Title :
Accurate Model-Based Reconstruction Algorithm for Three-Dimensional Optoacoustic Tomography
Author :
Dean-Ben, X.L. ; Buehler, A. ; Ntziachristos, V. ; Razansky, D.
Author_Institution :
Inst. for Biol. & Med. Imaging, Tech. Univ. of Munich, Neuherberg, Germany
Abstract :
In many practical optoacoustic imaging implementations, dimensionality of the tomographic problem is commonly reduced into two dimensions or 1-D scanning geometries in order to simplify technical implementation, improve imaging speed or increase signal-to-noise ratio. However, this usually comes at a cost of significantly reduced quality of the tomographic data, out-of-plane image artifacts, and overall loss of image contrast and spatial resolution. Quantitative optoacoustic image reconstruction implies therefore collection of point 3-D (volumetric) data from as many locations around the object as possible. Here, we propose and validate an accurate model-based inversion algorithm for 3-D optoacoustic image reconstruction. Superior performance versus commonly-used backprojection inversion algorithms is showcased by numerical simulations and phantom experiments.
Keywords :
acoustic tomography; biomedical ultrasonics; image reconstruction; image resolution; medical image processing; optical tomography; phantoms; 1D scanning geometry; 3D optoacoustic tomography; backprojection inversion algorithm; dimensionality; image contrast loss; image reconstruction; image spatial resolution; imaging speed; model based reconstruction algorithm; out-of-plane image artifacts; phantom; Absorption; Computational modeling; Image reconstruction; Phantoms; Tomography; Transducers; Model-based reconstruction; optoacoustic tomography; photoacoustic tomography; three-dimensional imaging; Algorithms; Animals; Computer Simulation; Heart; Imaging, Three-Dimensional; Mice; Models, Theoretical; Phantoms, Imaging; Photoacoustic Techniques; Tomography;
Journal_Title :
Medical Imaging, IEEE Transactions on
DOI :
10.1109/TMI.2012.2208471
