- ICH GCP
- US Clinical Trials Registry
- Clinical Trial NCT04692844
Pathophysiology of Tremor-modulating Mechanisms of Propranolol and Primidone in Essential Tremor
The Mechanism of Tremor Modulating Properties of Propranolol and Primidone in Essential Tremor: A Study With Transcranial Magnetic Stimulation and Eye Blink Classical Conditioning Paradigm
Study Overview
Status
Conditions
Intervention / Treatment
Detailed Description
Background: Although ET is the most common of movement disorders, its pathophysiology has not yet been fully explained. Central nervous system functional studies have shown that oscillatory activity within the cerebello-thalamo-cortical networks plays a key role in ET's pathophysiology. The origin of this oscillatory activity and the potential role of the primary motor cortex in its formation or modulation remains unknown. Neuropathological studies found degenerative structural changes in the cerebellum of ET patients. Propranolol and primidone are the first-line therapies for ET and the sole medications for treating ET with the level A recommendations according to the latest guidelines of the American Academy of Neurology. Propranolol is a beta-blocker class of medication and primidone is a barbiturate. In spite of solid evidence of their effectiveness in ET patients, the mechanisms of their central action are not yet fully understood. It is believed that propranolol mediates its therapeutic action through peripheral beta-2 adrenergic receptors of skeletal muscles and muscle spindles and through central beta-adrenergic and serotoninergic receptors. After oral intake, primidone is partially metabolized to phenylethylmalonamide (PEMA) and phenobarbital. Even though the studies have shown that PEMA does not have anti-tremor activity, primidone is much more effective in alleviating tremor than phenobarbital alone. In addition, it has been shown that the anti-tremor effect of primidone occurs sooner than its metabolite phenobarbital is produced. This may be due to the non-metabolized primidone compound having an anti-tremor activity or due to PEMA's and phenobarbital's synergistic activity. No association between anti-tremor activity and the concentration of primidone or phenobarbital in the serum has been found. While phenobarbital activity is well known to be mediated through binding to gamma-aminobutyric acid (GABA) A receptors, the mechanism of action of non-metabolized primidone is poorly understood.
Aims: To study the mechanisms of primidone and propranolol action in ET with the use of TMS. The investigators believe that studying mechanisms of action of medications that have been shown to reduce ET can further improve the understanding of ET pathophysiology. Since the cerebellum is thought to be involved in ET pathophysiology the EBCC paradigm will be used to evaluate cerebellar dysfunction in ET patients and to show whether cerebellar dysfunction influences the effectiveness of propranolol and primidone.
Patients and inclusion/exclusion criteria: Fifty patients will be recruited from the outpatient clinic for extrapyramidal disorders. Only patients with the diagnosis of ET made according to the newest consensus statement on the classification of tremors and only patients who will be initiated on propranolol or primidone will be included. Exclusion criteria for TMS will be used. Patients having a history of seizures or mental illness, patients with a cardiac pacemaker, metal material in the head (except dental material in the mouth), or with medication pumps and pregnant women will be excluded from the study.
Study protocol: Patients treated with propranolol or primidone will be studied prior to treatment and 3 - 6 months after treatment initiation. Patients will not be allowed to start any new medication with the action on the central nervous system, while included in the study. Tremor will be assessed clinically using the TETRAS scale and by EMG and accelerometry recordings. Positive treatment response will be defined as a 30% or more decrease in tremor amplitude. At baseline cerebellar function will be assessed clinically with the SARA scale and electrophysiologically using the EBCC paradigm. TMS will be used to study motor cortex excitability.
Methods:
Accelerometry with electromyography: Tremor (frequency and amplitude) will be objectively evaluated in the subjects with accelerometry. A triaxial accelerometer will be attached to the 3rd metacarpal bone bilaterally. Simultaneously EMG will be recorded. Bipolar Ag / AgCl surface EMG electrodes will be placed over the flexor carpi radialis and the extensor carpi radialis muscle bilaterally. Electromyography and accelerometry will be recorded while subjects will be sitting in an armchair/wheelchair or lying in a hospital bed (a) at rest position (b) with arms outstretched (postural condition) (c) at the postural condition with 500 g mass attached to the hand (weight loading) and (d) while performing a goal-directed task (action).
