Title :
High-resolution photoacoustic tomography
Author :
Wang, Xueding ; Xueding Wang ; Ku, Geng ; Xie, Xueyi ; Stoica, George
Author_Institution :
Dept. of Biomedical Eng., Texas A&M Univ., College Station, TX, USA
Abstract :
Optical contrast is sensitive to physiological parameters, such as the oxygen saturation and total concentration of hemoglobin, in biological tissues. Photoacoustic tomography is based on the high optical contrast yet utilizing the high ultrasonic resolution. Our work in this emerging area of research will be summarized in this invited talk. In this technology, a diffraction-based inverse-source problem is solved in the image reconstruction, for which we developed the rigorous reconstruction theory. We implemented a prototype and accomplished non-invasive transdermal and transcranial functional imaging of small-animal brains in vivo. Changes in the cerebral blood oxygenation and blood volume of a rat, as a result of the alternation from hyperoxia to hypoxia, were imaged successfully.
Keywords :
biological tissues; biomedical optical imaging; blood; brain; image reconstruction; light diffraction; medical image processing; molecular biophysics; optical tomography; oxygen; photoacoustic effect; proteins; O; biological tissues; blood volume; cerebral blood oxygenation; diffraction-based inverse-source problem; hemoglobin concentration; high-resolution photoacoustic tomography; hyperoxia; hypoxia; image reconstruction; noninvasive transdermal; optical contrast; oxygen saturation; physiological parameters; rat; reconstruction theory; small-animal brains; transcranial functional imaging; Biological tissues; Biomedical optical imaging; Blood; High-resolution imaging; Image reconstruction; Optical diffraction; Optical saturation; Optical sensors; Prototypes; Tomography;
Conference_Titel :
Lasers and Electro-Optics Society, 2004. LEOS 2004. The 17th Annual Meeting of the IEEE
Print_ISBN :
0-7803-8557-8
DOI :
10.1109/LEOS.2004.1363465
