Patents Examined by Dixomara Vargas
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Patent number: 11850075Abstract: Aspects relate to providing radio frequency components responsive to magnetic resonance signals. According to some aspects, a radio frequency component comprises at least one coil having a conductor arranged in a plurality of turns oriented about a region of interest to respond to corresponding magnetic resonant signal components. According to some aspects, the radio frequency component comprises a plurality of coils oriented to respond to corresponding magnetic resonant signal components. According to some aspects, an optimization is used to determine a configuration for at least one radio frequency coil.Type: GrantFiled: July 10, 2020Date of Patent: December 26, 2023Assignee: Hyperfine Operations, Inc.Inventors: Michael Stephen Poole, Gregory L. Charvat, Todd Rearick, Jonathan M. Rothberg
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Patent number: 11854189Abstract: A method for compiling a dental overview map of the dentition of an examination object on the basis of magnetic resonance (MR) data from a MR measurement of the dentition. Performing an MR measurement for acquiring MR data from the dentition. Performing an analysis of sections of the dentition in order to determine an abnormality on the basis of the MR data, wherein a section of the dentition includes a subset of the number of teeth in the dentition, and determining an abnormality in at least one section. Compiling a dental overview map as a function of the MR data and the abnormality of the at least one section of the dentition. Providing the dental overview map.Type: GrantFiled: November 25, 2020Date of Patent: December 26, 2023Assignee: Siemens Healthcare GmbHInventors: Andreas Greiser, Lars Lauer, Rene Kartmann, David Grodzki, Mario Zeller
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Patent number: 11841406Abstract: A magnetic resonance tomograph and a method for operating a magnetic resonance tomograph. In a transmitting state of the magnetic resonance tomograph nuclear spins are excited in an object under examination with an excitation pulse by a high-frequency unit of the magnetic resonance tomograph via a transmitting antenna. The magnetic resonance tomograph is switched over from the transmitting state to a receiving state in a period of less than 40 microseconds. In a further step, in the receiving state, a magnetic resonance signal is received with a receiving antenna.Type: GrantFiled: December 7, 2021Date of Patent: December 12, 2023Assignee: Siemens Healthcare GmbHInventor: Stephan Biber
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Patent number: 11819310Abstract: An optical probe assembly as a confocal endomicroscope includes an optical focusing stage that focuses an output beam onto a sample and a mirror scanning stage that is movable for scanning the output beam in both a lateral two dimensional plane and an axial direction, using a side-view configuration. The side-view configuration allows for output beam illumination and fluorescent imaging of the sample with greater imaging resolution and improved access to hard to reach tissue within a subject.Type: GrantFiled: July 24, 2018Date of Patent: November 21, 2023Assignee: THE REGENTS OF THE UNIVERSITY OF MICHIGANInventors: Thomas D. Wang, Xiyu Duan, Haijun Li
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Patent number: 11815575Abstract: A MRI device including a main field unit for establishing a main magnetic field (MF) in an imaging region, a gradient coil assembly for generating a gradient field in the imaging region, a RF arrangement for sending excitation signals to and receiving MR signals from the imaging region, a field camera for determining MF information in the imaging region, the field camera comprising multiple MF sensors arranged at measurement positions enclosing the imaging region, and a controller. The controller is configured to receive sensor data for each measurement positions, from the sensor data, calculate the MF information for the imaging region, and implement a calibration and/or correction measure depending on the MF information. The field camera may be a vector-field camera acquiring vector-valued sensor data describing the MF at each measurement positions three-dimensionally. The controller may determine the MF information to three dimensionally describe the MF in the imaging region.Type: GrantFiled: February 7, 2022Date of Patent: November 14, 2023Assignee: Siemens Healthcare GmbHInventor: Stefan Popescu
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Patent number: 11802927Abstract: Quantitative susceptibility mapping methods, systems and computer-accessible medium include generating images of tissue magnetism property from complex magnetic resonance imaging data using the Bayesian inference approach. The tissue magnetism images is then used to monitor remyelination, such as remyelination in multiple sclerosis patients in response to therapy. Multiple sclerosis lesions defined on magnetic resonance imaging are further characterized on tissue magnetism images into hyperintense, isointense and hypointense parts for measuring remyelination. Thus, magnetic susceptibility information and other tissue properties associated with at least one structure are determined.Type: GrantFiled: March 4, 2022Date of Patent: October 31, 2023Assignee: Cornell UniversityInventors: Reza Rahmanzadeh, Cristina Granziera, Yi Wang, Riccardo Galbusera
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Patent number: 11796616Abstract: A method of performing multidimensional magnetic resonance imaging on a subject comprises collecting imaging data for a region of interest of the subject, the imaging data related to one or more spatially-varying parameters of the subject within the region of interest; collecting auxiliary data for the region of interest in the subject, the auxiliary data related to one or more time-varying parameters of the subject within the region of interest; linking the imaging data and the auxiliary data; and constructing an image tensor with one or more temporal dimensions based on at least a portion of the linked imaging data and at least a portion of the linked auxiliary data.Type: GrantFiled: May 28, 2021Date of Patent: October 24, 2023Assignee: CEDARS-SINAI MEDICAL CENTERInventors: Debiao Li, Anthony Christodoulou, Zhaoyang Fan, Zixin Deng, Nan Wang, Zhengwei Zhou, Sen Ma, Christopher Nguyen, Yibin Xie, Jaime Shaw