Transcranial magnetic stimulation (TMS) Single TMS pulses will be applied using Magstim 2002 magnetic stimulator with monophasic waveform (Magstim Company, Carmarthenshire, Wales, UK). For double TMS pulses, two Magstim 2002 stimulators connected with the Bistim module will be used. The stimulators will be connected to a standard figure 8 coil. The coil will be positioned tangentially to the skull and over the 'hotspot' point on the scalp, with the handle pointing backward at an angle of ~ 45 ° with respect to the sagittal plane. Hotspot point is defined as stimulation site resulting in the largest motor evoked potentials (MEPs) recorded over the contralateral abductor pollicis brevis (APB) muscle. A hotspot point will be found by visual inspection. The MEP amplitude in APB muscle will be measured with EMG.
The eyeblink classical conditioning (EBCC) paradigm is a protocol of associative motor learning in which paired presentation of a conditioned (CS) and unconditioned stimulus (US) leads to the production of a conditioned eyeblink response (CR) 10,42. The CS will be a tone with a frequency of 2000 Hz and a strength of 50-70 dB higher than the hearing threshold of the subject (but at least 80 dB) and a duration of 400 milliseconds that will be presented bilaterally via binaural headphones. The unconditioned stimulus will be delivered by percutaneous supraorbital nerve electrical stimulation through a pair of Ag-AgCl cup electrodes with the cathode over the supraorbital foramen and the anode 2 cm above. Percutaneous electrical stimulation of the supraorbital nerve will last 200 microseconds and will start 200 microseconds before the end of the CS so that the stimuli will co-terminate. Blinking will be recorded with EMG electrodes placed bilaterally over the orbicularis oculi muscles. The test will consist of seven sets. In the first six sets, there will be nine trials with paired conditioned-unconditioned stimuli, one trial with the only US, and one trial with only CS. In the seventh section, eleven trials of only CS will be given. Among the individual tests, there will be a random interval (from 10s to 30s), so that the habituation will be as small as possible.
Statistical analysis: Clinical and TMS measures before and after treatment will be compared using parametric or nonparametric two-related-samples T-test, depending on the data distribution or repeated-measures ANOVA. Regression analyses will be used to determine demographic, clinical, and electrophysiological predictors of response to treatment.
It is hypothesized by investigators that in ET patients, baseline electrophysiological parameters will differ between patients who will improve while taking propranolol or primidone (responders) and patients who will not improve while taking any of these medications (non-responders). Propranolol and primidone will cause a different pattern of change in electrophysiological parameters among responders. Since the intention component of action tremor usually responds to treatment to a lesser degree than other components of tremor and is reported to be associated with cerebellar dysfunction, the investigators hypothesize that cerebellar dysfunction will negatively correlate with the patient's response to treatment.
Study Type
Enrollment (Actual)
Contacts and Locations
Study Contact
- Name: Katarina Vogelnik, MD
- Phone Number: +3861-522-4323
- Email: vogelnik.kata@gmail.com
Study Locations
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Ljubljana, Slovenia, 1000
- Departmet of Neurology, University Medical Centre Ljubljana
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Participation Criteria
Eligibility Criteria
Ages Eligible for Study
Accepts Healthy Volunteers
Sampling Method
Study Population
Description
Inclusion Criteria:
- diagnosis of essential tremor made according to the newest consensus statement on the classification of tremors
- patients initiated on propranolol or primidone
Exclusion Criteria:
- a history of seizures
- a history of mental illness,
- having a cardiac pacemaker
- having metal material in the head (except dental material in the mouth)
- having a medication pump
- pregnancy
Study Plan
How is the study designed?
