Sound-localization Performance in the Cat: the Effect of Restraining the Head

Overview

Journal J Neurophysiol

Publisher American Physiological Society

Specialties Neurology
Physiology

Date 2004 Oct 16

PMID 15483065

Citations 45

Authors

Daniel J Tollin

Luis C Populin

Jordan M Moore

Janet L Ruhland

Tom C T Yin

Affiliations

Soon will be listed here.

Abstract

In oculomotor research, there are two common methods by which the apparent location of visual and/or auditory targets are measured, saccadic eye movements with the head restrained and gaze shifts (combined saccades and head movements) with the head unrestrained. Because cats have a small oculomotor range (approximately +/-25 degrees), head movements are necessary when orienting to targets at the extremes of or outside this range. Here we tested the hypothesis that the accuracy of localizing auditory and visual targets using more ethologically natural head-unrestrained gaze shifts would be superior to head-restrained eye saccades. The effect of stimulus duration on localization accuracy was also investigated. Three cats were trained using operant conditioning with their heads initially restrained to indicate the location of auditory and visual targets via eye position. Long-duration visual targets were localized accurately with little error, but the locations of short-duration visual and both long- and short-duration auditory targets were markedly underestimated. With the head unrestrained, localization accuracy improved substantially for all stimuli and all durations. While the improvement for long-duration stimuli with the head unrestrained might be expected given that dynamic sensory cues were available during the gaze shifts and the lack of a memory component, surprisingly, the improvement was greatest for the auditory and visual stimuli with the shortest durations, where the stimuli were extinguished prior to the onset of the eye or head movement. The underestimation of auditory targets with the head restrained is explained in terms of the unnatural sensorimotor conditions that likely result during head restraint.

Citing Articles

Population coding of strategic variables during foraging in freely moving macaques.

Shahidi N, Franch M, Parajuli A, Schrater P, Wright A, Pitkow X Nat Neurosci. 2024; 27(4):772-781.

PMID: 38443701 PMC: 11001579. DOI: 10.1038/s41593-024-01575-w.

Head and Eye Movements Reveal Compensatory Strategies for Acute Binaural Deficits During Sound Localization.

Alemu R, Papsin B, Harrison R, Blakeman A, Gordon K Trends Hear. 2024; 28:23312165231217910.

PMID: 38297817 PMC: 10832417. DOI: 10.1177/23312165231217910.

The continued importance of comparative auditory research to modern scientific discovery.

Capshaw G, Brown A, Pena J, Carr C, Christensen-Dalsgaard J, Tollin D Hear Res. 2023; 433:108766.

PMID: 37084504 PMC: 10321136. DOI: 10.1016/j.heares.2023.108766.

Benefits of active listening during 3D sound localization.

Gaveau V, Coudert A, Salemme R, Koun E, Desoche C, Truy E Exp Brain Res. 2022; 240(11):2817-2833.

PMID: 36071210 PMC: 9587935. DOI: 10.1007/s00221-022-06456-x.

Superior colliculus drives stimulus-evoked directionally biased saccades and attempted head movements in head-fixed mice.

Zahler S, Taylor D, Wong J, Adams J, Feinberg E Elife. 2021; 10.

PMID: 34970968 PMC: 8747496. DOI: 10.7554/eLife.73081.