(probes with diameters of 1.8 and 3

(probes with diameters of 1.8 and 3.6 mm), but not between 0.38 and 0.75 cm2
(probes with diameters of 7 and 10 mm). Whitehouse et al. [8] studied
vibrotactile thresholds at the fingertip with excitation areas
of 0.071 and 0.79 cm2, and observed lower thresholds with larger
excitation areas at 63, 125 and 250 Hz, but not at 8, 16 and 31.5 Hz.
Morioka et al. [9] obtained vibrotactile thresholds at the fingertip
with excitation areas of 0.071 cm2 (1 mm diameter probe) and
0.79 cm2 (6 mm diameter probe) and found that thresholds at 63,
125 and 250 Hz, where thresholds were believed to be determined
by the Pacinian channel, were on average 10.2 dB lower with the
larger probe. No spatial summation was observed at 8, 16, and
31.5 Hz, where thresholds were believed to be determined by the
NP I channel [9].
There has been little consideration of the effect of contact area
on the perception of vibration at the sole of the foot and it is not
clear whether the mediation of vibration at threshold is similar to
that at the hand. Kekoni et al. [10] found that thresholds at 80 and
240 Hz decreased as the diameter of the vibrating probe increased
from 2 to 8 mm. No significant effect of probe size was observed
at 20 Hz. Using 1 mm and 6 mm diameter probes (contact areas of
0.071 and 0.79 cm2), thresholds were lower for most frequencies
with the larger contact area at the big toe and lower at all frequencies
in the range 8–250 Hz at the heel. However, the reduction
was only 3.2 dB at the big toe and 6.5 dB at the heel, less than the
expected change of more than 9 dB [9].
At the sole of the foot, it is suspected that thresholds for the
perception of vibration between about 20 and 40 Hz are mediated
by a non-Pacinian channel while the perception of vibration at frequencies
between about 40 and 250 Hz is normally mediated by
the Pacinian channel [11]. In the glabrous skin of the hand, spatial
summation is a characteristic property of Pacinian channel and
the absence of spatial summation is characteristic of non-Pacinian
channels. At the sole of the foot, spatial summation for vibrotactile
thresholds between 40 and 250 Hz would be evidence that
over this range of frequencies the thresholds are mediated by the
Pacinian channel; conversely, the absence of spatial summation in
the frequency range 20–40 Hz would be evidence that thresholds
are mediated by a non-Pacinian channel.
This study investigated the effects of contact area on thresholds
for the perception of 20 Hz and 160 Hz vibration at the sole of the
foot, so as to obtain evidence of mediation by the NP I channel and
the Pacinian channel, respectively. Thresholds were also obtained
at the glabrous skin of hand (at the thenar eminence and at the fingertip)
so as to compare the perception of vibration at the sole of
the foot with the perception of vibration at the hand. It was hypothesised
that for both the hand and the foot there would be spatial
summation (with a threshold reduction of about 3 dB per doubling
of excitation area) for 160 Hz thresholds, but that there would be
no spatial summation for 20 Hz thresholds.