grant
Neural basis of precedence-type sound localization processes
Organization UTAH STATE HIGHER EDUCATION SYSTEM--UNIVERSITY OF UTAHLocation SALT LAKE CITY, UNITED STATESPosted 1 Apr 2025Deadline 31 Mar 2028
NIHUS FederalResearch GrantFY2026AcousticsAnimal ModelAnimal Models and Related StudiesAnimalsAreaAuditoryAuditory LocalizationAuditory PerceptionAuditory systemBehaviorBehavioralBinauralBrain StemBrainstemCell Communication and SignalingCell SignalingClampingsClosure by clampCommunicationCommunication DisordersCommunication impairmentCommunicative DisordersComplexContralateralCutaneousEnvironmentFemaleGeneHomologHearingHomologHomologous GeneHomologueHumanIllusionsIndividualInferior ColliculusIntracellular Communication and SignalingIpsilateralKnowledgeLeadLocationMembrane PotentialsModern ManNational Institutes of HealthNerve CellsNerve UnitNeural CellNeurocyteNeuronsPb elementPerceptionPhysiologic pulsePlayPositionPositioning AttributePosterior Quadrigeminal BodyPreparationPresbyacusisPresbycusisProcessPulseR-Series Research ProjectsR01 MechanismR01 ProgramResearchResearch GrantsResearch Project GrantsResearch Project SummariesResearch ProjectsResting PotentialsRoleShapesSideSignal TransductionSignal Transduction SystemsSignalingSisterSound LocalizationSourceStimulusTechniquesTestingTimeTransducersTransmembrane PotentialsUnited States National Institutes of HealthWhole-Cell Recordingsage associated hearing lossage induced hearing lossage related decline in hearingage related hearing deficitsage related hearing impairmentage related hearing lossaged groupaged groupsaged individualaged individualsaged peopleaged personaged personsaged populationaged populationsaging associated hearing lossaging induced hearing lossaging populationaging related decline in hearingaging related hearing deficitsaging related hearing impairmentaging related hearing lossanalytical methodbasebasesbiological signal transductioncomparativeexperienceexperimentexperimental researchexperimental studyexperimentsextracellularhearing in noisehearing perceptionheavy metal Pbheavy metal leadin vivoinsightmodel of animalneuralneural correlateneural mechanismneuromechanismneuronalpopulation agingprecedence effectpreferencepreparationsresponsesocial rolesoundsound perceptionspeech in background noisespeech in noisespeech in speech recognitionspeech recognition in noise♀
Description preview
Project Summary
This research project aims to study the neural basis of the precedence-type sound localization processes,
including the Franssen effect. This central computation is key to understanding the normal function of auditory
perception and is a priority area in NIH's hearing research. The precedence phenomena play a critical role in…
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