Title :
An original emission tomograph for in vivo brain imaging of small animals
Author :
Valva Ochos, A. ; Ploux, L. ; Mastrippolito, R. ; Charon, Y. ; Lanièce, P. ; Pinot, L. ; Valentin, L.
Author_Institution :
Inst. de Phys. Nucl., Univ. de Paris-Sud, Orsay, France
fDate :
8/1/1997 12:00:00 AM
Abstract :
The principle of a new tomograph (TOHR) dedicated for small volume analysis with very high resolution is presented. The authors use uncorrelated multi-photon (X- or gamma rays) radioisotopes and a large solid angle focusing collimator to produce tomographic images without a reconstruction algorithm. With this device, detection efficiency and resolution are independent and submillimeter resolution can be achieved. A feasibility study shows that collimators made with a stack of chemically etched plates can achieve the predicted performances of TOHR. The authors discuss its potential in rat brain tomography by simulating a realistic neuropharmacological experiment using a 1.4 mm resolution prototype of the TOHR under development
Keywords :
biological techniques; brain; emission tomography; chemically etched plates stack; detection efficiency; emission tomograph; in vivo brain imaging; large solid angle focusing collimator; nuclear medicine research; realistic neuropharmacological experiment; small animals; small volume analysis; submillimeter resolution; uncorrelated multiphoton radioisotopes; Brain; Collimators; Focusing; Gamma rays; High-resolution imaging; In vivo; Optical imaging; Radioactive materials; Solids; Tomography;
Journal_Title :
Nuclear Science, IEEE Transactions on
