Patent application number | Description | Published |
20100324413 | X-RAY DIAGNOSTIC SYSTEM - In one embodiment, an X-ray diagnostic system is provided. The system is provided with an X-ray irradiation section, an X-ray detection section, an image data generation unit, a position detecting unit and a control section. The X-ray irradiation section radiates an X-ray to an object to be diagnosed. The X-ray detection section detects the X-ray radiated from the X-ray irradiation section and transmitted through the object so as to generate X-ray transmission data. The image data generation unit generates image data based on the X-ray transmission data. The position detecting unit detects position of a catheter inserted into the object. The control section switches X-ray irradiation conditions to be irradiated from the X-ray irradiation section, based on positional data detected by the position detecting unit and electrocardiogram data of the object. | 12-23-2010 |
20110293164 | X-RAY IMAGING APPARATUS - An X-ray imaging apparatus is configured to subtract a first X-ray image from a second X-ray image to generate a first subtraction image showing information on a blood vessel, calculate an amount of pixel shift between the first X-ray image and the third X-ray image, subtract the first X-ray image from the third X-ray image to generate a second subtraction image showing information on an insertion instrument, and combine the first subtraction image with the second subtraction image to generate a synthetic image by performing a pixel shift correction based on the amount of pixel shift. | 12-01-2011 |
20130237810 | X-RAY IMAGE DIAGNOSTIC APPARATUS - An X-ray image diagnostic apparatus includes an X-ray imager, an image data generator, a position information acquisition mechanism, a position information corrector, and a display. The X-ray imager generates projection data by X-ray imaging in first and second imaging modes for a patient. The image data generator generates reference image data based on projection data in the first imaging mode and image data for positional deviation correction based on projection data in the second imaging mode. The position information acquisition mechanism acquires position information of a treatment device inserted into the patient. The position information corrector corrects the position information of the treatment device based on the position information of the treatment device and treatment device information of the image data for positional deviation correction, collected by X-ray imaging in the second imaging mode. The display displays the reference image data to which the corrected position information is added. | 09-12-2013 |
Patent application number | Description | Published |
20100189217 | X-RAY DIAGNOSIS APPARATUS - A storage unit stores a plurality of vectors and a plurality of past electrocardiographic phases in association with each other. Each of the vectors is a vector from a past reference point to a past objective point. A Reference point specifying unit specifies a current reference point on a current image. An electrocardiograph detects a current electrocardiographic phase associated with the current image. A vector specifying unit specifies a specific vector associated with a past electrocardiographic phase corresponding to the detected current electrocardiographic phase among the plurality of vectors. Objective point calculation unit calculates a position of a current objective point on the current image based on the specified vector and the position of the current reference point. A display unit displays the position of the current objective point on the current image. | 07-29-2010 |
20110299746 | IMAGE PROCESSING APPARATUS AND MEDICAL IMAGE DIAGNOSIS APPARATUS - An image processing apparatus and a medical image diagnosis apparatus comprise a creation unit, a designation unit, a measurement unit, and a display control unit. The creation unit is configured to create a virtual endoscopic image observed using a preset viewpoint position and a preset line-of-sight direction based on 3-dimensional image data. The designation unit is configured to analyze the 3-dimensional image data to designate a plaque portion and/or a calcification portion. The measurement unit is configured to measure information on spatial distribution of the plaque portion and/or the calcification portion designated by the designation unit. The display control unit is configured to perform control to display the virtual endoscopic image created by the creation unit and the information on spatial distribution measured by the measurement unit. | 12-08-2011 |
20120229504 | X-RAY DIAGNOSTIC APPARATUS AND IMAGE PROCESSING APPARATUS - According to one embodiment, an image processing apparatus includes following units. The correspondence table describes a relationship between blood vessel contrasts and reference contrast medium concentrations and reference X-ray conditions. The acquisition unit acquires a blood vessel contrast by referring to the correspondence table based on the planned value of a contrast medium concentration and the X-ray condition. The calculation unit calculates a predictive pixel value of a region of interest set on the X-ray image based on the blood vessel contrast. The display unit displays the X-ray image while superimposing a partial image with the predictive pixel value on the region of interest. | 09-13-2012 |
