Joo-Young Jung, Presenter: Nothing to Disclose

Do-Kun Yoon, Abstract Co-Author: Nothing to Disclose

Key Jo Hong, Abstract Co-Author: Nothing to Disclose

Hong Seok Jang, Abstract Co-Author: Nothing to Disclose

Tae-Seok Suh PhD, Abstract Co-Author: Nothing to Disclose

Purpose/Objective(s):The aim of our proposed system is to confirm the feasibility of extraction of two types of images from one PET module with an insertable collimator for brain tumor treatment during the BNCT. Materials/Methods:Data from the PET module, neutron source, and collimator was entered in the Monte Carlo n-particle (MCNPX) source code. The coincidence events were first compiled on the PET detector, and then, the events of the prompt gamma ray were collected after neutron emission by using a single photon emission computed tomography (SPECT) collimator on the PET. The obtaining of full width at half maximum (FWHM) values from the energy spectrum was performed to collect effective events for reconstructed image. In order to evaluate the images easily, five boron regions in a brain phantom were used. The image profiles were extracted from the region of interest (ROI) of a phantom. The image was reconstructed using the ordered subsets expectation maximization (OSEM) reconstruction algorithm. The image profiles and the receiver operating characteristic (ROC) curve were compiled for quantitative analysis from the two kinds of reconstructed image. Results:The prompt gamma ray energy peak of 478 keV appeared in the energy spectrum with a FWHM of 41 keV (6.4%). On the basis of the ROC curve in Region A to Region E, the differences in the area under the curve (AUC) of the PET and SPECT images were found to be 10.2%, 11.7%, 8.2% (center, Region C), 12.6%, and 10.5%, respectively. Conclusions:We attempted to acquire the PET and SPECT images simultaneously using only PET without an additional isotope. Single photon images were acquired using an insertable collimator on a PET detector.

Jung, J, Yoon, D, Hong, K, Jang, H, Suh, T, Single Photon Image from Pet with Insertable Collimator for Boron Neutron Capture Therapy.  Radiological Society of North America 2014 Scientific Assembly and Annual Meeting, - ,Chicago IL. http://archive.rsna.org/2014/14044175.html