Abstract: A graphical visualization tool is disclosed that enables a user to graphically define multiple pre-scan volumes on a localizer image. The tool automatically determines appropriate shim values for both pre-scan volumes. Additionally, the tool displays the pre-scanned volumes on the localizer image such that the user knows that the slices/slabs for high resolution imaging are positioned in the region where the user wants the center frequency to lie.
Abstract: Vibration sources are applied to a body or other object to image a region of interest. The mechanical vibrations introduced by the sources interfere in the region of interest to produce a crawling wave, which is detected by an ultrasound probe A relationship between crawling wave phase derivatives and local shear wave velocity is derived with phase derivatives estimated using either one-dimensional (1D) or two-dimensional (2D) autocorrelation-based techniques to image the region of interest.
Abstract: A surgical navigation system for navigating a region of a patient that may include a non-invasive dynamic reference frame and/or fiducial marker, sensor tipped instruments, and isolator circuits. The dynamic reference frame may be placed on the patient in a precise location for guiding the instruments. The dynamic reference frames may be fixedly placed on the patient. Also the dynamic reference frames may be placed to allow generally natural movements of soft tissue relative to the dynamic reference frames. Also methods are provided to determine positions of the dynamic reference frames. Anatomical landmarks may be determined intra-operatively and without access to the anatomical structure.
Type:
Grant
Filed:
July 1, 2010
Date of Patent:
September 18, 2012
Assignee:
Medtronic Navigation, Inc.
Inventors:
Bradley A. Jascob, Scott Shaver, Todd Martens, Nadim Yared, Kirsten Boes, John H. Dukesherer, Mark W. Hunter
Abstract: A method of determining a three-dimensional (3D) position of a catheter tip includes: compensating a 2D position of the tip of the catheter for respiratory motion to generate a compensated 2D catheter position, generating weighted sample points around the compensated 2D catheter position, determining correspondent points of the weighted sample points in a 3D image, computing a weighted mean and a weighted covariance of each correspondent point, and determining the 3D position of the catheter tip in the 3D image from a fusion of the weighted means and weighted covariances.
Type:
Grant
Filed:
October 1, 2008
Date of Patent:
September 18, 2012
Assignee:
Siemens Aktiengesellschaft
Inventors:
Ali Khamene, Frederik Bender, Wolfgang Wein
Abstract: An apparatus, method and computer program product for performing computer aided diagnosis on temporal subtraction images of objects. A mode of a gray-level histogram is identified, and a gray-level threshold is established at a predefined fraction of this modal value. All pixels with gray levels below this threshold that lie within the lung regions of the temporal subtraction image remain “on,” while all other pixels are set to zero. Area and circularity requirements are imposed to eliminate false-positive regions. Areas of pathologic change identified in this manner may be presented as outlines in the subtraction image or as highlighted regions in the original radiographic image so that, in effect, temporal subtraction becomes a “background” process for computer-aided diagnosis. The present invention is also directed to method, apparatus, and computer program product for performing temporal subtraction on energy subtraction images, with or without subsequent computer aided diagnosis, of objects.
Abstract: To facilitate imaging of a patient two different image recording methods are to be carried out at the same time. An auxiliary fluid, for example a contrast medium or a tracer, may be introduced into the body in each image recording method. The invention proposes mixing the two auxiliary fluids in situ immediately before dispensing to the patient. For this purpose it provides an injector with which the auxiliary fluids may be mixed and supplied to the patient. Devices for controlling dispensing of fluid from containers connected to the injector to produce a mixed solution may be electronically controlled by a control unit which calculates the total quantities, and optionally sub-quantities, of auxiliary fluids, which are used for a mixed solution, before activating the devices.
Abstract: A method of diagnosing an obstructive lesion in the iliac venous system. The method includes the steps of identifying the presence of chronic venous disease from clinical evaluation alone of a patient, and without any further evaluation, undertaking an IVUS procedure on the patient to identify any non-thrombotic or thrombotic iliac vein lesions.
Abstract: Quantitative assessment of haemodynamics by cycled arterial spin labeling (CACL) that distinguishes between blood magnetization tagged by a specific labeling pulse, using a time series acquisition in which all measured data sets are used for reconstruction of each single time step, thereby reducing measurement time while maintaining signal-to-noise ration compared to conventional ASL.
Abstract: An ultrasonic imaging system has an ultrasonic probe which improves poor harmonic performance of existing transmit circuits through the use of a linear high-voltage transmit amplifier on each sub-channel to amplify low-voltage arbitrary shape transmit waveforms generated by the ultrasonic system. The linear high-voltage amplifier of the ultrasonic probe amplifies low-voltage arbitrary shape transmit waveforms beamformed by a micro-beamformer of the ultrasonic system.
Abstract: The disclosure provides a sensor system for detecting bronchial tissular water content including at least a sensor, a connector, and a monitor. The sensor generates a signal, which may be carried by the connector to the monitor, which generates an output corresponding to the signal. The disclosure additionally provides a sensor for detecting bronchial or tracheal tissular water content including at least a signal generator. The sensor may also include at least a segment of a connector. The disclosure also provides a method of measuring bronchial or tracheal tissular water content by inserting a sensor into an airway of a subject, such as a human, until it becomes lodged in a bronchus or the trachea, then measuring bronchial or tracheal tissular water content using the sensor.
