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| ID | Type | Description | Link |
|---|---|---|---|
| R01MH073856-01A1 | U.S. NIH Grant/Contract | View source |
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| Name | Class |
|---|---|
| National Institute of Mental Health (NIMH) | NIH |
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Dr. Kevin J. Black at Washington University is conducting a study to learn whether we can use MRI scans to test dopamine function in the brain and to determine whether the brain performs memory tasks differently in Tourette Syndrome (TS). TS is a movement disorder characterized by vocal tics (sounds) and motor tics (movements). We will measure how and where brain activity changes using magnetic resonance imaging (MRI) scans during memory tasks and after taking levodopa. Levodopa is a drug commonly used for the treatment of Parkinson's disease (PD), a very different movement disorder.
Clinical observations suggest that in TS there is abnormal function in the brain's motor system that can be modified by manipulating dopamine. My colleagues and I have hypothesized that nonmotor brain systems may also show dopamine-sensitive functional abnormalities. Recently we tested this hypothesis using functional magnetic resonance imaging (fMRI). A cognitive task involving working memory (WM) produced excessive activation of several brain regions in TS subjects compared to controls, but this excessive activation normalized after administering the dopamine precursor levodopa (Hershey et al, 2004).
We can state the following focused hypotheses and corresponding specific aims:
(1) In TS, normal performance during a working memory (WM) task requires greater activation of specific brain regions (parietal cortex, medial frontal cortex and thalamus) than in control subjects, and this excess fMRI response is reduced (improved) by exogenous levodopa. (2) These fMRI results in TS relate specifically to WM, to TS, and to dopamine receptor activation, rather than to non-WM components of the cognitive task, comorbidity, placebo effects, or other confounds.
Specific Aim 1. Test whether the preliminary fMRI results generalize to a larger and more representative sample of adults with TS.
Specific Aim 2. Clarify the variables that interact to produce the differential fMRI responses to a WM task and levodopa observed in TS subjects vs controls.
2a. Task components. Control for non-WM components of the task and delineate a "dose-response" curve for effects of WM load on fMRI responses.
2b. Clinical variables. Test whether the fMRI results in our preliminary data are associated with TS itself rather than with comorbid conditions, treatment history, demographic variables, or state variables such as current tic severity / tic suppression.
2c. Pharmacology. Test whether the post-levodopa changes in WM-related fMRI signal relate specifically to levodopa plasma concentration (rather than practice effects, placebo effects, or passage of time) and are replicated by a nonselective dopamine receptor agonist or by a dopamine D2/D3/D4 agonist.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| levodopa solution 2mg/ml for i.v. use | Experimental | levodopa solution in saline, given intravenously, dosed as per "final protocol" in Black et al 2003. |
|
| Placebo | Placebo Comparator | normal saline i.v. |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| levodopa solution 2mg/ml for i.v. use | Drug | 2mg/mL in normal saline |
|
| Measure | Description | Time Frame |
|---|---|---|
| BOLD (blood oxygen-level dependent) fMRI (functional magnetic resonance imaging) response to a working memory task | From about 30 to 120 minutes after infusion begins |
| Measure | Description | Time Frame |
|---|---|---|
| serum prolactin concentration | approximately 2 hours after infusion begins |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Kevin J Black, MD | Washington Universisty School of Medicine | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Washington Universisty School of Medicine, | St Louis | Missouri | 63110 | United States |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 15110735 | Background | Hershey T, Black KJ, Hartlein JM, Barch DM, Braver TS, Carl JL, Perlmutter JS. Cognitive-pharmacologic functional magnetic resonance imaging in tourette syndrome: a pilot study. Biol Psychiatry. 2004 May 1;55(9):916-25. doi: 10.1016/j.biopsych.2004.01.003. | |
| 12865145 | Background | Black KJ, Carl JL, Hartlein JM, Warren SL, Hershey T, Perlmutter JS. Rapid intravenous loading of levodopa for human research: clinical results. J Neurosci Methods. 2003 Jul 15;127(1):19-29. doi: 10.1016/s0165-0270(03)00096-7. |
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Vital signs IPD are shared at: Siddiqi SH, Creech ML, Black KJ. Orthostatic stability with intravenous levodopa. PeerJ. 2015 Aug 27;3:e1198. doi: 10.7717/peerj.1198. eCollection 2015. PubMed ID: 26336641 There is no plan to share other IPD.
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| ID | Term |
|---|---|
| D005879 | Tourette Syndrome |
| ID | Term |
|---|---|
| D001480 | Basal Ganglia Diseases |
| D001927 | Brain Diseases |
| D002493 | Central Nervous System Diseases |
| D009422 | Nervous System Diseases |
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| ID | Term |
|---|---|
| D007980 | Levodopa |
| D014867 | Water |
| ID | Term |
|---|---|
| D004295 | Dihydroxyphenylalanine |
| D002395 | Catecholamines |
| D000588 | Amines |
| D009930 | Organic Chemicals |
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| placebo | Drug | normal saline |
|
|
| Result | Campbell M, Koller J, Shipley E, Creech M, Hershey T, Black K. Dopaminergic modulation of working memory in Tourette's syndrome [abstract]. J Neuropsychiatry Clin Neurosci 20(2):232, 2008. http://neuro.psychiatryonline.org/article.aspx?articleid=103362 |
| Result | Black KJ, Campbell MC, Koller JM, Schneider B, Hershey T. Dopaminergic modulation of working-memory-related cortical activity in Tourette syndrome. Annual meeting, Society for Neuroscience, Chicago, 20 Oct 2009. http://www.sfn.org/ |
| 26336641 | Result | Siddiqi SH, Creech ML, Black KJ. Orthostatic stability with intravenous levodopa. PeerJ. 2015 Aug 27;3:e1198. doi: 10.7717/peerj.1198. eCollection 2015. |
| D013981 | Tic Disorders |
| D009069 | Movement Disorders |
| D020271 | Heredodegenerative Disorders, Nervous System |
| D019636 | Neurodegenerative Diseases |
| D030342 | Genetic Diseases, Inborn |
| D009358 | Congenital, Hereditary, and Neonatal Diseases and Abnormalities |
| D065886 | Neurodevelopmental Disorders |
| D001523 | Mental Disorders |
| D002396 |
| Catechols |
| D010636 | Phenols |
| D001555 | Benzene Derivatives |
| D006841 | Hydrocarbons, Aromatic |
| D006844 | Hydrocarbons, Cyclic |
| D006838 | Hydrocarbons |
| D010649 | Phenylalanine |
| D024322 | Amino Acids, Aromatic |
| D000598 | Amino Acids, Cyclic |
| D000596 | Amino Acids |
| D000602 | Amino Acids, Peptides, and Proteins |
| D014443 | Tyrosine |
| D006878 | Hydroxides |
| D000468 | Alkalies |
| D007287 | Inorganic Chemicals |
| D000838 | Anions |
| D007477 | Ions |
| D004573 | Electrolytes |
| D010087 | Oxides |
| D017601 | Oxygen Compounds |