Patents by Inventor Mario Zeller

Mario Zeller has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20220413075
    Abstract: The disclosure relates to techniques for determining an acquisition order identified with an acquired magnetic resonance data set, which comprises a total number of slices, using a simultaneous multislice technique.
    Type: Application
    Filed: June 24, 2022
    Publication date: December 29, 2022
    Inventors: Mario Zeller, Flavio Carinci, Dominik Paul
  • Publication number: 20220413077
    Abstract: The present disclosure relates to a method for correcting chemical shift artifacts, CSA, which arise in the magnetic resonance DIXON method when using bipolar readout gradients (fast DIXON MR) to capture the in-phase and opposed-phase echoes.
    Type: Application
    Filed: June 28, 2022
    Publication date: December 29, 2022
    Applicant: Siemens Healthcare GmbH
    Inventor: Mario Zeller
  • Publication number: 20220400970
    Abstract: Method for operating an MR device to acquire MR data slices, wherein in a sequence section of an MR sequence, MR signals of at least two slices are measured simultaneously, and an acquisition order having an association of slices to respective sequence sections of a repetition sequence covering all slices of an associated concatenation is determined using an ordering rule. A crosstalk criterion is evaluated for the acquisition order by checking whether a first slice acquired in a last sequence section of the repetition sequence is directly adjacent to a second slice acquired in a first sequence section of the same repetition sequence. If the crosstalk criterion is fulfilled, the acquisition order is adapted according to an adaptation rule such that a larger temporal acquisition distance between the acquisition of the first and the second slices is provided.
    Type: Application
    Filed: June 15, 2022
    Publication date: December 22, 2022
    Applicant: Siemens Healthcare GmbH
    Inventors: Flavio Carinci, Mario Zeller, Dominik Paul
  • Publication number: 20220397623
    Abstract: In a computer-implemented method for setting a field of view for a magnetic resonance scan, exclusion information describing a region of the original field of view that is unmapped owing to the distortion is ascertained on the basis of the distortion map for at least one first set of field-of-view parameters describing a rectangular or cuboidal original field of view, the exclusion information is used to determine a second set of field-of-view parameters to be used for the magnetic resonance scan, and the magnetic resonance scan is performed using the second set of field-of-view parameters.
    Type: Application
    Filed: June 9, 2022
    Publication date: December 15, 2022
    Applicant: Siemens Healthcare GmbH
    Inventors: Dominik Paul, Hans-Peter Fautz, Mario Zeller, David Grodzki, Hannah Hale
  • Patent number: 11501460
    Abstract: In a method for performing a magnetic resonance measurement of an organ structure of a patient using a magnetic resonance imaging system adapted to the imaging of the organ structure: a correct positioning of the organ structure of the patient is ascertained, a correct positioning of the magnetic resonance imaging system with regard to the positioning of the organ structure of the patient is ascertained, a magnetic resonance scanning protocol is selected, a spatial coverage of the magnetic resonance measurement with regard to the organ structure to be imaged is adjusted, and the magnetic resonance measurement is performed to acquire magnetic resonance image data of the organ structure.
    Type: Grant
    Filed: November 24, 2020
    Date of Patent: November 15, 2022
    Assignee: Siemens Healthcare GmbH
    Inventors: Daniel Rinck, David Grodzki, Rene Kartmann, Mario Zeller
  • Publication number: 20220342017
    Abstract: In a method for avoiding artifacts during acquisition of MR data, a first measurement data set (MDS) of a target region of the examination object and at least one second MDS of the target region are acquired, and a combined MDS is created based on the acquired data sets. The first MDS does not sample a first region of k-space to be sampled according to Nyquist and corresponding to a first partial factor, and a second MDS does not sample a second region of k-space to be sampled according to Nyquist and corresponding to a second partial factor. The first and second regions of the k-space are different from each other. Advantageously, a k-space region acquired in none of the acquisitions made can be minimized by the inventive variation in the respective sampling pattern of the acquired MDS, so artifacts are reduced/avoided in MR images reconstructed from the MDS.
    Type: Application
    Filed: April 22, 2022
    Publication date: October 27, 2022
    Applicant: Siemens Healthcare GmbH
    Inventor: Mario Zeller
  • Patent number: 11474179
    Abstract: In a method for MRI of an object, spins of a first material and spins of a second material are excited. An in-phase echo signal is acquired when the spins are in-phase and an out-of-phase echo signal is acquired, when the spins are out of phase. A first image for the first material and/or a second image for the second material is generated by a computing unit depending on the in-phase echo signal and the out-of-phase echo signal. For acquiring the out-of-phase echo signal, a momentum space is sampled asymmetrically in a read-out direction.
    Type: Grant
    Filed: January 14, 2021
    Date of Patent: October 18, 2022
    Assignee: Siemens Healthcare GmbH
    Inventors: Nadine Dispenza, Dominik Paul, Manuel Stich, Mario Zeller
  • Publication number: 20220317220
    Abstract: A method for reconstructing single-slice image data sets from k-space measured data sets that have been acquired simultaneously from at least two slices from an examination object. The method includes an iterative modification and hence an optimization of the underlying k-space trajectories in the reconstruction of individual image data sets from collapsed measured data sets acquired from a plurality of slices and hence a retrospective reduction of interference in the individual image data sets that are obtained.
