1. First biological images with high-energy proton microscopy.
- Author
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Varentsov D, Bogdanov A, Demidov VS, Golubev AA, Kantsyrev A, Lang PM, Nikolaev DN, Markov N, Natale F, Shestov L, Simoniello P, Smirnov GN, and Durante M
- Subjects
- Animals, Feasibility Studies, Image Processing, Computer-Assisted, Phantoms, Imaging, Polymethyl Methacrylate, Zebrafish, Microscopy methods, Protons
- Abstract
High-energy proton microscopy provides unique capabilities in penetrating radiography including the combination of high spatial resolution and field-of-view, dynamic range of density for measurements, and reconstructing density variations to less than 1% inside volumes and in situ environments. We have recently proposed to exploit this novel proton radiography technique for image-guided stereotactic particle radiosurgery. Results of a first test for imaging biological and tissue-equivalent targets with high-energy (800 MeV) proton microscopy are presented here. Although we used a proton microscope setup at ITEP (Moscow, Russia) optimized for fast dynamic experiments in material research, we could reach a spatial resolution of 150 μm with approximately 10(10) protons per image. The potential of obtaining high-resolution online imaging of the target using a therapeutic proton beam in the GeV energy region suggests that high-energy proton microscopy may be used for image-guided proton radiosurgery., (Copyright © 2012 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.)
- Published
- 2013
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