Patents Examined by Parikha Mehta
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Patent number: 9192359Abstract: Vector Doppler Imaging (VDI) improves on conventional Color Doppler Imaging (CDI) by giving speed and direction of blood flow at each pixel of a display generated by a computing system. Multiple angles of Plane wave transmissions (PWT) via an ultrasound transducer conveniently give projected Doppler measurements over a wide field of view, providing enough angular diversity to identify velocity vectors in a short time window while capturing transitory flow dynamics. A fast, aliasing-resistant velocity vector estimator for PWT is presented, and VDI imaging of a carotid artery with a 5 MHz linear array is shown using a novel synthetic particle flow visualization method.Type: GrantFiled: October 19, 2012Date of Patent: November 24, 2015Assignee: VERASONICS, INC.Inventors: John Flynn, Ronald Elvin Daigle
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Patent number: 9173634Abstract: A fatty tissue image display device includes a light source, an ultrasonic wave transmission/reception mechanism, an analysis unit which calculates a velocity change of ultrasonic waves after irradiation with a heating beam as compared to before irradiation with light, a display control unit which displays the distribution of the calculated velocity change of the ultrasonic waves, a designation unit which waits for the designation of a region of interest, a histogram calculation unit which, based on luminance information or color information within the designated region of interest, calculates the histograms of a fatty region showing a negative velocity change of the ultrasonic waves and a normal region showing a positive velocity change of the ultrasonic waves, and an index calculation unit which, from the calculated histograms of the fatty and normal regions, calculates a fatty change index that is an index of a proportion of fatty tissue.Type: GrantFiled: March 25, 2011Date of Patent: November 3, 2015Assignees: OSAKA PREFECTURE UNIVERSITY PUBLIC CORPORATION, ADVANTEST CORPORATIONInventors: Toshiyuki Matsunaka, Hiromichi Horinaka, Hiroyasu Morikawa, Tomohiro Ogawa
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Patent number: 9157979Abstract: A magnetic resonance imaging (MRI) system includes at least one controller configured to first acquire at least MRI locator image data for different portions of patient anatomy at each of different imaging stations for a defined multi-station locator sequence. An operator may interface with a respectively corresponding displayed locator image for each imaging station to set diagnostic scan sequence parameters for subsequent diagnostic MRI scans of corresponding portions of patient anatomy. Diagnostic MRI scan data is automatically acquired at each of the imaging stations in a multi-station diagnostic scan sequence that, if desired, can be seamlessly continued without operator interruption once begun.Type: GrantFiled: May 2, 2011Date of Patent: October 13, 2015Assignee: TOSHIBA MEDICAL SYSTEMS CORPORATIONInventors: Mitsue Miyazaki, Katsumi Nakamura, Akiyoshi Yamamoto
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Patent number: 9107630Abstract: An ultrasound breast imaging assembly includes first and second compression plates angled with respect to one another, a breast compression area defined between the first and second compression plates, at least one pivot assembly, and an ultrasound probe. The pivot assembly allows relative motion between the first and second compression plates. The ultrasound probe, which is configured to translate over one of the first and second compression plates, includes an active matrix array (AMA) positioned on one of the first and second compression plates.Type: GrantFiled: April 16, 2010Date of Patent: August 18, 2015Assignee: GENERAL ELECTRIC COMPANYInventors: Heidi D. Zhang, Robert F. Lawrence, Gilbert M. Lima, Steven C. Miller, Anne L. Hall
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Patent number: 9092895Abstract: A system and method for soft-field reconstruction are provided. One method includes establishing an initial estimate of a property distribution of an object, using a first reconstruction process to reconstruct an estimate of the actual property distribution and using a second reconstruction process different than the first reconstruction process to further reconstruct the estimate of the actual property distribution. A solution from the first reconstruction process is used as an initial estimate in the second reconstruction process.Type: GrantFiled: December 20, 2010Date of Patent: July 28, 2015Assignee: General Electric CompanyInventors: Alexander Seth Ross, Veera Venkata Lakshmi Rajesh Langoju