    Type: Application
    Filed: March 31, 2022
    Publication date: October 6, 2022
    Inventors: Mario Zeller, Flavio Carinci
  • Publication number: 20220317223
    Abstract: In a method for acquiring measurement data of an object, a first subsampled set of diffusion-weighted measurement data with switching of diffusion gradients for diffusion encoding of the measurement data, using a first echo spacing, and a second subsampled set of non-diffusion-weighted measurement data using the first echo spacing are acquired, the first and the second subsampled set of measurement data are supplemented to produce first and second complete sets of measurement data, using calibration data. At least the first calibration data used for supplementing the second subsampled set of measurement data to produce a second complete set of measurement data has been acquired in accordance with the first echo spacing. By supplementing subsampled sets of measurement data with calibration data acquired according to the same echo spacing as the subsampled measurement data to produce complete sets of measurement data, noise signals in the supplemented measurement data are advantageously eliminated.
    Type: Application
    Filed: March 30, 2022
    Publication date: October 6, 2022
    Inventors: Mario Zeller, Adam Kettinger
  • Publication number: 20220313104
    Abstract: The disclosure relates to techniques for acquiring measured data that has been recorded simultaneously via a magnetic resonance facility from at least two slices from an examination object comprising at least two different spin types. The techniques includes selecting a desired simultaneous recording of measured data from at least two slices in which during recording phases that generate field of view shifts have been imprinted, selecting a compensation factor to compensate for interference signals caused by the different spin types, determining a compensation phase for the phases to be imprinted in the desired recording as a function of the compensation factor, and carrying out the desired recording of measured data and/or reconstruction of image data from the measured data by applying the compensation phase that has been determined to the respective phases to be imprinted.
    Type: Application
    Filed: March 30, 2022
    Publication date: October 6, 2022
    Inventors: Flavio Carinci, Mario Zeller, Dominik Paul
  • Publication number: 20220317217
    Abstract: The disclosure relates to techniques for an improved recording of scan data, which can be recorded from at least two slices of an examination object simultaneously by means of a magnetic resonance system. The technique includes selecting a desired simultaneous recording of scan data from at least two slices (S1, Sn), determining an artifact-preventing minimum RF pulse duration (dRF) for a desired recording, considering desired recording parameters (PA), and performing the desired recording using the determined minimum RF pulse duration.
    Type: Application
    Filed: March 30, 2022
    Publication date: October 6, 2022
    Inventors: Flavio Carinci, Mario Zeller, Dominik Paul
  • Publication number: 20220308144
    Abstract: The disclosure relates to a technique for providing an image of diagnostically relevant area of a jaw region of a patient by means of a magnetic resonance apparatus by capturing information about the jaw region of the patient, which comprises at least one reference to a position and/or an extent of the diagnostically relevant area of the jaw region. The technique also includes adjusting a parameter of a magnetic resonance measurement as a function of the captured information about the jaw region of the patient, carrying out the magnetic resonance measurement with the adjusted parameter, capturing image data of the jaw region of the patient, reconstructing an image of the diagnostically relevant area of the jaw region as a function of the captured image data, and providing the image of the diagnostically relevant area of the jaw region of the patient.
    Type: Application
    Filed: March 25, 2022
    Publication date: September 29, 2022
    Inventors: Andreas Greiser, Carmel Hayes, Mario Zeller
  • Publication number: 20220283254
    Abstract: A method for determining a simulation value describing a safety-related variable for an MR measurement includes providing an MR pulse sequence that is configured to perform an MR measurement of a patient using an MR scanner based on the MR pulse sequence. The MR pulse sequence includes a temporal succession of RF pulses and gradient pulses. A patient value describing a characteristic of the patient is provided. Based on the MR pulse sequence and the patient value, the simulation value is determined by a computing unit. The simulation value describes a safety-relevant variable for performing an MR measurement using the MR pulse sequence. For determining the simulation value, specific characteristics of the RF pulses and of the gradient pulses of the MR pulse sequence as well as a temporal succession of the RF pulses and the gradient pulses are taken into account.
    Type: Application
    Filed: March 5, 2022
    Publication date: September 8, 2022
    Inventors: Matthias Gebhardt, Mario Zeller
  • Publication number: 20220280117
    Abstract: The disclosure relates to an imaging apparatus for acquiring image data from a diagnostically-relevant body region of a patient comprising a sensor and a correction unit, wherein the at least one sensor is embodied to output a signal containing information on movement of the diagnostically relevant body region of the patient and the correction unit is embodied to receive the signal from the at least one sensor, and to apply a correction method in dependence on the signal to reduce the influence of the movement of the diagnostically relevant body region of the patient on an imaging examination. The disclosure further relates to a local coil for acquiring magnetic resonance signals in a frequency and power range of a magnetic resonance measurement, and a method for correcting patient movement.
