Temporal Integration in Nasal Lateralization and Nasal Detection of Carbon Dioxide

doi:10.1093/chemse/bjh018

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Chem. Senses 29: 137-142, 2004
© Oxford University Press 2004

Temporal Integration in Nasal Lateralization and Nasal Detection of Carbon Dioxide

Paul M. Wise¹, Tomas Radil¹^,2 and Charles J. Wysocki¹

¹ Monell Chemical Senses Center, Philadelphia, PA, USA ² Institute of Physiology, Czech Academy of Sciences, Prague, Czech Republic

Correspondence to be sent to: Paul M. Wise, Monell Chemical Senses Center, 3500 Market Street, Philadelphia, PA 19104, USA. e-mail: pwise{at}monell.org

Two experiments examined time/concentration trading for thedetection of carbon dioxide, an irritant with little or no odor.Experiment 1 employed the nasal lateralization method: subjectsattempted to determine which nostril received carbon dioxideand which received pure air when presented simultaneously. Experiment2 employed a temporal, two-alternative, forced-choice, detectionparadigm with monorhinal stimulation. In both experiments, stimulusduration was varied at a number of fixed concentrations to determinethe shortest, detectable pulse. Under both conditions, thresholdpulse duration decreased as stimulus concentration increased.Power functions with exponents of less than negative one describedthe data quite well: More than a twofold increase in durationwas needed to compensate for a twofold decrease in concentration.Thus, for carbon dioxide, the nasal trigeminal system functionsas an imperfect integrator at threshold-level.

Key words: chemesthesis, psychophysics, sensitivity, trigeminal

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