Determining chewing efficiency using a solid test food and considering all phases of mastication.

OBJECTIVES

Following chewing a solid food, the median particle size, X, is determined after N chewing cycles, by curve-fitting of the particle size distribution. Reduction of X with N is traditionally followed from N ≥ 15-20 cycles when using the artificial test food Optosil, because of initially unreliable values of X. The aims of the study were (i) to enable testing at small N-values by using initial particles of appropriate size, shape and amount, and (ii) to compare measures of chewing ability, i.e. chewing efficiency (N needed to halve the initial particle size, N(1/2-Xo)) and chewing performance (X at a particular N-value, X).

DESIGN

8 subjects with a natural dentition chewed 4 types of samples of Optosil particles: (1) 8 cubes of 8 mm, border size relative to bin size (traditional test), (2) 9 half-cubes of 9.6 mm, mid-size; similar sample volume, (3) 4 half-cubes of 9.6 mm, and 2 half-cubes of 9.6 mm; reduced particle number and sample volume. All samples were tested with 4 N-values. Curve-fitting with a 2nd order polynomial function yielded log(X)-log(N) relationships, after which N(1/2-Xo) and X were obtained.

CONCLUSIONS

Reliable X-values are obtained for all N-values when using half-cubes with a mid-size relative to bin sizes. By using 2 or 4 half-cubes, determination of N(1/2-Xo) or X needs less chewing cycles than traditionally. Chewing efficiency is preferable over chewing performance because of a comparison of inter-subject chewing ability at the same stage of food comminution and constant intra-subject and inter-subject ratios between and within samples respectively.