, less depression, better attention, less impulsivity and a better quality of life. There was less use of pharmacologic use and less use of opioid agents by 42% in conjunction with medical marijuana. Larger clinical randomized controlled clinical studies are needed.

Medical marijuana seems to be an excellent agent in those affected by traumatic brain injury.

Medical Marijuana as a solution for and PTSD symptom in war veterans

Cannabidiol works at the level of the 5HT1 receptor causing patients to feel less anxious and may be used in post-traumatic stress disorder. In addition, it has been found to have a role in modulating memory and instead of the learned fear response and may help with PTSD by modulating the conditioned response to a stimulus that normally begets anxiety and fearfulness. In other words, instead of the heart rate increasing or having flashbacks when a war scene is on TV, medical marijuana can exert its effect by modulating behavior by changing the learned response by not responding the same way and being calm in face of a previously anxiety-inciting war scene(4).

In conclusion

In summary, PTSD and traumatic brain injury are real problems faced by war veterans returning with blast injury, blunt-injury or combination type combat-related injuries. Medical marijuana may be an excellent non-intoxicating solution when cannabidiol is taken or combined with low dose tetrahydrocannabinol which can help with depression, anxiety and help modulate responses to post-traumatic stress disorder. Medical marijuana can help with executive function and attention and may be beneficial in treating war veterans suffering from mild traumatic brain injury.

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References

  1. Marquardt, et al, “Symptoms of Post-traumatic stress rather than mild traumatic brain injury best account for altered emotional responses in military veterans,” J. Trauma Stress, 2018, Feb., 31 (1):114-124.
  2. Kontos, et al, “Residual effects of combat-related mild traumatic brain injury, “J. Neurotrauma, 2013, Apr., 15, 30 (8):680-6.
  3. Gruber, et al, “Splendor in the Grass? A pilot study assessing the impact of medical marijuana on executive function,” Front. Pharmacology, 2016,. Oct., 13 (7):355.
  4. Uhernik, et al, “Learning and memory are modulated by cannabidiol when administered during trace fear-conditioning,” Neurobiology of Learned Memory, 2018, Feb., 9, 149:58-76. doi: 10.1016/j.nlm.2018.02.009 (Epub ahead of print)
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Anxiety, cannabidiol

Anxiety: the science behind anxiety and effectiveness of cannabidiol and tetrahydrocannabinol in anxious patients

Virginia Thornley, M.D., Neurologist, Epileptologist

March 27, 2018

Introduction

Anxiety is a state of unease, the sense of restlessness you feel when you are out of sorts. It may be due to the simple circumstances of being late for a charity dinner to feeling scared out of your wits when your car is trembling on the highway because your wheels are not balanced. Everybody has experienced it at some point in their life. Some more chronically and severely than others. In primitive times, one must redirect their attention from the task of scavenging for food in the jungle to suddenly be alert to imminent danger from the bear prowling behind you. In modern times, one must react quickly to that bus coming at you as you try to cross the street on 51st Street and 5th Avenue. You suddenly look up startled redirecting your focus to the imminently life-threatening event. For someone with clinical anxiety, this would be akin to being fearful every time you try to walk and cross the street despite no threats just the usual fast-paced taxicabs waiting for that green light. There is a chronic response of fearfulness that is not befitting to the situation. Threats are perceived more frequently harboring frequent fearful responses.

Current approach to anxiety

The current armamentarium of a physician includes prescribing anti-anxiety agents, referring to a therapist, recommending relaxation techniques such as yoga, Tai Chi or meditation, or any physician’s all-time fallback choice which is to refer to a psychiatrist. Many medications take weeks to take effect and after all that, not all of them are effective requiring several trials of medications to get to one that may even partially work. A therapist is beneficial, however, cons include the patient not having enough time or resources. In some patients it may help in others, similar to medications, it does diddly squat. In addition, some patients must cope with anxiety through natural means due to the prohibitive nature of their occupation. Some highly sensitive occupations disallow any use of anti-anxiety agents which might be potentially sedating in a patient’s history which could cost them their jobs.  Medications may be helpful in certain populations but it often takes time to find the right agent and the right dose.