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Patent number: 11786222Abstract: Systems and methods for triggering the acquisition of elastography measurements based on motion data are disclosed. Motion data may be acquired by Doppler mode imaging in some embodiments. The motion data may be used to generate a trigger signal. The trigger signal may be provided to a transmit controller. The transmit controller may cause an ultrasound transducer to acquire elastography measurements responsive to the trigger signal.Type: GrantFiled: April 17, 2020Date of Patent: October 17, 2023Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Francois Guy Gerard Marie Vignon, Carolina Amador Carrascal, Seungsoo Kim
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Patent number: 11786124Abstract: Described herein is an implantable device comprising a radiation-sensitive element (such as a transistor) configured to modulate a current as a function of radiation exposure to the transistor; and an ultrasonic device comprising an ultrasonic transducer configured to emit an ultrasonic backscatter that encodes the radiation exposure to the transistor. Further described herein is an implantable device comprising a radiation-sensitive element (such as a diode) configured to generate an electrical signal upon encountering radiation; an integrated circuit configured to receive the electrical signal and modulate a current based on the received electrical signal; and an ultrasonic transducer configured to emit an ultrasonic backscatter based on the modulated current encoding information relating to the encountered radiation.Type: GrantFiled: July 7, 2017Date of Patent: October 17, 2023Assignee: The Regents of the University of CaliforniaInventors: Michel M. Maharbiz, Jose M. Carmena, Mekhail Anwar, Kristofer S. J. Pister, Stefanie V. Garcia
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Patent number: 11782109Abstract: A local coil may include: a wireless power receiver, for converting electrical energy to AC electricity, the electrical energy being wirelessly received from a power source; an AC-DC converter, for converting the AC electricity to first DC electricity having a first voltage; a DC-DC converter, for converting the first DC electricity to second DC electricity having a second voltage; a comparator, for comparing the first voltage and the second voltage, and generating a level signal on the basis of a comparison result; and a transmitter, for sending the level signal to the power source, such that the power source adjusts an output power of the electrical energy on the basis of the level signal. The wirelessly supplying of power to a local coil as well as power feedback control is achieved to advantageously increase energy transmission efficiency and system robustness.Type: GrantFiled: August 26, 2021Date of Patent: October 10, 2023Assignee: Siemens Healthcare GmbHInventors: Wei Ming Dong, Qiu Yi Zhang, Zhi Bin Li, Rui Ling Wu
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Patent number: 11774528Abstract: A magnetic resonance tomography scanner and a method for testing the magnetic resonance tomography scanner are provided. The magnetic resonance tomography scanner has a transmitter that is configured to transmit two-tone signals at different levels and to acquire intermodulation products of the two-tone signal with the receiver. A status of a receive path is inferred via a behavior of odd-order intermodulation products.Type: GrantFiled: October 27, 2020Date of Patent: October 3, 2023Assignee: Siemens Healthcare GmbHInventor: Stephan Biber
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Patent number: 11768263Abstract: The disclosure describes a magnet system for a magnetic resonance imaging system comprising a basic field magnet and a gradient system, wherein coils of the gradient system are positioned outside the area of a predefined basic magnetic field (B0) of the basic field magnet. The disclosure further describes a gradient system and a magnetic resonance imaging system with such a magnet system.Type: GrantFiled: April 14, 2021Date of Patent: September 26, 2023Assignee: Siemens Healthcare GmbHInventors: Rainer Kirsch, Stefan Popescu
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Patent number: 11754654Abstract: The invention relates to a motion determination device for determining the motion of an object. The motion determination device comprises a magnetic resonance (MR) information providing unit (2, 5) for providing an MR image of the object (6) and for providing non-image MR data of the object which have been acquired at different acquisition times, and a motion determination unit (9) for determining a motion field, which describes the motion of the object (6), depending on the provided non-image MR data acquired at the different acquisition times and the provided MR image. Since the non-image MR data, which are preferentially k-space data, are directly used for determining the motion field, i.e. without an intermediate reconstruction of MR images based on the non-image MR data, the motion field can be determined with a very high temporal resolution.Type: GrantFiled: June 20, 2018Date of Patent: September 12, 2023Assignee: Koninklijke Philips N.V.Inventors: Allessandro Sbrizzi, Cornelis Antonius Theodorus Van Den Berg
