Abstract: A radiation detector is provided. In a further aspect, a detector employs a Parallel Plate Avalanche Counter (“OPPAC”) which includes an anode film, a parallel cathode film and multiple optical photo-detectors, such as photo-sensors and/or photo-multipliers. A method of using a radiation detector is also provided.

Abstract: A radiation detector is provided. In a further aspect, a detector employs a Parallel Plate Avalanche Counter (“OPPAC”) which includes an anode film, a parallel cathode film and multiple optical photo-detectors, such as photo-sensors and/or photo-multipliers. A method of using a radiation detector is also provided.

Abstract: An energy-sensitive imaging detector for fast-neutrons includes energy-selective radiator foil stacks converting neutrons into recoil protons. The foils are separated by gas-filled gaps and formed of two interconnected layers: a hydrogen-rich layer such as a polyethylene layer for neutron-to-proton conversion, and a metal foil layer, such as an aluminum layer, defining a proton energy cut-off and limiting a proton emission angle. Energetic recoil protons emerging from the radiator foil release electrons in surrounding gas in the gaps. An electric field efficiently drifts the electrons through the gaps. An electron detector with position sensitive readout, based on Micro-Pattern Gaseous Detector technologies (such as THick Gaseous Electron Multipliers—THGEM) or other measures provides electron amplification in gas. The charge detector has a dedicated imaging data-acquisition system detecting the drifted electrons thereby sensing the position of the original impinging neutrons.

Abstract: An energy-sensitive imaging detector for fast-neutrons includes energy-selective radiator foil stacks converting neutrons into recoil protons. The foils are separated by gas-filled gaps and formed of two interconnected layers: a hydrogen-rich layer such as a polyethylene layer for neutron-to-proton conversion, and a metal foil layer, such as an aluminum layer, defining a proton energy cut-off and limiting a proton emission angle. Energetic recoil protons emerging from the radiator foil release electrons in surrounding gas in the gaps. An electric field efficiently drifts the electrons through the gaps. An electron detector with position sensitive readout, based on Micro-Pattern Gaseous Detector technologies (such as THick Gaseous Electron Multipliers—THGEM) or other measures provides electron amplification in gas. The charge detector has a dedicated imaging data-acquisition system detecting the drifted electrons thereby sensing the position of the original impinging neutrons.

Abstract: A method of analyzing a plurality of biopsy cores extracted from a plurality of respective biopsy locations in a prostate is disclosed. The method comprises: measuring a level of a chemical element in each of the biopsy cores, and generating a chemical element map of at least a portion of the prostate based on the levels and the respective biopsy locations. In some embodiments, the method determines at least one additional biopsy location for a future biopsy in the prostate.

Abstract: A method of analyzing a plurality of biopsy cores extracted from a plurality of respective biopsy locations in a prostate is disclosed. The method comprises: measuring a level of a chemical element in each of the biopsy cores, and generating a chemical element map of at least a portion of the prostate based on the levels and the respective biopsy locations. In some embodiments, the method determines at least one additional biopsy location for a future biopsy in the prostate.

Abstract: A method of estimating a grade of a prostate cancer from zinc data associated with the prostate, the zinc data being arranged gridwise in a plurality of picture-elements representing a zinc map of the prostate. The method comprises, clustering the zinc map according to zinc levels associated with the picture-elements, and estimating a cancer grade of at least one tissue region, based, at least in part, on zinc levels associated with a cluster of picture-elements representing the tissue region.