Tourette's Syndrome

Medical cannabis in Tourette’s syndrome: case reports and a small randomized controlled clinical trial

Virginia Thornley, M.D., Neurologist, Epileptologist
June 11, 2018

@VThornleyMD

Introduction
When one hears Tourette’s syndrome the glorified Hollywood impression young person who shouts obscenities comes to mind. It is composed of complex motor or vocal tics generally preceded by a premonitory urge. Vocal tics may consist of coprolalia and echolalia. Motor tics may involve complex actions including copropraxia or simple motor tics. Obsessive compulsive disorder and other neuropsychiatric conditions are often associated with it.

The underlying problem is thought to be related to an imbalance of the neurotransmitters necessary to maintain the fine coordination necessary to avoid excessive motor activity. When that balance is impaired there is less inhibition of motor loop control resulting in reverberating loops and excess movements involving motor groups including muscles controlling speech and body movements. Because the pathophysiology is not entirely clear, these may be some of the most challenging neurological disorders in terms of treatments from a neurological standpoint.

Background on Cannabinoid Mechanisms
With the advent of medical cannabis used in neurological conditions, new indications are discovered. The mechanism is at the level of the endocannabinoid system already inherent within the system. There are 2 receptors, CB1 and CB2. The CB1 receptor is found mostly within the nervous system. The CB2 receptor is mostly in the immune system but is found in other organ systems to a lesser extent. Tetrahydrocannabinol (THC) is a mimetic of Anandamide which works within the endocannabinoid system and has medical properties. THC interacts with the CB1 receptor which is responsible for psychoactive properties most people are familiar with. It is likely at the CB1 receptor where other neurological symptoms are alleviated since this most abundantly found in the nervous system and many neurological symptoms are ameliorated with medical cannabis. Cannabidiol (CBD), which is non-psychoactive, is a pharmacomimetic of 2-AG or diarachidonylglycerol. It is an non-competitive allosteric modulator of the CB1 receptor which alleviates any side effects from THC when they are combined together (1).

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Clinical Reports
There is one report of a patient treated with nabiximol where there was improvement of tics. There was overall improvement in quality of life and global improvement. There was lessening of premonitory urges. Patients feel the premonitory symptoms are more bothersome. In one study anti-psychotics helped ameliorate the motor tics but did not improve the premonitory symptoms (2). Nabiximol was used in this study where 1 puff contained 2.7mg of THC and 2.5mg of CBD. Assessments included the Yale Global Tic Severity Scale (YGTSS), Tourette’s Syndrome Symptom LIst (TSSL), Modified Rush Video Tic Scale, Premonitory Urge for Tic Scale, Global Clinical Impairment, Visual Analogue Scale for satisfaction for the GTS-Quality of Life. The study showed the best results in the quality of life in terms of alleviating premonitory urges. Larger clinical trials are needed to further this study (2).

In a recent case report, THC (trademark Sativex) was used with success to treat a patient using 10.8mg THC and 10mg CBD daily. Yale Global Tic Severity Scale (YGTSS) and the Original Rush Video Tic Scale were used as measures of evaluation. The results demonstrated effective use of THC in combination with THC for treatment in medically refractory patients (5).

In one single dose, cross over study in 12 patients and a randomized trial in 24 patients spanning 6 weeks was performed (3). The study demonstrated that THC reduces tics without any disruption in cognitive function. Neuropsychological impairment was not seen (3).

In the randomized double blinded placebo-controlled clinical trial of 24 patients, THC of up to 10mg was used in the treated cohort over 6 weeks. Measures used included the Tourette’s Syndrome Clinical Global Impression Scale (TS-CGI), Shapiro Tourette Syndrome Severity Scale (STSS), the Yale Global Tic Severity Scale (YGTSS), Tourette Syndrome Symptom List (TSSL) and the videotape based rating scale. Patients were rated at visits 1 for baseline, visits 3-4 during treatment and visits 5-6 after withdrawal. There was a significant difference between both groups. There was a significant reduction in motor tics, vocal tics and obsessive compulsive disorder. No significant adverse cognitive effects were noted (4).

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More randomized controlled clinical studies are necessary
While there may be a paucity of large clinical trials of the use of medical cannabis in Tourette’s syndrome, tetrahydrocannabinol is a potential therapeutic agent in a neurological disorder where treatment options are very limited and often times unsuccessful. Adverse side effects can preclude treatment using conventional pharmaceutic agents.