Design Details
- Observational Models: Cohort
- Time Perspectives: Prospective
Cohorts and Interventions
Group / Cohort |
Intervention / Treatment |
---|---|
Patients with essential tremor treated with Propranolol
Patients will be recruited from the outpatient clinic for extrapyramidal disorders.
Only patients with the diagnosis of ET made according to the newest consensus statement on the classification of tremors and only patients who will receive Propranolol in the course of routine medical practice, will be included.
|
Patients will receive Propranolol in the course of their routine treatment.
Results will be used to explore biological phenomena or disease processes.
|
Patients with essential tremor treated with Primidone
Patients will be recruited from the outpatient clinic for extrapyramidal disorders.
Only patients with the diagnosis of ET made according to the newest consensus statement on the classification of tremors and only patients who will receive Primidone in the course of routine medical practice, will be included.
|
Patients will receive Primidone in the course of their routine treatment.
Results will be used to explore biological phenomena or disease processes.
|
What is the study measuring?
Primary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Electrophysiological correlations of clinical effect
Time Frame: 3-6 months
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Comparison of TMS and clinical measures before and after treatment, comparison of cerebellar dysfunction with response to treatment
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3-6 months
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Effect of cerebellar function assessed by eye blink classical conditioning on drug effectiveness
Time Frame: 3-6 months
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Comparison of cerebellar function of responders and non-responders
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3-6 months
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Collaborators and Investigators
Investigators
- Principal Investigator: Maja Kojović, PhD, MD, maja.kojovic@kclj.si
Publications and helpful links
General Publications
- Deuschl G, Raethjen J, Lindemann M, Krack P. The pathophysiology of tremor. Muscle Nerve. 2001 Jun;24(6):716-35. doi: 10.1002/mus.1063.
- Kuo SH, Erickson-Davis C, Gillman A, Faust PL, Vonsattel JP, Louis ED. Increased number of heterotopic Purkinje cells in essential tremor. J Neurol Neurosurg Psychiatry. 2011 Sep;82(9):1038-40. doi: 10.1136/jnnp.2010.213330. Epub 2010 Aug 27.
- Zesiewicz TA, Elble RJ, Louis ED, Gronseth GS, Ondo WG, Dewey RB Jr, Okun MS, Sullivan KL, Weiner WJ. Evidence-based guideline update: treatment of essential tremor: report of the Quality Standards subcommittee of the American Academy of Neurology. Neurology. 2011 Nov 8;77(19):1752-5. doi: 10.1212/WNL.0b013e318236f0fd. Epub 2011 Oct 19.
- Guan XM, Peroutka SJ. Basic mechanisms of action of drugs used in the treatment of essential tremor. Clin Neuropharmacol. 1990 Jun;13(3):210-23. doi: 10.1097/00002826-199006000-00003. No abstract available.
- Buijink AW, van der Stouwe AM, Broersma M, Sharifi S, Groot PF, Speelman JD, Maurits NM, van Rootselaar AF. Motor network disruption in essential tremor: a functional and effective connectivity study. Brain. 2015 Oct;138(Pt 10):2934-47. doi: 10.1093/brain/awv225. Epub 2015 Aug 5.
- Ziemann U, Lonnecker S, Steinhoff BJ, Paulus W. Effects of antiepileptic drugs on motor cortex excitability in humans: a transcranial magnetic stimulation study. Ann Neurol. 1996 Sep;40(3):367-78. doi: 10.1002/ana.410400306.
- Kronenbuerger M, Gerwig M, Brol B, Block F, Timmann D. Eyeblink conditioning is impaired in subjects with essential tremor. Brain. 2007 Jun;130(Pt 6):1538-51. doi: 10.1093/brain/awm081. Epub 2007 Apr 27.
