Patents Examined by Patrick M Mehl
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Patent number: 11737731Abstract: There are provided an ultrasound diagnostic apparatus and an operation method of an ultrasound diagnostic apparatus capable of performing polarization processing during the execution period of ultrasound diagnosis without affecting the image quality of an ultrasound image. In the ultrasound diagnostic apparatus and the operation method of the ultrasound diagnostic apparatus of the invention, a trigger generation circuit generates a trigger for starting polarization processing. After a trigger is given, during the execution period of ultrasound diagnosis, in a non-diagnosis period which is a period other than a period for acquiring an image of each frame and during which transmission of ultrasound waves and reception of reflected waves for performing ultrasound diagnosis are not performed, within each frame time in which an image of each frame of an ultrasound image is acquired, a control circuit performs polarization processing on a plurality of ultrasound transducers.Type: GrantFiled: May 31, 2019Date of Patent: August 29, 2023Assignee: FUJIFILM CorporationInventors: Katsuya Yamamoto, Yasuhiko Morimoto, Satoru Okada
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Patent number: 11723722Abstract: A method for providing guidance in Cardiac Resynchronization Therapy (CRT) comprising: a) providing image data sets of the heart of a patient; b) creating a three-dimensional (3D) anatomical model of the cardiac structures; c) calculating myocardium infarct scar distribution; d) calculating heart mechanical activation data; e) superimposing the scar distribution and the mechanical activation data on the 3D anatomical model to obtain a 3D roadmap model including anatomical geometry and mechanical activation data. A corresponding device and computer program are also disclosed.Type: GrantFiled: July 12, 2018Date of Patent: August 15, 2023Assignee: Pie Medical Imaging B.V.Inventors: Jean-Paul Aben, Chris Bouwman
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Patent number: 11707225Abstract: In one embodiment, a health-monitoring system may access a waist-hip measurement of a user. The system may determine one or more stress-related parameters of the user using one or more computing devices. The system may determine one or more correlations between the waist-hip measurement and the one or more stress-related parameters of the user. The system may provide feedback to the user based on one or more of the one or more stress-related parameters or the determined correlations between the waist-hip measurement and the one or more stress-related parameters.Type: GrantFiled: April 27, 2018Date of Patent: July 25, 2023Assignee: Samsung Electronics Co., Ltd.Inventors: Fannie Fontanel, Jawahar Jain, Sajid Sadi
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Patent number: 11707329Abstract: The visualization method includes displaying three-dimensional image data of at least one anatomical feature of a patient, receiving user input of the target for placing an ablation needle in the at least one anatomical feature of the patient, determining the position and orientation of the ablation needle based on the user input, displaying an image of a virtual ablation needle in the three-dimensional image data of the at least one anatomical feature of the patient according to the determined position and orientation, receiving user input of parameters of operating the ablation needle, and displaying a three-dimensional representation of the result of operating the ablation needle according to the input parameters.Type: GrantFiled: August 12, 2019Date of Patent: July 25, 2023Assignee: Covidien LPInventors: Casey M. Ladtkow, Darion R. Peterson, Darren G. Girotto, Matthew A. Hemstreet, Ryan S. Goss, David W. Blue, Ryan Sohlden
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Patent number: 11707242Abstract: Methods are provided for dynamically visualizing information in image data of an object of interest of a patient, which include an offline phase and an online phase. In the offline phase, first image data of the object of interest acquired with a contrast agent is obtained with an interventional device is present in the first image data. The first image data is used to generate a plurality of roadmaps of the object of interest. A plurality of reference locations of the device in the first image data is determined, wherein the plurality of reference locations correspond to the plurality of roadmaps. In the online phase, live image data of the object of interest acquired without a contrast agent is obtained with the device present in the live image data, and a roadmap is selected from the plurality of roadmaps. A location of the device in the live image data is determined.Type: GrantFiled: January 10, 2020Date of Patent: July 25, 2023Assignee: Pie Medical Imaging B.V.Inventors: Theo van Walsum, Hua Ma, Jean-Paul Aben, Dennis Koehn