20130195343 | MEDICAL IMAGE PROCESSING APPARATUS, MEDICAL IMAGE PROCESSING METHOD AND X-RAY IMAGING APPARATUS - According to one embodiment, a medical image processing apparatus includes an X-ray image obtaining unit, a marker detection unit, a contrast image generation unit and a display image generation unit. The X-ray image obtaining unit obtains X-ray contrast image data and X-ray fluoroscopic image data. The marker detection unit detects positions of a marker from the X-ray contrast image data, or the X-ray contrast image data and the X-ray fluoroscopic image data. The marker is attached to a device. The contrast image generation unit generates X-ray contrast image data for a combination with a movement correction making the positions of the marker be positions which can be regarded as a same position. The display image generation unit generates X-ray image data for a display by combining the X-ray contrast image data for the combination with the X-ray fluoroscopic image data. | 08-01-2013 |
20140135618 | X-RAY DIAGNOSIS APPARATUS AND CONTROL METHOD - A data creation unit of an X-ray diagnosis apparatus that irradiates a treatment target part of a subject with an X-ray and displays the image data of a transmitted X-ray thereon includes a catheter tip detection unit that detects a catheter tip based on the image data, a tip position information storage unit that stores therein position information of the catheter tip for at least one heartbeat based on a detection result of the catheter tip detection unit as transfer trace information, and a support data creation unit that superimposes the transfer trace information onto the present image data to create support data for catheter treatment. | 05-15-2014 |
20140146944 | X-RAY DIAGNOSIS APPARATUS AND A DOSE MANAGEMENT METHOD - An X-ray diagnosis apparatus detects X-rays output from an X-ray source and transmitted through a subject, and generates images of the inside of the subject, and comprises a detector, an X-ray intensity distribution data generator, and an entrance dose distribution data generator. The detector detects the intensity of the X-rays output from the X-ray source. The X-ray intensity distribution data generator generates X-ray intensity distribution data showing the X-ray intensity for each of a plurality of subdomains of an X-ray irradiation field from the X-ray source based on the detection outcome by the detector. The entrance dose distribution data generator generates entrance dose distribution data showing the dose of X-rays output from the X-ray source and irradiated onto the subject, based on the X-ray intensity distribution data. | 05-29-2014 |
Patent application number | Description | Published |
20150071407 | X-RAY DIAGNOSTIC APPARATUS AND DOSE DISTRIBUTION GENERATION METHOD - An X-ray diagnostic apparatus according to an embodiment includes a support mechanism, bed, dosimeter, dose decision unit, dose distribution generation unit and display unit. The support mechanism movably supports an X-ray tube generating X-rays over a plurality of times in a predetermined period and an X-ray detector detecting X-rays transmitted through an object. The bed includes a top on which the object is placed. The dosimeter measures a total dose over the period. The dose decision unit decides doses respectively corresponding to times of generation of the X-rays in the period based on the total dose and an X-ray irradiation condition. The dose distribution generation unit generates a dose distribution based on a position of the support mechanism, a position of the bed, and the doses. The display unit displays the dose distribution. | 03-12-2015 |
20150139518 | IMAGE PROCESSING APPARATUS - An image processing apparatus according to an embodiment includes an input unit, an identifying unit, and a display control unit. The input unit receives specification of a region of interest (ROI) included in a mammography image. The identifying unit identifies a medical image including a position substantially the same as the position of the ROI received by the input unit in an ultrasound image group acquired from a subject for whom the mammography image is captured. The display control unit performs control such that the medical image identified by the identifying unit is displayed on a display unit. | 05-21-2015 |
20150157285 | X-RAY DIAGNOSIS APPARATUS - According to an embodiment, in an X-ray diagnosis apparatus, an X-ray detector detects X-rays having emitted from an X-ray irradiator and passed through the subject. A first input unit is arranged so that it can be pedaled, and is used for inputting first operational information in response to a pedaling operation by an operator. A second input unit is positioned apart from the first input unit so that the operator can touch the second input unit while touching an upper surface of the first input unit that faces away from a floor surface of a room, and is used for inputting second operational information in response to an operation by the operator. A controller performs control for changing the first and the second operational information or either thereof on the basis of operational information input by at least one of the first and the second input units. | 06-11-2015 |