Patents Examined by Unsu Jung
-
Patent number: 9176208Abstract: 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: October 21, 2014Date of Patent: November 3, 2015Assignee: MILLIKELVIN TECHNOLOGIES LLCInventor: Neal Kalechofsky
-
Patent number: 9173563Abstract: Portable optical coherence tomography (OCT) devices including at least one mirror configured to scan at least two directions are provided. The portable OCT devices are configured to provide a portable interface to a sample that can be aligned to the sample without repositioning the sample. Related systems are also provided.Type: GrantFiled: January 3, 2013Date of Patent: November 3, 2015Assignee: Bioptigen, Inc.Inventors: Eric L. Buckland, Joseph A. Izatt, William J. Brown
-
Patent number: 9173629Abstract: Certain embodiments provide an ultrasonic diagnostic apparatus including a data acquisition unit configured to acquire a plurality of spatially overlapping ultrasonic images or a plurality of temporarily consecutive ultrasonic images, a block extraction unit configured to extract, for each pixel, a block having a predetermined size and including each pixel as a central pixel for each of the plurality of ultrasonic images, a covariance calculation unit configured to calculate a covariance for each pixel of each of the plurality of ultrasonic images by using the block for each pixel, and a generating unit configured to generate a synthesized image using the plurality of ultrasonic images and to control a level of each pixel of the synthesized image based on a covariance of each pixel of each of the plurality of ultrasonic images.Type: GrantFiled: November 11, 2010Date of Patent: November 3, 2015Assignees: KABUSHIKI KAISHA TOSHIBA, Toshiba Medical Systems CorporationInventor: Ryota Osumi
-
Patent number: 9168022Abstract: An abdominal sonar includes an ultrasound transducer array with a plurality of ultrasound transducers. The abdominal sonar further includes at least one additional ultrasound transducer. A digital signal processor is communicatively connected to the plurality of ultrasound transducers and the at least one additional ultrasound transducer. The digital signal processor individually operates the plurality of ultrasound transducers and the at least one additional ultrasound transducer. The digital signal processor receives reflected ultrasound signals back from each of the plurality of ultrasound transducers and the at least one additional ultrasound transducer and converts the received reflected ultrasound signals into an audio signal. A system for monitoring a pregnancy includes an ultrasound transducer array and at least one additional ultrasound transducer. A digital signal processor is communicatively connected to the ultrasound transducer array and the at least one ultrasound transducer.Type: GrantFiled: January 7, 2011Date of Patent: October 27, 2015Assignee: General Electric CompanyInventors: Serguei Kabakov, Steven M. Falk, Karsten A. Russell-wood
-
Patent number: 9165119Abstract: Disclosed are systems and methods for power injectors incorporating a keep vein open functionality that is operable when an injection protocol (112) is suspended. The injector includes control logic (110) configured to include the injection protocol (112), and a separate drip mode injection protocol (114) executable only during a suspension of the injection protocol (112). In one embodiment, the drip mode injection protocol (114) is automatically or manually initiated immediately after and in response to the suspension of the injection protocol (112). In another embodiment, the drip mode injection protocol (114) is automatically initiated after a predetermined delay from start of the suspension of the injection protocol (112). The configuration parameters for the drip mode injection protocol (114) may be programmable prior to the initiation of an injection procedure, immediately prior to the execution of the drip mode injection protocol (114), or hard-coded into the injector.Type: GrantFiled: August 25, 2009Date of Patent: October 20, 2015Assignee: LIEBEL-FLARSHEIM COMPANY LLCInventor: Andrew H. Kasako
-
Patent number: 9155513Abstract: Systems and methods described herein determine an objective metric for analyzing health of a patient's liver. In some embodiments, the system may include a scanner that can detect radiation counts responsive to administration of radioactive compound to a patient. Further, the system may include an image detection module that can access image data responsive to the detected radiation counts by the scanner. The image detection module can programmatically identify a first region of interest corresponding to a liver of the patient from the image data. A parameter calculator module can programmatically determine a first attribute associated with the first region of interest and calculate a first parameter indicating health of the liver of the patient based at least in part on the first attribute associated with the first region of interest.Type: GrantFiled: July 16, 2014Date of Patent: October 13, 2015Assignee: HEPATIQ LLCInventors: Dipankar Ghosh, John Carl Hoefs
