Published in Hear Res on July 16, 2010
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A mechano-acoustic model of the effect of superior canal dehiscence on hearing in chinchilla. J Acoust Soc Am (2007) 1.39
Bone conduction experiments in animals - evidence for a non-osseous mechanism. Hear Res (2000) 1.39
The effect of superior canal dehiscence on cochlear potential in response to air-conducted stimuli in chinchilla. Hear Res (2005) 1.37
Bone conduction experiments in humans - a fluid pathway from bone to ear. Hear Res (2000) 1.36
Auditory function in patients with surgically treated superior semicircular canal dehiscence. Otol Neurotol (2006) 1.36
Operative management of superior semicircular canal dehiscence. Laryngoscope (2005) 1.29
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Superior canal dehiscence: mechanisms of pressure sensitivity in a chinchilla model. Arch Otolaryngol Head Neck Surg (2001) 1.00
Semicircular canal fenestration - improvement of bone- but not air-conducted auditory thresholds. Hear Res (2004) 0.92
An empirical bound on the compressibility of the cochlea. J Acoust Soc Am (1992) 0.83
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Superior semicircular canal dehiscence presenting as conductive hearing loss without vertigo. Otol Neurotol (2004) 2.15
Conductive hearing loss caused by third-window lesions of the inner ear. Otol Neurotol (2008) 2.00
Determinants of hearing loss in perforations of the tympanic membrane. Otol Neurotol (2006) 1.80
Differential intracochlear sound pressure measurements in normal human temporal bones. J Assoc Res Otolaryngol (2008) 1.74
Measurements of human middle- and inner-ear mechanics with dehiscence of the superior semicircular canal. Otol Neurotol (2007) 1.71
Motion of the surface of the human tympanic membrane measured with stroboscopic holography. Hear Res (2009) 1.62
The effect of superior-canal opening on middle-ear input admittance and air-conducted stapes velocity in chinchilla. J Acoust Soc Am (2006) 1.57
Mechanisms of hearing loss resulting from middle-ear fluid. Hear Res (2004) 1.53
A normative study of tympanic membrane motion in humans using a laser Doppler vibrometer (LDV). Hear Res (2004) 1.51
Experimental ossicular fixations and the middle ear's response to sound: evidence for a flexible ossicular chain. Hear Res (2005) 1.48
Optoelectronic holographic otoscope for measurement of nano-displacements in tympanic membranes. J Biomed Opt (2009) 1.46
A mechano-acoustic model of the effect of superior canal dehiscence on hearing in chinchilla. J Acoust Soc Am (2007) 1.39
The effect of superior canal dehiscence on cochlear potential in response to air-conducted stimuli in chinchilla. Hear Res (2005) 1.37
The effect of methodological differences in the measurement of stapes motion in live and cadaver ears. Audiol Neurootol (2006) 1.37
Gerbil middle-ear sound transmission from 100 Hz to 60 kHz. J Acoust Soc Am (2008) 1.32
Wave motion on the surface of the human tympanic membrane: holographic measurement and modeling analysis. J Acoust Soc Am (2013) 1.28
Experimental and clinical studies of malleus fixation. Laryngoscope (2005) 1.26
Non-ossicular signal transmission in human middle ears: Experimental assessment of the "acoustic route" with perforated tympanic membranes. J Acoust Soc Am (2007) 1.24
Sound pressure distribution and power flow within the gerbil ear canal from 100 Hz to 80 kHz. J Acoust Soc Am (2007) 1.19
Measurement of conductive hearing loss in mice. Hear Res (2009) 1.18
Evaluation of round window stimulation using the floating mass transducer by intracochlear sound pressure measurements in human temporal bones. Otol Neurotol (2010) 1.18
Comparison of ear-canal reflectance and umbo velocity in patients with conductive hearing loss: a preliminary study. Ear Hear (2011) 1.15
Measurements of stapes velocity in live human ears. Hear Res (2008) 1.12
