Research & Clinical Trials

Laboratories affiliated with the Cochlear Implant Center are actively involved in both basic and clinical research programs that aim to maximize the benefits available from cochlear implants.

Laboratories Affiliated with The Cochlear Implant Center

The following research labs are currently conducting research related to inner ear disorders that affect The Cochlear Implant Center patients.

Auditory Brainstem Laboratory

The overall goal of the Auditory Brainstem Library is to understand how abnormal auditory input from the ear affects the brainstem, and how the brain in turn affects activity in the ear through efferent feedback loops. Our emphasis is on understanding the effects of different forms of acquired hearing loss (genetic, conductive, noise-induced, age-related, traumatic brain injury-related) and environmental noise. We are particularly interested in plastic changes in the brain that compensate for some aspects of altered auditory input, and how those changes relate to central auditory processing deficits, tinnitus, and hyperacusis. Understanding these changes will help refine therapeutic strategies and identify new targets for treatment. We collaborate with other labs in the Depts. of Otolaryngology, Neuroscience, Neuropathology, the Wilmer Eye Institute, and the Applied Physics Laboratory at Johns Hopkins, in addition to labs outside the university to increase the impact and clinical relevance of our research.

Principal Investigator: Amanda Lauer, Ph.D., M.S.


Bowditch Research Group

Bowditch Research Group conducts research regarding speech discrimination in background noise, cochlear implants and osseointegrated hearing devices.

Principal Investigator: Stephen Bowditch, Au.D., M.S.

Carey Research Group

John Carey’s Research Group conducts research regarding diseases of the inner ear that affect both balance and hearing mechanisms. Key interests include superior semicircular canal dehiscence syndrome (SCDS), the normal vestibular reflexes and how they change with age, novel intratympanic treatments (i.e., middle ear injections) for conditions like Menière’s disease and sudden hearing loss, and the mechanisms of vestibular migraine. With Lloyd Minor, Dr. Carey helped develop the operation to repair the superior canal in patients with SCDS using image-guided surgery. Dr. Carey has been funded by the National Institutes of Health – National Institute on Deafness and Other Communication Disorders to study inner ear balance function in Menière’s disease and steroid treatment of sudden hearing loss.

Principal Investigator: John Carey, M.D.

Cochlear Center for Hearing and Public Health

The Cochlear Center for Hearing and Public Health is dedicated to training clinicians, researchers and public health experts to study and address the impact that hearing loss has on older adults and public health. We aim to make measured local, national and global impacts through a macro level (e.g., public policy legislation), micro level (e.g., programs to deliver hearing care to individuals in a particular community), and everywhere in between (e.g., influential research publications, etc.) to adhere to our center’s overall mission and vision of effectively optimizing the health and function of an aging society and become the premier global resource for ground-breaking research and training on hearing loss and public health.

Principal Investigator: Frank Lin, M.D., Ph.D.


Fuchs Laboratory

The Fuchs Laboratory uses cellular electrophysiology, immunolabeling and electron microscopy to study synaptic connections between sensory hair cells and neurons in the cochlea. One effort focuses on an unusual cholinergic receptor that mediates efferent inhibition of hair cells, driving discovery of the molecular mechanisms, and offering a target for protection against acoustic trauma. A second topic concerns the small number of unmyelinated "type II" afferent neurons whose synaptic connectivity and response properties argue for a role as the pathway for noxious (too loud) sound. Our studies are motivated by curiosity about fundamental mechanisms, and to provide a foundation for understanding cochlear pathogenesis.

Principal Investigator: Paul Fuchs, Ph.D.

Glowatzki Lab

Research in the Glowatzki Lab focuses on the auditory system, with a particular focus on synaptic transmission in the inner ear.

Our lab is using dendritic patch clamp recordings to examine mechanisms of synaptic transmission at this first, critical synapse in the auditory pathway. With this technique, we can diagnose the molecular mechanisms of transmitter release at uniquely high resolution (this is the sole input to each afferent neuron), and relate them directly to the rich knowledge base of auditory signaling by single afferent neurons.

We study pre- and post-synaptic mechanisms that determine auditory nerve fiber properties. This approach will help to study general principles of synaptic transmission and specifically to identify the molecular substrates for inherited auditory neuropathies and other cochlear dysfunctions.

Principal Investigator: Elisabeth Glowatzki, Ph.D.


Vestibular NeuroEngineering Lab

Research in the Vestibular NeuroEngineering Lab (VNEL) focuses on restoring inner ear function through “bionic” electrical stimulation, inner ear gene therapy, and enhancing the central nervous system’s ability to learn ways to use sensory input from a damaged inner ear. VNEL research involves basic and applied neurophysiology, biomedical engineering, clinical investigation and population-based epidemiologic studies.

Principal Investigator: Charles Della Santina, M.D., Ph.D.