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The science and mechanisms behind anxiety

The mechanism of anxiety and its complexities are studied. At the chemical level, it is thought to be due to the lack of serotonin. Many anti-anxiety agents work at the level of the serotonin receptor.  But the thought processes underlying anxiety are far more complex than at a single chemical level which likely is the reason why many medications do not work given the complexity of the emotional response.

Neuroimaging studies have elucidated that anxiety may be attributed to the involvement of an amygdala to prefrontal cortex circuit. Instead of the normal fear response one has to certain stimuli, the amygdala is overly responsive to the threat. This leads to an abnormal attentional and interpretive response level that is consistently fearful.  For instance, your bakery might be the best in town but if the client is highly anxious, any little mistake on that wedding cake may be perceived as a personal slight giving rise to an extremely anxious response causing them to want their money back. In other words, the level of anxiety is greatly out of proportion to the situation. There is nothing that bakery could have done to ease that person’s anxiety over the cake.

Patients with anxiety are selectively attentive to threat-related situations. Anxious patients perceive neutral events with negative connotations and potentially threat-related. Stimuli with conditioned threat significance may elicit attention and lead to physiologic responses including increased heart rate, sweating, heavier breathing. This may be the reason why in dealing with an anxious person, no matter what has been said that individual has a hyperalert response and has a very low threshold for a fearful response to a threat-perceived situation when the situation is very neutral (1). For example, you could be the most highly skilled neurosurgeon in the world, if your delivery of the prognosis is a 60% chance of recovery, that could be a source of great angst. The clinically anxious person will hear how she or he  will have the 40% chance of not recovering.

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Cannabidiol 

Cannabidiol is the non-intoxicating phytocannabinoid from the Cannabis sativa plant. It has a weak affinity for the CB1 receptor and one needs 100 times the amount to get the same euphoria as tetrahydrocannabinol. Cannabidiol is found to help with anxiety. It works at the level of the 5HT-1 receptor to exert its anxiolytic properties. A combination of cannabidiol and tetrahydrocannabinol often called Indica is often used for anxiety and insomnia. It is often used by patients with anxiety primarily at night due to its calming and sedating properties.

In one study of 24 patients with anxiety who were about to give a presentation, cannabidiol was given at 600mg. The anxiety, cognitive impairment, and alert arousal response were much lower compared to the control group who had a placebo. The placebo group had much higher anxiety, greater discomfort, and alert responses (2).

Although federally illegal in many states despite medical marijuana laws and dispensaries popping up around the nation, medical marijuana is an alternative agent that should be considered in patients who are medically refractory to medications, psychotherapy, and other techniques. It has a valuable place in the physician’s medicine bag in treating anxiety and illnesses related to anxiety-related disorders.

References

  1. Bishop, et al, “Neurocognitive mechanisms of anxiety: an integrative account,” Trends in Cognitive Behavior, article in press.
  2. Bergamaschi, et al, “Cannabidiol reduces the anxiety induced by simulated public speaking in treatment-naive social phobia patients,” Neuropsychopharmacology, 2011, May, 36 (6): 1219-26.
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chronic pain

Medical Marijuana: a non-intoxicating pain-relieving solution to the opioid epidemic?

Virginia Thornley, M.D., Neurologist, Epileptologist

March 24, 2018

Introduction

Any news outlet you peruse is bound to have mention of the current opioid crisis looming on the horizon. Opioids are commonly prescribed as the last resort for patients with chronic pain who have failed conventional medications, interventional measures such as epidural injections or surgery, non-pharmacologic measures such as physical therapy and even Eastern techniques such as acupuncture. With tolerance a common problem and patients needing higher and higher dosages for pain control because of the properties of opioids, it is little wonder that chronic pain control is difficult to maintain.

The hot topic of debate in many states is the recognition of medical marijuana as a legitimate medication for chronic ailments. However, because of the stigma it has incurred being well-known for its psychoactive properties and widely seen in pop culture in movies with kingpins smoking it for recreation, the medicinal values are often overshadowed and lack of side effects in low doses is easily overlooked.

