Abstract: A method for adjusting a field of view for exposure of an X-ray system is provided. The method comprises: capturing an image of a patient on an examining table of the system by an image sensor, wherein the image sensor is placed at a predetermined position in the system; displaying the captured image on a display for selection of a region of interest or a point of interest by a user on the image; automatically determining a target position of an X-ray source in response to the selection of the region of interest or the point of interest on the image, wherein a desired field of view for exposure covering the region of interest or the point of interest is obtained when the X-ray source is located at the target position; and automatically locating the X-ray source at the target position in response to the determination of the target position.

Abstract: An ultrasound diagnostic apparatus is provided. The ultrasound diagnostic apparatus includes an ultrasound probe configured to perform transmission/reception of ultrasound on a subject, and an indicator display control unit configured to display indicators each indicative of a distance between at least a predetermined part of an outline of a transmission/reception region of real-time ultrasound of the subject and a corresponding position stored in advance at the outline.

Abstract: An ultrasound diagnostic apparatus includes a transmitting and receiving unit that transmits an ultrasound wave to a target object in sequence and receives the ultrasound wave as ultrasound data reflected from the target object including a blood vessel. A first memory unit stores the received ultrasound data. An image generation unit generates an ultrasound image as a sectional image of the blood vessel. A display unit displays the ultrasound image. A region of interest (ROI) setting unit sets a plurality of ROIs on an inner wall and an outer wall of the blood vessel at a designated time. The ROIs are generated from the ultrasound data. A tracing unit traces movement of tissue in the target object corresponding to the ROIs set from the designated time to sequentially following thereafter. A second memory unit stores information of the movement of the tissue for a predetermined duration.

Abstract: A magnetic resonance imaging apparatus includes a gradient coil for applying a gradient pulse, a transmitting coil for transmitting an RF pulse, and a coil control device for controlling the gradient coil and the transmitting coil in such a manner that a pulse sequence for (A) making an absolute value of longitudinal magnetization of a first background tissue and an absolute value of longitudinal magnetization of a second background tissue longer in T1 value than the first background tissue smaller than an absolute value of longitudinal magnetization of body fluid of a subject, (B) acquiring magnetic resonance signals from the subject, and (C) flipping transverse magnetization of the second background tissue to longitudinal magnetization is repeatedly executed.

Abstract: A magnetic resonance imaging apparatus includes a gradient coil, a transmission coil, an electrocardiographic signal detecting device detecting an electrocardiographic signal from a subject, a controlling device controlling the gradient coil and the transmission coil so that a pulse sequence including a preparation pulse and a data acquisition sequence for acquiring data from a subject utilizing a magnetic resonance phenomenon is repeatedly carried out, and a cardiac phase computing device computing the cardiac phase of the subject based on the electrocardiographic signal. The controlling device determines whether or not to re-acquire data once acquired from the subject based on the cardiac phase of the subject at an arbitrary time in a period during which the pulse sequence is carried out or the cardiac phase of the subject at a time after the pulse sequence is terminated.

Abstract: An X-ray CT apparatus reconstructs a CT image (extended CT image) at each slice position lying outside a relative linear movement range at a helical scan or the like at low exposure and with high image quality. Scans each provided with a residence time are executed at relative linear movement start and end points (Zs and Zf). Projection data in a view range (F) corresponding to a predetermined view angle centering on a view (CVp1,zs) corresponding to a relative linear movement start time or a view shifted previously therefrom by the number of views (M), or a view (CVp1,zf) corresponding to a relative linear movement end time or a view shifted backward therefrom by the number of views (N) are used as image reconstruction projection data for extended CT images in image extension regions (Rs and Rf).

Abstract: Certain embodiments of the present invention provide a system and method for software configurable electromagnetic tracking. Certain embodiments of the system include a transmitter and/or a receiver for measuring a position in a coordinate system. The system also includes tracker electronics for determining position of the transmitter and/or receiver using information from the transmitter and/or receiver. The tracker electronics are configurable for a plurality of tracking system architectures. The tracker electronics may generate a processing scheme for a tracking system architecture. Additionally, the tracker electronics may simultaneously support a plurality of tracking system architectures. The tracker electronics may be modular, configurable tracker electronics. The tracker electronics may use software to generate support for a plurality of tracking system architectures.

Abstract: An apparatus for segmenting a cerebral hemorrhage site in a medical image of a head comprises a means for segmenting an internal region of a skull bone in the medical image of the head, a means for segmenting a possible region in which a cerebral hemorrhage site is contained, out of the region segmented by the means for segmenting the internal region of the skull bone, and a means for determining a cerebral hemorrhage site out of the region segmented by the means for segmenting the possible region in which the cerebral hemorrhage site is contained.

Abstract: A method for a medical examination is provided. The method includes acquiring at least two datasets that include data acquired at a plurality of points that lie along at least two lines through a center of k-space, reconstructing the at least two datasets to generate an image, and outputting the image.

