Insights Into Deep Brain Stimulation (DBS) for Cervical Dystonia
NCT ID: NCT01671527
Last Updated: 2016-06-13
Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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COMPLETED
29 participants
OBSERVATIONAL
2012-08-31
2016-06-30
Brief Summary
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TMS is a non-invasive procedure during which you sit in a chair that looks like one you would find at the dentist's office. A nerve stimulator is placed on the wrist of the right hand to stimulate the median nerve; the intensity of the nerve stimulator is gradually increased until the right thumb begins to twitch. A magnetic coil is placed on the scalp on one side of the head, overlying the brain's motor cortex, to stimulate the brain's output to the muscles in the opposite hand.
If you are a control subject, and therefore will not/have not have DBS surgery, we will measure the body's response to TMS for comparison purposes. We expect that the electrical differences in the brain may be related to the physical benefits some patients with primary cervical dystonia receive from DBS surgery.
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Detailed Description
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Study Visit 1: Baseline
* This visit applies to subjects with cervical dystonia who are planning DBS surgery in the next 1-4 weeks
* This visit applies to subjects with cervical dystonia who are not planning DBS surgery
* This visit (except #3) applies to healthy control subjects; this is the only visit for healthy control subjects
1. A neurological examination with special attention to the sensory system will be performed. The sensory system is the system by which the brain receives and perceives feelings from different parts of the body.
2. Women of child-bearing potential will be given a urine pregnancy test to evaluate pregnancy status.
3. DYSTONIA SUBJECTS ONLY: Clinical assessment of dystonia will be performed by administering several scales and measures, including: the Toronto Western Cervical Dystonia Rating Scale (TWSTRS), the Short Form (SF-36) scale for quality of life assessment, Visual Analog Scale (VAS) for assessment of dystonia and pain severity, the Mini Mental Status Examination (MMSE) for cognitive testing, and the Beck Depression Inventory (BDI II), for evaluation of mood.
4. We will determine your individual motor evoked potential (MEP) threshold before beginning the study treatment. Your MEP will be recorded from a muscle located between the right thumb and index finger on your right hand, and then on your left hand. MEP threshold refers to the amount of stimulation to the brain that is required to activate muscle cells enough to appear on an electromyography (EMG), which records electrical potential in muscle through electrodes placed on the skin.
5. We will test your sensory system and its interaction with the motor cortex by using transcranial magnetic Stimulation (TMS). For these tests, you will sit in a chair that looks like one you would find at the dentist's office. A nerve stimulator will be placed at the wrist of your right hand to stimulate the median and ulnar nerves. The intensity of the nerve stimulator will be gradually increased until the right thumb begins to twitch. A magnetic coil will be placed on the scalp on the left side of your head, overlying the brain's motor cortex, to stimulate the brain's output to the muscles in the opposite hand. This procedure will be repeated using the left wrist and the right side of your head.
6. We will spend an additional 30 minutes performing a protocol that allows for testing of plasticity changes in the brain. This protocol is called paired associative stimulation (PAS). The median nerve in your wrist and the TMS coil over your head undergo repeated paired stimulation. Such repeated pairing builds plasticity effect in the motor cortex. MEP, as explained earlier, is recorded before and after this protocol.
7. Subjects who have provided consent will be videotaped during this visit.
Study Visit 2:
* This visit will be identical to Visit 1 for subjects with cervical dystonia who are not planning DBS
* This visit, as described below, applies to subjects with cervical dystonia who have had DBS less than 3 months prior
1. This study visit involves 2 conditions and will be performed approximately 3 months after DBS surgery over a span of up to 3 days. For each condition your DBS stimulator will be kept either ON or OFF.
2. A physical examination, including the clinical dystonia rating scales and TMS tests used during Visit 1, will be administered and recorded for both conditions.
3. PAS, as described above for Visit 1, will be performed both ON and OFF stimulation to test the plasticity effects of DBS surgery.