While large randomized controlled clinical trials are necessary in providing standard of care, tetrahydrocannabinol has emerged as a potential treatment option used by clinicians who are on the frontlines of treating this debilitating disorder.

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Reference
1. Laprairie, et al, “Cannabidiol is a negative allosteric modulator of the cannabinoid CB1 receptor,” Br. J. Pharmacology, 2015, Oct., 172(20):4790-4805
2. Kanaan, et al, “Significant tic reduction in an otherwise treatment-resistant patient with Gilles de la Tourette syndrome following treatment with nabiximol,: Brain Science, 2017, Apr., 7 (5):47
3. Muller-Vahl,”Cannabinoids reduce symptoms of Tourette’s syndrome,” Expert Opin Pharmacother., 2003, Oct., 4(10):17-1725
4. Muller-Vahl, “Delta-9-Tetrahydrocannabinol (THC) is effective in the treatment of tics in Tourette syndrome: a 6 week randomized trial,” J. Clin Psychiatry, 2003, Apr., 64 (4):459-65
5. Trainor, “Severe motor and vocal tics controlled with Sativex®,” Australas Psychiatry, 2016, Dec, 24 (6):541-544

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cannabidiol, Epilepsy

Scientific and clinical evidence of cannabidiol (CBD) and seizure control: mechanisms, randomized controlled clinical trials, open label trials and animal models

Virginia Thornley, M.D., Neurologist, Epileptologist 

@VThornleyMD

May 22, 2018

Introduction

There are numerous scientific studies that have studied the effect of cannabidiol by itself on seizure control encompassing animal models, longitudinal observational studies, case series and currently randomized double-blinded placebo-controlled clinical trials. It is difficult to ignore the wealth of information regarding the medical value of cannabidiol with a significant role in the treatment of epilepsy.

The endocannabinoid pathway and cannabinoids

The endocannabinoid pathway is found naturally within our system, comprising of receptors, transporters, and endocannabinoids. It is responsible for the sense of well-being one gets after running referred to as the “runner’s high,” and not endorphins, serotonin or noradrenergic neurotransmitters as their molecular sizes are too large to pass through the blood-brain barrier. There are 2 types of receptors, CB1 and CB2 receptors. CB1 is found predominantly within the nervous system and is the receptor on which tetrahydrocannabinol works and it is through this binding where psychoactive properties arise. There are two metabolites within the endocannabinoid pathway, anandamide for which tetrahydrocannabinol (THC) is a phytomimetic and 2-arachidonoyl-glycerol for which cannabidiol is a phytomimetic. Cannabidiol (CBD) acts as an inverse agonist on the CB1 receptor, with a weak affinity. 100 times of cannabidiol is needed to get the same psychoactive properties as tetrahydrocannabinol. When CBD is combined with THC the side effects of paranoia, hyperactivity and agitation become less because it is an inverse agonist of the CB1 receptor. In many animal studies, cannabidiol has anti-inflammatory, anti-oxidative and neuroprotective actions within the nervous system (8).

Mechanisms by which cannabidiol works 

It is thought to modulate the neurotransmitter system. Endocannabinoids are increased as a result if hyperexcitability in the nervous system. CBD can regulate intracellular calcium during hyperexcitability states in the hippocampus in the temporal lobe. CBD can regulate NMDA (N-methyl-D-aspartate) receptor transmission and increase serotonergic 5HT-1A (5-hydroxytryptamine)receptor transmission and reduces GABA, 5-HT1A, and norepinephrine synaptic uptake (9). Cannabidiol is thought to be neuroprotective through its role in controlling intracellular calcium. Excess calcium can activate a cascade of neurochemical events leading to cell degeneration and death through lipases, endonucleases, and proteases. In one study in rat models, there was a suggestion that treatment of seizures was not just at the neurotransmitter level but also modulates the oscillatory nature, neuronal loss and post-ictal lethargy of the status epilepticus model.

Scientific evidence in animal models

Animal studies show that the effectiveness of cannabis is at the level of the CB1 receptor. With the deletion of the CB1 receptors in the forebrain excitatory neurons in the mice model, Kainate-induced seizures were more prominent. The presence of CB1 receptors in the hippocampal gyrus seems to protect against Kainate-induced seizures. Viral-induced CB1 overexpression resulted in less Kainate-induced seizures, CA pyramidal cell 3 cell death. This demonstrates that the presence of the CB1 receptor can limit seizures and reduces gliosis and apoptosis (4).