Not your stereotypical patient and not your direct referral

Patients and even physicians likely have a preconceived notion of who seeks medical marijuana. While chronic pain is top of the list, often times, it is discovered by the hard-working carpenter who discovered it online and found a small scientific article on non-pharmacologic treatments trying to come off sedating pain-relieving medications. It will be the former business owner who lived an enjoyable life being active dancing or the woman afflicted with an autoimmune disorder and has failed every medication under the sun. Many times patients come in not because they want to feel good but because it is their last resort and they’ve exhausted every treatment option known to mankind. They dislike the side effects of the strong painkillers such as opioids and just want the pain to stop and live a normal life. It is amazing how indirectly patients hear about the wonders of medical marijuana, it will usually be a neighbor who swears by it, or somebody’s friend who mentions it out of the blue.  Oftentimes, it is by word of mouth since the few physicians interested in recommending it are very reluctant to advertise with good reason.

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Mechanisms of cannabidiol and tetrahydrocannabinol

Medical marijuana has been used since B.C. period for thousands of years as a medication. It was incorporated into the pharmacopeia of American medicine in the 1850’s until it was banned in the 1930’s. It regained popularity and notoriety as a recreational substance. However, more and more patients are turning towards this now alternative medication after years of frustration towards the ineffectiveness and adverse effects of conventional medications.  The endocannabinoid pathway is found inherently in the system and is responsible for the runner’s high that people get after a vigorous run or after exercising and gives the sense of well-being. The CB1 receptor is found most abundantly in the central nervous system which is likely why many neurological conditions are found to benefit from its use. The CB2 receptor is most commonly found in the immune system. As more research is pursued, there are CB receptors found diffusely throughout many organ systems.  Cannabidiol weakly interacts with the CB1 receptor. It takes at least 100 times cannabidiol to attain the same intoxication one gets with tetrahydrocannabinol, the substance which is more popular and found in the marijuana joints people smoke to obtain euphoria. THC at low concentrations is effective in treating many different medical conditions. It must be used in conjunction with CBD so that side effects are offset. Cannabidiol has no intoxication while low doses of THC does not give euphoria one associates with this drug. There is no tolerance.

Scientific evidence cannabidiol and tetrahydrocannabinol work in chronic pain and other medical diseases

In animal studies, it is well known to reduce seizures by inhibiting the excitation within the hippocampus of the brain where seizures are commonly propagated (http://www.pnas.org/content/early/2017/09/26/1711351114).There are many clinical trials in humans attesting its efficacy at controlling seizures effectively.  CB1 receptors appear to be increased in many neurological disorders which implies it is a compensatory mechanism for diseases. In Parkinson’s disease, there are increased CB1 receptors which may help with the reduced dopamine commonly found in Parkinson’s disease. 9tetrahydrocannabinol was found to lower intraocular pressure in glaucoma in rabbits (https://www.ncbi.nlm.nih.gov/pubmed/6329602). Sativex is a combination of THC:CBD which reduces spasms in patients with multiple sclerosis and has been available in Europe for several years now with very little side effects http://jnnp.bmj.com/content/87/9/944. There is extensive evidence in both animal and human models that it works in chronic pain (https://www.ncbi.nlm.nih.gov/pubmed/26830780). Many diseases are being evaluated for mechanisms on which CBD and THC may exert its effects. It has been found to have anti-oxidant and anti-inflammatory properties which are important mechanisms by which many diseases cause pathology. In cancer cell cultures, it has been found to reduce proliferation of tumor cells in urologic cancer and reduce the pro-inflammatory states that are necessary for metastatic conditions (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5434502/).CBD interacts with the 5HT1 receptor where many anti-depressants and anxiolytic medications exert their effects, making CBD an effective anxiolytic. It works to stimulate appetite and is commonly used by patients with cancer for anorexia and end-stage cancer pain.

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In conclusion

In summary, cannabidiol and tetrahydrocannabinol are effective medications in treating pain from many chronic illnesses and is not reserved for patients with terminal illness. Despite the reticence of physicians, Congress and even patients, there is overwhelming evidence that cannabidiol and tetrahydrocannabinol are effective in many different diseases, although in some conditions there’s a long way to go from preclinical data to human trials.  It is fairly clear in many disease states, medical marijuana is significantly effective. There is no tolerance and may be an effective treatment for patients with chronic pain. CBD by itself has no euphoric properties and low concentrations of THC do not give intoxicating psychoactive effects. These are 2 alternatives that may provide relief and solution to the growing epidemic of the opioid crisis.