-
Patent number: 9157862Abstract: A medical examination device used for the detection of pre-cancerous and cancerous tissue has an illumination source, a visualization unit, a contacting optical probe, a detector and a process unit. One embodiment of the apparatus includes both a non-contacting macroscopic viewing device (the visualization unit) for visualizing an interior surface of the cervix, as well as a fiber optic wand (contacting optical probe) for spectrally analyzing a microscopic view of the tissue.Type: GrantFiled: May 9, 2012Date of Patent: October 13, 2015Assignee: REMICALM, LLCInventor: Andres Felipe Zuluaga
-
Patent number: 9157897Abstract: An ultrasound transmitter including intrinsic output zeroing is disclosed herein. A transmitter for generating ultrasound signals includes a first transmitter output driver and a first transmitter input driver. The first transmitter output driver includes an N-type device serially coupled to a P-type device. The first transmitter input driver includes an N-type device serially coupled to a P-type device. An output of the first transmitter input driver is coupled to an input of the first transmitter output driver. The first transmitter output driver drives an output of the transmitter to a first voltage and the first transmitter input driver drives the output of the transmitter to a second voltage while the first transmitter output driver is disabled.Type: GrantFiled: October 21, 2009Date of Patent: October 13, 2015Assignee: TEXAS INSTRUMENTS INCORPORATEDInventors: Ismail H. Oguzman, Arash Loloee, Suribhotla Rajasekhar, Karthik Vasanth
-
Patent number: 9155518Abstract: For a three-dimensional region including a treatment target site of a patient, a puncture needle scanning region R1 having a slice thickness d1 is set with reference to a cross section (a puncture cross section) including an insertion direction of a puncture needle. Subsequently, in the y-direction substantially perpendicular to the puncture cross section, two treatment target scanning regions R2 (R21 and R22) each being adjacent to the puncture needle scanning region R1 and having a slice thickness d2 are set. Then, based on volume data in the puncture needle scanning region R1 acquired by first three-dimensional scan with ultrasound waves and volume data in the treatment target scanning regions R2 acquired by second three-dimensional scan performed at a lower volume rate than the first three-dimensional scan, image data is generated for the purpose of supporting puncture.Type: GrantFiled: May 12, 2009Date of Patent: October 13, 2015Assignees: Kabushiki Kaisha Toshiba, Toshiba Medical Systems CorporationInventor: Hitoshi Yamagata
-
Patent number: 9155456Abstract: Provided is an in vivo examination apparatus including an illumination unit emitting two types of illumination light in different wavelength bands; and an image acquisition unit having sensitivity to the wavelength bands of the two types of illumination light. Blood and background tissue have higher reflectances than a predetermined threshold to illumination light in a first wavelength band, blood has a lower reflectance than the threshold to illumination light in a second wavelength band, and a condition (R1b/R1a)>(R2b/R2a) is satisfied, where R1a is the reflectance of the background tissue to the illumination light in the first wavelength band, R1b is the reflectance of the blood to the illumination light in the first wavelength band, R2a is the reflectance of the background tissue to the illumination light in the second wavelength band, and R2b is the reflectance of the blood to the illumination light in the second wavelength band.Type: GrantFiled: June 26, 2013Date of Patent: October 13, 2015Assignee: OLYMPUS CORPORATIONInventor: Yutaka Koshikawa
-
Patent number: 9155474Abstract: A confocal scanning system for the multispectral imaging of fluorescence from a tissue sample based on time domain mapping of spectral components of the fluorescence using coated fiber tips disposed on multimode optical fibers. A fiber grating spectrometer based on two serial arrays of coated fiber tips disposed on multi-mode fiber, and delay lines between them provide spectral slices of the florescence. The coated fiber tips are arranged such that the shortest wavelength spectral components are reflected first and the longest wavelength components last. Fiber-based delay lines delay the reflections from each successive fiber tip such that they are uniformly separated in time, and in the order of its spectral wavelength number. The spectral bins are used to colorize the images to show the presence of abnormal tissue at cellular spatial resolution. A second scan with increased laser flux can destroy the diseased tissue revealed by the first scan.Type: GrantFiled: August 14, 2013Date of Patent: October 13, 2015Assignee: Omega Optical, Inc.Inventors: Gary E. Carver, Sheetal K. Chanda, William A. Morrison, Sarah A. Locknar, Robert L. Johnson, Jr.