 

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In animal studies, the CB1 receptors increased 1 week after pilocarpine-induced seizures in the CA1-3 striatum oriens and the dentate gyrus. Patients with temporal lobe epilepsy had reduced Anandamide and increased CB1 receptors suggesting an up-regulation of the CB1 receptor as a homeostatic mechanism in the presence of seizures which can reduce excitatory neurotransmitters (4). This compensatory mechanism may be impaired with long-standing seizures and hippocampal sclerosis and refractoriness to pharmacologic measures.

Case series report

In a small study on patients with tumors with seizures, in 3 patients who were medically refractory were started on cannabidiol (Epidiolex) to treat seizures. 2 out of the 3 had improvement in seizures while all 3 had improvement in the severity in the University of Alabama (2).

Evidence in longitudinal observational studies

In one study of 57 patients, ages 1-20 years old, CBD:THC was given at a ratio of 20:1 with the CBD component of 11.4 mg/kg/day. The patients were followed longitudinally for 3 months with a follow-up time of 18 months. 56% or 26 patients had <50% reduction of seizures. No difference was noted between the causes of the seizure and the type of cannabis used. Younger ages of 10 years old and below had a statistically better outcome compared to an older age. Those with higher doses of CBD of >11.4mg/kg/day had a statistically better outcome compared to 11.4mg/kg/day and below. There were side effects in about 46% of patients leading to stopping the protocol. These studies suggest that cannabidiol enriched treatment may be beneficial in seizure control particularly in the pediatric population.  (1).

Open-label studies

In an open-label trial, 214 patients were studied between the ages 1-30, with pharmacoresistant epilepsy. There were 162 in the safety follow-up of 12 weeks, 137 were in the efficacy analysis. For the safety group, 33 had Dravet syndrome and 31 had Lennox-Gastaut syndrome. The rest had medically refractory seizures from different causes. Side effects were mild to moderate including diarrhea, lack of appetite, somnolence, fatigue, and convulsion. 5 had a cessation of treatment related to adverse effects. Serious events were reported in 48 patients with 1 death unrelated to cannabidiol. 20 had severe adverse effect including status epilepticus. The median number of seizures at baseline was 30 which was reduced to 15 per month with a 36.5% reduction of motor seizures (7).

Evidence in randomized controlled clinical trials 

In a multi-country study was performed on Dravet syndrome and effect of cannabidiol in a randomized double-blind trial of cannabidiol versus placebo and in young adults between the ages of 2-18. Dravet syndrome is an epileptic syndrome involving myoclonic epilepsy during childhood which may progress attributed to an SCN1A gene abnormality. There was a 4 week baseline period followed by a 14 week treatment period. The dosages of cannabidiol were increased gradually to 20mg/kg/day. Those in the cannabidiol group was matched to a placebo control. The endpoints were the percentage of change and Caregiver Global Impression of Change (CGIC). In 23 center in the U.S. and in Europe, 120 patients underwent randomization, mean age was 9.8 years old. 108 completed treatment. The median number of drugs was 3 and the most commonly taken were clobazam, valproate, stiripentol, levetiracetam, and topiramate. The most common type of seizures was generalized tonic-clonic followed by secondary generalized tonic-clonic seizures. 114/118 children presented with developmental delay. Adverse reactions were mild to moderate including somnolence, diarrhea and loss of appetite. Elevated liver enzymes were found in those taking valproate likely related to drug-drug interactions. The reduction of seizures was considered meaningful while no change in non-convulsive episodes was noted. In the cannabidiol group, convulsive seizures reduced from 12.4 seizures to 5.9 per month while the placebo control group had a reduction of seizures from 14.9 to 14.1 which was not statistically significant. A reduction of more than 50% of seizures occurred in 43% of patients in the cannabidiol group and 27% in the control cohort. 3 patients in the cannabidiol group and no one in the placebo group became free of seizures. 62% of caregivers thought the condition improved in the cannabidiol group as opposed to 34% in the placebo group (5).

