XG
Publications
- Bone-conduction hyperacusis induced by superior canal dehiscence in human: the underlying mechanism.
- Superior Canal Dehiscence Similarly Affects Cochlear Pressures in Temporal Bones and Audiograms in Patients.
- Intracochlear Sound Pressure Measurements in Normal Human Temporal Bones During Bone Conduction Stimulation.
- PVDF-Based Piezoelectric Microphone for Sound Detection Inside the Cochlea: Toward Totally Implantable Cochlear Implants.
- Impedances of the inner and middle ear estimated from intracochlear sound pressures in normal human temporal bones.
- Factors affecting loss of tympanic membrane mobility in acute otitis media model of chinchilla.
- Factors affecting sound energy absorbance in acute otitis media model of chinchilla.
- An Intracochlear Pressure Sensor as a Microphone for a Fully Implantable Cochlear Implant.
- Motion of tympanic membrane in guinea pig otitis media model measured by scanning laser Doppler vibrometry.
- Experimental and modeling study of human tympanic membrane motion in the presence of middle ear liquid.
- Measurement of basilar membrane motion during round window stimulation in guinea pigs.
- Comparison of eardrum mobility in acute otitis media and otitis media with effusion models.
- Mechanisms of tympanic membrane and incus mobility loss in acute otitis media model of guinea pig.
- Effect of middle ear fluid on sound transmission and auditory brainstem response in guinea pigs.