Welcome and artist talk
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 14:00 - 18:00 | Welcome snacks | |||
| 18:00 - 19:20 | Dinner | |||
| 19:20 - 20:00 | Welcome | |||
| 20:00 - 21:30 | Artist talk | |||
Mechanics, imaging, and modeling. Mechanics of Hearing 101.
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 08:00 - 08:40 | Morning activity and breakfast | |||
| 09:00 - 09:20 | S01-01 | Guinan | Cochlear Amplification: Clarification of concepts and new insights about how OHC motility produces traveling-wave amplification | MOI_01 |
| 09:20 - 09:40 | S01-09 | Cooper | Micromechanical motion of the guinea-pig organ of Corti | MOI_07 |
| 09:40 - 10:00 | S01-03 | van der Heijden | The dramatically dispersive character of the traveling wave | MOI_03 |
| 10:00 - 10:20 | Discussion | |||
| 11:00 - 11:20 | S01-04 | Strimbu | Loss and Recovery of Amplification and Nonlinearity in vivo Following Disruption of the Endocochlear Potential | MOI_12 |
| 11:20 - 11:40 | S01-05 | Nakajima | Human cochlear partition anatomy and motion using optical coherence tomography | MOI_06 |
| 11:40 - 12:00 | S01-06 | Puria | Differential Transverse Motion of Outer Hair Cells Measured in Gerbil HighFrequency Region | MOI_23 |
| Lunch | ||||
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 13:20 - 13:40 | S01-07 | Nam | Advective mass transport along the cochlear coil | MND_24 |
| 13:40 - 14:00 | S01-08 | Grosh | Nonlinearity and Energetics of Active Cochlear Models | MND_09 |
| 14:00 - 14:20 | S01-12 | Ticháˇcek | Hair cells specialization in a nonlinear lumped element model of the cochlea support phase-locking and cochlear amplifier mechanism | |
| 14:20 - 14:40 | Discussion | |||
| 14:00 - 16:20 | Posters | Coffee break | ||
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 16:40 - 17:00 | S01-10 | Meaud | Modeling the fine structure of ear canal pressure and cochlear microphonics in response to a pure tone | MND_05 |
| 17:00 - 17:20 | S01-11 | Sisto | Fluid focusing contributes to the BM vibration amplification by boosting the pressure | MND_10 |
| 17:20 - 18:00 | S01-13 | Allen | 50 years of cochlear modeling: The remarkable trip from Delft 1983 to Denmark 2022 | MOI_15 |
| 18:00 - 18:20 | Discussion | |||
| 18:20 - 19:20 | Dinner | |||
| 19:40 - 20:00 | S01-14 | Bergevin | How exceptional is the ear? | MND_12 |
| 20:00 - 21:00 | MOH 101 | |||
| 21:00 - 22:00 | Posters | |||
| ID | Presenter | Title | Channel |
|---|---|---|---|
| S01-A | Recio- Spinoso | Sound-evoked vibrations at the apex of the chinchilla cochlea | MOI_11 |
| S01-B | Ramdas | OCT-based method for the combined measurement of structural vibration and fluid | TRA_04 |
| S01-C | van der Heijden | Spatial buildup of cochlear compression revisited | MOI_18 |
| S01-D | Saremi | The Timing of the Cochlear Mechanics: A Comparative Study on How Computational Models Reproduce the Phase Response of the Excitation Pattern | MND_20 |
| S01-E | Edri | Potential Role of Nonlinear Stiffness in Cochlear Models | |
| S01-F | Alkhairy | Cochlear Wave Propagation and Dynamics in the Human Base and Apex | MOI_24 |
| S01-G | Sengar | Comparison of Synchronized Spontaneous OAE Dynamics in Human Data and Cochlear Mechanics Simulation: Effects of Roughness | MOI_19 |
| S01-H | Kerkhofs | Understanding bone conduction in the human cochlea with intracochlear OCT vibrometry | DTR_09 |
| S01-I | Wang | Auditory Evoked Potentials in Comparison to Pure Tone Thresholds from Adult Humans | DTR_06 |
| S01-J | Meenderink | Sound-evoked vibrations along the tonotopic axis in the gerbil cochlea | MOI_04 |
| S01-K | Alberts | Measuring Motion in the Mouse Apical Turn with Optical Coherence Tomography | |
| S01-02 | Altoè | The shape of noise to come: Signal vs. Noise amplification in the active cochlea (webinar) | MND_02 |
Physiology - from molecules to system. Modeling. OCT workshop.
