Title :
Tissue elasticity reconstruction using linear perturbation method
Author :
Kallel, F. ; Bertrand, M.
Author_Institution :
Inst. de Genie Biomed., Ecole Polytech., Montreal, Que., Canada
fDate :
6/1/1996 12:00:00 AM
Abstract :
A new method to reconstruct the elastic modulus of soft tissue subjected to an external static compression is presented. In this approach the Newton-Raphson method is used to vary a finite element (FE) model of the elasticity equations to fit, in a least squared sense, a set of axial tissue displacement fields estimated using a correlation technique applied to ultrasound signals. The ill-conditioning of the Hessian matrix is eliminated using the Tikhonov regularization technique. This regularization provides a compromise between fidelity to the observed data and a priori information of the solution. Using an echographic image formation model, it is shown that the method converges within a few iterations (8-10) and that strain images artifacts which are common in elastography are significantly reduced after the resolution of the inverse problem
Keywords :
Newton-Raphson method; biomechanics; biomedical ultrasonics; elastic moduli; elasticity; finite element analysis; image reconstruction; medical image processing; Hessian matrix; Newton-Raphson method; Tikhonov regularization technique; a priori information; axial tissue displacement fields; correlation technique; elastic modulus reconstruction; elasticity equations; elastography; external static compression; finite element model; ill-conditioning; inverse problem; iterations; linear perturbation method; medical diagnostic imaging; soft tissue; strain images artifacts; tissue elasticity reconstruction; Biological tissues; Capacitive sensors; Elasticity; Equations; Finite element methods; Image converters; Image reconstruction; Newton method; Perturbation methods; Ultrasonic imaging;
Journal_Title :
Medical Imaging, IEEE Transactions on