Abstract: An ultrasonic transducer drive circuit for driving an ultrasonic transducer by outputting pulses including a positive pulse and a negative pulse to an output line is provided. The ultrasonic transducer includes a positive voltage supply circuit, a negative voltage supply circuit, a current-inflow-type ground clamp circuit configured to operate when voltage in the output line is positive voltage, and a current-outflow-type ground clamp circuit configured to operate when voltage in the output line is negative voltage, wherein the current-inflow-type ground clamp circuit is configured to enter an operation state at a time of generating the negative pulse in a state where the voltage in the output line is positive voltage, and the current-outflow-type ground clamp circuit is configured to enter an operation state at a time of generating the positive pulse in a state where the voltage in the output line is negative voltage.

Abstract: A magnetic resonance imaging apparatus includes a first navigator data processor that generates a first phase profile based on first navigator data acquired by executing a first navigator sequence, generates a position profile indicative of a relationship between a plurality of region positions and time at which the first navigator sequence is executed, and detects a specific position in the position profile. A second navigator data processor generates a second phase profile based on second navigator data acquired by executing a second navigator sequence, detects the position of each region with respect to each second phase profile within a reference range set so as to contain the specific position, based on each second phase profile, and acquires the same as its corresponding position data.

Abstract: A blood flow dynamic analysis apparatus for analyzing the dynamic state of a blood flow of a subject using data about a plurality of frame images acquired from the subject with a contrast agent injected therein, includes a map creation device for creating maps each indicative of a characteristic amount related to the dynamic state of the contrast agent or the blood flow, based on the data about the frame images, an unaffected side detection device for detecting an unaffected side of the subject from within each of the maps, and a display condition determination device for determining a display condition used when each of the maps is displayed, based on pixel values of pixels existing in the unaffected side in the map.

Abstract: A filter capable of adjusting spectrum in multiple stages and that capable of attaining the reduction of size, as well as an X-ray imaging system having such a filter, are provided. The filter, which is for adjusting the spectrum of passing radiation, comprises a support plate having an aperture for passage therethrough of radiation, plural filter plates supported by the filter plate and having mutually different filter characteristics, and moving device for moving the plural filter plates selectively to a position to close the aperture and a position to open the aperture.

Abstract: A radiation imaging apparatus is provided. The radiation imaging apparatus includes a radiation detector including a plurality of detector modules disposed therein, each detector module including a plurality of radiation detecting elements, wherein each of the detector modules includes a temperature sensor. The radiation imaging apparatus further includes an acquiring device configured to acquire temperature characteristic information of sensitivities of the radiation detecting elements from a storing device in which the temperature characteristic information is stored in advance, and a correcting device configured to correct data detected by the radiation detecting elements, based on temperature information acquired by the temperature sensor and the temperature characteristic information acquired by the acquiring device.

Abstract: An ultrasonic diagnosis and treatment system includes an ultrasonic probe for transmitting and for receiving ultrasonic waves; an image generator unit for generating an ultrasonic image based on the echo signals received by the ultrasonic probe; a display unit for displaying an ultrasonic image generated by the image generator unit; and a biopsy needle for radiating radiofrequency waves. The ultrasonic diagnosis and treatment system includes a display controller unit for displaying on the display unit an ultrasonic image at the time of non-radiation of the radiofrequency waves generated based on the echo signals received by the ultrasonic probe at the time when the radiofrequency waves are not radiated from the biopsy needle, in place of the ultrasonic image at the time of radiation of the radiofrequency waves generated based on the echo signals received by the biopsy needle at the time of radiating the radiofrequency wave from the biopsy needle.

Abstract: A magnetic resonance imaging apparatus includes a scan execution unit configured to execute a regular scan in which a navigator sequence for generating a magnetic resonance signal in a navigator area containing a region of interest moving with a biological movement of a subject and an imaging sequence for generating a magnetic resonance signal in an imaging area of the subject are carried out, and a signal processing unit configured to detect a position of a region of interest based on a magnetic resonance signal generated by a navigator sequence in the regular scan and to generate an image based on the detected position and the magnetic resonance signal generated by the imaging sequence.

Abstract: An ultrasonic imaging apparatus includes a 3D tomographic image data capturing device which captures 3D tomographic image data from a 3D region inside a subject, a region-of-interest setting device which sets a 3D region of interest corresponding to the 3D region in an image memory, a surface image extracting device which extracts data on a surface image, in the 3D region of interest, of a massive tissue included in the 3D region, a stereoscopic display generating device which generates stereoscopic display data, and a display device which displays the stereoscopic display data. The region-of-interest setting device displays a 2D tomographic image of a 2D region including the massive tissue on the display device, allows setting of a marker indicating a periphery of the massive tissue in the 2D tomographic image, and generates the 3D region of interest according to data on the marker's position.

Abstract: A truckle for a mobile medical device is provided. The truckle includes at least one electromagnetism torque balancing motor mounted on the truckle and configured to balance out friction generated by the truckle.

Abstract: A belt table is provided. The belt table includes a cradle, and a movement driver set configured to drive the cradle to move, wherein the cradle and the movement driver set are configured to cause at least one of low attenuation and nearly zero attenuation to X-rays along a scan plane.

Abstract: An ultrasound volume probe navigation and control method is provided. The method includes acquiring scan data in a three-dimensional scan mode, forming a navigation view based on a three-dimensional matrix formed by the scan data in beam space, determining a critical area on the navigation view, and navigating and controlling the ultrasound volume probe based on whether a blood vessel is in the critical area.