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Patent number: 11701089Abstract: In part, the invention relates to a probe suitable for use with image data collection system. The probe, in one embodiment, includes an optical transceiver, such as a beam director, and an acoustic transceiver such as an ultrasound transducer. The optical transceiver is in optical communication with an optical fiber in optical communication with a beam director configured to transmit light and receive scattered light from a sample such as a wall of a blood vessel. The acoustic transceiver includes an ultrasound device or subsystem such as a piezoelectric element configured to generate acoustic waves and receive reflected acoustic waves from the sample.Type: GrantFiled: February 4, 2013Date of Patent: July 18, 2023Assignee: LightLab Imaging, Inc.Inventors: Christopher Hutchins, Michael Atlas, Terence Barnes
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Patent number: 11704870Abstract: A system and method of generating a graphical representation of a network of a subject human brain. The method comprises receiving, via a user interface, a selection of the network of the subject brain; determining, based on an MRI image of the subject brain and one or more identifiers associated with the selection, one or more parcellations of the subject brain (405); determining, using three-dimensional coordinates associated with each parcellation, corresponding tracts in a diffusion tensor image of the brain (425); and generating a graphical representation of the selected network (430), the graphical representation including at least one of (i) one or more surfaces representing the one or more parcellations, each surface generated using the coordinates, and (ii) the determined tracts.Type: GrantFiled: September 21, 2021Date of Patent: July 18, 2023Assignee: Omniscient Neurotechnology Pty LimitedInventors: Michael Edward Sughrue, Stephane Philippe Doyen
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Patent number: 11701025Abstract: An imaging unit of an MRI apparatus performs imaging of a positioning image of a subject including a spine; a first imaging that images a cross section including the spine and extending along a longitudinal direction of the spine; and a second imaging that images a cross section in a direction of traversing the spine. An automatic cross-section position setting unit detects a specific tissue of the spine using a scout image or an image including the spine acquired in the first imaging step, performs a matching process between the detected specific tissue of the spine and a spine model, and calculates an imaging cross-section position of the second imaging based upon a specific tissue position of the spine specified by matching, thereby performing automatic setting.Type: GrantFiled: April 16, 2019Date of Patent: July 18, 2023Assignee: FUJIFILM Healthcare CorporationInventors: Suguru Yokosawa, Hisaaki Ochi, Yoshimi Noguchi, Kenta Sakuragi, Hisako Nagao, Kuniaki Harada
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Patent number: 11701003Abstract: A pulse signal corresponding to rotation of an imaging core is input, and a repetition frequency of the input pulse signal is converted in accordance with the number of radially-aligned lines of an ultrasound tomographic image. Based on the pulse signal of which the repetition frequency has been converted, a drive signal for an ultrasound transceiver is generated to obtain an ultrasound tomographic image with the number of lines. A valid pulse is determined in accordance with the number of lines from the pulse signal of which the repetition frequency has been converted. A signal having a pulse train selected, based on the valid pulse from a pulse signal representing a cycle of a light source of light for interfering with the light from an optical transceiver is generated as a pulse signal representing a timing of sampling of an optical coherence signal for generating an optical tomographic image.Type: GrantFiled: September 25, 2018Date of Patent: July 18, 2023Assignee: TERUMO KABISHIKI KAISHAInventor: Ryo Uehara
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Patent number: 11701024Abstract: An automatic clipping technique capable of satisfactorily extracting blood vessels to be extracted is provided. A specific tissue extraction mask image which is created by extracting a specific tissue (for example, a brain) from a three-dimensional image acquired by magnetic resonance angiography and a blood vessel extraction mask image which is created by extracting a blood vessel from an area (a blood vessel search area) which is determined using a preset landmark position and the specific tissue extraction mask image are integrated to create an integrated mask. By applying the integrated mask to the three-dimensional image, a blood vessel is clipped from the three-dimensional image.Type: GrantFiled: April 15, 2019Date of Patent: July 18, 2023Assignee: FUJIFILM Healthcare CorporationInventors: Toru Shirai, Suguru Yokosawa, Hisako Nagao, Yasuhide Yoshida, Yasuo Kawata, Kuniaki Harada
