Longitudinal Functional MRI Study of Transcranial Electrical Stimulation in Chronic Tinnitus
Overview
- Phase
- Early Phase 1
- Intervention
- Not specified
- Conditions
- Tinnitus, Subjective
- Sponsor
- Northwestern University
- Enrollment
- 20
- Locations
- 1
- Primary Endpoint
- Changes in brain function (functional connectivity)
- Status
- Completed
- Last Updated
- 3 years ago
Overview
Brief Summary
The purpose of this research is to understand how a neuromodulation technique, transcranial electrical stimulation (tES), affects brain function in adults with chronic tinnitus measured with functional magnetic resonance imaging (fMRI). We hypothesize that multiple sessions of tES (5 consecutive days) will modulate:
- Overall activity and local connectivity within brain regions near tES electrodes, and
- Functional connectivity within brain networks associated with brain regions near tES electrodes.
In exploratory analyses, we also measure the extent to which the hypothesized changes listed above a related to changes in tinnitus symptoms after tES.
Detailed Description
Chronic subjective tinnitus is a common and sometimes disabling condition, with few effective treatments and no cure. Tinnitus is thought to involve dysfunction in central brain networks subsequent to peripheral injury or interference; thus, neurostimulation therapies that directly target central circuits are receiving growing interest. Of these, noninvasive transcranial electrical stimulation (tES) is an attractive option, due to its relative affordability, mobility, and favorable safety profile. A growing number of studies have demonstrated that tES of temporal/auditory cortex is effective at transiently reducing tinnitus symptoms, including tinnitus loudness and tinnitus distress. However, the results of previous clinical trials are variable, and a mechanistic understanding of tES and its therapeutic effects remains elusive. The main goal of this research is to lay the groundwork for improved, patient-centered approaches to noninvasive neurostimulation therapy for chronic tinnitus. To accomplish this long-term goal, this study will determine how the intrinsic activity and connectivity of auditory networks are affected during simultaneous tES-fMRI of auditory cortex, specifically in those patients who experience reduced tinnitus symptoms after 5 consecutive days of tES. Though the primary goal of the proposed research is to optimize tES for the treatment of tinnitus, these studies will also provide a wealth of information regarding tinnitus pathophysiology and the mechanisms of tES more generally, which is being investigated for the treatment of a wide variety of brain disorders and injuries.
Investigators
Amber Leaver
Research Assistant Professor
Northwestern University
Eligibility Criteria
Inclusion Criteria
- •Ages between 18 and 65
- •Race/ethnicity: all races and ethnic groups
- •Sex/Gender: all
- •Capacity to provide informed consent
- •Subjective tinnitus symptoms for at least one year prior (confirmed by patient self-report)
- •Has discussed tinnitus symptoms with clinician (i.e., physician, audiologist) to confirm low/no likelihood of physical or neurological origin of tinnitus symptoms (e.g., acoustic neuroma, Meniere's Disease, etc.), confirmed by patient self-report
- •Stable standard or no pharmacological treatment regimen for tinnitus (e.g., SSRI or SNRI) with no change in treatment 6 weeks prior to study start
Exclusion Criteria
- •Ages below 18 (neurobiology is quite different in children vs. adults)
- •Ages above 65 (cortical excitability changes with age)
- •Tinnitus symptoms with known medial origin, including: Meniere's disease, pulsatile tinnitus, acoustic neuroma, spontaneous optoacoustic emissions, any other known medical origin
- •Diagnosis of any medical condition potentially affecting brain function, including: neuropsychiatric or mental disorders, mood disorders (bipolar disorder, anxiety, PTSD), psychotic states or disorders, developmental disorders, neurological disorders, including mild cognitive impairment, significant head injury, significant history of alcohol/substance abuse or dependence, chronic pain (\>1 year duration)
- •MRI contraindications: metal or other implants that are not MR-safe, claustrophobia, pregnancy or suspected pregnancy
- •tDCS contraindications\*: skin conditions or injuries on the scalp, hair extensions, wigs, braids, etc. that cannot be removed prior to the study, metal implants or pacemakers (also contraindicated for MRI) \*Please note that history of seizures or epilepsy, stroke, and brain injury are not safety concerns for tES use, and may be inclusion criteria for other tES studies. However, individuals with history of these conditions will be excluded here because these conditions are not a focus of the current study (see above).
- •Non-English speakers (due to written consent and questionnaires administered)
- •other major medical conditions (e.g., cancer, stroke).
- •Significant history of alcohol/substance abuse or dependence within last 12 months
- •Neurostimulation or neuromodulation treatment for any reason within the past 3 months
Outcomes
Primary Outcomes
Changes in brain function (functional connectivity)
Time Frame: baseline, interim (1 week after baseline), and post-tES (2 weeks after tES)
Changes in temporal coherence (functional connectivity) of local auditory-cortex activity and auditory networks measured with BOLD-fMRI
Secondary Outcomes
- Tinnitus loudness ratings(daily from date of randomization until 2 weeks after the the last study visit (tES session))