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Another randomized placebo-controlled trial in Lennox-Gastaut syndrome was done using cannabidiol versus placebo. Lennox-Gastaut Syndrome is characterized by multiple seizure types with a slow spike and wave of 2.5 Hz or slower on EEG.  This study covered 30 clinical trial centers between the ages 2-55 with 2 or more seizures per week over 28 days. 225 patients were randomized with 76 in the group for cannabidiol at 20mg/kg/day, 73 in the cannabidiol group at 10mg/kg/day and 76 in the placebo cohort. The reduction in median of drop attacks was 41.9% in the 20mg cannabidiol group, 37% in the 10mg cannabidiol group and 17.2% in the placebo group which was statistically significant. Side effects were somnolence, diarrhea and poor appetite which was dose-related. 9% had higher liver function tests. The study concluded that addition of cannabidiol of either 10mg/kg/day or 20mg/kg/day in addition to standard anti-epileptic agents resulted in a significant reduction of seizures(6).

Cannabidiol as an add-on adjunct for refractory seizures

In another study in Slovenia, add-on cannabidiol was given to 66 patients who were deemed medically refractory at a dosage of 8mg/kg/day. 32 or 48% of patients experienced fewer seizures of more than 50% reduction. 14 (21%) were seizure free. No patient had to worsen and 15 or 22.7% there was no effect. Patients reported less robust seizures, less recovery time and less time duration of the seizures as positive outcomes. Adverse effects were seen in 5 patients or 0.07% of patients. They concluded that there are some beneficial effects of cannabidiol as an add-on adjunctive treatment in controlling medically refractory epilepsy(3). However, this study focused on cannabidiol as an adjunctive treatment, not as monotherapy.  Regardless, there are some beneficial aspects as evidenced in this study (3).

In summary

There is growing evidence that cannabidiol which is the non-psychoactive component of the Cannabis sativa plant is effective in treating intractable seizures, from the mouse model to randomized controlled clinical trials, which can no longer be ignored. There are mostly mild to moderate side effects involving the gastointestinal and neuropsychiatric system, although severe adverse outcomes include status epilepticus. There were no fatal outcomes associated with the use of cannabidiol. The real question are the long-term side effects and drug-drug interactions which can be studied once the cannabidiol is well-established as a conventional agent in the future.

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Introduction/Disclaimer

https://neurologybuzz.com/

References:

  1. Hausman-Kedem, M., et al, “Efficacy of CBD-enriched medical cannabis for treatment of refractory epilepsy in children and adolescents – an observational longitudinal study,” Brain Dev., 2018 Apr., pii:S0387-7604 (18)30112-8 doi: 10.1016/j.braindev2018.03.013. (Epub ahead of print)
  2. Warren, et al, “The use of cannabidiol for seizure management in patients with brain tumor-related epilepsy,” Neurocase, 2017, Oct.-Dec., 23 (5-6):287-291.
  3. Neubauer, D., et al, “Cannabidiol for treatment of refractory childhood epilepsies: experience from a single tertiary epilepsy center in Slovenia,” Epilepsy Behav., 2018 Apr., 81:79-85. doi:10.1016/j.yebeh.2018.02.009. (Epub ahead of print)
  4. Rosenberg, et al, “Cannabinoids and epilepsy,” Neurotherapeutics, 2015, Oct., 12 (4):747-768.
  5. Devinsky, O., et al, “Trial of cannabidiol for drug-resistant seizures in the Dravet Syndrome,” New England Journal of Medicine, 2017, 376: 2011-2020.
  6. Devinsky, et al, “Effect of cannabidiol on drop seizures in the Lennox-Gastaut Syndrome,” NEJM, 2018, May,  378:1888-1897.
  7. Devinsky, et al, “Cannabidiol in patients with treatment-resistant epilepsy: an open label interventional trial,” Lancet Neurology, 2016, Mar., 15 (3):270-8.
  8. Fernandez-Ruiz, et al, “Prospects of cannabinoid therapies in basal ganglia disorder,” British Journal of Pharmacology, 2011, Aug., 163 (7):1365-1378.
  9. Do Val-da-Silva, et al, “Protective effects of cannabidiol against seizures and neuronal death in a rat model of mesial temporal lobe epilepsy,” Front. Pharmacol., 2017, 8:131.
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schizophrenia

Cannabidiol may treat psychosis while tetrahydrocannabinol can induce schizophrenia in those susceptible  

Virginia Thornley, M.D., Neurologist, Epileptologist

@VThornleyMD

May 6, 2018

Introduction

There is a well-known correlation of use of cannabis whether it is medical or recreational to the onset of schizophrenia. It unclear if this could be to a direct correlation and disinhibition of the genetic component or the behavior of using it is a prodrome leading up to schizophrenia. This review seeks to elucidate the mechanisms in the correlation of the use of cannabis and onset of schizophrenia.

