Herraiz López, J.España, SamuelVaquero López, Juan JoséDesco Menéndez, ManuelUdías, José Manuel2011-09-202011-09-202004Nuclear Science Symposium Conference Record, 2004, vol. 5, p. 2952 - 29560-7803-8701-5 (online)0-7803-8700-7 (print)1082-3654https://hdl.handle.net/10016/12116Proceeding of: Nuclear Science Symposium Conference Record, 2004 IEEE, Rome ,16-22 Oct. 2004Small animal PET scanners require high spatial resolution (< 1 mm) and good sensitivity. To obtain high resolution images, iterative reconstruction methods, like OSEM, applied to image reconstruction in three-dimensional (3D) positron emission tomography (PET), have superior performance over analytical reconstruction algorithms like FBP. However, the high computational cost of iterative methods remains a serious drawback to their development and clinical routine use. The increase in performance of current computers should make iterative image reconstruction fast enough to attain clinical viability. However, dealing with the large number of probability coefficients for the response of the system in high-resolution PET scanners becomes a difficult task that prevents the algorithms from reaching peak performance. Taking into account all possible axial, in-plane and other symmetries, we have reduced the storage needs what allows us to store the whole response of the system in dynamic memory of ordinary industry standard computers, so that the reconstruction algorithm can achieve near peak performance.application/pdfeng© IEEEconference paperBiología y Biomedicina10.1109/NSSMIC.2004.1466305open access29523654Nuclear Science Symposium Conference Record5