-
Patent number: 9155459Abstract: Methods and systems for endoscopic observation of tympanic function.Type: GrantFiled: March 11, 2008Date of Patent: October 13, 2015Assignee: Worcester Polytechnic InstituteInventors: Cosme Furlong, Saumil N. Merchant, John J. Rosowski
-
Patent number: 9146289Abstract: The present application discloses a technique for targeting therapeutic thermal energy to human tissue that is subject to displacement during a respiratory cycle using ARMA modeling. It discloses using an ARMA treatment of MRI tracking data of salient features of the tissue of interest to predict the spacial position of the portion of the tissue to be treated and using this prediction to guide the application of the thermal energy. It also discloses that this technique is particularly useful when the tissue of interest undergoes elastic deformation in a respiratory cycle and high energy focused ultrasound (HIFU) is used to ablate diseased tissue such as a cancerous tumor.Type: GrantFiled: December 23, 2009Date of Patent: September 29, 2015Assignee: General Electric CompanyInventors: Dattesh Dayanand Shanbhag, Thomas Kwok-Fah Foo, James Chapman Ross, Rekha Venkatesan Tranquebar, Siddharth Vikal
-
Patent number: 9138147Abstract: A method and apparatus of automatically locating in an image of a blood vessel the lumen boundary at a position in the vessel and from that measuring the diameter of the vessel. From the diameter of the vessel and estimated blood flow rate, a number of clinically significant physiological parameters are then determined and various user displays of interest generated. One use of these images and parameters is to aid the clinician in the placement of a stent. The system, in one embodiment, uses these measurements to allow the clinician to simulate the placement of a stent and to determine the effect of the placement. In addition, from these patient parameters various patient treatments are then performed.Type: GrantFiled: September 22, 2010Date of Patent: September 22, 2015Assignee: LIGHTLAB IMAGING, INC.Inventors: Joseph M. Schmitt, Joel M. Friedman, Christopher Petroff, Amr Elbasiony
-
Patent number: 9138194Abstract: An apparatus for use with an imaging device for imaging a portion of a patient during exertion by the patient. The apparatus may include a first anchor for opposing a force applied by the patient to the first anchor in response to flexing one or more muscles in the imaged portion of the patient. There may also be provided second anchors that assist in restricting motion of the patient in response to the force applied to the first anchor. A plurality of fiducial markings may be provided that are evident in the obtained image to define a reference in the image for determining a location of a region of interest within the portion of the patient relative to the fiducial markings. The region of interest may correspond to an indication of a condition or disease (e.g., exertional compartment syndrome).Type: GrantFiled: April 26, 2013Date of Patent: September 22, 2015Inventor: Joseph McGinley
-
Patent number: 9138202Abstract: According to one embodiment, an ultrasonic diagnosis apparatus includes an ultrasonic probe, an ultrasonic transmission/reception unit which generates echo signals associated with scan planes by transmitting and receiving ultrasonic waves to and from an object via the ultrasonic probe, an image data generating unit which generate tomogram data respectively corresponding to the scan planes based on the echo signals, a contour line extraction processing unit which extracts contour lines of a specific region from the plurality of tomograms, a contour line processing unit which generates curves respectively corresponding to the extracted contour lines, and a surface image generating unit which generates one-dimensional brightness trains on the curves from the tomograms and generates a surface image expressing the surface unevenness of the specific region with brightness changes by arraying the brightness trains in accordance with the positions of the corresponding scan planes.Type: GrantFiled: May 28, 2010Date of Patent: September 22, 2015Assignees: KABUSHIKI KAISHA TOSHIBA, Toshiba Medical Systems CorporationInventor: Naohisa Kamiyama
