Abstract: The invention relates to a device for the detection of gamma rays coming from a source without image truncation and without image overlapping, comprising, at least, two detection cells and each of said cells comprising a detection space adapted to receive the gamma rays that penetrate through an opening, wherein said detection space comprises one or more detection assemblies, with some of said assemblies being positioned such that they stand in the way of the gamma rays coming into the overlap volume thereof.

Abstract: The invention relates to a device for the detection of gamma rays (1) coming from a source (2) without image truncation and without image overlapping, comprising, at least, two detection cells (3) and each of said cells comprising a detection space (7) adapted to receive the gamma rays (1) that penetrate through an opening (5), wherein said detection space (7) comprises one or more detection assemblies (8, 8?), with some of said assemblies (8?) being positioned such that they stand in the way of the gamma rays (1) coming into the overlap volume (11) thereof.

Abstract: A gamma ray Compton TOF camera system includes multiple detector modules, each comprising a gamma radiation sensitive material and arranged in layers formed by one or more detector modules. The layers are placed such that they interfere an incoming gamma ray in order to completely or partially absorb it after one or more Compton interactions and are spatially separated in order to allow for the determination of the temporal order of each gamma ray interaction inside the camera system. The camera system also includes read out electronics and a Data Acquisition System where signals from the detector modules will be readout, digitized and sent to a processing unit, which is capable to obtain the 3D position, energy and temporal sequential order of the individual interactions produced by a single incident gamma ray.

Abstract: A gamma ray Compton TOF camera system includes multiple detector modules, each comprising a gamma radiation sensitive material, and arranged in layers formed by one or more detector modules, said layers are placed such that they interfere an incoming gamma ray, in order to completely or partially absorb it after one or more Compton interactions, and are spatially separated in order to allow for the determination of the temporal order of each gamma ray interaction inside the camera system; read out electronics; and a Data Acquisition System where signals from the detector modules will be readout, digitized and sent to a processing unit, and capable to obtain the 3D position, energy and temporal sequential order of the individual interactions—Compton and photoelectric—produced by a single incident gamma ray, allowing the determination of the full timing sequence of all gamma ray interactions inside the gamma ray detector volume.

Abstract: An apparatus to detect gamma rays, comprising a scintillator, a position sensitive photo sensor and a scintillation-light-incidence-angle-constraining, SLIAC, element, the scintillator has faces and the position sensitive photo sensor detects scintillation photons exiting a scintillation photons transparent face of the scintillator, and a portion of a scintillator face is covered with an absorbing layer, which absorbs scintillation photons created by scintillation events due to the interaction of incoming gamma rays with the scintillator, and the SLIAC element is optically coupled between a scintillation photons transparent face of the scintillator and the position sensitive photo sensor and the SLIAC element guides the scintillation photons exiting the scintillator towards the position sensitive photo sensor, and the SLIAC element restricts the maximum allowed half light acceptance angle for the scintillation light hitting the position sensitive photo sensor to less than 45°.

Abstract: The subject matter of the invention is a method and an electronic circuit for reading the signals generated by one or more pixelated sensors in a gamma radiation detection system, which makes it possible to substantially reduce the number of electronic channels to be digitized. The electronic circuit in the invention is analog and can also be coupled to other similar circuits in order to acquire the signals from larger sensors.

Abstract: The GAMMA/RF compact, hybrid and integrated system for PET-SPECT/MR simultaneous imaging of the invention comprises a GAMMA/RF device that integrates an RF coil, of the type used in conventional MR systems, with GAMMA radiation detector modules of the type used in PET or SPECT systems, so that combined PET or SPECT and MR images are obtained.

Abstract: An apparatus to detect gamma rays, comprising a scintillator, a position sensitive photo sensor and a scintillation-light-incidence-angle-constraining, SLIAC, element, the scintillator has faces and the position sensitive photo sensor detects scintillation photons exiting a scintillation photons transparent face of the scintillator, and a portion of a scintillator face is covered with an absorbing layer, which absorbs scintillation photons created by scintillation events due to the interaction of incoming gamma rays with the scintillator, and the SLIAC element is optically coupled between a scintillation photons transparent face of the scintillator and the position sensitive photo sensor and the SLIAC element guides the scintillation photons exiting the scintillator towards the position sensitive photo sensor, and the SLIAC element restricts the maximum allowed half light acceptance angle for the scintillation light hitting the position sensitive photo sensor to less than 45°.

Abstract: The invention relates to a portable mini gamma camera for intrasurgical use. The inventive camera is based on scintillation crystals and comprises a stand-alone device, i.e. all of the necessary systems have been integrated next to the sensor head and no other system is required. The camera can be hot-swapped to any computer using different types of interface, such as to meet medical grade specifications. The camera can be self-powered, can save energy and enables software and firmware to be updated from the Internet and images to be formed in real time. Any gamma ray detector based on continuous scintillation crystals can be provided with a system for focusing the scintillation light emitted by the gamma ray in order to improve spatial resolution. The invention also relates to novel methods for locating radiation-emitting objects and for measuring physical variables, based on radioactive and laser emission pointers.

Abstract: The subject matter of the invention is a method and an electronic circuit for reading the signals generated by one or more pixelated sensors in a gamma radiation detection system, which makes it possible to substantially reduce the number of electronic channels to be digitized. The electronic circuit in the invention is analogue and can also be coupled to other similar circuits in order to acquire the signals from larger sensors.

Abstract: The GAMMA/RF compact, hybrid and integrated system for PET-SPECT/MR simultaneous imaging of the invention comprises a GAMMA/RF device that integrates an RF coil, of the type used in conventional MR systems, with GAMMA radiation detector modules of the type used in PET or SPECT systems, so that combined PET or SPECT and MR images are obtained.

Abstract: The invention relates to a portable mini gamma camera for intrasurgical use. The inventive camera is based on scintillation crystals and comprises a stand-alone device, i.e. all of the necessary systems have been integrated next to the sensor head and no other system is required. The camera can be hot-swapped to any computer using different types of interface, such as to meet medical grade specifications. The camera can be self-powered, can save energy and enables software and firmware to be updated from the Internet and images to be formed in real time. Any gamma ray detector based on continuous scintillation crystals can be provided with a system for focusing the scintillation light emitted by the gamma ray in order to improve spatial resolution. The invention also relates to novel methods for locating radiation-emitting objects and for measuring physical variables, based on radioactive and laser emission pointers.

Abstract: Gamma ray detector characterised in that its structural elements are a continuous scintillator crystal, a position sensitive photodetector and associated electronics intended to calculate, in addition to the gamma ray energy in the position of its interaction in the crystal, the interaction depth in the crystal from the standard deviation of the scintillation light distribution. Said information may be obtained electronically, in analog form and therefore instantaneous, from the first three moments of the scintillation light distribution. A method for implementing said electronics by way of a network of resistances characterised for analog and simultaneous computation of the first and second distribution moments is also disclosed.

Abstract: Gamma ray detector characterised in that its structural elements are a continuous scintillator crystal, a position sensitive photodetector and associated electronics intended to calculate, in addition to the gamma ray energy in the position of its interaction in the crystal, the interaction depth in the crystal from the standard deviation of the scintillation light distribution. Said information may be obtained electronically, in analog form and therefore instantaneous, from the first three moments of the scintillation light distribution. A method for implementing said electronics by way of a network of resistances characterised for analog and simultaneous computation of the first and second distribution moments is also disclosed.