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 08:00 - 08:40 | Morning activity and breakfast | |||
| 09:00 - 09:20 | S02-01 | Ashmore | The two operational modes of outer hair cells: the implications for cochlear tuning | PMS_01 |
| 09:20 - 09:40 | S02-02 | Ó Maoiléidigh | The functional contributions of links in mammalian cochlear hair bundles | PMS_03 |
| 09:40 - 10:00 | S02-03 | Iwasa | Not so presto? Can outer hair cells be sluggish? | PMS_04 |
| 10:00 - 10:20 | S02-04 | Le Page | Digitization and Reanalysis of Fiber-optic Displacement Data: An Elephant in the Chamber? | MOI_21 |
| 10:20 - 10:40 | Discussion | |||
| 11:00 - 11:20 | S02-05 | Toderi | High Speed Imaging of Active Motility in Hair Cells | PMS_05 |
| 11:20 - 11:40 | S02-06 | Prasad | Physiological role of extracellular ATP in the inner ear | |
| 11:40 - 12:00 | S02-07 | Rabbitt | On Natural Selection of Cochlear Outer Hair Cell Electro-Mechanical Properties | PMS_09 |
| Lunch | ||||
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 13:20 - 14:00 | S02-08 | Høgh- Jensen | Keynote: The role of non-linear dynamics in nature | |
| 14:00 - 14:20 | S02-09 | Sørensen | Clustering of coupled non-linear oscillators and its (potential) role in hearing | MND_29 |
| 14:20 - 14:40 | S02-10 | Roongthumskul | Low-level distortion product otoacoustic emissions in lizards are influenced by spontaneous activity of the inner ear | MND_30 |
| 14:40 - 15:00 | S02-11 | Faber | Robust Synchronization and Reliable Signal Detection by Coupled, Non-isochronous Hair Cells | MND_01 |
| 15:00 - 15:50 | Posters | Coffee break | ||
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 16:00 - 16:20 | S02-12 | Samaras | Nonlinear Effects Basal to the Best Place Manifest in the Reticular Lamina's Response due to its Low Stiffness Relative to the Basilar Membrane | MOI_13 |
| 16:20 - 16:40 | S02-13 | Elliott | Forms of longitudinal coupling in the organ of Corti | MND_03 |
| 16:40 - 17:00 | S02-14 | Marrocchio | Wave motion in the longitudinally coupled cochlea | MND_04 |
| 17:00 - 17:20 | S02-15 | Marquart | Viscous losses in the fluid versus solid damping in the cochlear partition: An FEM study | MND_11 |
| 17:20 - 17:45 | Discussion with online participants | |||
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 17:50 - 18:30 | THORLABS | Overview of OCT applications | OCT | |
| 18:30 - 19:50 | Dinner | |||
| 20:00 - 20:10 | Brian Applegate | Swept-source versus spectral domain OCT | OCT | |
| 20:10 - 20:20 | Nigel Cooper & Marcel van der Heijden | How to turn the THORLABS spectral domain system into a vibrometer | OCT | |
| 20:20 - 20:30 | Lisa Olson | How to adapt the bulk-optics system to a probe-based system | OCT | |
| 20:30 - 20:40 | Sunil Puria | Benefits and/or drawbacks of shorter wavelength light OCT | OCT | |
| 20:40 - 20:50 | Wei Dong & Bas Meenderink | Imaging through the bone to measure from apical regions. | OCT | |
| 20:50 - 22:00 | Discussion and posters | |||
| ID | Presenter | Title | Channel |
|---|---|---|---|
| S02-A | Gianoli | Fast adaptation of cooperative channels engenders Hopf bifurcations in auditory hair cells | |
| S02-B | Raphael | Computational Model of Cochlear Ion Homeostasis | PMS_07 |
| S02-C | Raphael | Energetic depletion and I S K mutations detabilize potassium resupply to the endolymph | PMS_02 |
| S02-D | Wang | Investigation on Inner Hair Cell Stereocilia Stimulation Mechanisms through 3D Finite Element Model of the Mouse Organ of Corti | MND_23 |
| S02-E | Villasante | Dependence of the elastic properties of protocadherin 15 dimers on Ca 2+ concentration | |
| S02-F | Gianoli | Using light to study sound: stimulating hair cells with photonic pressure | |
| S02-G | Ver Hulst | Sound detection and emission by coupled critical oscillators | |
| S02-H | Tubelli | The drive to inner and outer hair-cell bundles in a slice model of the gerbil cochlea | MND_21 |
| S02-I | Joliot | The transepithelial potential can control gating compliance of the hair-cell bundle | TRA_10 |
| S02-J | Goyal | Hair Bundle Micromechanics Including Stereocilia Kinematics and the Interaction of Stimulus and Bundle Rate Constants | MND_19 |
| S02-K | Agarwal | A nonlinear mechano-electro-acoustic model of the human cochlea | MND_08 |
Non-mammalian (cochlear) mechanics. Business meeting. Excursion.