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Patent number: 11754651Abstract: A method for determining peripheral nerve stimulation during MR imaging of a patient in a MR scan unit for a MR pulse sequence is described. In the method, a plurality of model-based candidate stimulations are determined dependent on a unit vector potential of the gradient magnet field generated during MR imaging and dependent on candidate data models for different object parameter values. A model-based candidate data stimulation is selected as a stimulation model for the patient dependent on an individual patient model. A distribution of a vector potential of a gradient magnetic field acting on the patient is determined as a function of a unit gradient current for a determined position of the patient in the MR scanning unit. The nerve stimulation of the patient is determined for the determined position based on the selected candidate stimulation and a gradient current of a gradient pulse of the MR pulse sequence.Type: GrantFiled: December 20, 2021Date of Patent: September 12, 2023Assignees: Siemens Healthcare GmbH, The General Hospital CorporationInventors: Axel vom Endt, Peter Dietz, Andreas Krug, Mathias Davids, Lawrence Wald
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Patent number: 11751952Abstract: A medical sensing system (100) includes an elongate interventional device (101) and an adjustable capacitance circuit (102). The elongate interventional device (101) includes a sensor (103) having a capacitance (Css). The elongate interventional device (101) also includes a first electrical conductor (104) and a second electrical conductor (105). The first electrical conductor (104) and the second electrical conductor (105) are in electrical contact with the sensor (103) and extend along the elongate interventional device (101). The elongate interventional device (101) also includes i) an electrically conductive shield (106) that overlaps the electrical conductors (104, 105) and/or ii) an electrically conductive shaft (107).Type: GrantFiled: July 29, 2019Date of Patent: September 12, 2023Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Eric Franciscus Johannes Claessens, Jan Harm De Boer, Patrick Wilhelmus Van Kaam, Ioannis Pappous
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Patent number: 11754695Abstract: An ultrasound imaging device, including: a processor (10), N ultrasound systems (20), a communication channel (30) and an ultrasonic probe (40); where N is a positive integer greater than 1; the processor (10) is configured to receive an ultrasound system setting instruction input by a user, so that a ultrasound system (20) of the N ultrasound systems (20) is in an enabled state; the ultrasound system (20) in the enabled state is configured to send a control instruction to the ultrasonic probe (40) via the communication channel (30); and the ultrasonic probe (40) is configured to cooperate with the ultrasound system (20) in the enabled state to operate according to the control instruction.Type: GrantFiled: August 19, 2021Date of Patent: September 12, 2023Assignee: WUXI HISKY MEDICAL TECHNOLOGIES CO., LTD.Inventors: Qiong He, Shibo Sun, Jinhua Shao, Jin Sun, Houli Duan
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Patent number: 11754650Abstract: A multi-layered shielding apparatus for reducing the heating of an implanted device within a patient during an MRI scan is disclosed. The shield comprises four internal layers circumferentially surrounded by a waterproof fabric pouch for maintaining composure of the shield and providing a comfortable interface for the patient. The second layer is a thin high conductive energy permeable layer for absorbing a substantial amount of RF energy. The first and third layers are thick low conductive energy absorbent layers that surround the second layer to absorb the RF currents produced by the interaction between the RF energy and the high conductive layer. The fourth layer is a nonconductive polymer layer for insulating the human tissue from any RF currents produced among the other layers.Type: GrantFiled: April 8, 2021Date of Patent: September 12, 2023Assignee: Howmedica Osteonics Corp.Inventor: Mayur J. Thakore
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Patent number: 11740306Abstract: The present disclosure provides systems and methods for MR T1 mapping. A method may include obtaining at least three images of a subject acquired within an inversion recovery (IR) process, each image of the at least three images being acquired within a cardiac cycle during a breath-hold of the subject; and determining a T1 map of the subject based on the at least three images acquired within the IR process and a trained model.Type: GrantFiled: November 30, 2021Date of Patent: August 29, 2023Assignee: SHANGHAI UNITED IMAGING HEALTHCARE CO., LTD.Inventors: Zhongqi Zhang, Yuan Zheng, Jian Xu
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Patent number: 11740301Abstract: A method of designing a coil array for use in a magnetic resonance imaging (MRI) system based on eigenmode analysis of a scattering matrix associated with the coil array is provided. The method includes determining a normalized reflected power generated by coils in the coil array in response to excitation thereof via at least one excitation signal, and adjusting one or more parameters of at least one of the coils so as to minimize the normalized reflected power.Type: GrantFiled: July 23, 2021Date of Patent: August 29, 2023Assignee: Bilkent UniversityInventors: Ergin Atalar, Ehsan Kazemivalipour
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Patent number: 11733330Abstract: The disclosure relates to a magnetic resonance tomography scanner and to a method for operating the magnetic resonance tomography scanner. The method includes determining a B0 field map. The method further includes determining an excitation of the nuclear spins to be achieved and a spectrally selective excitation pulse for transmission by a transmitter by way of an antenna as a function of the B0 field map. In the method, the excitation pulse is configured here to generate the excitation of the nuclear spins to be achieved in the patient. The excitation pulse is then output by way of the antenna.Type: GrantFiled: February 5, 2021Date of Patent: August 22, 2023Assignee: Siemens Healthcare GmbHInventors: David Grodzki, Michael Köhler, Dieter Ritter