Title :
An ultra high resolution ECG-gated myocardial imaging system for small animals
Author :
Wu, MC ; Tang, HR ; O´Connell, JW ; Gao, DW ; Ido, A. ; Da Silva, AJ ; Iwata, K. ; Hasegawa, BH ; Dae, MW
Author_Institution :
California Univ., San Francisco, CA, USA
fDate :
8/1/1999 12:00:00 AM
Abstract :
Standard radionuclide imaging systems are of limited use due to their inability to resolve structures in small animals that represent an increasingly important model for the study of cardiovascular disease. The authors are developing an imaging system incorporating a scintillation camera with a pinhole collimator to acquire cardiac gated images of the mouse heart. A simulation study showed that the effective diameter of the pinhole was unaffected by the scatter component of photon penetration through the pinhole insert. The authors have performed a myocardial perfusion study with 0.4 FWHM resolution on a normal 25 gram mouse ECG-gated at over 400 beats per minute. They have demonstrated that it is possible to obtain cardiac-gated, myocardial perfusion images of mice at submillimeter spatial resolution
Keywords :
biological techniques; cardiology; electrocardiography; haemorheology; muscle; radioisotope imaging; biological research instrumentation; cardiovascular disease research; mouse heart; myocardial perfusion study; photon penetration; pinhole collimator; pinhole effective diameter; scatter component; scintillation camera; small animals; submillimeter spatial resolution; ultra high resolution ECG-gated myocardial imaging system; Animal structures; Cameras; Cardiovascular diseases; Collimators; Heart; High-resolution imaging; Image resolution; Mice; Myocardium; Spatial resolution;
Journal_Title :
Nuclear Science, IEEE Transactions on