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Anxiety, Depression, Post-Traumatic Stress Disorder, Uncategorized

Cannabidiol and tetrahydrocannabinol: effectiveness in post-traumatic stress disorder, anxiety and depression

Virginia Thornley, M.D., Neurologist, Epileptologist

March 20, 2018

Post-traumatic stress disorder is the silent disorder that could be affecting the co-worker who sits one cubicle over from you. When one hears of post-traumatic stress disorder, one thinks of traumatizing incidents such as war, abuse or some other devastating event but can occur even in situations such as car accidents or a spouse of many decades suddenly leaving. It is the quiet disorder that if you do not expound on it, nobody really knows about it. Because of the stigma surrounding psychological disorders, often times, help is not sought in a timely manner.

It is often characterized by nightmares waking someone up in the middle of the night or sudden flashbacks when placed in a situation similar to the traumatic event.  Management includes working with a psychiatrist using conventional medications and a psychologist using behavioral therapy. It is not uncommon for a patient to have to go through many different anti-depressants or anxiolytics before one finds the correct drug and titration. But sometimes even the best medications fail to treat someone with Post-traumatic stress disorder adequately. Psychotherapy may be helpful in some patients depending on the patient. In others,  there is less benefit and some dislike the thought of reliving the experience in order to learn coping mechanisms.

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Alternatives include non-pharmacologic measures including relaxation techniques such as doing yoga, Tai Chi or meditation. Exercise can often boost the mood and doing enjoyable activities may help alleviate symptoms without the addition of pharmacologic agents. Doing something one enjoys or taking joy in the simple activities in life such as writing poetry, art therapy, taking up a sport may help alleviate some of the stress. Great tips can be found on Psychiatrist, Dr. Welby’s site found here: https://drmelissawelby.com/exercise-depression-get-started-want-stay-bed/

More and more patients are turning towards alternative measures, finding that conventional medications are not always optimal. Cannabidiol works through the endocannabinoid pathway and modulates its effect through the CB1 receptor which is predominantly found in the nervous system. The CB2 receptor is found mostly in the immune system. In some studies, it was found that cannabidiol may help reduce fearful memory if taken in the conditioning phase so that rather than reacting to the stimulus with fear, the stimulus is then associated with a different reaction and may help mitigate the symptoms of post-traumatic stress disorder through this mechanism (1). In another study, it was found to influence synaptic dendrites and may contribute towards learned memory in the hippocampus (2).

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Cannabidiol interacts with the 5HT-A receptor which is an important receptor in mitigating the symptoms of anxiety. Serotonin works through the 5HT1-A receptors. Some anxiolytics and anti-depressants work through an increase in serotonin which boosts the mood. Cannabidiol itself is known to have a calming effect with none of the euphoria found in THC alone.   Cannabidiol is non-intoxicating and when combined with low dose tetrahydrocannabinol has great medical effects.

In summary, when medications and therapy are found to be ineffective for post-traumatic stress disorder, anxiety or depression, cannabidiol which is non-intoxicating may be an effective therapeutic option alone or in conjunction with low dose THC and should be considered.

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References

  1. Uhernik, et al, “Learning and memory are modulated by cannabidiol when administered during trace fear-conditioning,” Neurobiology of Learned Memory, 2018, Feb., 9, 149:58-76. doi: 10.1016/j.nlm.2018.02.009 (Epub ahead of print)
  2. Lee, et al, “Cannabidiol regulation of emotion and emotional memory processing: relevance for treating anxiety-related and substance abuse disorder,” British Journal of Pharmacology, 2017, Oct., 174 (19): 3242-3256. doi: 10.1111/bph.13724. (Epub. 2017 Mar. 9.)
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Amyotrophic lateral sclerosis, Epilepsy, Glaucoma, multiple sclerosis, pain, Parkinson's disaese, Peripheral neuropathy, Tumor

Medical marijuana: dispelling myths and fallacies behind cannabidiol and tetrahydrocannabinol

