Patent application number | Description | Published |
20100086103 | MEDICAL INSPECTION APPARATUS - The present invention provides a medical inspection apparatus which comprises a frame, an inspection module, and a motion control unit. The frame has a couch for positioning a patient, a flexible broad bandage, an opening on the flexible broad bandage, and a chamber formed inside the frame at a position corresponding to the opening. The inspection module is disposed in the chamber and is configured with at least one detector. The motion control unit is coupled to the inspection module for actuating the inspection module to perform a vertical movement and a rotating movement and for adjusting the relative position between the at least one detector. | 04-08-2010 |
20110101227 | METHOD FOR IDENTIFYING AND SORTING SENSING SIGNALS WITH RESPECT TO CRYSTAL LOCATION OF SCINTILLATION DETECTOR - The present invention provides a method for identifying and sorting sensing signals with respect to crystal locations of a scintillation detector, comprising steps of: (a) providing a crystal map detected by a crystal array, the crystal map having a plurality of peak points, each being represented by a coordinate location; (b) finding a basis point with respect to a specific area enclosing an amount of the peak points within the crystal map; (c) determining the peak point within the specific area having the shortest distance to the basis point, the peak point corresponding to a crystal element of the crystal array; (d) changing the location of the specific area; and (e) repeating steps (b) to (d) for a plurality of times to find all the crystal elements with respect to the peak points respectively. | 05-05-2011 |
20110106473 | METHOD FOR CALIBRATING DETECTION EFFICIENCY - The present invention provides a method for calibrating the crystal-level detection efficiency, which is capable of evaluating the influences caused by the penetration effect of the crystals of a scintillation detector so as to calculate the difference of detection efficiency between crystals correctly and thereby calibrate the difference between crystals appropriately such that the quality of the imaging result is improved accordingly. The method of present invention is simple without modifying the hardware design and consequently the design cost, manpower cost and time cost can be reduced. | 05-05-2011 |
20120025091 | METHOD OF COINCIDENCE DETECTION AND TOMOGRAPHY SYSTEM USING THE SAME - A method of coincidence detection and a tomography system using the same are provided. In the method and system, by combining original trigger signals and time mark information, at a time point of a rising edge of a system main clock, a combination of the trigger signals of a plurality of radiation detectors of the system is obtained, and a type of the combination of the trigger signals is determined according to a predetermined event relation. If the combination of the trigger signals belongs to an effective event, a time mark procedure is utilised for judging the trigger signals in the event, in which it is determined whether a difference between two time mark information respectively associated with the trigger signals of the two corresponding radiation detectors is within a coincidence time window or not, thereby judging whether the effective event is an annihilation event. | 02-02-2012 |
20120029338 | MEDICAL INSPECTION APPARATUS - A medical inspection apparatus includes a main body and an inspection module. The main body has at least two guide rails and at least two sliding blocks which are slidably coupled to the guide rails respectively, and the inspection module further includes at least one pivot, and each of the sliding blocks is pivotally connected to the inspection module with a pivot, so that the inspection module is capable of sliding on the sliding rail to regulate the height and rotating with respect to the pivot to regulate the inclination. Moreover, the main body has a first supporting component and a second supporting component, so that the combination of the first supporting component and the second supporting component can provide three-ended support for an inspected person. | 02-02-2012 |
20130091966 | LESION PHANTOM - A lesion phantom is disclosed, which is a spherical ball having a cavity formed therein for housing contrast agents or medicines, and is adapted for the quantitative evaluation of a medical image in drug development and evaluation. In an embodiment, the cavity of the lesion phantom is coupled to a tapering ring and is adapted to be sealed by a silicon plug, by that contrast agents or medicines can be fed into the cavity easily and conveniently without causing any problem, such as overflowing, bubble residue problem, radioactive contamination, etc. Moreover, by the arrangement of a retractable fixing bar, the positioning of the lesion phantom can be adjusted flexibly at will, and also by the tapering of the tapering ring, the lesion phantom can be prevented from being damaged by any extreme, sudden, unjust, or improper force exerted, and thus the lifespan of the lesion phantom can be prolonged. | 04-18-2013 |
20130104678 | ANTHROPOMORPHIC PHANTOM FOR MEDICAL IMAGING SYSTEMS | 05-02-2013 |
20130284941 | RADIATION DETECTION SIGNAL PROCESSING METHOD AND SYSTEM - A radiation detection signal processing method and a radiation detection signal processing system using the method are provided, which combine trigger signals and time mark information. The method includes: providing a radiation detection signal processing system having a plurality of front-end detectors, where each front-end detector detects a radiation event to generate a corresponding energy signal; generating a corresponding trigger signal according to the corresponding energy signal; generating a first signal and a second signal according to all trigger signals; and obtaining time differences among the trigger signals according to the first signal and the second signal, converting the time differences into a set of time marks, merging all of the trigger signals and the set of time marks into a hybrid time signal, and transmitting the hybrid time signal to a hybrid event coincidence detection circuit. | 10-31-2013 |
20130301806 | COMPOSITE CRYSTAL ARRAY FOR PIXELATED GAMMA CAMERA AND METHOD OF MAKING THEREOF - A composite crystal array for a pixelated gamma camera and a method of making thereof, which are adapted to a photoelectric matrix that consists of position sensitive photomultiplier elements, in which the photoelectric matrix is divided into sensible and non-sensible areas with a geometric distribution, so as to set a ratio of a segmented region; a configuration detail of a partial optical splitting crystal array and a configuration detail of a whole optical splitting crystal array are set according to the ratio of the segmented region; and the partial optical splitting crystal array and the whole optical splitting crystal array are made according to the two configuration details, and two kinds of crystal arrays are combined to form a whole crystal array for the pixelated cameras according to the segmented region, so that the effective area of the pixelated camera is kept continuous and the resolution thereof is kept uniform. | 11-14-2013 |
20140133723 | METHOD FOR IMPROVING IMAGE QUALITY AND IMAGING SYSTEM USING THE SAME - The invention provides a method for improving image quality. Through applying variation value during operation of iterated algorithm, this invention can reduce blur phenomenon caused by partial volume effects and improve image accuracy. In an embodiment, by applying the algorithm utilized in the method for improving image quality, this invention further provides an imaging system to detect the distribution of the object, thereby obtaining a clear restored image corresponding to the radiation source. | 05-15-2014 |
20140138554 | PROJECTION METHOD OF 3D RAY TRACING - The present invention provides a projection method of 3D ray tracing, so as to construct a geometric factor required for the reconstruction of a medical image in the imaging field. The present invention mainly projects a radiation field and a voxel detected by each detector on two 2D planes, then calculates the geometric ratio of a rectangular unit, corresponding to each voxel on the two 2D planes, to the radiation field, respectively, and multiplies the geometric ratios to obtain a sub-geometric factor with respect to the voxel. The sub-geometric factors g | 05-22-2014 |
20140140478 | APPARATUS FOR X-RAY PHOTOGRAPHY - An apparatus for X-ray photography includes a first X-ray source, a first driving device, and an image detecting device. The first X-ray source has a light emitting end, provided with a block element. The first X-ray source generates an X-ray beam, and the block element is used for constraining a projection field of the X-ray beam, so that the X-ray beam has a first boundary. The X-ray beam is cast onto an object, and the object has a reference center and an imageable area. The first driving device is used for driving the first X-ray source to rotate around the object within an angle range with the reference center of the object as a center, so that when the first X-ray source is located at a first position, the first boundary passes through the reference center | 05-22-2014 |