    Type: Application
    Filed: February 24, 2022
    Publication date: September 8, 2022
    Applicant: Siemens Healthcare GmbH
    Inventors: Mario Zeller, David Grodzki
  • Patent number: 11402454
    Abstract: The disclosure relates to techniques for reducing eddy current-induced magnetic field interferences for a diffusion imaging pulse sequence. A gradient impulse response function (GIRF) is determined, and an interference gradient sequence (Gx/y/z(t)) is defined on the basis of the diffusion imaging pulse sequence. A time interval (t1, t2) is determined for the acquisition of diffusion image data. On the basis of the determined gradient impulse response function (GIRF) and the interference gradient sequence (Gx/y/z(t)), a time-dependent magnetic field deviation (?Bx/y/z(t)) in the determined time interval (t1, t2) is determined. An image distortion of an acquisition of diffusion imaging is compensated, which takes place by application of the diffusion imaging pulse sequence on the basis of the determined magnetic field deviation (?Bx/y/z(t)).
    Type: Grant
    Filed: January 22, 2021
    Date of Patent: August 2, 2022
    Assignee: Siemens Healthcare GmbH
    Inventors: Adam Kettinger, Josef Pfeuffer, Manuel Stich, Thorsten Feiweier, Mario Zeller
  • Patent number: 11397234
    Abstract: In a method for generating at least one MR image of an object in an MR system comprising a plurality of signal receiving coils, a sequence of RF pulses are applied in order to generate a plurality of MR signal echoes, the MR signal-echoes are detected with the plurality of signal receiving coils in a 3-dimension-al k-space, and the at least one MR image is reconstructed using the non-homogeneous under sampled 3-dimensional k-space based on a compressed sensing technology. The 3-dimensional k-space may be undersampled with a plurality of constant radii corkscrew trajectories having different radii resulting in a non-homogeneous undersampled 3-dimensional k-space.
    Type: Grant
    Filed: January 14, 2021
    Date of Patent: July 26, 2022
    Assignee: Siemens Healthcare GmbH
    Inventors: Nadine Dispenza, Dominik Paul, Manuel Stich, Mario Zeller
  • Publication number: 20220179029
    Abstract: According to a method, first MR reference data and first MR imaging data are captured. Further MR imaging data is then captured. The capturing includes in each case generating at least one excitation pulse with a transmit coil of the magnetic resonance apparatus and irradiating the at least one excitation pulse into a patient receiving region, generating MR signals in a generation region using the at least one excitation pulse, and receiving the MR signals as MR data with a receive coil. A degree of difference that describes a difference between the generation region on capture of the first MR reference data and the generation region on capture of the further MR imaging data is determined. MR reference data is provided as a function of the degree of difference. An MR image is reconstructed based on the captured further MR imaging data and the provided further MR reference data.
    Type: Application
    Filed: December 7, 2021
    Publication date: June 9, 2022
    Inventors: Mario Zeller, Dominik Paul
  • Patent number: 11354776
    Abstract: The disclosure relates to a method for correcting image data acquired by a magnetic resonance device, a magnetic resonance device, and a computer program product. According to the method, first navigator data, image data, and second navigator data are acquired. Moreover, temperature values of the magnetic resonance device are determined. The image data is corrected based on the first navigator data, the second navigator data, and the temperature values.
    Type: Grant
    Filed: June 3, 2020
    Date of Patent: June 7, 2022
    Assignee: Siemens Healthcare GmbH
    Inventors: Michael Köhler, Dominik Paul, Mario Zeller
  • Patent number: 11353529
    Abstract: The disclosure relates to a method for generating a magnetic resonance image from a measurement dataset. The measurement dataset is initially acquired from k space values. By means of a data processing facility the k space values are then automatically analyzed at least in terms of their size. Furthermore a modified measurement dataset is automatically generated from the measurement dataset by removing k space values whose size satisfies at least one predetermined threshold value criterion. The magnetic resonance image is then generated automatically from the modified measurement dataset.
    Type: Grant
    Filed: August 29, 2019
    Date of Patent: June 7, 2022
    Assignee: Siemens Healthcare GmbH
    Inventor: Mario Zeller
  • Publication number: 20220171008
    Abstract: A computer-implemented method is described for evaluating magnetic resonance data of a scan region of a patient acquired by means of a magnetic resonance device, wherein, following acquisition of at least two image datasets using an acquisition technique at different echo times in each case, by combination of the image datasets, at least two combination datasets, each showing magnetic resonance signals of a different spin species, are determined, wherein, in order to assign a spin species shown in the combination dataset to each combination dataset, an input dataset is determined from the combination datasets, and the input dataset is evaluated by means of an assignment algorithm which comprises a trained function and which determines assignment information assigning to each combination dataset the spin species shown therein, wherein a pre-trained function trained further with regard to the spin species assignment by means of transfer learning is used as the trained function.
    Type: Application
    Filed: November 24, 2021
    Publication date: June 2, 2022
    Applicant: Siemens Healthcare GmbH
    Inventor: Mario Zeller