Virginia Thornley, M.D. Neurologist, Epileptologist

Introduction

The endocannabinoid system is found naturally in the brain. It is responsible for the sense of well-being one gets after running a 5-mile course. It does not work through endorphins or adrenaline, as some people may think. It works at the level of the endocannabinoid system. There is a community of CBD producers and consumers and it is in this mysterious world that it is well-known to be used in many medical conditions, still shunned by the majority of the medical community, Congress and even patients in general. The 2 most commonly known are cannabidiol and tetrahydrocannabinol. Cannabidiol has medical properties and has a weak affinity to the CB1 receptor which is predominantly found throughout the central nervous system, which is likely why it is found to work in numerous neurological conditions. Tetrahydrocannabinol (THC) is a well-known cannabinoid most notoriously known for the euphoria of kingpins seen on movies propagated by pop culture. Unfortunately, these connotations overshadow the well-known medicinal benefits. Cannabinoids have been used for centuries even in the B.C. period. It was part of the American pharmacopeia in the 1980’s until it was banned in the 1930’s. Slowly, these products are gaining popularity as a treatment for many medical conditions, primarily neurological because the CB1 receptor is so abundant in the nervous system, due to patients becoming more and more frustrated with the adverse effects and ineffectiveness of conventional treatments. In Europe, a combination of THC and CBD have been used in multiple sclerosis patients since 2010.  Animal studies and cell line culture studies demonstrate many potential mechanisms in which CB1 receptors, CBD and THC may be beneficial at the cellular level in many diseases, mechanisms are still being elucidated. It is most commonly used for chronic pain and epilepsy. As with any medication, it may or not be effective for everybody.

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How it works–the nitty gritty

Cannabidiol has none of the psychoactive properties as THC. One needs 100 times the amount of CBD to have the same intoxication as THC. Therefore, it works well for those who are reluctant to go this route but who have found conventional medications which do not provide effectiveness, they are simply not cutting it. Because very little is know about its titration, medical marijuana can seem like entering into the world of an apothecary, or such as that found in the medieval days when potions are concocted. Physicians who use it in their treat it similar to a medication and the guidelines are similar start low and go slowly.  Tetrahydrocannabinol is more potent and at higher doses works more effectively for pain control and seizures. THC is used at relatively low concentrations in order to effect its medical properties, at higher concentrations one may run into side effects which offsets its medical value. There are different ratios of CBD:THC, different ratios correspond to different symptoms treated.  CBD is required in conjunction with THC in order to offset the potential side effects of THC. Tolerance does not build in the system such as that seen with opioids, although if one is medical marijuana naive, the lowest dose possible is ideal. There are no side effects of respiratory depression such as that seen with other medications for pain such as opioids.Consult with your treating physician.

Current legal state of affairs

Currently, there are many states that recognize the medical value of medical marijuana with medical marijuana laws allowing the opening of licensed dispensaries. However, the same cannot be said for the federal law.  In some states, the carrying of THC on your person can result in fines and imprisonment. Despite marijuana laws enacted, qualified physicians are at risk for being questioned by authorities, its recommendation and use is not for the faint of heart on the part of physicians and patients. Cannabidiol comes from hemp oil and is not considered illegal. However, anyone who even has 1% hemp oil in their product can still label that product as cannabidiol, which may be the reason why some patients are not getting the full medical effects when bought from the flea market or a vitamin store.  Tetrahydrocannabidiol which is more well-known for its recreational use and concomitant psychoactive properties at very high doses is federally illegal in many states. Many states often have registries so patients who require this may obtain an ID and verify they are under the care of a qualified physician. It can take a few months to obtain an ID because many patients are often at the end of their ropes in terms of effectiveness of medications. Many patients wish to come off opioids or do not like the idea of needing higher and higher pain medications for their chronic illnesses. It may serve as a great antidote for the current opioid crisis that is well-documented in the news or overdocumented in the news. Many mothers order products online from other countries to counteract the illegalities of their states in order to help their child who may be using 4 potent anti-epileptic agents and is now like a zombie because of the number of medications. While physicians are leery suggesting anything that is in category 1, its medical value cannot be disputed. There is too much evidence tipping it towards the other side of the scale. As tPA was in its infancy of use and physicians were hesitant using it due to its hemorrhagic adverse effect and is now the standard of care for stroke protocols, medical marijuana will likely find its way back into the pharmacopeia, the amount of medical evidence is far too compelling to ignore.

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In conclusion

In short, when used wisely, cannabidiol is a non-intoxicating effective treatment for many medical conditions especially neurologic, as evidenced by thousands of years of history of its use and current animal models, clinical trials and wider clinical experience in Europe. When cannabidiol is combined with low concentrations of THC, the medical effect is even greater with the entourage effect without the stigmatized psychoactive effects that are usually associated with THC.