Motion of the tympanic membrane after cartilage tympanoplasty determined by stroboscopic holography. Hear Res (2009) 1.08
Transmission matrix analysis of the chinchilla middle ear. J Acoust Soc Am (2007) 1.08
Middle-ear mechanics of Type III tympanoplasty (stapes columella): I. Experimental studies. Otol Neurotol (2003) 1.07
Comparison of forward (ear-canal) and reverse (round-window) sound stimulation of the cochlea. Hear Res (2012) 1.06
Anatomy of the distal incus in humans. J Assoc Res Otolaryngol (2009) 1.06
Clinical investigation and mechanism of air-bone gaps in large vestibular aqueduct syndrome. Ann Otol Rhinol Laryngol (2007) 1.04
Middle ear function and cochlear input impedance in chinchilla. J Acoust Soc Am (2010) 1.03
Middle-ear pressure gain and cochlear partition differential pressure in chinchilla. Hear Res (2009) 1.03
Simultaneous 3D imaging of sound-induced motions of the tympanic membrane and middle ear ossicles. Hear Res (2013) 1.00
Holographic otoscope for nanodisplacement measurements of surfaces under dynamic excitation. Scanning (2011) 0.98
Superior semicircular canal dehiscence mimicking otosclerotic hearing loss. Adv Otorhinolaryngol (2007) 0.98
Evidence of inner ear contribution in bone conduction in chinchilla. Hear Res (2012) 0.90
Superior semicircular canal dehiscence presenting as postpartum vertigo. Otol Neurotol (2006) 0.90
Performance considerations of prosthetic actuators for round-window stimulation. Hear Res (2009) 0.87
Measurements of glottal structure dynamics. J Acoust Soc Am (2005) 0.86
Consensus statement: Eriksholm workshop on wideband absorbance measures of the middle ear. Ear Hear (2013) 0.85
Middle ear mechanics of cartilage tympanoplasty evaluated by laser holography and vibrometry. Otol Neurotol (2009) 0.84
Assessment of the effects of superior canal dehiscence location and size on intracochlear sound pressures. Audiol Neurootol (2014) 0.84
Inner-ear sound pressures near the base of the cochlea in chinchilla: further investigation. J Acoust Soc Am (2013) 0.84
Chinchilla middle-ear admittance and sound power: high-frequency estimates and effects of inner-ear modifications. J Acoust Soc Am (2012) 0.84
Middle-ear velocity transfer function, cochlear input immittance, and middle-ear efficiency in chinchilla. J Acoust Soc Am (2013) 0.83
Factors that introduce intrasubject variability into ear-canal absorbance measurements. Ear Hear (2013) 0.83
Middle ear mechanics of Type III tympanoplasty (stapes columella): II. Clinical studies. Otol Neurotol (2003) 0.81
Formulations for trans-tympanic antibiotic delivery. Biomaterials (2012) 0.81
Active control of ultrasonic hearing in frogs. Proc Natl Acad Sci U S A (2008) 0.80
Mice lacking adrenergic signaling have normal cochlear responses and normal resistance to acoustic injury but enhanced susceptibility to middle-ear infection. J Assoc Res Otolaryngol (2010) 0.78
The Effect of Ear Canal Orientation on Tympanic Membrane Motion and the Sound Field Near the Tympanic Membrane. J Assoc Res Otolaryngol (2015) 0.78
Power reflectance as a screening tool for the diagnosis of superior semicircular canal dehiscence. Otol Neurotol (2015) 0.78
Comparison of umbo velocity in air- and bone-conduction. Hear Res (2012) 0.78
Investigation of the mechanics of Type III stapes columella tympanoplasty using laser-Doppler vibrometry. Otol Neurotol (2007) 0.77
Békésy's contributions to our present understanding of sound conduction to the inner ear. Hear Res (2012) 0.75
Assessment of ear disorders using power reflectance. Ear Hear (2013) 0.75
The Audiometric and Mechanical Effects of Partial Ossicular Discontinuity. Ear Hear (2016) 0.75
Histopathology of the temporal bone in a case of superior canal dehiscence syndrome. Ann Otol Rhinol Laryngol (2012) 0.75
Comparisons of the mechanics of partial and total ossicular replacement prostheses with cartilage in a cadaveric temporal bone preparation. Acta Otolaryngol (2014) 0.75
In memory of Saumil N. Merchant, MD. Ear Hear (2013) 0.75