Abstract: An ultrasound diagnosis apparatus includes an ultrasound transducer, an evaluation value acquisition unit, a determination unit, and an output unit. The evaluation value acquisition unit obtains an evaluation value for evaluating the function of tissue including a predetermined site based on biological information acquired for a predetermined period of time by the ultrasound transducer. The determination unit determines whether the function of the tissue is abnormal based on the evaluation value. The output unit outputs information based on a result of determination by the determination unit.

Abstract: A system for tracking a bone-altering tool in computer-assisted surgery, comprising a first trackable reference secured to a first bone, with a first frame of reference being associated with the first trackable reference. A bone-altering tool is securable to the first bone in a secured configuration. Sensors track the trackable reference for position and orientation. A position/orientation calculator is connected to the sensor device to calculate a position and orientation of the first frame of reference. An alteration parameter calculator is associated with the position/orientation calculator to determine a position and orientation of the bone-altering tool in the secured configuration as a function of the position and orientation of the first frame of reference and of the secured configuration. A method for tracking tools using the tracking of a bone is provided.

Abstract: Devices, systems and methods for ocular ultrasound are provided having therapeutic and/or diagnostic applications. In one aspect, an ocular probe is disclosed that is uniquely configured for use in the eye on the basis of shape and frequency. The ocular probe may be multi-functional, providing sensor, optical or other functionality in additional to ultrasound energy.

Abstract: A transperineal biopsy guide including a guide member and a displacement member supported by the guide member. The guide member may be configured to operably couple with the transrectal probe and may include a distal end, a proximal end opposite the distal end, and a length extending along a longitudinal axis between the distal and proximal ends. The displacement member may be configured to support the access needle and displace the access needle along at least a portion of the length of the guide member between the distal and proximal ends. The access needle may extend into the subcutaneous tissue when the access needle is displaced to the distal end.

Abstract: A biopsy guide for use in guiding a needle in a transperineal prostate biopsy procedure. The biopsy guide may include a guide member and a displacement member. The guide member may operably couple with the transrectal probe and include a guide body including a distal end, a proximal end, a length, a first guide member extending the length, and a second guide member extending the length, wherein a portion of the first and second guide members overhangs the transrectal probe when coupled thereto. The displacement member may be supported by the guide member and may include a central vertically extending member having a plurality of needle receiving ports therein, and a planar member coupled to the central vertically extending member and having a planar bottom surface that is configured to slide on the first and second planar top surfaces of the first and second guide members, respectively.

Abstract: The invention includes a device and a method for hybrid optoacoustic and ultrasonographic imaging of an object. The device comprises: an irradiation unit configured to irradiate the object with electromagnetic radiation; first transducer elements configured to detect ultrasound waves generated in the object upon irradiating the object with the electromagnetic radiation; second transducer elements configured to detect ultrasound waves reflected and/or transmitted by the object; a surface comprising at least one first surface segment, on which the first transducer elements are arranged, and at least one second surface segment, on which the second transducer elements are arranged. The first surface segment and/or the second surface segment have a curved shape. The first transducer elements have a first size and pitch and second transducer elements have a second size and pitch, wherein the first pitch and second pitch are different and/or the first size and second size are different.

Abstract: A method of performing a transperineal biopsy procedure including sliding a displacement member of a biopsy guide relative to a guide member of the biopsy guide such that the displacement member is proximate the perineal access site of the patient. The guide member may be secured to the ultrasound probe, and the guide member may include a pair of guide rails each having a planar top surface. The displacement member may include a platform having a planar bottom surface and at least one needle receiving port for guiding a needle, wherein the planar bottom surface of the platform opposes the planar top surfaces of the pair of guide rails during the sliding of the displacement member relative to the guide member. The method may further include inserting a needle into the perineal access site of the patient.

Abstract: An ultrasound imaging probe (101) includes a communications interface (107), including one or more ports (200-205), corresponding to one or more different communication protocols, for communication with ultrasound consoles. The probe (101) also includes a controller (106) that configures the probe (101) for communication with an ultrasound console (102) over a port (200-205) based on a communication between the communications interface (107) and a communications interface (110) of the console (102).

Abstract: Various types of sub-preset conditions corresponding to a selected mother preset condition are read out from a preset condition storage unit which stores at least a plurality of mother preset conditions set concerning image data acquisition conditions and various types of sub-preset conditions set by updating all or some of the image data acquisition conditions included in each of the mother preset conditions. A sub-preset condition suitable for ultrasonic examination on the object is selected from the readout various types of sub-preset conditions. An image data acquisition condition is initialized based on the selected mother preset condition with respect to each unit related to generation of the image data. The image data acquisition condition is updated by using the selected sub-preset condition. Image data is generated based on a reception signal in ultrasonic transmission/reception using the updated image data acquisition condition.

Abstract: An ultrasonic diagnostic imaging system produces audio Doppler from detected Doppler signals. The Doppler signals are detected in a band of frequencies which corresponds to the velocity of blood flow signals, and Doppler information is displayed based on the detected band of frequencies. The audio Doppler system produces Doppler audio in a frequency band which is shifted in pitch from the detected band of frequencies. The operator of the ultrasound system is provided with a user control by which the degree of pitch shifting can be controlled. The ultrasound system displays Doppler blood flow velocities referenced to a transmit Doppler frequency f0, with the audio Doppler being shifted in pitch from the frequencies corresponding to the blood flow velocities.

