Sensors, Vol. 20, Pages 3013: Gamma Radiation Imaging System via Variable and Time-Multiplexed Pinhole Arrays

Sensors, Vol. 20, Pages 3013: Gamma Radiation Imaging System via Variable and Time-Multiplexed Pinhole Arrays Sensors doi: 10.3390/s20113013 Authors: Schwarz Shemer Danan Bar-Shalom Avraham Zlotnik Zalevsky Biomedical planar imaging using gamma radiation is a very important screening tool for medical diagnostics. Since lens imaging is not available in gamma imaging, the current methods use lead collimator or pinhole techniques to perform imaging. However, due to ineffective utilization of the gamma radiation emitted from the patient's body and the radioactive dose limit in patients, poor image signal to noise ratio (SNR) and long image capturing time are evident. Furthermore, the resolution is related to the pinhole diameter, thus there is a tradeoff between SNR and resolution. Our objectives are to reduce the radioactive dose given to the patient and to preserve or improve SNR, resolution and capturing time while incorporating three-dimensional capabilities in existing gamma imaging systems. The proposed imaging system is based on super-resolved time-multiplexing methods using both variable and moving pinhole arrays. Simulations were performed both in MATLAB and GEANT4, and gamma single photon emission computed tomography (SPECT) experiments were conducted to support theory and simulations. The proposed method is able to reduce the radioactive dose and image capturing time and to improve SNR and resolution. The results and method enhance the g...
Source: Sensors - Category: Biotechnology Authors: Tags: Article Source Type: research
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