Title :
Pinhole aperture design for 131I tumor imaging
Author :
Smith, Mark F. ; Jaszczak, Ronald J. ; Wang, Huili
Author_Institution :
Dept. of Biomed. Eng., Duke Univ., Durham, NC, USA
Abstract :
A new pinhole aperture design for single photon imaging is introduced whose distinctive feature is a channeled aperture. This allows greater attenuation near the pinhole aperture which is especially important when imaging 131I with its medium and high energy emissions. Point source response functions were simulated for pinhole inserts with different pinhole diameters (0.4-2.0 mm diameter) and channel heights (0.1-3.0 mm) with acquisition parameters appropriate for 131I brain tumor imaging. A photon transport simulation code was used to comprehensively model photon transport and detection. Tradeoff curves between resolution and sensitivity suggest that varying pinhole diameter and channel height to achieve higher resolution at the expense of decreased sensitivity may be advantageous for imaging tumors with intratumoral administration of 131I radiolabeled monoclonal antibodies
Keywords :
brain; iodine; photon transport theory; single photon emission computed tomography; 131I radiolabeled monoclonal antibodies; 131I tumor imaging; I; channeled aperture; intratumoral administration; photon transport simulation code; pinhole aperture design; pinhole inserts; point source response functions; single photon imaging; Apertures; Attenuation; Biomedical imaging; Brain modeling; Cancer; High-resolution imaging; Image resolution; Neoplasms; Optical imaging; Single photon emission computed tomography;
Conference_Titel :
Nuclear Science Symposium, 1996. Conference Record., 1996 IEEE
Print_ISBN :
0-7803-3534-1
DOI :
10.1109/NSSMIC.1996.591579
