Abstract: When a subject is pressed by a plate and an acoustic wave is received by a probe via the plate, the acoustic wave is refracted because of the difference between a sound velocity in the subject and a sound velocity in the plate. When the refraction is not considered, a reduction in resolution occurs. A correction table or a correction formula for correcting image distortion associated with refraction is provided. After image information is acquired, new image information is acquired in accordance with the correction table or the correction formula, and is displayed.

Abstract: A system for the imaging, processing and evaluation of tissues provides prognostic and diagnostic details regarding diseased tissue. A set of quantitative measures were developed and integrated in an image-base analysis software tool designed for OCT images. The system and methods in this invention is significant because it allows assessing the optical properties and structure morphology differences between normal healthy subjects and diabetic patients with retinopathy up to ETDRS level 35 and without retinopathy.

Abstract: An optical imaging diagnostic apparatus including: a designating unit for designating a predetermined circumferential-direction position at the circumference of the transmitting and receiving unit on the cross-sectional image displayed; an extraction unit for extracting, within the plurality of line data used for the generation of the cross-sectional image, line data corresponding to circumferential-direction position designated in the designating unit from the storage unit; a calculation unit for calculating attenuation rate in a predetermined region in a radial direction of a body lumen with respect to the extracted line data; and a display unit for displaying the calculated attenuation rate.

Abstract: An ultrasound imaging apparatus includes a transmitter which transmits an ultrasound pulse to a subject, a receiver which receives ultrasound coming from the subject, and a signal processor to process a received signal at the receiver and generate image data. The receiver has a predetermined reception band, and the ultrasound pulse transmitted by the transmitter has one frequency band with a frequency peak. Each of an upper limit frequency and a lower limit frequency of the one frequency band is set to be values which make a low frequency harmonic component and a high frequency harmonic component produced by the ultrasound pulse be within the reception band. The signal processor generates image data by using a nonlinear component of at least one of the low frequency and high frequency harmonic component received by the receiver.

Abstract: An integrated magnetic resonance (MR) and positron emission tomography (PET) system includes an MR scanner including a magnet that defines an opening in which a subject is positioned, a set of PET detectors disposed between the magnet and the opening, and a plurality of data processing units, each data processing unit being configured for communication with a respective one or more of the PET detectors of the set of PET detectors. The plurality of data processing units are positioned along a side of the MR scanner not having the opening.

Abstract: An ultrasonic probe includes at least one transmission element layer for transmitting ultrasonic waves, at least one reception element layer for receiving ultrasonic waves and which is provided with an electrode on each of both surfaces opposed in a direction of a thickness thereof, and at least one matching layer for matching acoustic impedance. These layers are arranged in this order in a direction of transmitting the ultrasonic waves. The reception element layer is provided with a projecting portion projecting in a direction of elevation from upper and lower layers which sandwich the two electrodes respectively formed on both surfaces of the reception element layer, and at least one of the electrodes is formed by extending to the projecting portion.

Abstract: A device for detecting and counting coughing events is provided. In one embodiment a sensor for sensing and transducing low frequency and high frequency mechanical vibrations, sends signals to a coincidence detector that determines if high and low signals coincide. In another embodiment, ultrasonic energy is introduced to the trachea and if Doppler shift in frequency is detected, association is made to a coughing event. In another embodiment a change in the impedance of the neck is considered associated with coughing event if correlated over time with a specific mechanical frequency sensed.

Abstract: A computerized bone motion tracking system according to one exemplary embodiment is configured to: provide a non-invasive means for accurate measurement and tracking of the motion of a bone using a volumetric ultrasound transducer and a three dimensional position measurement system; provide relative measurements of one bone relative to another bone of a joint; decompose relative joint motion into specific components; and measure joint instability and range of motion.

Abstract: An ultrasound image having a good image quality is generated in the neighborhood of a puncture needle without lowering the image quality of the whole ultrasound image. A first echo signal received by transmitting first ultrasonic waves focused on an imaging target position and a second echo signal received by transmitting second ultrasonic waves having the depth of the focal point positioned at a uniform position are obtained, the weights of the first echo signal and the second echo signal are determined according to the focal point positions of the respective ultrasonic waves, and weighted addition is performed to generate a corrected image.

Abstract: An ultrasound diagnostic apparatus includes a plurality ultrasound probes, an apparatus body for producing an ultrasound image based on the reception data obtained by one of the ultrasound probes, a connection selector for selectively switching a connection between the ultrasound probes and the apparatus body, an interruption detector for detecting interruption of ultrasound examination, and a controller for causing the apparatus body to display a selection screen for selecting one of the ultrasound probes to be subsequently used when the interruption detector detects interruption of ultrasound examination, wherein when an operator selects one of the ultrasound probes to be subsequently used from the displayed selection screen, the controller controls the connection selector to connect the selected ultrasound probe with the apparatus body.

Abstract: A catheter apparatus includes an elongated body having proximal and distal ends, and an acoustic transducer disposed proximate the distal end of the elongated body. A variably-refracting acoustic lens is provided to dynamically adjust a direction associated with an acoustic wave coupled to the acoustic transducer in response to one or more control signals provided thereto.

