Abstract: A method and ultrasound imaging system for performing an ultrasound examination. The method and system includes entering a workflow and displaying a plurality of graphical icons positioned on a graphical model. The method and system includes selecting a first anatomical zone, acquiring a first image, and saving and associating the first image with the first anatomical zone. The method and system includes saving and associating a first clinical finding with the first anatomical zone. The method and system includes selecting a second anatomical zone, acquiring a second image, and saving and associating the second image with the second anatomical zone. The method and system includes saving and associating a second clinical finding with the second anatomical zone. The method and system include displaying an examination overview including the first image, the first clinical finding, the second image, and the second clinical finding.

Abstract: An application running in a mobile device displays an ultrasound image obtained by a connected ultrasound scanner. A button is displayed on the device, which, when activated, automatically connects the device to a remote reviewer in a virtual videoconferencing room, without the operator of the scanner needing to input user credentials. Upon activating the button, or otherwise triggering the request for a review, pre-stored login credentials are automatically retrieved and used for connecting the operator to the room. The remote reviewer may be connected to the room upon accepting the request for review, without having to input user credentials, which are pre-stored and automatically retrieved.

Abstract: The present disclosure relates to a method and system for diagnosing blood vessel obstruction, such as would occur in deep vein thrombosis (DVT). More specifically, the present disclosure relates to a software tool for use with sensor hardware to allow users to perform standardised and repeatable testing of patients to assist with diagnosis of deep vein thrombosis or related conditions. The present disclosure further relates to an apparatus and method for conducting the diagnosis. The apparatus includes an imaging probe and a computing device, where the computing device is configured to assist the user in placing the imaging probe on a blood vessel and moving the imaging probe between predetermined landmarks along the blood vessel.

Abstract: For shear wave imaging with ultrasound, the apparent pulse repetition frequency is increased by combining displacements from different lateral locations. Different combinations based on different shear wave velocities and corresponding time shifts and/or attenuations and corresponding scalings are tested to find a smooth displacement profile for the combination. Once the smooth displacement profile is found, the corresponding shear wave velocity is estimated or determined.

Abstract: The invention provides various methods for imaging a subject's cardiovascular system. The imaging method may be used to provide a diagnosis or prognosis of various cardiovascular diseases in the subject, without contrast agents or radioactive tracers, and further generating a Gaussian Mixture Model to obtain a reference value of a normal myocardium.

Abstract: An acoustic imaging system responsive to an acoustic wave emitted from an object is disclosed. The system detects a deflection angle of an electromagnetic probe beam as it passes through a coupling element. The coupling element also couples the acoustic wave emitted from the object to an acoustic detector. The probe beam deflection angle is related to an angle of propagation of the acoustic wave through the coupling element. A filtering unit is configured to remove components of the signal from the acoustic detector that are outside of a range of angles, thereby improving the angular resolution of the acoustic detector. The acoustic wave may be generated by an acoustic source, such as an ultrasound transmitter, or an electromagnetic source such as a laser.

Abstract: Cancer treatment methods using thermotherapy and/or enhanced immunotherapy are disclosed herein. In one embodiment, the method comprising the steps of administering a plurality of nanoparticles to target a tumor in a patient, the nanoparticles being coated with an antitumor antibody, cell penetrating peptides (CPPs), and a polymer, and the nanoparticles containing medication and/or gene, and a dye or indicator in the polymer coating, at least some of the nanoparticles attaching to surface antigens of tumor cells so as to form a tumor cell/nanoparticle complex; exciting the nanoparticles using an ultrasound source generating an ultrasonic wave so as to peel off the polymer coating of the nanoparticles, thereby releasing the dye or indicator into the circulation of the patient and the medication and/or gene at the tumor site; and imaging a body region of the patient so as to detect the dye or indicator released into the circulation of the patient.

Abstract: A contactless system for assessing and/or determining hemodynamic parameters and/or vital signs is featured. The system includes one or more contactless light sources configured to emit light incident on a moving living subject at one more wavelengths absorbed by one or more chromophores associated with spontaneous hemodynamic oscillations in a predetermined area of the living subject. The system includes a camera subsystem including one or more cameras configured to receive reflected light from the predetermined area of the moving living subject and configured to track motion of the predetermined area of the living subject within a field of view of the camera subsystem and configured to generate a time sequence of images of the predetermined area of the living subject.

Abstract: An ultrasonic imaging system acquires frames of echo data at a high acquisition frame rate using a single mode of acquisition. The echo data is used by three image processors to produce an anatomical image, a mechanical function image, and a hemodynamic image from the same echo data. A display displays an anatomical image, a mechanical function image, and a hemodynamic image simultaneously.

Abstract: A medical device containing a sensor, a motor, one or more plates, and a control unit, for treating diabetes. The medical device vibrates the pancreas thereby improving blood and secretory hormone circulation and enhancing the production of insulin.

Abstract: The present disclosure is directed to instruments and methods that provide one or more stimulations with multiple fibers and multiple imaging implants inserted in a subject for capturing images from one or more regions of the subject's brain. The microendoscope can include a single spatial light modulator or multiple spatial light modulators, a furcated imaging fiber bundle with multiple fibers, multi-implants coupled to a subject for multi-implant patterned brain imaging and stimulation. Both the single spatial light modulator and multiple spatial light modulators are capable to project optical patterns to different imaging fibers and thereby stimulate multiple regions of the brain.

