Somatosensory Based Treatments for Tinnitus
- Conditions
- Tinnitus
- Interventions
- Device: P-Stim
- Registration Number
- NCT01066273
- Lead Sponsor
- Massachusetts Eye and Ear Infirmary
- Brief Summary
Studies have established that the somatosensory system of the upper cervical region and head can be intimately involved in tinnitus. Tinnitus can arise directly from a disorder of the head and upper neck via the somatosensory system. Our clinical experience and review of reports of various types of treatments support the hypothesis that treatment modalities involving the somatosensory system can benefit individuals whose tinnitus is likely on a somatosensory basis, namely people with symmetric hearing thresholds but asymmetric widely fluctuating tinnitus. However these previous studies did not (a) limit their treatment population to only people with tinnitus on a somatosensory basis and (b) did not assess their results by considering this tinnitus subpopulation separately from the entire group of tinnitus subjects they treated. Hence, the purpose of this study is to re-assess these treatments by targeting people whose audiograms can not account for their tinnitus, such as individuals with symmetric hearing thresholds but asymmetric widely fluctuating tinnitus
- Detailed Description
Until recently our attempts over the years at treatment of patients with such types of tinnitus has met with little or no success. These treatments have included cervical physical therapy and dental treatments for bruxism. A few with such tinnitus responded have had some benefit from acupuncture applied to their periauricular region. A small formal trial with a few patients did not provide any relief.
However a literature review (Levine et al., 2007) found a consistent line of evidence for a tinnitus subgroup responsive to somatosensory based treatment modalities, including electrical stimulation in the periauricular region, and acupuncture. Furthermore an electrical stimulation device of the auricle P-Stim was found to be more effective than standard acupuncture for a variety of conditions, including chronic cervical and low back pain. For this convergence of reasons we have initiated an open trial with P-Stim over the past 11 months. In a sense we have used it in an "off-label" capacity; just as many medications have been found to be useful for conditions for which the medications were not developed (see Levine 2006).
The P-Stim is a battery-powered, transcutaneous electrical stimulator that delivers 1 per second bipolar 1 millisecond pulses to three points on the auricle. The device connects via three fine insulated stainless steel wires to three needles (each 0.4 mm diameter, 2 mm long) that have been applied to three different points on the auricle. The device is powered by three zinc air batteries, each with a voltage of 1.4 V. The device is on for 180 minutes, then off for 180 minutes, for a maximum period of up to 96 hours. The battery and electronics are contained in a 6 mm by 2.5 mm pack that has one adhesive surface which is applied to the skin behind the ear. The adhesive is conductive and acts as the return for the device. The battery pack is secured with tape.
We have met with some success using P-Stim for what appear to be two tinnitus subgroups: somatic pulsatile tinnitus syndrome (Levine et al., 2008) and patients with non-pulsatile unilateral fluctuating tinnitus associated with deep ear pain.
Recruitment & Eligibility
- Status
- WITHDRAWN
- Sex
- All
- Target Recruitment
- Not specified
- Age range: above age 18
- people with a bleeding disorder,
- and those on coumadin will be excluded
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- SINGLE_GROUP
- Arm && Interventions
Group Intervention Description P-Stim device P-Stim Receiving the device that is activated
- Primary Outcome Measures
Name Time Method Quieter tinnitus 6 months
- Secondary Outcome Measures
Name Time Method