7 Clinical Trials for Various Conditions
Although cochlear implants can restore hearing to individuals who have lost cochlear hair cell function, there is no widely available, adequately effective treatment for individuals suffering chronic imbalance, postural instability and unsteady vision due to bilateral vestibular hypofunction. Prior research focused on ototoxic cases has demonstrated that electrical stimulation of the vestibular nerve via a chronically implanted multichannel vestibular implant can partially restore vestibular reflexes that normally maintain steady posture and vision; improve performance on objective measures of postural stability and gait; and improve patient-reported disability and health-related quality of life. This single-arm open-label study extends that research to evaluate outcomes for up to 8 individuals with non-ototoxic bilateral vestibular hypofunction, yielding a total of fifteen adults (age 22-90 years at time of enrollment) divided as equally as possible between ototoxic and non-ototoxic cases.
Although cochlear implants can restore hearing to individuals who have lost cochlear hair cell function, there is no widely available, adequately effective treatment for individuals suffering chronic imbalance, postural instability and unsteady vision due to bilateral vestibular hypofunction. Prior research has demonstrated that electrical stimulation of the vestibular nerve via a chronically implanted multichannel vestibular implant can partially restore vestibular reflexes that normally maintain steady posture and vision; improve performance on objective measures of postural stability and gait; and improve patient-reported disability and health-related quality of life. This single-arm open-label study extends that research to evaluate outcomes for up to fifteen older adults (age 65-90 years at time of enrollment) with ototoxic or non-ototoxic bilateral vestibular hypofunction.
Although cochlear implants can restore hearing to individuals who have lost cochlear hair cell function, there is no widely available, adequately effective treatment for individuals suffering chronic imbalance, postural instability and unsteady vision due to bilateral vestibular hypofunction. Prior research focused on ototoxic cases has demonstrated that electrical stimulation of the vestibular nerve via a chronically implanted multichannel vestibular implant can partially restore vestibular reflexes that normally maintain steady posture and vision; improve performance on objective measures of postural stability and gait; and improve patient-reported disability and health-related quality of life. This single-arm open-label study extends that research to evaluate outcomes for up to 8 individuals with non-ototoxic bilateral vestibular hypofunction, yielding a total of fifteen adults (age 22-90 years at time of enrollment) divided as equally as possible between ototoxic and non-ototoxic cases.
Although cochlear implants can restore hearing to individuals who have lost cochlear hair cell function, there is no adequately effective treatment for individuals suffering chronic imbalance, postural instability and unsteady vision due to loss of vestibular hair cell function. Preclinical studies have demonstrated that electrical stimulation of the vestibular nerve via a chronically implanted multichannel vestibular prosthesis can partially restore vestibular reflexes that maintain steady posture and vision. This pilot clinical feasibility study of a multichannel vestibular implant system will evaluate this approach in up to ten human subjects with bilateral vestibular deficiency due to gentamicin ototoxicity or other causes of inner ear dysfunction.
Purpose of this study is to determine the efficiency and safety of a Sensory Enrichment Multimodal Device (SEMD) when applied in conjunction with usual care vestibular-balance physical therapy for rehabilitation of patients who fall as a result of vestibular inducted disequilibrium. Study participants will receive regular physical therapy, and some will use the SEMD device while receiving usual care vestibular-balance physical therapy. The device is an elastic belt that holds eight small battery powered vibrating disks. When using the device, you will sit or stand on a force platform that measures body sway. That movement information is sent to a computer which then sends the information to you via the vibrating disks. The vibrating disks are similar to a vibrating cell phone: you can feel the vibration but it is not uncomfortable. You can also see your sway movement on the computer screen. Some tests and activities will be paced with a beeping sound. The aim of this study is six-fold: 1. Demonstrate the relative efficiency between SEMD and conventional vestibular-balance physical therapy as reported by treating physical therapists' by counting number of skills acquired in a treatment session, and the amount of time needed to acquire the skill; 2. Demonstrate greater improvement earlier on in balance test scores when using the SEMD as an adjunct to conventional vestibular-balance physical therapy; 3. Determine the difference in vestibular habituation between physical therapy plus SEMD and conventional vestibular-balance physical therapy; 4. Demonstrate a more immediate reduction in fall occurrence when using SEMD as an adjunct to conventional vestibular-balance physical therapy; 5. Determine the patient's perception of quality of life between physical therapy plus SEMD and conventional vestibular-balance physical therapy; 6. Determine difference in acquisition of large movement tasks of tandem walk, step quick-turn, and kneel-shoulder rifle-return to stand between subjects that have trained with SEMD and conventional vestibular-balance physical therapy . In addition to primary and secondary outcome measurements, efficiency of skill acquisition, devised for this study, will be evaluated by tracking the number of skills and length of time needed to acquire each skill for each physical therapy session using the Patient Skill Acquisition Chart (PSAC). Usefulness of Tandem Walk, Step Quick-turn, and Kneel- Shoulder Rifle-Return to Stand as intervention outcome, also devised for this study, will be evaluated with pre test to post tests Modified Functional Independence Measure - Motor (MFIM-Motor). These measurements were devised for this study, and will be evaluated for informational purposes only.
The purpose of this study is to evaluate the effectiveness of OTO-104 for the treatment of Meniere's disease.
The purpose of this study is to determine whether prednisone, methotrexate, and cyclophosphamide are effective in the treatment of rapidly progressive sensorineural hearing loss in both ears. This condition is called autoimmune inner ear disease (AIED), because it is thought that the hearing loss is triggered by an autoimmune process. Treatment attempts to suppress or control this process with powerful anti-inflammatory drugs. This is a Phase III, outpatient study. All study participants will be assigned to one of four different groups testing the experimental use of drugs. The study is scheduled to run for 18 months, with a minimum of 11 visits per participant.