Abstract: Methods of probing a material under investigation using an ultrasound beam. Echolocation data is generated using a multi-dimensional transform capable of using phase and magnitude information to distinguish echoes resulting from ultrasound beam components produced using different ultrasound transducers. Since the multi-dimensional transform does not depend on using receive or transmit beam lines, a multi-dimensional area can be imaged using a single ultrasound transmission. In some embodiments, this ability increases image frame rate and reduces the amount of ultrasound energy required to generate an image.

Abstract: A diagnosis supporting apparatus includes: an image input section that inputs an endoscopic image acquired from a living tissue, a structure detection section that detects similar circular-shaped structures from an image signal corresponding to the endoscopic image inputted to the image input section, and a network detection section that detects a predetermined network shape in the endoscopic image, based on a number of similar circular-shaped structures detected by the structure detection section, areas of the similar circular-shaped structures, distances between the respective similar circular-shaped structures, or a number of connections between the respective similar circular-shaped structures.

Abstract: Bioluminescent imaging has proven to be a valuable tool for monitoring physiological and pathological activities at cellular and molecular levels in living small animals. Using biological techniques, target cells can be tagged with reporters which generate characteristic photons in a wide spectrum covering the infra-red range. Part of the diffused light can reach the body surface of a subject/specimen (e.g., a small animal), be separated into several spectral bands using optical means, and collected by a sensitive camera. Systems and methods are disclosed herein for multi-spectral bioluminescence tomography (MBLT), in which an image of an underlying 3D bioluminescent source distribution is synergistically reconstructed from spectrally resolved datasets externally measured. This MBLT process involves two or multiple imaging modalities that produce structural information of the object and optical properties of the object as well to enable and improve the quality of MBLT.

Abstract: To perform a more accurate and detailed diagnosis of a brain disease, a diagnosis server of the brain disease diagnosis system for diagnosing a brain disease of an examined person includes: an acquiring unit for acquiring a brain image of the examined person so as to obtain an acquired image; a region setting unit for setting a plurality of regions in the acquired image; an individual index value calculating unit for calculating an individual index value based on a pixel value of the acquired image, in each of the plurality of regions; a whole index value calculating unit for calculating a whole index value by weighting the individual index value of each of the plurality of regions; a diagnosis unit for diagnosing the brain disease of the examined person based on the whole index value; and an output unit for outputting information indicating a diagnosis outcome.

Abstract: In a small animal imaging system (10) at least one modality (12) and a docking station (36) are provided. The docking station (36) provides a workspace (47) and docking ports (48) for preparation and holding of anesthetized animals that are awaiting imaging. For the duplication of positions, a subject mold (26) is provided that holds the subject in a reproducible position on a subject bed (16). Vital signs monitoring is also provided for subjects awaiting scans. The bed (16) includes fiducials (28) to aid in registration of like modality images and different modality images. A capsule (14) can encapsulate a single bed (16), or for tandem imaging, the capsule can encapsulate multiple-bed configurations, such as two, three, or four beds (16). For better positioning and ease of user access, a positioner (34) positions the capsule (14) from the rear of the modality (12).

Abstract: A method is proposed for simple and quick setting of an injection pump for image recording. In at least one embodiment of the method, patient-specific and appliance-specific input parameters are entered and a contrast agent protocol is created from the patient-specific and appliance-specific input parameters, by computer, by way of a functional relationship, and the contrast agent protocol is output to the injection pump. Furthermore, a computer unit is provided in at least one embodiment, with the aid of which the method is carried out.

Abstract: The present invention includes using optical spectroscopy as an innovative technique for ex-vivo demonstration of renal and prostate tumors. The apparatus and methods disclosed herein demonstrate the ability of optical spectroscopy to reliably differentiate tumor from normal tissue in renal specimens.

Abstract: A method for High Pulse Repeat Frequency (HPRF) Doppler ultrasonic imaging comprises: collecting parameters including a selected PRF level, real sample volume depth and sampling gate size; setting a selectable PRF range according to a standard PRF value corresponding to the selected PRF level; evaluating each PRF successively selected from the selectable PRF range with a preset step; and taking the PRF with best evaluation as the best PRF of the selected PRF level to be used in ultrasonic pulses transmission.

Abstract: The disclosure relates to a device and a method for detecting electromagnetic fields, in particular fields occurring in imaging magnetic resonance tomography.

Abstract: An ultrasonic probe, a charger and an ultrasonic diagnostic apparatus, and an ultrasonic diagnostic system that uses them are provided by the present invention, which comprises a detector for detecting whether or not an ultrasonic probe having a rechargeable battery or the charger for charging this is in charging state; and a controller for stopping transmitting and receiving operations of ultrasonic waves. The ultrasonic diagnostic apparatus comprises a transmitting and receiving circuit for executing the generation of a signal related to the transmission of the ultrasonic waves and the generation of the diagnostic information based on the signal related to the reception of the ultrasonic waves; a probe switching circuit for selecting one of a plurality of ultrasonic probes; and a controller for controlling the probe switching circuit in accordance with a detection signal from the detector. The ultrasonic diagnostic system comprises the above-mentioned probes, chargers and diagnostic apparatus.