Abstract: Embodiments of the present invention provide for a photoacoustic imaging probe for use in a photoacoustic imaging system, said probe comprising a cohesive composite acoustic lens incorporating aspheric geometry and exhibiting low or practically no measurable dispersion of acoustic waves constructed of at least one material with a low acoustic impedance and attenuation and a relatively low acoustic velocity and at least one other material with a low acoustic impedance and attenuation and a relatively high acoustic velocity is immersed in preferably a low acoustic velocity and low acoustic impedance fluid. The lens may be designed as a single cohesive composite telecentric lens, an acoustic zoom lens, or a catadioptric lens. The lens focuses acoustic waves on an acoustic imager which detects the image. The lens may be considered to be essentially monochromatic.
Abstract: In an illustrative embodiment, an apparatus for imaging a portion of a mammalian eyelid has an eye contact lenspiece configured to direct the light through an eyelid from posterior to anterior surface to thereby trans-illuminate the eyelid, when the light source illuminates the contact lens. An imaging device receives an image of the eyelid as it is trans-illuminated. Other methods and apparatus are presented in various embodiments, hence this abstract is not to be considered limiting, since other embodiments may deviate from the features described in this abstract.
Type:
Grant
Filed:
August 17, 2007
Date of Patent:
August 28, 2012
Assignee:
TearScience, Inc.
Inventors:
Benjamin T. Gravely, Stephen M. Grenon, Timothy R. Willis, John M. Jans, Donald R. Korb
Abstract: An image-guide therapy system comprises a thermal treatment device (e.g., an ultrasound transducer) configured for transmitting a therapeutic energy beam, and The system further comprises an imaging device (e.g., a magnetic resonant imaging (MRI) device) configured for acquiring images of the target tissue mass and the thermal treatment device. The system further comprises a controller configured for controlling thermal dose properties of the thermal treatment device to focus the energy beam on a target tissue mass located in an internal body region of a patient, and a processor configured for tracking respective positions of the thermal treatment device and the target tissue mass in a common coordinate system based on the acquired images. The system may optionally comprise a display configured for displaying the acquired images.
Abstract: According to an exemplary embodiment of the present invention, a cardiac roadmapping technique is provided, in which a static roadmap is built onto which a view of the intervention device is projected at the correct location. This new viewing mode combines the advantages of both roadmapping, i.e. accurate localization, and the advantages of a motion-free view, i.e. maximum readability.
Abstract: The present invention relates to a method of characterizing lung function in a subject in need of such characterization. The method comprises performing an imaging technique, on a voxel defined within a lung space of interest. Image data is generated over a time period during which the subject inhales gases with at least two different partial pressures of a paramagnetic gas. A compartmental model algorithm is applied to the image data generated for the voxel to provide information on ventilation, diffusion and perfusion of a lung. The paramagnetic gas is preferably Oxygen. The imaging technique is preferably Oxygen Enhanced Magnetic Resonance Imaging (OE-MRI).
Abstract: There is provided a first storage for storing digital reception beam data converted from a reception beam formed from an ultrasonic received signal; a first control component for controlling reading and writing of data from/in the first storage; a filter coefficient calculation portion for calculating a filter coefficient based on information on the reception beam, the information including a positional relationship between the reception beam and a transmission beam; and a first spatial filter operation portion for subjecting each of a plurality of the reception beam data including data of beams received in parallel from a single transmission beam to filtering processing for reducing a difference in image quality between adjacent beams based on the filter coefficient. Image data output from the first spatial filter operation portion are converted into scanning of a display monitor so as to display an image on the display monitor.
Abstract: A method of evaluating dry eye in humans wherein the flow of naturally occurring secretion to the eye is reduced or stopped due to the presence of an obstruction of a meibomian gland in the eyelid involves applying a pressure to the eyelid that mimics pressure applied during blinking; and simultaneously imaging the glands to diagnose the condition of the meibomian gland. This abstract is not to be considered limiting, since other embodiments may deviate from the features described in this abstract.
Type:
Grant
Filed:
September 29, 2006
Date of Patent:
August 21, 2012
Assignee:
TearScience, Inc.
Inventors:
Stephen M. Grenon, Timothy R. Willis, Benjamin T. Gravely, Donald R. Korb
Abstract: An electromagnetic tracking coil arrangement, comprising three co-planar electromagnetic sensors and a fourth electromagnetic sensor that is not co-planar with the three co-planar sensors, wherein the three co-planar electromagnetic sensors and the fourth electromagnetic sensor are each located at a vertex of a tetrahedron.
Abstract: A method of operating on volumetric imaging data representing organ anatomy includes determining whether a polyp location within a specified range from a viewing point is visible, or hidden by an anatomical feature, and marking the polyp as visible or hidden with a viewable indicator.
Type:
Grant
Filed:
August 5, 2005
Date of Patent:
August 21, 2012
Assignee:
Vital Images, Inc.
Inventors:
Samuel W. Peterson, Thomas J. Gleeson, Marek Brejl, Marguerite Kirkby
Abstract: Automated ultrasonic scanning of a chestwardly compressed breast of a supine patient uses a scanning assembly that moves down to compress the breast through a membrane that is secured to the assembly across a bottom opening. A motorized ultrasound transducer moves across the breast while the breast remains downwardly compressed against the patient's chest, sending and receiving ultrasound energy through the membrane. The membrane is porous with respect to an acoustic coupling liquid that impregnates it. The transducer outputs ultrasound information that is processed to form initial planar images and then reconstructed slice images of breast tissue.
Type:
Grant
Filed:
April 28, 2010
Date of Patent:
August 14, 2012
Assignee:
U-Systems, Inc.
Inventors:
Tor C. Anderson, Jiaya Chen, Shih-Ping Wang