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 08:00 - 08:40 | Morning activity and breakfast | |||
| 09:00 - 09:20 | S03-01 | Bergevin | Interpeak characterizations for spontaneous otoacoustic emissions | MOI_22 |
| 09:20 - 09:40 | S03-02 | Nowotny | In-vivo mechanics in the miniaturized hearing organ of an insect | |
| 09:40 - 10:00 | S03-03 | Vavakou | Micromechanics of the Hearing Organ of the Bushcricket Measured with Optical Coherence Tomography | PMS_06 |
| 10:00 - 10:20 | Discussion | |||
| 10:40 - 11:20 | S03-04 | Carney | Keynote: Nonlinearity in Hearing: The Role of Inner-Hair-Cell Saturation in Neural Coding | PMS_08 |
| 11:20 - 11:40 | Discussion | |||
| 11:50 - 13:00 | Business meeting | |||
| 13:00 | Lunch to go | |||
| 13:45 | Excursion | |||
| ID | Presenter | Title | Channel |
|---|---|---|---|
| S03-A | Whiley | Convergent Otoacoustic Tuning Estimates in the Anole Lizard? | MOI_14 |
| S03-B | Zosuls | Measuring wave propagation in the tectorial membrane of Meriones unguiculatus | |
| S03-C | Brandt | Spider leg joint membranes are displaced both by acoustic waves and sound-induced vibrations in their webs | |
| S03-D | Mhatre | Measuring the internal mechanics of the tree cricket auditory organ (webinar) |
Developments in technology and translational research. Human cochlear mechanics and OAE. Conference dinner. Concert.
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 08:00 - 08:40 | Morning activity and breakfast | |||
| 09:00 - 09:40 | S04-01 | Zhang (Intro: Nakajima) | Keynote: A Comparison of Implantable Microphones Constructed Around a Piezoelectric Polymer | TRA_09 |
| 09:40 - 10:00 | S04-02 | Kitsopoulos | Design and Testing of Ultraminiature MEMS Middle Ear Accelerometers | TRA_05 |
| 10:00 - 10:20 | S04-03 | Lenk | Bio-inspired, adaptive acoustic sensor: sensing properties in dependence of feedback parameters | TRA_03 |
| 10:20 - 10:40 | Discussion | |||
| 11:00 - 11:20 | S04-04 | Siegel | What Do Recent Discoveries in Cochlear Mechanics Tell Us About Otoacoustic Emissions? | MOI_05 |
| 11:20 - 11:40 | S04-05 | Wils | Lumped Element Models of Sound Conduction in the Human Ear: a Systematic Review | MND_22 |
| 11:40 - 12:00 | S04-06 | Goodman | Otoacoustic Emissions extracted by pharmacological blocking of OHCs without using sound for suppression or subtractive scaling | MOI_02 |
| Lunch | ||||
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 13:20 - 14:00 | S04-07 | Charaziak | Suppression of organ-of-Corti vibrations and otoacoustic emissions in mice | MOI_08 |
| 14:00 - 14:20 | S04-08 | Dong | Imaging ratio dependency of distortion products at apical region of gerbil cochlea | MOI_09 |
| 14:20 - 14:40 | S04-10 | Vencovsky | A component of stimulus-frequency otoacoustic emissions evoked due to perturbation of nonlinear force in a cochlear model | MND_13 |
| 15:00 - 16:30 | Group photo + posters | |||
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 16:40 - 17:00 | S04-11 | Koike | Relationship between DPOAE and pure tone hearing levels: Numerical analysis with human cochlear finite element model | MND_14 |
| 17:00 - 17:20 | S04-12 | Salloom | The effect of broadband elicitor duration on transient-evoked otoacoustic emissions and a psychoacoustic measure of gain reduction | MOI_16 |
| 17:20 - 17:45 | Discussion with online participants | |||
| 18:00 - 20:10 | Dinner | |||
| 20:20 - 22:00 | Concert | |||
| ID | Presenter | Title | Channel |
|---|---|---|---|
| S04-A | Davies | Cochlea-inspired acoustic metamaterials | |
