An Auditory Cortex Site Critical to Discrimination Learning Adam Duvel and Mike Gabriel Neural Pattern Analysis
Auditory Cortical Lesions and Learning Controls, n =18Auditory Cortical Lesions, n =17 Sessions % Response
Auditory Cortex Lesions and TIA
Patterned Neurons Develop Patterned Neuronal Activity Bruce Wheeler with Deborah Leckband
Correlated Neuronal Activity from Neuronal Networks 1234
Are Neurons in Patterns More Active? A. Patterned Networks Have Greater Activity Without Patterns: 1% ± 3% active electrodes 0.43 ± 0.35 Hz spike rate With Patterns: 16% 12% active electrodes 2.13 ± 3.0 Hz spike rate % Active Electrodes Local Cell Density (per mm 2 ) B. Activity Increases with Cell Density Patterned Neuron Cultures Well Patterned Random
Glia Develop More Rapidly On Patterns Green – GFAP -- Glia Red –Neurofilament 8 days in culture 14 days in culture 22 days in culture
Evaluation of a Binaural FMV Beamforming Algorithm in Noise Jeffery B. Larsen, Charissa R. Lansing, Robert C. Bilger, Bruce Wheeler, Sandeep Phatak, Nandini Iyer, Mike Lockwood, William O’Brien, Doug Jones, and Albert S. Feng Research supported by NIH grant #DC04840
INTRODUCTION A Frequency Banded Minimum Variance (FMV) algorithm has been developed Preliminary investigations with the FMV in simulation have been promising Evaluation of the FMV in a multi-source environment is needed to demonstrate its effectiveness The primary question of this study is: How much benefit from the FMV is obtained in noisy environments beyond that provided by directional microphones alone?
Setup of current preliminary investigation - Experiment #1 Dependent variables –SRT in quiet and in noise with spondaic words –SRT in quiet and in noise with HINT sentences (Nilsson, Soli, & Sullivan, 1994) –Subject rated intelligibility of SIR passages (Cox & McDaniel, 1989) at a -4 dB SNR 5 listeners w/ NH ( years old) and 9 w/ SNHL (53 to 81 years old)
Setup #1 * Target Computer Real-time system Probe mic system Cardioid mics * * * * Reversed speech of four talkers speaking R-SPIN sentences at -40°, -20°, 20°, and 40° from target at 0° CD player
Setup of current preliminary investigation - Experiment #2 Dependent variables –SRT in quiet and in noise with HINT sentences (Nilsson, Soli, & Sullivan, 1994) –Percent Correct of Keywords for CST Passages (Cox, Alexander, & Gilmore, 1987) at a 0 dB SNR 5 listeners w/ SNHL ( years old) Use of speech-shaped cafeteria noise (Ricketts & Dhar, 1999) as jammer Novel spacing and levels of jammers
CONCLUSIONS FMV algorithm provides benefit across: Competing signal types –Speech shaped cafeteria noise and reversed speech ESSENTIALLY EQUAL BENEFIT IN EACH Response Tasks –Intelligibility ratings - 50% higher for FMV than DM –Speech recognition - 36% improvement in WRS –Fixed and variable SRT measures 6 TO 8 dB OF SRT IMPROVEMENT OVER DIRECTIONAL MICS ALONE FOR NORMAL HEARING LISTENERS 8 TO 13 dB OF SRT IMPROVEMENT FOR LISTENERS WITH SNHL OVER DIRECTIONAL MICS ALONE DEPENDING UPON LOCATION OF JAMMERS
CONCLUSIONS (cont.) Auditory Scenes –Setup #1 - jammers equal at +20º and +40º (Thanksgiving table scene) VARIABLE SRT IMPROVEMENT OVER DIRECTIONAL MICS FOR LISTENERS WITH SNHL WAS 8 TO 11 dB –Setup #2 - Closest jammer at +20º was more intense than other three jammers at -80º, -40º, and +60º (4th of July picnic scene) MEAN VARIABLE SRT IMPROVEMENT OVER DIRECTIONAL MICS FOR LISTENERS WITH SNHL WAS 13 dB (range of 8 to 19 dB across listeners)
FUTURE DIRECTIONS Direct comparison of FMV with commercially available hearing aids with technology for listening in noise Continued assessment of performance in different noise source configurations and reverberation times Comparison of speech intelligibility performance with subjective measures of quality Comparison of human performance with engineering metrics
Direct Evidence for Modular Binding Interactions between Cell Adhesion Molecules
The Structures of Many Adhesion Proteins Consist of Multiple Tandem Repeats of Similar Domains
How Does This Modular Architecture Impact Protein- mediated Intercellular Adhesion?
Cadherins Mediate Cell-Cell Adhesion in All Soft Tissue
Cadherin extracellular regions comprise 5 similar domains. Adhesion was predicted to involve only the outermost domain
The Surface Force Apparatus was used to Quantify the Force-Distance Profiles Between Cadherins on Opposed Surfaces
Force-distance measurements show that cadherin binds in any of three different, antiparallel alignments. Adhesion involves multiple domains.
Multiple binding interactions may facilitate the sequential assembly of tight cell-cell junctions.
Sequential interactions impede the abrupt failure of adhesive junctions under force.
Cadherin monolayers detach in an unusual way
Conclusions Cadherin binds in multiple, antiparallel alignments This is a consequence of the modular domain structure of the cadherin extracellular region These multiple binding interactions may (1) facilitate the self-assembly of adhesive junctions and (2) impede their abrupt failure under force.