Patent application number | Description | Published |
20080310580 | NUCLEAR MEDICAL DIAGNOSIS APPARATUS - A nuclear medial diagnosis apparatus is used for performing diagnosis by administering a medicine marked with a radioactive isotope into an examinee and by using an image obtained by detecting gamma rays emitted from a particular organ or tumor where the medicine is accumulated. An image (an image created by an image creation unit) is created by a signal (a signal as an output from a radiation detector) corresponding to the energy of the gamma ray detected by a radiation detector. The image includes a contamination component attributed to gamma scattering in the radiation detector. An image correction operation unit performs a convolution operation to obtain a contamination image. The contamination image is subtracted by a corrected image creation unit. Thus, it is possible to prevent image degradation by the gamma ray scattering in the radiation detector. | 12-18-2008 |
20090072159 | SEMICONDUCTOR DETECTION MODULE AND RADIATION DETECTION APPARATUS AND RADIOLOGICAL IMAGING APPARATUS USING THE SEMICONDUCTOR DETECTION MODULE - Semiconductor detection modules | 03-19-2009 |
20090092229 | RADIOLOGICAL IMAGING APPARATUS - A radiological imaging apparatus of the present invention comprises an image pickup device and a medical examinee holding device that is provided with a bed. The image pickup device includes a large number of radiation detectors and radiation detector support plates. A large number of radiation detectors are mounted around the circumference of a through-hole and arranged in the axial direction of the through-hole. The radiation detectors are arranged in three layers formed radially with respect to the center of the through-hole and mounted on the lateral surfaces of the radiation detector support plates. Since the radiation detectors are not only arranged in the axial direction and circumferential direction of the through-hole but also arrayed in the radial direction, it is possible to obtain accurate information about a γ-ray arrival position in the radial direction of the through-hole (the positional information about a radiation detector from which a γ-ray image pickup signal is output). The use of accurate information about γ-ray arrival increases the tomogram accuracy. As a result, the present invention enhances the tomogram accuracy, that is, the PET examination accuracy. | 04-09-2009 |
20090108208 | RADIATION DETECTION MODULE, PRINTED CIRCUIT BOARD, AND RADIOLOGICAL IMAGING APPARATUS - There are provided a radiation detection module, a printed circuit board, and a radiological imaging apparatus which make it possible to enhance spatial resolution without increasing channel number, and thereby to perform high-accuracy diagnosis. The radiation detection module includes a plurality of radiation detectors, and a wiring board on which the plurality of radiation detectors are mounted in a manner of being arranged in at least a radiation traveling direction. Here, on the wiring board, a pair of the radiation detectors which are adjacent to each other in the radiation traveling direction are electrically connected to each other, thereby configuring one detector structure (i.e., detection channel). Moreover, the radiation detectors are mounted onto the wiring board such that respective connection parts of electrodes, which are to be electrically connected to each other, are in a mutually-facing state. | 04-30-2009 |
20090194701 | RADIOLOGICAL IMAGING APPARATUS - A radiological imaging apparatus using a semiconductor radiation detector to make it possible to reduce a radiation measurement off time that may result from an attempt to avoid polarization, the radiological imaging apparatus comprising a capacitor that applies a voltage to a semiconductor radiation detector that detects a radiation from a subject, first current regulated means for conducting a charge current to the capacitor, and second current regulated means for conducting a discharge current from the capacitor, or comprising a capacitor that applies a voltage to the semiconductor radiation detector, a first resistor that conducts a charge current to and a discharge current from the capacitor, and a second resistor connected in parallel with the first resistor to subject the capacitor to charging and discharging. | 08-06-2009 |
20090209841 | RADIATION IMAGING SYSTEM AND NUCLEAR MEDICINE DIAGNOSIS INSTRUMENT THEREFOR - A radiation imaging system is configured by a collimator | 08-20-2009 |
20100054571 | RADIOLOGICAL IMAGING APPARATUS - A radiological imaging apparatus of the present invention comprises an image pickup device and a medical examinee holding device that is provided with a bed. The image pickup device includes a large number of radiation detectors and radiation detector support plates. A large number of radiation detectors are mounted around the circumference of a through-hole and arranged in the axial direction of the through-hole. The radiation detectors are arranged in three layers formed radially with respect to the center of the through-hole and mounted on the lateral surfaces of the radiation detector support plates. Since the radiation detectors are not only arranged in the axial direction and circumferential direction of the through-hole but also arrayed in the radial direction, it is possible to obtain accurate information about a γ-ray arrival position in the radial direction of the through-hole (the positional information about a radiation detector from which a γ-ray image pickup signal is output). The use of accurate information about γ-ray arrival increases the tomogram accuracy. As a result, the present invention enhances the tomogram accuracy, that is, the PET examination accuracy. | 03-04-2010 |
20110280365 | RADIOLOGICAL IMAGING APPARATUS - A radiological imaging apparatus of the present invention comprises an image pickup device and a medical examinee holding device that is provided with a bed. The image pickup device includes a large number of radiation detectors and radiation detector support plates. A large number of radiation detectors are mounted around the circumference of a through-hole and arranged in the axial direction of the through-hole. The radiation detectors are arranged in three layers formed radially with respect to the center of the through-hole and mounted on the lateral surfaces of the radiation detector support plates. Since the radiation detectors are not only arranged in the axial direction and circumferential direction of the through-hole but also arrayed in the radial direction, it is possible to obtain accurate information about a γ-ray arrival position in the radial direction of the through-hole (the positional information about a radiation detector from which a γ-ray image pickup signal is output). The use of accurate information about γ-ray arrival increases the tomogram accuracy. As a result, the present invention enhances the, tomogram accuracy, that is, the PET examination accuracy. | 11-17-2011 |
20110297837 | RADIATION DETECTION MODULE AND RADIATION IMAGE-CAPTURING DEVICE - The radiation detection module ( | 12-08-2011 |
20120112087 | APPARATUS AND METHOD FOR DETECTING GAMMA-RAY DIRECTION - It is an object of the present invention to allow a gamma-ray-source's existing position direction to be detected using a small-volume gamma-ray detector. A gamma-ray's direction detecting apparatus including a plurality of detection pixels for detecting gamma rays, a memory device for memorizing a correspondence relationship in advance, the correspondence relationship being established for indicating, with respect to predetermined gamma-ray's incoming directions, what kind of actual-measurement frequency data should be acquired using the plurality of detection pixels, and a measurement/calculation unit which measures the gamma-ray's actual-measurement frequency data detected using the plurality of detection pixels, and calculates a gamma-ray's incoming direction by using the actual-measurement frequency data and the correspondence relationship memorized into the memory device. | 05-10-2012 |