4. Additionally, women of childbearing potential will be given a urine pregnancy test to evaluate pregnancy status.
5. Subjects who have provided consent will be videotaped.
Visit 3:
* This visit applies to subjects who have had DBS surgery 6 months or more prior
1. The method and plan will be identical to that used during Visit 2.
Conditions
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Study Design
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CASE_CONTROL
PROSPECTIVE
Study Groups
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Cervical Dystonia: DBS Subjects
Subjects who have undergone or plan to undergo DBS surgery for cervical dystonia
Transcranial magnetic stimulation (TMS)
We will test the sensory system and its interaction with the motor cortex by using TMS. For these tests, you will sit in a chair that looks like one you would find at the dentist's office. A nerve stimulator will be placed on the wrist of your right hand to stimulate the median and ulnar nerves. The intensity of the nerve stimulator will be gradually increased until the right thumb begins to twitch. A magnetic coil will be placed on the scalp on the left side of your head, overlying the brain's motor cortex, to stimulate the brain's output to the muscles in the opposite hand. This procedure will be repeated using the left wrist and the right side of your head.
Cervical Dystonia: Control Subjects
Subjects who DO NOT plan to undergo DBS surgery for cervical dystonia
Transcranial magnetic stimulation (TMS)
We will test the sensory system and its interaction with the motor cortex by using TMS. For these tests, you will sit in a chair that looks like one you would find at the dentist's office. A nerve stimulator will be placed on the wrist of your right hand to stimulate the median and ulnar nerves. The intensity of the nerve stimulator will be gradually increased until the right thumb begins to twitch. A magnetic coil will be placed on the scalp on the left side of your head, overlying the brain's motor cortex, to stimulate the brain's output to the muscles in the opposite hand. This procedure will be repeated using the left wrist and the right side of your head.
Healthy Controls
Healthy control subjects who do not have dystonia.
Transcranial magnetic stimulation (TMS)
We will test the sensory system and its interaction with the motor cortex by using TMS. For these tests, you will sit in a chair that looks like one you would find at the dentist's office. A nerve stimulator will be placed on the wrist of your right hand to stimulate the median and ulnar nerves. The intensity of the nerve stimulator will be gradually increased until the right thumb begins to twitch. A magnetic coil will be placed on the scalp on the left side of your head, overlying the brain's motor cortex, to stimulate the brain's output to the muscles in the opposite hand. This procedure will be repeated using the left wrist and the right side of your head.
Interventions
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Transcranial magnetic stimulation (TMS)
We will test the sensory system and its interaction with the motor cortex by using TMS. For these tests, you will sit in a chair that looks like one you would find at the dentist's office. A nerve stimulator will be placed on the wrist of your right hand to stimulate the median and ulnar nerves. The intensity of the nerve stimulator will be gradually increased until the right thumb begins to twitch. A magnetic coil will be placed on the scalp on the left side of your head, overlying the brain's motor cortex, to stimulate the brain's output to the muscles in the opposite hand. This procedure will be repeated using the left wrist and the right side of your head.
Eligibility Criteria
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Inclusion Criteria
* Diagnosis confirming primary (or predominantly primary) cervical dystonia
* Currently treated with medications and (in view of the treating neurologist) has not responded well and is deemed a candidate for DBS surgery; enrolled in the evaluation process for DBS surgery, or
* DBS surgery within the last 3 months, or
* DBS surgery 6 months or more prior, or
* Ineligible or not planning to undergo DBS surgery (dystonia control cohort only)
Exclusion Criteria
* Family or personal history of medication refractory epilepsy
* Pregnancy
18 Years
80 Years
ALL
Yes
Sponsors
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National Institutes of Health (NIH)
NIH
Dystonia Coalition
OTHER
University of Florida
OTHER
Responsible Party
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Principal Investigators
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Aparna Wagle Shukla, MD
Role: PRINCIPAL_INVESTIGATOR
University of Florida
Locations
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University of Florida
Gainesville, Florida, United States
Countries
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References
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Wagle Shukla A, Ostrem JL, Vaillancourt DE, Chen R, Foote KD, Okun MS. Physiological effects of subthalamic nucleus deep brain stimulation surgery in cervical dystonia. J Neurol Neurosurg Psychiatry. 2018 Dec;89(12):1296-1300. doi: 10.1136/jnnp-2017-317098. Epub 2018 Jan 11.
Related Links
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Dystonia Coalition
National Institutes of Health (NIH)
UF Center for Movement Disorders \& Neurorestoration
Other Identifiers
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3142012
Identifier Type: -
Identifier Source: org_study_id
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