Abstract: A system and method of integrating a nuclear medicine imaging device such as a gamma camera with a patient handling system where the nuclear medicine imaging system does not prevent full access to the patient and does not interfere with the field of view of accompanying modalities accommodated by use of the patient handling system.

Abstract: A nuclear imaging system and method are provided for synchronously recovering the field of view of a target to be imaged includes multiple detectors attached to a gantry, a support member or wobbling ring and a driver. The driver engages the wobbling ring whereby the wobbling ring rotates with respect to the gantry. The wobbling ring cooperates with the detectors causing the detectors to synchronously adjust to multiple viewing positions of a detection target, enabling recovery of the full field of view from an otherwise truncated field of view if the detectors were stationary with respect to the gantry.

Abstract: Method and system are provided for calibrating a nuclear medical imaging apparatus for DC shift caused by gamma event afterglow pulses. Detector responses to weak and to high count rate radiation sources are compared with each other, and a zero correction value is incremented until the detector response is the same for the weak source and the high count rate source. The zero correction value is then stored as a static zero correction value, which multiplies a dynamic zero correction value obtained just prior to the occurrence of a gamma event, in order to remove the effects of DC shifts from the output energy signal Esum.

Abstract: A phantom and associated method for calibrating registration in a multi-modal medical diagnostic imaging system are presented. The phantom features a plurality of emission point sources arranged in multiple parallel planes along the length of the phantom, with enough planes to allow mode registration to be calibrated over the length of an entire full-body scan. According to the method, calibration scans are performed at each of several scan positions along the length of the phantom, with at least two planes of emission point sources covered by the scan at each position.

Abstract: A method and apparatus for acquiring total uniformity for a scintillation imaging apparatus are provided. A generic energy (Z) map is first obtained. The generic Zmap is then corrected for linearity by use of a dot pattern. The listmode data is used to construct an energy histogram matrix. A twin Zmap is then obtained by optimizing the lower and upper boundaries of the energy window for each pixel in relation to the average energy over the Center Field of View.

Abstract: Dual channel silicon photomultipliers (SiPMs) can replace PMTs and APDs for use in PET and other radiation detectors. The devices are compact, have high gain, high QE and low noise. Due to their timing performance, these devices can be used in time-of-flight PET applications. By dividing the device into two separate channels, one for timing resolution and one for energy resolution, both can be optimized simultaneously.

Abstract: Correction of scintillation event data from a nuclear medicine imaging system for effects of pulse pile-up is carried out by separating event data packets into total energy and individual detector energy data packets, executing pile-up correction algorithms on each of the separated packets simultaneously using a pipeline processing architecture, and reassembling the corrected data packets into corrected scintillation event data packets. Pulse tail correction information for each individual detector is stored in a storage medium for a present event and immediately preceding event for which correction information exists, which allows individual detector correction information to be retrieved by using a look-up procedure, thereby enabling correction to be performed within a single processor cycle.

Abstract: In some preferred embodiments, a medical imaging system having stable camera optics is provided that includes: a photon emitting source that emits photons towards a plurality of photon receivers; an optical interface between said photon emitting source and said plurality of photon receivers including an optical coupling gel that is prone to discoloration from local contaminants and an optical coating adjacent said optical coupling gel; and said optical coating having means for avoiding discoloration of said optical coupling gel.

Abstract: A method and system for calibrating a scintillation camera includes steps of constructing a pair of generic linearity coefficient (LC) matrices from a representative detector based on measurement of non-linearity; and transforming the pair of generic LC matrices according to measured pinhole locations from a lead mask to generate detector specific LC matrices.

Abstract: Systems, methods and apparatus including an electrical penetration assembly for coupling a plurality of photo-multiplier tubes (PMTs) inside of a tub enclosure of a nuclear detector with an acquisition electronics system (AES) outside of the tub enclosure. The electrical penetration assembly may include at least one flex circuit, a plurality of flex circuit-PMT connectors, at least one flex circuit-AES connector, a flex circuit guide, a tub-penetration mechanical support, a support-to-tub retention mechanism, and a light seal.