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Epilepsy, Glaucoma, pain, Peripheral neuropathy, Tumor

Medical Marijuana: why the huge disconnect between physicians, laws, policies, and patients?

Virginia Thornley, M.D., Neurologist, Epileptologist

March 11, 2018

Introduction

A patient comes to you asking “Doc, my seizures are getting worse, I really hate the side effects of my medications, I really want to go a different route. Have you heard about medical marijuana?” You start sweating profusely, fidgeting in your seat, thinking of every single reason why not to recommend it and come up with  the standard response, “uh, well, I’m not qualified to recommend it and it’s not FDA approved, plus we don’t really know much about it there could be so many side effects.” And then we have the oldie but goodie response, “there’s not enough large randomized control trials to recommend it.” This scene plays 100,000 times over if not a million times over in physician offices across the country. Patients who are disillusioned with adverse effects of medications are looking towards alternative therapy. As surprising as it sounds, patients with chronic pain do not want to get intoxicated by opioids. In fact, some want to be tapered off of them or refuse them all together. Patients with end-stage cancer at the terminal stage of their lives wish to live a comfortable and humane existence without the need for more chemotherapeutic medications or pain medications that consistently make them feel like a zombie. While other patients with epilepsy may be on 4 different anti-epileptic agents and can no longer function or have a good quality of life because of side effects. There are two sides to every coin.

Why you should be educated on cannabidiol and THC use in medical conditions

If patients do not get their answers from their trusted physicians who they trust with their well-being, their health, the temples of their souls, they will go to great lengths in procuring this knowledge. This is via various sites on the internet some of the dubious nature others are from high quality companies that have been in business even before this seeming treatment fad started. Or, the information may be obtained from their brother-in-law’s friend’s hair stylist who is now pain-free after going through a long course of pain medications including ablative treatments, physical therapy, and acupuncture and has a physician who does recommend it. Like it or not, cannabidiol and tetrahydrocannabinol are alternative treatment options and are gaining more and more traction. To ignore it is to be complacent with the changing direction and landscape of medicine. As patients become more and more disillusioned by the limitation of conventional treatments, attention is directed towards alternative regimens. It is not just for the yoga-practicing patient looking for more natural methods, one sees the sweet 83-year-old gentleman who must be someone’s grandfather with the chronic hip pain of 50 years who have failed opioids and is simply looking for pain relief.

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Is there any evidence that it works?

The endocannabinoid pathway is found naturally in the system. It is responsible for the runner’s sense of wellbeing one gets after a 5-mile run and the pleasant mood you get after a 1-hour work-out with Zumba. There are 2 receptors in the system CB1 receptor which has the highest number of brain cells and the CB2 receptor which is found predominantly in the immune system. There are 2 common cannabinoids cannabidiol and tetrahydrocannabinol which exert various medical effects. Cannabidiol (CBD) has a weak affinity for the CB1 receptor and one needs 100 times the amount to get the same euphoria that one gets from tetrahydrocannabinol, the bane of every ER physician. Unfortunately, the side effects of euphoria of THC have preceded its popularity as a medical product. Little do we know it was once used for hundreds of years as a medication before the psychoactive properties were exploited for recreational purposes. In urologic culture cell lines, it is found that cannabinoids may reduce proliferation of cancer cells and reduce the pro-inflammatory microenvironment that is necessary for metastatic conditions (1). Human studies are still needed to determine a reduction in tumor loads. THC receptors are found in retinal cells and may be found to reduce intraocular pressure in glaucoma (5, 6). Cannabidiol is found to bind to the 5HT1 receptor which reduces anxiety. THC has been well-established in the mouse model to promote the inhibitory control of excitatory pathways in the hippocampus, where seizures commonly arise (8). There is an increase in CB1 receptors after prolonged seizures suggesting a compensatory response.  It has been used in combination and found in several randomized control trials to reduce the frequency of seizures by as much as 36% in medically refractory patients (2). It is well-established that cannabinoids reduce pain refractory to conventional medications (3). It has been found in bench research to be an antioxidant and have anti-inflammatory properties (4, 7). Some studies cite side effects of somnolence, nausea, dysphoria, however, it is not clear what was the quality of cannabinoids or dosages were used. At high doses, while THC can reduce pain it may also result in side effects, which is why it is usually used in combination with CBD which ameliorates the side effects of THC.  In addition, cannabidiol by itself has no euphoria and it takes 100 times the amount to achieve intoxication seen with THC use. Synthetic products will have more side effects than products that are organic meaning only of natural materials.

