PSYCHOPHYSICAL PROPERTIES OF MECHANICAL ORAL IRRITATION

A number of commonly consumed fruits and vegetables (e.g., kiwifruit, pineapple and taro) cause oral irritation, and there is anecdotal evidence that this influences the acceptability of such products. In each of these foods, oral irritation is produced by free crystalline calcium oxalate (raphides). The psychophysics of the mechanical oral irritation caused by raphides was studied in two experiments using a model system based on kiwifruit. In the first experiment, the location of irritant sensations and perceived intensity of the irritation caused by suspensions of raphides were determined using a ten‐member trained sensory panel. Stinging and numbing were found to increase significantly with increasing concentrations of raphides. Stinging occurred principally on the tongue as well as in the throat and numbing principally on the tongue. The number of oral areas irritated was shown to increase with raphide concentration and to decrease over a 60‐min period. In the second experiment, sugars (fructose, sucrose, glucose and inositol), acids (citric, malic and quinic) and an enzyme (actinidin) were added to the model to examine interactions between these chemical stimuli and the mechanical action of the raphides. Addition of acids to the model was shown to enhance irritation in addition to increasing sourness and suppressing sweetness. The addition of actinidin had no significant effects on irritation or tastes. It is suggested that acidity may aggravate irritation at low raphide concentration, but beyond a critical level of mechanical irritation the presence of acids has little additional effect. These results provide the first detailed data of the psychophysics of mechanical oral irritation in food, and have important implications for producing foods with lower levels of irritation and increased acceptability.