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Patent number: 11690950Abstract: Methods and systems are provided for adaptive scan control. In one embodiment, a method includes upon a first contrast injection, processing acquired projection data of a subject to measure a contrast signal of the first contrast injection, estimating a time when a venous return to baseline (VRTB) of the first contrast injection is to occur based on the contrast signal, and commanding initiation of a second contrast injection at the estimated time.Type: GrantFiled: November 1, 2019Date of Patent: July 4, 2023Assignee: GE Precision Healthcare LLCInventors: Michael Sarju Vaz, Nitya Talasila, Bradley Gabrielse, Ryan Forbes, David Joseph Pitterle, Yasu Omi, Chelsey Amanda Lewis
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Patent number: 11690676Abstract: The invention relates to an assisting apparatus (2) for assisting a user in moving an insertion element (11) like a catheter to a target element within, for instance, a person (8). A target element representation representing the target element within the object in its three-dimensional position and three-dimensional orientation and with its size is generated based on a provided target element image. Moreover, a three-dimensional position of the insertion element is tracked, while the insertion element is moved to the target element, and the target element representation and the tracked position of the insertion element are displayed. The three-dimensional position and orientation of the target element relative to the actual position of the insertion element can therefore be shown to the user, while the insertion element is moved to the target element, which allows the user to more accurately and faster move the insertion element to the target element.Type: GrantFiled: May 21, 2014Date of Patent: July 4, 2023Assignee: KONINKLIJKE PHILIPS N.V.Inventor: Laurent Verard
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Patent number: 11620772Abstract: A system may transform sensor data from a sensor domain to an image domain using data-driven manifold learning techniques which may, for example, be implemented using neural networks. The sensor data may be generated by an image sensor, which may be part of an imaging system. Fully connected layers of a neural network in the system may be applied to the sensor data to apply an activation function to the sensor data. The activation function may be a hyperbolic tangent activation function. Convolutional layers may then be applied that convolve the output of the fully connected layers for high level feature extraction. An output layer may be applied to the output of the convolutional layers to deconvolve the output and produce image data in the image domain.Type: GrantFiled: September 1, 2017Date of Patent: April 4, 2023Assignee: The General Hospital CorporationInventors: Matthew S. Rosen, Bo Zhu, Bruce R. Rosen
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Patent number: 11564735Abstract: A needle electrode deployment shaft includes a central member and a plurality of needle electrodes. The central member has a plurality of needle advancement channels formed therein. The needle electrodes are disposed within the advancement channels and each advancement channel terminates in a ramp portion which deflects the needles radially outwardly as they are axially advanced. The ramps may be spirally or acutely configured in order to increase the distance through which the needles may be bent as they are axially advanced. Additionally, the central member may have a radially reduced distal tip in order to decrease tissue insertion forces.Type: GrantFiled: May 20, 2019Date of Patent: January 31, 2023Assignee: Gynesonics, Inc.Inventors: Brian Placek, Robert K. Deckman
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Patent number: 11540796Abstract: Embodiments discussed herein facilitate generation of a prognosis for recurrence or non-recurrence of atrial fibrillation (AF) after pulmonary vein isolation (PVI). A first set of embodiments discussed herein relates to training of a machine learning classifier to determine a prognosis for AF after PVI based on radiographic images, alone or in combination with clinical features. A second set of embodiments discussed herein relates to determination of a prognosis for a patient for AF after PVI based on radiographic images, alone or in combination with clinical features.Type: GrantFiled: March 25, 2019Date of Patent: January 3, 2023Assignees: Case Western Reserve University, The Cleveland Clinic FoundationInventors: Anant Madabhushi, Michael LaBarbera, Thomas Atta-Fosu, Mina Chung