Given the huge amount of evidence in several different medical conditions (3), the results should overwhelmingly be towards a push in using cannabinoids more frequently. However, because of the cynicism of the public, physicians even of patients, who have been exposed more frequently to the harmful psychoactive side effects, the benefits are far overshadowed. More clinical randomized controlled trials are needed. Most literature cites small numbers of patients enrolled in studies or review multiple medical centers where the conditions are not uniform. In addition, some of the patients that would benefit the most are the least in numbers such as those with rare neurological conditions such as Dravet syndrome or Lennox-Gastuat syndrome.

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In conclusion

As it still stands, many states still do not recognize the medicinal value of cannabidiol or tetrahydrocannabinol. In some states, medical physicians are not allowed to recommend it and put themselves at risk for FBI questioning in even suggesting its use. It is not uncommon for patients to move states or order from other states or countries to procure this liquid gold that is supposed to work wonders. Only time will tell if this is a passing fad and if there are long-standing side effects, however, as of current standing, medical marijuana is here to stay. As far as the literature goes, there are beneficial results but it is a cautionary tale as more studies in large human trials are still needed. As with any new preclinical data, the preclinical status may get ahead of itself and human trials do not replicate the desired results. But from the small clinical trials in seizures, pain, nausea, anxiety, and loss of appetite, the results are promising while more research is needed for anti-tumor effects in humans.

As with any medication, there will be clear-cut side effects just as with any other medication which is why more studies are needed to determine the least amount with the least amount of side effects. In some studies,  amounts upwards of 50mg/kg (2) is used the high amounts likely responsible for causing side effects, which is far higher than that cautioned by medical marijuana dispensaries. It will take patients time to wrap their heads around taking guidance from a fresh-faced 20-year-old millennial at the spa-like dispensary which is currently the norm at most dispensaries, who likely knows much more than even most medical professionals. It seems it will take even longer in Congress to understand the potential benefit of cannabinoids from a medical standpoint especially with the present opioid epidemic. Countries in Europe have far surpassed the United States when it comes to cutting-edge treatments. Perhaps, it will take even longer for the medical community to see the medical potential with their exposure to the sinister side of tetrahydrocannabinol seen in patients in the ER for non-medical reasons, which may be one of the most challenging stumbling blocks.

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Introduction/Disclaimer

References:

  1. Ghandhi, et al, “Systemic review of the potential role of cannabinoids as anti-proliferative agents for urological cancer,” Can. Urol. Assoc. J., 2017, May,-April., 11(3-4):E138-E142.
  2. Devinsky, et al, “Cannabidiol in patients with treatment-resistant epilepsy: an open-label interventional trial,” Lancet Neurology, 2016, Mar., 15(3):270-280.
  3. Petzke, et al, “Efficacy, tolerability, and safety of cannabinoids for chronic neuropathic pain: a systemic review of randomized controlled studies,” Schmerz, 2016, Feb., 30(1):62-88.
  4. Rajan. et al, “Gingival stromal cells as an in vitro model: cannabidiol modulates genes linked with amyotrophic lateral sclerosis,” Journal of Cellular Biochemistry, 2017, Apr., 118(4):819-828.
  5. ElSohly, et al, “Cannabinoids in glaucoma II: the effect of different cannabinoids on intraocular pressure on rabbits,”Current Eye Research, 1984, Jun., 3(6):841-50.
  6. Jarvinen, T., “Cannabinoids in the treatment of glaucoma,” Pharmacology and Therapeutics, 2002, Aug., 95(2):203-20.
  7. Carroll, et al, “9-Tetrahydrocannabinol exerts a direct neuroprotective effect in human cell culture model of Parkinson’s disease,” Neuropathology and Applied Neuropharmacology, 2012, Oct., 38(6):3535-547.
  8. Kaplan, et al, “Cannabidiol attenuates seizures and social deficits in a mouse model in Dravet syndrome,” Proceedings of the National Academy of Science, 2017, Oct.
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