Jjj. Dirckx et al., MEASUREMENT AND MODELING OF BOUNDARY SHAPE AND SURFACE DEFORMATION OFTHE MONGOLIAN GERBIL PARS FLACCIDA, Hearing research, 111(1-2), 1997, pp. 153-164
The shape of the pars flaccida (PF) boundary and its pressure induced
deformation was measured in five Mongolian gerbil ears, using an opto-
electronic moire interferometer. To determine the PF boundary, membran
es were deformed by middle ear (ME) pressures of -2 kPa and +2 kPa. Th
e boundary of the PF was defined as the locus of points where the pres
sure induced deformation begins. To a very high precision, this bounda
ry was found to be a circle with the same radius for both over- and un
derpressure deformations. Between animals the radius varied from 0.760
mm to 0.778 mm. We show that the shape of the PF, while being deforme
d by static pressure in the ME, can be modeled as part of a sphere. Vo
lume displacement can then be calculated as the volume enclosed by the
sphere cap, delimited by the circular PF boundary plane. Volume displ
acement was calculated for membranes deformed by 400 Pa ME overpressur
e and -400 Pa ME underpressure. The agreement of the experimental data
with the sphere cap model is shown to be very good, and results in a
volume displacement measuring accuracy which is better than 10%.