Md. Cahill et Vf. Humphrey, A theoretical investigation of the effect of nonlinear propagation on measurements of mechanical index, ULTRASOUN M, 26(3), 2000, pp. 433-440
Safety parameters for diagnostic ultrasound scanners are calculated from me
asurements made in water, which are derated to account for the attenuation
of tissues. Sound is attenuated less by water than by tissue, and so the ef
fects of nonlinear propagation are greater in water. This study compares me
chanical index (MI) and derated intensity with the analogous quantities in
idealised soft tissue, for simplified models of scanners with source amplit
udes up to 2.5 MPa. As expected, MI is much smaller than implied by linear
extrapolation from low-amplitude measurements but, in a system with moderat
e gain, the reduction in tissue is commensurate with that in water, MI and
derated intensity underestimating the values in tissue by at most 20%. Dete
rmining MI at the location of peak negative pressure halves the error. In h
igh gain systems, however, MI can be less than 60% of the value in tissue.
(C) 2000 World Federation for Ultrasound in Medicine & Biology.