| S04-B | Benson | Can You Hear Me Now? Binaural Brainstem and Spatial Hearing Deficits in a Guinea Pig Model of Noise-Induced Cochlear Synaptopathy | DTR_02 |
| S04-C | Teal | Whole Stimulus DPOAE Analysis | DTR_01 |
| S04-D | Zirn | Temporal adjustment of interaural stimulation timing leads to improved sound localization but not to improved spatial release from masking in bimodal listeners | DTR_03 |
| S04-E | Vetesnik | Two-tone suppression and power balance in a 2D nonlinear cochlear model | MND_18 |
| S04-F | Xia | Investigating the Effect of Change in Cochlear Micromechanics and Activity Levels on Stimulus Frequency Otoacoustic Emissions Phase Gradient Delay | MND_07 |
| S04-G | Lee | Numerical analysis of nonlinearity of outer hair cells based on comparison with measurements of DPOAEs | MOI_17 |
| S04-H | Saiz-Alia | Speech-DPOAEs for probing speech processing in the inner ear (WEBINAR) | MND_15 |
| S04-I | Keshishzadeh | Individualized human cochlear models based on otoacoustic emissions recordings | |
| S04-J | Stiepan | Evaluating shifts in the human cochlear tonotopic map using binaural pitch matching and SFOAE delays | MND_17 |
| S04-K | Stickel | Making sense of fluid-jet stimulation of single outer hair-cell bundles in the rat cochlea | |
| S04-09 | Dewey | Similar tuning of distortion-product otoacoustic emission ratio functions and cochlear vibrations in mic | MOI_10 |
Developments in technology and translational research. Final discussion.
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 08:00 - 08:40 | Morning activity and breakfast | |||
| 09:00 - 09:30 | S05-01 | Lyon | Keynote: Modeling Nonlinear Mechanics in Normal and Impaired Cochleas | |
| 09:30 - 09:50 | S05-02 | Frost | A program to enhance spectral domain optical coherence tomography vibrometry | TRA_02 |
| 09:50 - 10:10 | S05-03 | Verhulst | Otoacoustic Emissions in a Deep-Neural-Network Model of Cochlear Mechanics | TRA_07 |
| 10:10 - 10:40 | Discussion | |||
| 11:00 - 11:20 | S05-04 | Nakajima | Diagnosis of mechanical ear pathologies from wideband tympanometry measurements using a classification model | DTR_05 |
| 11:20 - 11:40 | S05-05 | Slater | Modelling the Recovery of Residual Acoustic Hearing after Cochlear Implantation by Using Feasible Intracochlear Acoustic Devices | TRA_01 |
| 11:40 - 12:00 | S05-06 | Bonomo | A graph signal processing model of the cochlea with application to cochlear implants | TRA_06 |
| Lunch | ||||
| Time | ID | Presenter | Title | Channel |
|---|---|---|---|---|
| 13:20 - 13:40 | S05-07 | Dalhoff | Simulation of conductive hearing loss and its impact on distortion-product otoacoustic emissions using a hydrodynamic cochlea model | MND_16 |
| 13:40 - 14:00 | S05-08 | Borkowski | Bone conduction stimulation of the temporal bone with the inner ear: a finite element study | MND_06 |
| 14:10 - 15:30 | Final discussion | End of conference | ||
| ID | Presenter | Title | Channel |
|---|---|---|---|
| S05-A | Lim | Difference in bone conduction analysis between a head model and an isolated cochlea model | DTR_04 |
| S05-B | Guan | Finite-element modeling of the effect of superior canal dehiscence on intracochlear pressures in bone conduction | DTR_07 |
| S05-C | Prodanovic | Development of a finite element model of a human head including a fluid-filled bony labyrinth for simulation of the transmission of bone conducted sound (webinar) | |
| S05-D | Ivanovic | Phase-contrast Micro-Tomography of the Human Middle Ear |