Abstract: A projection data rebinning device for nearest-neighbor rebinning in Positron Emission Tomography (PET) using on-line 3D axial LOR-to-bin mapping. The PETLINK™ DMA Rebinner (PDR) of the present invention includes a PCI card for on-line translation of detector-pair event packets into bin-address packets. The PDR delivers accurate axial and transaxial LOR nearest-neighbor rebinning and enables the more oblique LOR to be mapped into the proper sinogram bins. The PDR is used in association with hardware architecture in electrical communication with a medical imaging device. The data acquisition architecture includes a processor, random access memory (RAM), an operating system, and a data storage device. The PDR includes a plurality of FPGAs and flash chips. The FPGAs are in communication with each other via a high-bandwidth connection. The flash memory chips are used for look-up tables. The PDR performs on-line translation of detector-pair event packets into bin-address packets.

Abstract: A method for reducing the scanning time of SPECT broadly includes determining a physical characteristic of an object within a radiation field, calculating an optimal starting angle of at least two detectors based on the physical characteristic of the object and a trajectory of the at least two detectors such that the geometric efficiency of the detectors along the trajectory can be maximized, angularly displacing the detectors based on the calculated optimal starting angle, scanning the object within the field to detect one or more gamma photons emanating from the object, and preparing an image from the one or more detected gamma photons. Preferably, the physical characteristic of the object is its location within the field, but can include properties such as signal to noise ratio, shape of the object, etc.

Abstract: A detector array including a plurality of scintillators for use in association with an imaging device. The detector array is provided for accurate determination of the location of the impingement of radiation upon an individual scintillator detector. An air gap is disposed between the scintillator elements, thereby increasing the packing fraction and overall sensitivity of the array. The amount of light transmitted down the scintillator element and the amount of light transmitted to adjacent elements is modified to optimize the identification of each element in a position profile map by adjusting the surface finish of the detector elements.

Abstract: A quality control system and method are provided for troubleshooting and performance testing of detectors in a Gamma camera that includes a field programmable gate array for forming digital words to be converted to a pulse, a test pattern generator for storing the digital words, a digital analog converter for converting the digital words into an analog voltage, an amplifier for amplifying and applying the analog voltage, and an analog multiplexor for accepting the analog voltage. The Gamma camera comprises a collimator, a scintillation crystal, a light guide, a photomultiplier tube, and an electronic circuit.

Abstract: A nuclear medicine imaging system is disclosed that includes a detector including a plurality of silicon strip sensor arrays surrounding a scintillator. In some embodiments, strip detectors can be provided that can lead to significant cost benefits as compared to existing detectors, such as existing nuclear detectors. The preferred embodiments may be applied in nuclear medical cameras, while other embodiments may be applied in other radiation applications, whether medical or non-medical applications.

Abstract: Methods and apparatus provide for determining whether X-rays produced by a computer tomography (CT) scanner have infiltrated a single photon emission computed tomography (SPECT) scanner and shutting down at least one of a power source to one or more photo-multiplier tubes (PMTs) of the SPECT scanner, and an X-ray source of the CT scanner, when the determination is affirmative.

Abstract: Apparatus and method for providing nuclear medical imaging, in particular positron emission tomography, wherein a panel detector including scintillation blocks with a light guide is attached thereto. The scintillation block is arranged to cover a plurality of photosensors in an N by N configuration where there are outer photosensors which share light information from adjacent scintillation blocks and at least one center photosensor which does not share light information from adjacent scintillation blocks.

Abstract: A method of propagating a ray through an image includes providing a digitized volumetric image comprising a plurality of intensities corresponding to a domain of voxels in a 3-dimensional space, providing a reduced path octree structure of said volumetric image, said reduced path octree comprising a plurality of first level nodes, wherein each first level node contains a plurality of said voxels, initializing a ray inside said volumetric image, and visiting each first level node along said ray, wherein if said first level node is non-empty, visiting each voxel contained within each first level node.

Abstract: A method and apparatus for a protection device for indicating when ground fault protection is not being provided by the protection device. The protection device includes source and load terminals between a conductive path and face terminals. The protection device further includes a latching mechanism, adapted to be operable between a first state in which the latching mechanism permits electrical contact between the source terminals and the load terminals and a second state in which the contact is broken; an alarm indicator, adapted to provide an indication that the protection device is not providing ground fault protection; and a fuse, adapted to blow when the latching mechanism fails to open during a manual test of the protection device.