Stefan Heller
|
Hair cells and inner ear neurons from stem cells Inner ear development
Mechanoreception - Osmosensation - TRPV4
|
| Anthony Ricci |
Hair Cell Biophysics |
Nikolas Blevins
1 |
Inner Ear Fluorescence Microendoscopy
Collaborators: Nikolas Blevins, MD, Mark Schnitzer PhD,
Eunice Cheung PhD, Gerald Popelka PhD, Jeurgen Jung MS, Ashkan Monfared MD |
Nikolas Blevins
2 |
Inner Ear Surgery and Robotics
Collaborators: Nikolas Blevins, MD, Kenneth Salisbury PhD, , David Camarillo MS,
Byongho Park PhD, Fritz Prinz PhD |
Nikolas Blevins
3 |
Mathematical Modeling of Cochlear Biomechanics
Collaborators: Nikolas Blevins, MD, Sunil Puria PhD, Charles Steele PhD |
Nikolas Blevins
4 |
Otology & Neurotology
Subtotal Resection-Stereotactic Radiotherapy for Acoustic Neuroma
Collaborators: Nikolas Blevins, MD and Robert K. Jackler, MD
|
Nikolas Blevins
5 |
Surgical Simulation
Collaborators: Nikolas Blevins, MD, Kenneth Salisbury PhD, Federico Barbagli PhD,
Christopher Sewell MS, Daniel Morris MS |
| Kay Chang |
The Evaluation, Management, and Prevention of Cisplatin Ototoxicity in Pediatric Patients. |
| Alan Cheng |
Our laboratory is interested in the signaling pathways that maintain the inner ear stem/progenitor cells |
| Edward Damrose |
Clinical Diagnosis of Laryngeal Disorders (In collaboration with University of Wisconsin)
Collaborators: Edward Damrose, MD & Yuling Yan, PhD |
| Richard L. Goode |
Facial Plastic and Reconstructive Surgery |
Peter Hwang
1 |
Rhinology & Sinus Surgery
We are evaluating the role of retinoic acid in mucosal wound healing and ciliogenesis |
Peter Hwang
2 |
Electrophysiologic features of sinonasal airway epithelia |
| Anna Messner |
Pediatric Otolaryngology |
| Sam Most |
Research in Facial Plastic Surgery
Evidence-based medicine in Facial Plastic Surgery |
| Gerald Popelka |
Auditory Function in the Developing Human Neonate |
| Sunil Puria |
OtoBiomechanics Group at Stanford
Collaborators: Sunil Puria PhD, Charles Steele PhD,
Richard L. Goode MD, Nikolas Blevins MD, Gerald Popelka, PhD
The OtoBiomechanics Group at Stanford is developing three-dimensional and multiscale bio-computational models of the middle ear and the inner ear and their applications to
understanding disease processes and interventions. |
| John Sunwoo |
Head and Neck Tumor Biology and Immunology
The immune response to head and neck cancer stem cells.
The developmental programs of NK cells. |
| Yuling Yan |
Mechanism of phonation for normal and for pathological voice conditions |