- Ghassemi NH, Marxreiter F, Pasluosta CF, Kugler P, Schlachetzki J, Schramm A, Eskofier BM, Klucken J. Combined accelerometer and EMG analysis to differentiate essential tremor from Parkinson's disease. Annu Int Conf IEEE Eng Med Biol Soc. 2016 Aug;2016:672-675. doi: 10.1109/EMBC.2016.7590791.
- Hopfner F, Haubenberger D, Galpern WR, Gwinn K, Van't Veer A, White S, Bhatia K, Adler CH, Eidelberg D, Ondo W, Stebbins GT, Tanner CM, Helmich RC, Lenz FA, Sillitoe RV, Vaillancourt D, Vitek JL, Louis ED, Shill HA, Frosch MP, Foroud T, Kuhlenbaumer G, Singleton A, Testa CM, Hallett M, Elble R, Deuschl G. Knowledge gaps and research recommendations for essential tremor. Parkinsonism Relat Disord. 2016 Dec;33:27-35. doi: 10.1016/j.parkreldis.2016.10.002. Epub 2016 Oct 4.
- Louis ED, Faust PL, Vonsattel JP, Honig LS, Rajput A, Robinson CA, Rajput A, Pahwa R, Lyons KE, Ross GW, Borden S, Moskowitz CB, Lawton A, Hernandez N. Neuropathological changes in essential tremor: 33 cases compared with 21 controls. Brain. 2007 Dec;130(Pt 12):3297-307. doi: 10.1093/brain/awm266. Epub 2007 Nov 19.
- Hedera P, Cibulcik F, Davis TL. Pharmacotherapy of essential tremor. J Cent Nerv Syst Dis. 2013 Dec 22;5:43-55. doi: 10.4137/JCNSD.S6561.
- Calzetti S, Findley LJ, Pisani F, Richens A. Phenylethylmalonamide in essential tremor. A double-blind controlled study. J Neurol Neurosurg Psychiatry. 1981 Oct;44(10):932-4. doi: 10.1136/jnnp.44.10.932.
- Ondo W. Essential Tremor: What We Can Learn from Current Pharmacotherapy. Tremor Other Hyperkinet Mov (N Y). 2016 Mar 4;6:356. doi: 10.7916/D8K35TC3. eCollection 2016.
- Clark RE, Manns JR, Squire LR. Trace and delay eyeblink conditioning: contrasting phenomena of declarative and nondeclarative memory. Psychol Sci. 2001 Jul;12(4):304-8. doi: 10.1111/1467-9280.00356.
- Kapogiannis D, Wassermann EM. Transcranial magnetic stimulation in Clinical Pharmacology. Cent Nerv Syst Agents Med Chem. 2008 Dec;8(4):234-240. doi: 10.2174/187152408786848076.
Study record dates
Study Major Dates
Study Start (Actual)
Primary Completion (Actual)
Study Completion (Actual)
Study Registration Dates
First Submitted
First Submitted That Met QC Criteria
First Posted (Actual)
Study Record Updates
Last Update Posted (Actual)
Last Update Submitted That Met QC Criteria
Last Verified
More Information
Terms related to this study
Keywords
Additional Relevant MeSH Terms
- Central Nervous System Diseases
- Nervous System Diseases
- Neurologic Manifestations
- Movement Disorders
- Dyskinesias
- Tremor
- Essential Tremor
- Physiological Effects of Drugs
- Adrenergic beta-Antagonists
- Adrenergic Antagonists
- Adrenergic Agents
- Neurotransmitter Agents
- Molecular Mechanisms of Pharmacological Action
- Anti-Arrhythmia Agents
- Antihypertensive Agents
- Vasodilator Agents
- GABA Modulators
- GABA Agents
- Anticonvulsants
- Propranolol
- Primidone
Other Study ID Numbers
- 0120-525/2017
Plan for Individual participant data (IPD)
Plan to Share Individual Participant Data (IPD)?
Drug and device information, study documents
Studies a U.S. FDA-regulated drug product
Studies a U.S. FDA-regulated device product
product manufactured in and exported from the U.S.
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