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Patent number: 9078993Abstract: Systems, devices, and methods for locating a geometric plane within a patient's vasculature, for example, an entry plane to a valve, are disclosed. In one example, a medical device can include a body member and an expandable element. The body member can extend along a longitudinal axis of the medical device and at least partially define a lumen. The body member can include at least one opening disposed in fluid communication with the lumen. The expandable element can include at least two radiographic markers and can be movable between at least a first configuration and a second configuration. The at least two radiographic markers can be disposed within the lumen when the expandable element is in the first configuration. The at least two radiographic members can be disposed outside of the lumen and can be radially offset from the longitudinal axis when the expandable element is in the second configuration.Type: GrantFiled: November 1, 2012Date of Patent: July 14, 2015Assignee: Vascular Solutions, Inc.Inventor: Curtiss T Stinis
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Patent number: 9039621Abstract: Disclosed are various embodiments for echoperiodontal imaging. In one embodiment, a system includes a transducer configured to transmit a series of ultrasonic signals at a plurality of corresponding locations along soft tissue of a jaw and receive a plurality of echo signals; and an imaging system controller configured to obtain a plurality of echo signal data of the soft tissue and a plurality of transducer positions, where each echo signal data corresponds to one of the plurality of transducer position.Type: GrantFiled: July 27, 2012Date of Patent: May 26, 2015Assignee: THE UNITED STATES OF AMERICA NATIONAL INSTITUTES OF HEALTH (NIH), U.S. DEPT. OF HEALTH AND HUMAN SERVICES (DHHS), NIH DIVISION OF EXTRAMURAL INVENTIONS AND TECHNOLOGY RESOURCES (DEITR)Inventors: Osama M. Mukdadi, Ahmed M. Mahmoud, Eros S. Chaves, Richard Crout
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Patent number: 9033885Abstract: Systems and methods for ablating tissue include an ablation device having an energy source and a sensor. The energy source provides a beam of energy directable to target tissue, and the sensor senses energy reflected back from the target tissue. The sensor collects various information from the target tissue in order to facilitate adjustment of ablation operating parameters, such as changing power or position of the energy beam. Gap distance between the energy source and target tissue, energy beam incident angle, tissue motion, tissue type, lesion depth, etc. are examples of some of the information that may be collected during the ablation process and used to help control ablation of the tissue.Type: GrantFiled: October 30, 2009Date of Patent: May 19, 2015Assignee: VYTRONUS, INC.Inventors: Hira V. Thapliyal, David A. Gallup, James W. Arenson
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Patent number: 9014785Abstract: The present disclosure provides various methods and systems for performing magnetic resonance studies. In accordance with many embodiments, image or other information of interest is derived from super radiant pulses.Type: GrantFiled: February 24, 2014Date of Patent: April 21, 2015Assignee: Millikelvin Technologies LLCInventors: Neal Kalechofsky, Mirko Hrovat
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Patent number: 9008751Abstract: A method of producing volume renderings from magnetic resonance image data in real time with user interactivity. The method comprises collecting raw magnetic resonance image (MRI) data representative of shapes within an image volume; transferring the raw MRI data to a computer; and continuously producing volume renderings from the raw MRI data in real time with respect to the act of collecting raw MRI data representative of shapes within the image volume.Type: GrantFiled: November 28, 2011Date of Patent: April 14, 2015Assignee: The United States of America, as represented by the Secretary, Department of Health & Human ServicesInventors: Michael Guttman, Elliot R. McVeigh
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Patent number: 9002431Abstract: An MRI antenna array including a housing and a substrate, antenna elements and circuitry encapsulated by the housing. The housing, antenna elements, and substrate are flexible to allow the housing to distort in three dimensions to closely conform to contours of a patient. The antenna elements are mounted to the substrate in a manner that permits each element to maintain a desired resonance when the housing is distorted in three dimensions. The circuitry is electrically coupled with the antenna elements to maintain tuning and isolation of the elements when the housing is distorted in three dimensions. The housing, antenna elements, and substrate may be elastic to allow the housing to be worn by a plurality of different sized patients so that the housing is in close contact with the patient and conforms to contours of the patient.Type: GrantFiled: November 21, 2012Date of Patent: April 7, 2015Assignee: ScanMed, LLCInventor: Randall W. Jones