-
Patent number: 9134392Abstract: Timing in a medical imaging system. The system comprises a magnetic resonance imaging (MRI) subsystem and a non-MRI subsystem. Operation of the non-MRI subsystem involves a timing signal within a radio frequency (RF) cabin of the MRI subsystem. Basing each non-MRI subsystem timing signal on a time base common between the MRI subsystem and the non-MRI subsystem. The non-MRI subsystem can be a medical imaging subsystem. The non-MRI medical imaging subsystem can be a positron emission tomography (PET) subsystem. Each non-MRI subsystem timing signal that based on the common time base can be created using the same model of equipment used for creating timing signals in the MRI subsystem. At least one stage of the non-MRI subsystem timing signal based on the common time base can be created using the same equipment used for creating timing signals in the MRI subsystem.Type: GrantFiled: October 12, 2010Date of Patent: September 15, 2015Assignees: Siemens Medical Solutions USA, Inc., Siemens AktiengesellschaftInventors: James Frank Caruba, Ralf Ladebeck, Ralph Oppelt, Patanit Sanpitak
-
Patent number: 9134420Abstract: Provided is a three-dimensional (3D) ultrasound system and a 3D ultrasound system operating method that may obtain 3D ultrasound data with respect to an object inside a human body to determine an accurate sagittal view. The 3D ultrasound system may include a scanner to generate ultrasound data including image data generated by scanning an object inside a human body, a processing unit to detect a center point of the object from the generated ultrasound data, and to generate, on the ultrasound data, a virtual plane on which the detected center point is placed, and a controller to rotate the ultrasound data based on the image data included in the virtual plane and to determine a sagittal view with respect to the object.Type: GrantFiled: November 10, 2010Date of Patent: September 15, 2015Assignee: SAMSUNG MEDISON CO., LTD.Inventors: Kwang-Hee Lee, Sung-Yun Kim
-
Patent number: 9128032Abstract: A photoacoustic imaging apparatus is provided for medical or other imaging applications and also a method for calibrating this apparatus. The apparatus employs a sparse array of transducer elements and a reconstruction algorithm. Spatial calibration maps of the sparse array are used to optimize the reconstruction algorithm. The apparatus includes a laser producing a pulsed laser beam to illuminate a subject for imaging and generate photoacoustic waves. The transducers are fixedly mounted on a holder so as to form the sparse array. A photoacoustic (PA) waves are received by each transducer. The resultant analog signals from each transducer are amplified, filtered, and converted to digital signals in parallel by a data acquisition system which is operatively connected to a computer. The computer receives the digital signals and processes the digital signals by the algorithm based on iterative forward projection and back-projection in order to provide the image.Type: GrantFiled: June 11, 2010Date of Patent: September 8, 2015Assignee: MULTI-MAGNETICS INCORPORATEDInventors: Jeffrey J. L. Carson, Pinhas Ephrat, Lynn Keenliside, Michael Barret Roumeliotis
-
Patent number: 9125552Abstract: A module for attachment to a medical instrument to scan the anatomy with a beam of radiation. The module comprising a housing suitable for insertion in the anatomy that includes a window and a fastener to attach the housing to a medical instrument, an oscillating reflector within the housing that directs a beam of radiation onto the anatomy, and a collector to receive radiation returned from the anatomy.Type: GrantFiled: July 31, 2007Date of Patent: September 8, 2015Assignee: Ethicon Endo-Surgery, Inc.Inventors: Robert J. Dunki-Jacobs, Randal T. Byrum, Jane A. Sheetz, Sean P. Conlon, David C. Youmans, Robert M. Trusty, Kurt R. Bally, Gary L. Long, Paul G. Ritchie, Michael S. Cropper, Thomas W. Huitema, Bradley E. White