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Patent number: 11511138Abstract: A method of removing microvessels includes applying a burst of acoustic energy at a target location, applying a pulse of optical energy at the target location, and promoting cavitation at the target location. The burst of acoustic energy has a pressure below 5.0 MPa. The pulse of optical energy at the target location has a fluence less than 100 mJ/cm2. At least a portion of the pulse is concurrent with the burst and the optical energy has an optical area that is overlapping with an acoustic area of the acoustic energy at the target location.Type: GrantFiled: May 2, 2017Date of Patent: November 29, 2022Assignee: University of KansasInventors: Xinmai Yang, Xueding Wang, Yannis M. Paulus
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Patent number: 11481902Abstract: A device and method for detecting cerebral microbleeds use magnetic resonance images. The disclosed device includes a preprocessing unit that normalizes an SWI image and a phase image, respectively, of the magnetic resonance images, and performs phase image conversion for inverting a code of the normalized phase image, a YOLO neural network module that receives a two-channel image in which the preprocessed SWI image and phase image are concatenated and detects a plurality of candidate regions for the cerebral microbleeds, and a cerebral microbleeds determination neural network module that receives patch images of candidate regions of the SWI image and phase image based on the candidate regions and determines whether the patch images of each candidate region are an image with a symptom of the cerebral microbleeds through a neural network operation.Type: GrantFiled: July 13, 2021Date of Patent: October 25, 2022Assignee: Heuron Co., Ltd.Inventors: Dong Hyun Kim, Sang Hyeok Choi, Mohammed Al-Masni, Young Noh, Eung Yeop Kim
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Patent number: 11445923Abstract: A blood vessel cross-section function, a blood vessel pressure difference, and blood vessel stress may be established. A method for establishing a blood vessel cross-section function may include: obtaining image data in at least one cardiac cycle; selecting multiple feature times during the one cardiac cycle; generating spatial models of a target region blood vessel corresponding to each of the feature times according to the image data; establishing a first cross-section model of the target region blood vessel at each position along an axial direction of the target region blood vessel according to each of the spatial models; and establishing a corresponding first cross-section function according to each first cross-section model. Actual conditions of blood vessels may be reflected more accurately, and may provide an intermediate variable with less error for subsequent analysis operations, so that the later calculated value is closer to the actual value.Type: GrantFiled: February 28, 2019Date of Patent: September 20, 2022Assignee: Shanghai Pulse Medical Technology, Inc.Inventors: Shengxian Tu, Jiayue Huang, Jingfeng Han
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Patent number: 11443427Abstract: In some embodiments, spinal disc degeneracy is diagnosed according to a decay variance map generated by determining a variance in T2 decay over time within each pixel or pixel subset of an MRI image. A region of interest may be defined as including nucleus pulposus (NP) and annulus fibrosus (AF) areas, and excluding cartilaginous endplate (EP) areas of a disc. A decay variance for a pixel or groups of pixels is calculated by determining ratios between consecutive intensity values of the T2 signal, determining differences between consecutive ratios, and summing the absolute values of the determined differences. Decay variance mapping may be used to diagnose degeneracy in other tissues, such as in joints.Type: GrantFiled: November 19, 2021Date of Patent: September 13, 2022Assignee: MERUNOVA PTY LTD.Inventors: Kyle Sheldrick, Ashish Diwan
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Patent number: 11439316Abstract: The present invention relates to implantable resonator systems for deep-tissue EPR oximetry and methods of using thereof. The implantable resonator of the present disclosure includes a resonator with an implantable end, a transmission line, and an external end, wherein the external end further includes a coupling loop operably connected to a coupling device. The coupling device includes a clamping mechanism to ensure proper alignment of the coupling loop. The implantable resonator may be used to monitor a tissue.Type: GrantFiled: January 6, 2022Date of Patent: September 13, 2022Assignee: CLIN-EPR LLCInventors: Harold M. Swartz, Ann Barry Flood, Wilson Schreiber