Abstract: An ultrasound probe includes a transducer array for a B-mode image which transmits and receives an ultrasonic beam for a B-mode image, and a transducer array for sound speed measurement which is laminated and formed above the transducer array for a B-mode image and receives an ultrasonic beam for sound speed measurement.

Abstract: An implant predicts decompensation of a patient's heart based on an acoustic pressure measurement. The implant includes first and second acoustic transducers, which are matched to each other and which rest in/on the patient's thorax. The first acoustic transducer emits an acoustic signal which has at least one first signal portion having a first frequency. The second acoustic transducer is designed to receive and re-emit the emitted acoustic signal, or to reflect it, such that the first acoustic transducer receives the emitted acoustic signal. A signal processing unit communicates with at least one of the two acoustic transducers and determines an attenuation value as a function of the attenuation of the received acoustic signal versus the originally emitted acoustic signal, and provides a prediction signal as a function of a comparison of the attenuation value to a threshold value, wherein the prediction signal indicates the development of decompensation.

Abstract: A method includes providing a patch including: a flexible base layer that is mountable on and substantially conformable to a patient's body surface, the base layer having opposed upper and lower primary surfaces; a flexible substrate that is releasably attached to the upper primary surface of the base layer and substantially conformable to the patient's body surface; and at least one MRI-visible fiducial element defined by or secured to the flexible substrate. The method further includes: securing the base layer to the body surface to mount the patch on the body surface such that the flexible substrate conforms to the body surface; MRI scanning the patient with the patch on the body surface to generate corresponding image data; identifying a physical location on the body surface using the image data; and removing the flexible substrate from the base layer.

Abstract: A system for examining an area of a patient's anatomy that comprises a probe capable of fluorescing, and a scanning beam assembly that scans the probe with a beam of excitation radiation and detects the probe's fluorescence. The scanning beam assembly including a radiation source capable of emitting one or more wavelengths of radiation that are capable of exciting the probe and causing the probe to fluoresce, a scanning device that directs the radiation onto a field-of-view to create a scan of the field-of-view, a detector to detect radiation returned from the field-of-view, and a controller to convert the detected radiation into a displayable fluorescence image.

Abstract: The invention is related to a method for generating hardness and/or strain information of a tissue which can be subject to a varying pressure, the method comprising: —positioning at least one signal transmitter (1) outside the tissue (10); —positioning at least one signal receiver (1) outside the tissue (10); —using the signal transmitter (1) to send signals (S) at different angles towards the tissue; —using the signal receiver (1) to receive signals from the tissue (10), wherein the received signals result from the signals that have been sent by said signal transmitter. The invention is also related to an apparatus for carrying out the method.

Abstract: The benefits of a multi-aperture ultrasound probe can be achieved with add-on devices. Synchronization and correlation of echoes from multiple transducer elements located in different arrays is essential to the successful processing of multiple aperture imaging. The algorithms disclosed here teach methods to successfully process these signals when the transmission source is coming from another ultrasound system and synchronize the add-on system to the other ultrasound system. Two-dimensional images with different noise components can be constructed from the echoes received by individual transducer elements. The disclosed techniques have broad application in medical imaging and are ideally suited to multi-aperture cardiac imaging using two or more intercostal spaces.

Abstract: A method for monitoring cardiac function of a patient during a magnetic resonance imaging (MRI) procedure, including: acquiring an MR image sequence of the patient's heart during a cardiac phase; segmenting a left ventricle of the patient's heart in the MR image sequence, wherein the segmentation produces endocardial and epicardial contours; representing at least one of the contours in polar or radial coordinates and computing its Fourier transform, wherein the Fourier transform produces Fourier descriptors for the contour; putting a vector of the Fourier descriptors into a classifier, wherein the classifier determines whether the contour reflects normal wall motion in the cardiac phase or whether the contour reflects abnormal wall motion in the cardiac phase; and alerting a medical practitioner when abnormal wall motion is detected.

Abstract: The present inventions provide a locomotive implant for usage within a predetermined magnetic field that includes a capsule body; a wireless power receiver disposed within the capsule body; a plurality of switchable conductors having a predetermined pattern within the capsule body, each of the switchable conductors adapted to pass a current along a forward path to thereby create, in the presence of the predetermined magnetic field, a force and assist in moving the locomotive implant; and a controller adapted to receive directional control signals to control the switchable current wires or conductors. Methods of using the same are described.

Abstract: Even when a region of interest (ROI) is changed on a frozen image, an elasticity image of ROI after the change can be displayed without executing re-measurement. An ultrasonic diagnostic apparatus 1 has a control unit 110 having a first ROI setting unit 38 and a second ROI setting unit 39. When ROI is set by the first ROI setting unit 38 of the control unit 110, an elasticity information calculating unit 32 sets an area larger than ROI as a calculation area, calculates distortion, elasticity modulus, etc. of a tissue corresponding to each measurement point on a tomographic image of the calculation area, generates elasticity information based on the distortion, the elasticity modulus, etc., and outputs the elasticity information to an elasticity information storing unit 33. The control unit 110 changes the position/size of ROI by the second ROI setting unit 39 under a state that the frozen image is displayed.