Abstract: In a magnetic resonance device having a PET unit for acquiring positron emission tomography data and a gradient coil, the PET unit includes a carrier tube on which at least one PET detector is arranged. In at least one embodiment, the carrier tube is arranged inside the gradient coil and is displaceably mounted in such a way that access to the PET detector is made possible by its displacement. This allows easy access to the PET detector during maintenance activities.

Abstract: The present invention provides for the detection and display of polarization scrambling tissue without resolving the polarization state of the backscattered imaging beam. In one embodiment, we illuminate the tissue using two different polarizations. A first polarization determines a first image of high intensity while the second polarization determines a second image of low intensity. Comparison and combination of the first and second images determines tissue which scrambles the polarization in neighboring detection cells.

Abstract: A brain imaging system can be operated to obtain brain image signals indicating activity at brain locations, and information can be extracted from the brain image signals. For example, for each of a set of living human brain regions that can have two or more possible activity features such as qualia features, feature values can be obtained indicating activity features of the region. The feature values can be more explicit than brain image data indicating activity at brain locations. A data structure can be produced that includes data indicating extracted information, such as qualia value data for a quale activity feature that can occur in a region. Such a data structure can be stored on a storage medium and used in diagnosis and/or treatment of detrimental conditions of consciousness.

Abstract: Systems and methods for focusing ultrasound through the skull into the brain for diagnostic or therapeutic purposes may be improved by utilizing both longitudinal and shear waves. The relative contribution of the two modes may be determined based on the angle of incidence.

Abstract: Methods and systems are disclosed for determining information about a position of an object within a distribution of materials having different complex conductivities. The method includes: (i) causing current to flow in the distribution; (ii) measuring an electrical signal at each of multiple locations in the distribution of materials in response to the current flow; (iii) providing spatial information about the distribution of materials with respect to a first reference frame, the spatial information indicative of regions of different complex conductivity in the distribution of materials; and (iv) determining the position of the object with respect to the spatial information about the distribution of materials based on measured electrical signals and the spatial information. In certain embodiments, the object is a catheter inserted into a patients heart cavity for cardiac mapping.

Abstract: A method of generating an image of a segment of a lumen structure comprises acquiring volumetric image data that comprises image data representative of a longitudinal segment of a lumen structure, extracting the segment of lumen structure from the volumetric image, calculating a thickness of planar MPR slab that at least encompasses the longitudinal segment of lumen structure, and rendering a planar MPR slab image based on the thickness and the volumetric image data.

Abstract: When generating a projection image which is an image formed of image information on a plurality of visual lines viewing a first structure in a three-dimensional medical image from a given viewpoint being projected on a given projection plane, setting an assumed position of a treatment tool in the three-dimensional image, detecting a surface of the first structure from the three-dimensional medical image, identifying a second structure in the three-dimensional medical image located at a position masked by the first structure, detecting an intersection point between an assumed path formed when the treatment tool is moved from the assumed position towards the second structure and the surface of the first structure, and displaying the intersection point in an identifiable manner at a position to which image information on a visual line connecting the viewpoint and the intersection point is projected.

Abstract: A transducer is used to send an ultrasound pulse toward a stone and to receive ultrasound reflections from the stone. The recorded time between a pulse that is reflected from the proximal surface and a pulse that is reflected either from the distal surface of the stone or from a surface supporting the stone is used to calculate the stone size. The size of the stone is a function of the time between the two pulses and the speed of sound through the stone (or through the surrounding fluid if the second pulse was reflected by the surface supporting the stone). This technique is equally applicable to measure the size of other in vivo objects, including soft tissue masses, cysts, uterine fibroids, tumors, and polyps.

Abstract: A method of tracing the likely contour of an anatomical element in a sectional image of an anatomical site, the image being composed of pixels having different intensities, the method including the steps of: a) forming columns of pixels passing through the anatomical element; b) assigning each pixel a pixel score representing the probability of the pixel being situated on the contour of the anatomical element; c) constituting a matrix of pixel scores from a plurality of columns of pixels and defining numerous continuous paths of pixels, each passing through a single pixel of each column; d) assigning each continuous path a path score that is a function of the scores of the pixels constituting the continuous path; e) selecting from a set of continuous paths the path that has the best path score, that path representing the likely contour of the anatomical element.

Abstract: A system and method for performing object localization based on the emission of electromagnetic fields. The electromagnetic fields are simultaneously emitted from different transmitters. One electromagnetic field is emitted at a base frequency; the remaining waves are emitted at frequencies that are harmonics of the base frequency. The composite magnetic fields are measured by sensors. The signal generated by each sensor is subject to a Fourier analysis to determine the strengths of the individual electromagnetic fields forming the composite electromagnetic field. These individual measure field strength data are then used to determine the position and orientation of the sensors relative to the transmitters.