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Patent number: 8942790Abstract: An optical spectroscopic injection needle assembly. According to one embodiment, the assembly may include an injection needle, a light source, a spectrometer, a computer and an indicator. The injection needle, in turn, may include a hollow outer needle, a hollow inner needle, a pair of optical fibers, an inner catheter, an outer catheter, an inner hub and an outer hub. The proximal end of the outer needle may be fixedly mounted within the distal end of the inner catheter. The distal end of the inner hub may be fixedly mounted on the proximal end of the inner catheter, the proximal end of the inner hub being suited for connection to a syringe. The inner needle, as well as the distal ends of the optical fibers, may be positioned within the outer needle and may be held in place by an optical bonding material. The proximal ends of the optical fibers may extend from a side arm of the inner hub, one fiber may be coupled to the light source, the other fiber may be coupled to the spectrometer.Type: GrantFiled: January 15, 2014Date of Patent: January 27, 2015Assignee: Boston Scientific Scimed, Inc.Inventor: Malka S. Berndt
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Patent number: 8923953Abstract: A medical examination apparatus including a control unit, an image-generating modality and a controllable injection apparatus for a contrast agent is provided. The control unit is connected to an alarm signal emitter and the control unit switches the modality and the injection apparatus to a safe mode as a function of an alarm signal.Type: GrantFiled: October 25, 2012Date of Patent: December 30, 2014Assignee: Siemens AktiengesellschaftInventors: Stefan Assman, Björn Heismann, Reto Merges, Markus Schmidt, Sebastian Schmidt, Kera Westphal
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Patent number: 8905932Abstract: Vascular conditions are detected non-invasively in the human body using a collection of information from small local regions of the vasculature. An array of accelerometers or other sensors are attached to the head or other points of interest of a patient and blood flow sounds are recorded. Vibration signatures of vessel structures such as branches, aneurysms, stenosis, etc. using random, periodic, band limited or transient analysis provides a library for further processing. The signature library is used to localize the origin of the recognized vascular feature, and the localized feature is presented to the physician in a clinically relevant manner.Type: GrantFiled: August 17, 2007Date of Patent: December 9, 2014Assignee: Jan Medical Inc.Inventors: Paul A. Lovoi, Kieran Murphy, Jeff Jarvela, Pete Neild, John Thomas, Ray Schumacher
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Patent number: 8909325Abstract: A system for calculating a position of a radioactivity emitting source in a system-of-coordinates, the system comprising (a) a radioactive emission detector; (b) a position tracking system being connected to and/or communicating with the radioactive emission detector; and (c) a data processor being designed and configured for receiving data inputs from the position tracking system and from the radioactive emission detector and for calculating the position of the radioactivity emitting source in the system-of-coordinates.Type: GrantFiled: July 11, 2001Date of Patent: December 9, 2014Assignee: Biosensors International Group, Ltd.Inventors: Yoav Kimchy, Roni Amrami, Yona Bouskila, Udi Antebi, Nick Sidorenko, Gal Ben-David, Yoel Zilberstein
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Patent number: 8892190Abstract: Method for assessing the patency of a patient's blood vessel, advantageously during or after treatment of that vessel by an invasive procedure, comprising administering a fluorescent dye to the patient; obtaining at least one angiographic image of the vessel portion; and evaluating the at least one angiographic image to assess the patency of the vessel portion. Other related methods are contemplated, including methods for assessing perfusion in selected body tissue, methods for evaluating the potential of vessels for use in creation of AV fistulas, methods for determining the diameter of a vessel, and methods for locating a vessel located below the surface of a tissue.Type: GrantFiled: March 13, 2012Date of Patent: November 18, 2014Assignee: National Research Council of CanadaInventors: John C. Docherty, Mark Hewco, Gurpreet Mangat, Robert W. Flower, Seshadri M. Chari