Abstract: A method and system for calculating a volume of resected tissue from a stream of intraoperative images is disclosed. A stream of 2D/2.5D intraoperative images of resected tissue of a patient is received. The 2D/2.5D intraoperative images in the stream are acquired at different angles with respect to the resected tissue. A resected tissue surface is segmented in each of the 2D/2.5D intraoperative images. The segmented resected tissue surfaces are stitched to generate a 3D point cloud representation of the resected tissue surface. A 3D mesh representation of the resected tissue surface is generated from the 3D point cloud representation of the resected tissue surface. The volume of the resected tissue is calculated from the 3D mesh representation of the resected tissue surface.

Abstract: Techniques for imaging protocol translation are described herein. The techniques may include data indicating a protocol for image capture of a first imaging device. The protocol includes parameters. The techniques may include translating the protocol of the first imaging device for use at a second imaging device by determining adjustments to be made to one or more of the parameters.

Abstract: Non-invasive measurement of intracranial pressure (ICP), for example mean ICP. A probe adjacent the head emits energy, such as ultrasound, and receives reflected signals. A processing unit derives ICP waveform from the signals. A pressure mechanism applies external pressure intermittently to outer surface of the head and incrementally increases the external pressure. The processing unit is configured to detect a decrease in amplitude of the ICP waveform (occurring in some embodiments only after an intermediate period of ICRS compensation), the processing unit configured to determine the ICP of the person from a sum of applied external pressures from a time of the initial value A1 until a final value at which the amplitude remains stable with additional increase in applied external pressure. In some cases, the final value is earlier than that but the processing unit extrapolates the sum to when the amplitude remains stable with additional increases in pressure.

Abstract: The present invention relates to an ultrasound imaging system (10) comprising: —an image processor (34) configured to receive at least one set of volume data resulting from a three-dimensional ultrasound scan of a body (12) and to provide corresponding display data, —an anatomy detector (38) configured to detect a position and orientation of an anatomical object of interest within the at least one set of volume data, —a slice generator (40) for generating a plurality of two-dimensional slices from the at least one set of volume data, wherein said slice generator (40) is configured to define respective slice locations based on the results of the anatomy detector for the anatomical object of interest so as to obtain a set of two-dimensional standard views of the anatomical object of interest, wherein the slice generator (40) is further configured to define for each two-dimensional standard view which anatomical features of the anatomical object of interest are expected to be contained, and —an evaluation unit (

Abstract: A system and computer-implemented method for detecting retinopathy is provided. The system comprises an image input module configured to receive one or more fundus images. Further, the system comprises a pre-processing module configured to apply one or more transformations to the one or more received fundus images. Furthermore, the system comprises a feature extraction module configured to extract one or more features from the one or more transformed images using one or more Convolutional Neural Networks (CNNs). Also, the system comprises a prediction module configured to determine stage of retinopathy by classifying the one or more extracted features using pre-stored features, wherein the pre-stored features are extracted from one or more training fundus images by the one or more CNNs and further wherein each pre-stored feature corresponds to a class which is associated with a predetermined stage of retinopathy.

Abstract: Biomedical images of both anatomical structure and real-time changes in neuronal, metabolic, positional, and vascular function in humans and animals is described. Ultra-wideband (UWB) pulse or square wave generators and electrical samplers, implemented using integrated circuits are used to make arrays of miniaturized microwave modules that are placed around the portion of interest in the body or head, allowing images to be made through either time-domain transmission of these pulsed waves through the body, or time domain reflectivity of the waves from internal structures, or their combination. Signal processing separate and extract the time-varying functional information from the static structural image data. The time-varying functional information from certain brain regions can be interpreted in order to control prosthetics, Brain-Machine-Interfaces and the like.

Abstract: A system and method for tracking an interventional tool based on a spatial alignment of two or more acoustic sensors relative to the interventional tool include operating an acoustic imaging device to generate an acoustic image plane, and operating each acoustic sensor to output a composite acoustic sensing waveform derived from an acoustic sensing of the acoustic beam array. Each composite acoustic sensing waveform can include a plurality of acoustic beam sensing waveforms. The system and method can further include operating a tracking workstation to track a position of the interventional tool relative to the acoustic image plane derived from a waveform profile analysis of the composite acoustic sensing waveforms.

Abstract: An apparatus and method for providing remote expert feedback to an operator of an ultrasound imaging machine. The remote feedback consists of graphical icons that are dragged and dropped onto a video stream of the patient being scanned or the ultrasound image being captured and shared in real-time with the local operator to help improve their scanning technique.

Abstract: Method and apparatus for illuminating and imaging tissue is provided. In one version, the method includes illuminating a volume of a tissue with photons from a three-dimensional array of optical emitters inserted into the tissue. In another version, the method includes detecting photons from a volume of a tissue using a three-dimensional array of optical detectors inserted into the tissue. A probe device for illuminating tissue and/or detecting photons emitted from tissue includes elongated microsized probes containing optical emitters and optical detectors in a three dimensional array.

Abstract: A connecting device for establishing a data link between a docking device provided at a part of a magnetic resonance scanner, and a patient support, with at least one slot for a local coil, which can be docked to the docking device, has a first data transmission device on the patient support side, which interacts with a second data transmission device on the docking device side in order to establish the data link in the docked state. The data transmission devices each have at least one communication device designed for wireless near field communication.