Mechanisms related to the underlying genetic composition

Schizophrenia may be linked when some of the normal pathways become disrupted with an introduction of THC.  There are 4 genes that were described after a lifetime use of cannabis including KCNT2 which were THC responsive, NCAM1 and CADM2 are significant in functioning in post-synapse. With THC in the system, there are more post-synaptic density genes (1).

Mechanisms related to other neurotransmitter pathways influenced by cannabinoids

In one study, because of the alarming rate of potent synthetic cannabis used recreationally which was found to leave long-lasting schizophrenia disorder in recreational users, this has accelerated research into the pathophysiology. Because cannabinoids work on the CB1 receptor, it is likely that it plays a modulatory role on the other neurotransmitters that can give rise to schizophrenia including dopaminergic, glutamatergic and serotonergic pathways. These pathways are well-established as playing a role in a pro-psychotic state. High efficacy synthetic cannabinoids which are manufactured for recreational purposes are highly more potent compared to natural organic cannabinoids and there is an alarming increase in the correlation of schizophrenia in these users (2).

In one study it is thought to be due to the hypofunctioning of the glutamate system which is directly affected by THC. Exposure to tetrahydrocannabinol appears to reduce the activity at the level of the glutamate receptor as well as deregulate genes for synaptic function(1).

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Susceptibility is related to the development of schizophrenia

In one animal model, the set-up tried to mimic a more real state seen where not all adolescents exposed to synthetic cannabinoids react by developing schizophrenia, there are some studies where all animals develop schizophrenia with exposure. In this animal model, they provided a model that resembles the human model more closely and found that exposure to synthetic cannabinoids in schizophrenia-prone animals caused hyperfunctioning of dopaminergic pathways compared to the control group who were not susceptible at the same dosages. There may be underlying genetic or environmental factors that cause certain individuals to become more prone (2).

THC can cause anxiety and behavioral disorders but can be prevented with CBD

In one animal study, it was found in a rat study that THC can induce anxiety and behavioral disorders. With THC  administration object recognition was impaired in adolescent rates. The studies support effect on the developing brain in relation to cognitive impairment in the animal model. In addition, when rats were exposed to THC there was increased marble burying behavior which in scientific research is thought to signify anxiety or obsessive-compulsive type behavior usually ameliorated with serotonin reuptake inhibitors or benzodiazepines(4).

It was found, however, that a combination of CBD and THC or cannabidiol alone was administered, these behaviors were not produced or produced only minimally. The thought is that CBD is an allosteric competitive inhibitor at the CB1 receptor so that one sees less of the toxic undesirable effects of THC if administered alone (4).

Cannabinoids have a similar profile to atypical anti-psychotics and may be a possible adjunctive treatment in the treatment of psychotic events (5).

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In summary

There is historical evidence that exposure to THC can give rise to schizophrenia in those individuals that are susceptible accounting for the fact that it does not happen to everybody exposed to it. This is related to its influence on serotonergic, dopaminergic and glutamate pathways. THC can induce anxiety, repetitive behaviors which are ameliorated by CBD. CBD may be a useful adjunctive treatment for psychotic disorders. However, the elucidated mechanisms are based on scientific research based on animal models which may not translate into humans.

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https://neurologybuzz.com/

 

References

  1. Guennewig, et al, “THC exposure of human iPSC neurons impacts genes associated with neuropsychiatric disorder,” Transl. Psychiatry, 2018, Apr., 8(1):89.
  2. Fantegrossi, et al, “Pro-psychotic effects of synthetic cannabinoids: interactions with central dopamine, serotonin and glutamate systems, Drug Metab. Review, 2018, Jan, 50(1)
  3. Aguilar, et al, “Adolescent synthetic cannabinoid exposure produces enduring changes in dopamine neuron activity in the rodent model of schizophrenia,” Int. J. Neurpsychopharmacol., 2018, Apr., 31 (4):393-403.
  4. Murphy, et al, “Chronic adolescent delta9-tetrahydrocannabinol treatment of male mice leads to long-term cognitive behavioral dysfunction which is prevented by concurrent cannabidiol treatment,” Cannabis Cannabinoid Res., 2017, 2(1):235-246.
  5. Deiana, et al, “Medical use of cannabis: a new light for schizophrenia?” Drug Test Analysis, 2013, Jan., (5)1:46-51
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