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Patent number: 8892192Abstract: An apparatus for turbid sample measurement comprising a plurality of light sources for illuminating a turbid sample target area with non-spatial structured light, a projection system for illuminating the turbid sample target area with spatial structured light, a sensor for collecting light from the turbid sample target area, and a processor to analyze the data captured by the sensor to yield scattering and absorption coefficients of the turbid sample. A method comprises illuminating the sample with spatial structured light, collecting light reflected from the sample at a number of wavelengths, illuminating the sample with non-spatial structured light, collecting light reflected from the sample at a number of wavelengths, and combining the measurements of the collected light to obtain the optical properties of the sample and/or the concentration of absorbing or fluorescent molecules. The wavelengths of the spatial and non-spatial light sources are preferably different.Type: GrantFiled: November 7, 2013Date of Patent: November 18, 2014Assignee: Modulated Imaging, Inc.Inventors: David Cuccia, Amaan Mazhar
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Patent number: 8874192Abstract: Evaluating tissue characteristics including identification of injured tissue or alteration of the ratios of native tissue components such as shifting the amounts of normal myocytes and fibrotic tissue in the heart, identifying increases in the amount of extracellular components or fluid (like edema or extracellular matrix proteins), or detecting infiltration of tumor cells or mediators of inflammation into the tissue of interest in a patient, such as a human being, is provided by obtaining a first image of tissue including a region of interest from a first acquisition, and obtaining a second image of the tissue including the region of interest during a second, subsequent acquisition. The subsequent acquisition may be obtained after a period of time to determine if injury has occurred during that period of time. Such a comparison may include comparison of mean, average characteristics, histogram shape, such as skew and kurtosis, or distribution of intensities within the histogram.Type: GrantFiled: August 7, 2013Date of Patent: October 28, 2014Assignee: Wake Forest University Health SciencesInventors: William Gregory Hundley, Craig A. Hamilton, Kimberly Lane, Tim Morgan, Frank Torti
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Patent number: 8858446Abstract: According to one embodiment, a color Doppler ultrasonic diagnosis apparatus includes an ultrasonic probe, a transmission/reception unit, a quadrature phase detection unit configured to perform quadrature phase detection of an output from the transmission/reception unit, a filter unit configured to perform first orthogonal transformation for an output from the quadrature phase detection unit in a depth direction, perform second orthogonal transformation for a result obtained by the first orthogonal transformation in an ensemble direction, apply a two-dimensional filter to obtained frequency data to extract a blood flow component from the frequency data, and sequentially perform inverse transformation of the second orthogonal transformation and inverse transformation of the first orthogonal transformation for an output from the two-dimensional filter, and a blood flow component information calculation unit configured to calculate blood flow component information based on an output from the filter unit.Type: GrantFiled: December 17, 2010Date of Patent: October 14, 2014Assignees: Kabushiki Kaisha Toshiba, Toshiba Medical Systems CorporationInventor: Takeshi Sato
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Patent number: 8847718Abstract: Described herein are rotary transformers for coupling signals between components that rotate relative to one another. In an exemplary embodiment, a rotary transformer comprises a rotary shaft, a first magnetic core on the rotary shaft, and a first winding wound around the first magnetic core. The rotary transformer farther comprises a hollow second magnetic core, and a second winding wound along the inner wall of the second magnetic core. During operation, the first winding on the rotary shaft rotates within the second winding with the magnetic cores magnetically coupling signals between the two windings. Also, the first and second windings are closely spaced to provide capacitive coupling between the windings that extends the frequency response of the transformer. In one embodiment, the windings comprises substantially flat conductors wound in the shape of the windings. In another embodiment, each of the windings comprises circular loops connected by jogs.Type: GrantFiled: February 15, 2013Date of Patent: September 30, 2014Assignee: Boston Scientific Scimed, Inc.Inventors: Donald Masters, Stuart L. Carp, Peter Thornton