Abstract: A transducer cover for use in an ultrasonic medical instrument having a transducer is disclosed. The transducer cover includes a vibration absorbing layer of a generally cylindrical form made of a synthetic resin having a vibration absorbing property, and a chemical blocking layer of a generally cylindrical form made of a synthetic resin which is impermeable to water and chemicals. The vibration absorbing layer and the chemical blocking layer are coaxially laminated, and capable of sealing arrangement over and around the transducer. Also disclosed is an ultrasonic medical instrument having an ultrasonic transducer and the transducer cover, and a method for forming the transducer cover over and around an ultrasonic transducer of an ultrasonic medical instrument.

Abstract: Systems and methods for assisting the placement of a catheter within the body of a patient through the use of an ultrasound imaging system are disclosed. In particular, the systems and methods described herein enable a clinician to determine, prior to insertion of the medical device, how much of the device will be disposed within the vessel, thus enabling the clinician to choose a catheter with suitable length. In one embodiment, an ultrasound imaging system for assisting with placement of the medical device comprises a console, a probe for producing an image of a target location, and a processor. The processor provides to a user proximity information relating to the anticipated proximity of the medical device to the target location prior to insertion of the medical device. A display is included for depicting the image, target location depth, and the proximity information of the medical device to the target location.

Abstract: A photoacoustic measurement apparatus includes: a main light source; a sub-light source; a light guide member that guides the light which has been emitted from the main light source and the sub-light source and has been incident on a base end to a leading end; an insert of which at least a leading end portion is inserted into a subject and which includes at least the leading end of the light guide member and a light absorption member that absorbs the pulsed laser light, and generates photoacoustic waves; and a photoacoustic wave detection unit that detects the photoacoustic waves. The photoacoustic measurement apparatus has, as an operation mode, a failure detection mode that drives the sub-light source and detects a failure of a photoacoustic wave generation unit including the light guide member and the light absorption member.

Abstract: Provided is an ultrasound imaging apparatus comprising: an image processing unit for connecting relevant blood flows and classifying the same into a plurality of blood flow trees on the basis of information on blood flow direction and blood flow velocity obtained from morphological information of a target object and three-dimensional blood flow data; a user input unit for receiving a user input which selects a blood flow tree, in which a target blood flow is included, from among the plurality of blood flow trees; and a display unit for displaying the selected blood flow tree on a three-dimensional rendering image on the basis of the user input.

Abstract: Ultrasound imaging at high spatial resolution that makes use of both magnitude and phase of echoes in an image reconstruction process that applies unique constraints to a fitting of echoes from the object of interest to echoes from an array of known scatterers.

Abstract: A cradle apparatus configured to detachably support an ultrasound diagnostic apparatus, the cradle apparatus including: a base portion configured to support a bottom portion of the ultrasound diagnostic apparatus; a back supporting portion extending from the base portion along an attaching/detaching direction of the ultrasound diagnostic apparatus, the back supporting portion being configured to support a back portion of the ultrasound diagnostic apparatus on a side opposite to a front portion of the ultrasound diagnostic apparatus, the front portion being provided with a display device; and a guide disposed in the back supporting portion and configured to be fitted with a rail provided in the back portion of the ultrasound diagnostic apparatus so as to allow the ultrasound diagnostic apparatus to slide along the attaching/detaching direction.

Abstract: The present disclosure provides systems and methods for measuring a concentration of a contrast agent using magnetic resonance imaging (MRI). The method includes acquiring pre- and post-contrast data from a volume of a subject, where the pre-contrast data is acquired before a contrast agent is administered and the post-contrast data is acquired after the contrast agent is administered. Pre- and post-contrast resonance frequency maps are then computed, where the pre-contrast frequency map is based on one or more pre-contrast resonance frequency values, and the post-contrast resonance frequency map is based on one or more post-contrast resonance frequency values. The pre- and post-contrast frequency maps are then used to generate a resonance frequency change map that is subsequently used to generate a contrast agent concentration map that indicates a concentration of the contrast agent that was present at each voxel in the volume at the second time.

Abstract: A method and ultrasound imaging system includes displaying a plurality of steps of a workflow on a touchscreen, graphically indicating one of the plurality of steps in the workflow, displaying a text instruction describing the one of the steps in the workflow on the touchscreen at the same time as displaying the plurality of steps, and displaying an ultrasound image on the main display at the same time as displaying the plurality of steps and the text description on the touchscreen. The method and system includes implementing the step described in the text instruction on the ultrasound image displayed on a main display.

Abstract: A system for navigating to a target, the system comprising an extended working channel having a lumen extending therethrough for receiving a tool, a computing device including a memory and at least one processor, a plurality of images stored in the memory, a program stored in the memory that, when executed by the at least one processor, presents a user interface. The user interface including, at least one image of the plurality of images depicting the target and a progression of the extended working channel through the airway, a probability treatment zone defining a probability distribution of a trajectory of the tool once deployed beyond an opening of the extended working channel displayed in the at least one image. The user interface is displayed on a display device.