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Multi‐modal acousto‐optic/ultrasound imaging of ex vivo liver tumors at 790 nm using a Sn2P2S6 wavefront adaptive holographic setup |
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| Authors: | Jean‐Baptiste Laudereau Emilie Benoit à La Guillaume Vincent Servois Pascale Mariani Alexander A Grabar Mickaël Tanter Jean‐Luc Gennisson François Ramaz |
| Institution: | 1. Institut Langevin, Ondes et Images, ESPCI ParisTech, PSL Research University, CNRS UMR 7587, INSERM U979, Université Paris VI – Pierre et Marie Curie, Paris, France;2. Department of Medical Imaging, Institut Curie, Paris, France;3. Department of Surgery, Institut Curie, Paris, France;4. Institute of Solid State Physics and Chemistry, Ukraine, Uzhgorod |
| Abstract: | Biological tissues are very strong light‐scattering media. As a consequence, current medical imaging devices do not allow deep optical imaging unless invasive techniques are used. Acousto‐optic imaging is a light‐ultrasound coupling technique that takes advantage of the ballistic propagation of ultrasound in biological tissues to access optical contrast with a millimeter resolution. We have developed a photorefractive‐crystal‐based system that performs self‐adaptive wavefront holography and works within the optical therapeutic window. As it works at an appropriate wavelength range for biological tissues imaging, it was tested on ex vivo liver samples containing tumors as a pre‐clinical study. Optical contrast was obtained even if acoustical one was not significant.  Ultrasound image (left) and acousto‐optic image (right) of a liver biopsy with tumors. Acousto‐optic imaging exhibits tumors that are not detected through ultrasound. |
| Keywords: | acousto‐optic imaging ultrasound liver tumors medical imaging self‐adaptive wavefront holography photorefractive crystals scattering media uveal melanoma |