Lecture: 'Optoacoustic imaging: a new window into biology combining the best of light and sound'
Abstract: Optoacoustic (photoacoustic) imaging is being fostered by novel systems with optimized performance as well as by a growing interest of biologists and physicians in optoacoustic bio-markers that may address unmet needs. Optoacoustic clinical systems are available in a myriad of configurations generally classified in microscopy and tomography set-ups.
Overall, the hardware design must be adapted to the accessibility of the region of interest as well as to requirements on achievable depth, field of view or spatio-temporal resolution. Equally important are signal processing procedures, which are essential to achieve the desired image rendering performance. New algorithms for image reconstruction and multi-spectral unmixing have been optimized in parallel to newly-developed clinical set-ups.
Herein, we focus on recent progress on image formation algorithms and processing methods in optoacoustic tomography. Major challenges include the feasibility to provide real-time feed-back during the experiments as well as the ability to accurately quantify bio-markers with biological relevance and clinical impact. The performance of existing approaches is discussed in the context of ongoing progress in biological research and clinical translation.
Abstract: Optoacoustic (photoacoustic) imaging is being fostered by novel systems with optimized performance as well as by a growing interest of biologists and physicians in optoacoustic bio-markers that may address unmet needs. Optoacoustic clinical systems are available in a myriad of configurations generally classified in microscopy and tomography set-ups.
Overall, the hardware design must be adapted to the accessibility of the region of interest as well as to requirements on achievable depth, field of view or spatio-temporal resolution. Equally important are signal processing procedures, which are essential to achieve the desired image rendering performance. New algorithms for image reconstruction and multi-spectral unmixing have been optimized in parallel to newly-developed clinical set-ups.
Herein, we focus on recent progress on image formation algorithms and processing methods in optoacoustic tomography. Major challenges include the feasibility to provide real-time feed-back during the experiments as well as the ability to accurately quantify bio-markers with biological relevance and clinical impact. The performance of existing approaches is discussed in the context of ongoing progress in biological research and clinical translation.
Evento mixto
viernes, 17 de septiembre de 2021
1631836800000
/events/lecture-optoacoustic-imaging-a-new-window-into-biology-combining-the-best-of-light-and-sound
events_es