Human Odor Detectability: New Methodology Used to Determine Threshold and Variation

doi:10.1093/chemse/bjg075

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Chem. Senses 28: 817-826, 2003
© Oxford University Press 2003

Human Odor Detectability: New Methodology Used to Determine Threshold and Variation

James C. Walker¹, Sandra B. Hall², Dianne B. Walker¹, Martin S. Kendal-Reed¹, Alison F. Hood¹ and Xu-Feng Niu²

¹ Sensory Research Institute, Florida State University, 1800 E. Paul Dirac Drive, Tallahassee, FL 32306-2741 USA ² Department of Statistics, Florida State University, Tallahassee, FL 32306-4330, USA

Correspondence to be sent to: James Walker, Sensory Research Institute, Florida State University, 1800 E. Paul Dirac Drive, B-340 NHMFL, Tallahassee, FL 32306-2741, USA. e-mail: jwalker@psy.fsu.edu

Current ambiguity concerning the related issues of optimal meansfor measurement of odor sensitivity and the functional propertiesof the olfactory system hinders progress in basic and appliedresearch on the human sense of smell. To address these needs,we selected n-amyl acetate (nAA) as a test odorant and developeda methodology in which participants (Ps) receive multiple presentationseach session of several concentrations. Yes–no responsesas to whether odor was detected are analyzed using binomialstatistics, with the probability that a given proportion ofyes responses (or greater) would occur by chance alone beingtreated as the inverse of detectability. Over the course ofmultiple sessions, this information is also used to maximizethe collection of data in the peri-threshold region. Surprisingly,data collected over as many as 14 sessions were fit well bya single logistic regression model relating probability andconcentration. Threshold concentrations, defined as those correspondingto a probability of 0.05, varied from 7.11 to 167.53 p.p.b.(v/v) for 11 Ps. Our approach and findings, if shown to be representativeof other combinations of Ps and odorants, could accelerate thepace of research in human olfaction by providing a comprehensiveoperational definition of the limit of the olfactory systemto detect odorant molecules.

Key words: acetate, amyl, human, olfactory, psychophysics, sensitivity

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Chemical Senses

Human Odor Detectability: New Methodology Used to Determine Threshold and Variation