Patent Applications by Siemens Healthineers AG on March 27th, 2025

Siemens Healthineers AG: 27 patent applications

Siemens Healthineers AG has applied for patents in the areas of A61B6/00 (10), G06T7/00 (5), G16H30/40 (5), A61B6/50 (4), G06T7/11 (3) A61B6/563 (2), A61B5/055 (2), G06F8/76 (1), G16H30/40 (1), G16H20/40 (1)

With keywords such as: image, data, medical, images, imaging, detector, based, configured, unit, and projection in patent application abstracts.

Patent Applications by Siemens Healthineers AG

20250098977. Imaging Apparatus for Magnetic Resonance Device_simplified_abstract_(siemens healthineers ag)

Inventor(s): Shuang Ji of Shenzhen CN for siemens healthineers ag

IPC Code(s): A61B5/055

CPC Code(s): A61B5/055

Abstract: an imaging apparatus for an mr device, including: an image broadcast apparatus located in a first space; an optical/electrical conversion module, which is connected to the image broadcast apparatus using an optical fiber, and converts an image broadcast by the image broadcast apparatus into electrical signals; an electrical/optical conversion module, which is connected to the optical/electrical conversion module, and converts the electrical signals into the image; and a projection device, which is connected to the electrical/optical conversion module using an image transmission assembly, and projects the image to a top wall of a magnetic resonance chamber. the image transmission assembly has an image transmission lens group and/or an image transmission optical fiber bundle. the mr device, the optical/electrical conversion module, the electrical/optical conversion module, and the projection device are located in a second space. the first space and the second space are electromagnetically shielded from each other.

20250098979. Dental Magnetic Resonance Imaging in the Presence of Metallic Materials_simplified_abstract_(siemens healthineers ag)

Inventor(s): Andreas Greiser of Erlangen DE for siemens healthineers ag, Lars Lauer of Neunkirchen DE for siemens healthineers ag, Gunnar Krüger of Binningen CH for siemens healthineers ag, Carmel Hayes of München DE for siemens healthineers ag, Stephan Biber of Erlangen DE for siemens healthineers ag, Kim Burzan of Birkenau DE for siemens healthineers ag, Johannes Ulrici of Darmstadt DE for siemens healthineers ag

IPC Code(s): A61B5/055, A61B5/00

CPC Code(s): A61B5/055

Abstract: techniques are described for carrying out a dental magnetic resonance imaging examination of a field-of-view within a subject, the field-of-view including a dental area of the subject. the techniques include determining whether a metallic object is present within or near the field-of-view, initiating a standard examination workflow if it has been determined that no metallic object is present within or near the field-of-view, and initiating a modified examination workflow that is different from the standard examination workflow if it has been determined that a metallic object is present within or near the field-of-view, and carrying out the standard examination workflow or the modified examination workflow.

20250099046. COMPUTED TOMOGRAPHY SYSTEM AND METHOD FOR ORIENTING A DETECTOR RING IN OR ON A GANTRY OF A COMPUTED TOMOGRAPHY SYSTEM_simplified_abstract_(siemens healthineers ag)

Inventor(s): Hannes MOENIUS of Forchheim DE for siemens healthineers ag, Hans-Juergen MUELLER of Pretzfeld DE for siemens healthineers ag

IPC Code(s): A61B6/03, A61B6/00, A61B6/06, A61B6/42

CPC Code(s): A61B6/035

Abstract: a computed tomography system comprises: an examination region and a static gantry, wherein the gantry includes an x-ray source and a detector ring. the detector ring encircles the examination region and includes at least two detector segments. the computed tomography system is configured such that a position of the at least two detector segments relative to one another in an axial direction of the detector ring is adjustable.

20250099049. SECURING AND COMPRESSING A BREAST IN MAMMOGRAPHY_simplified_abstract_(siemens healthineers ag)

Inventor(s): Marcus RADICKE of Veitsbronn DE for siemens healthineers ag, Carolin KUPILLAS of Erlangen DE for siemens healthineers ag

IPC Code(s): A61B6/04, A61B6/50

CPC Code(s): A61B6/0414

Abstract: a mammography compression device comprises a carrier unit having a first stop position and a second stop position. the mammography compression device also includes a breast support that is fixed at the first stop position of the carrier unit, and a compression paddle that is arranged at the second stop position of the carrier unit. the compression paddle is configured to pivot about a horizontal pivot axis, which runs through the second stop position, in the direction of the breast support.

20250099050. COMPUTED TOMOGRAPHY SYSTEM, DETECTOR RING, AND METHOD FOR ADJUSTING AN APERTURE OPENING OF A COMPUTED TOMOGRAPHY SYSTEM_simplified_abstract_(siemens healthineers ag)

Inventor(s): Hannes MOENIUS of Forchheim DE for siemens healthineers ag

IPC Code(s): A61B6/40, A61B6/00, A61B6/03

CPC Code(s): A61B6/4014

Abstract: a computed tomography system comprises an examination region and a static gantry. the static gantry includes a detector ring and an x-ray source ring, which each encircle a substantially common axial direction. the x-ray source ring has a larger diameter than the detector ring. the detector ring is arranged offset in the axial direction with respect to the x-ray source ring such that a beam outlet opening of the x-ray source ring, when viewed in the radial direction with respect to the examination region, is, at least in part, not covered by the detector ring.

20250099060. Determination of hemodynamic indices_simplified_abstract_(siemens healthineers ag)

Inventor(s): Alexandru Turcea of Busteni RO for siemens healthineers ag, Serkan Cimen of West Orange NJ US for siemens healthineers ag, Dominik Neumann of Erlangen DE for siemens healthineers ag, Martin Berger of Bubenreuth DE for siemens healthineers ag, Mehmet Akif Gulsun of Princeton NJ US for siemens healthineers ag, Lucian Mihai Itu of Brasov RO for siemens healthineers ag, Puneet Sharma of Princeton Junction NJ US for siemens healthineers ag

IPC Code(s): A61B6/50, G06T7/00, G06T7/11, G06T7/33, G16H30/40

CPC Code(s): A61B6/504

Abstract: techniques for processing multiple cardiac images are disclosed. the multiple cardiac images, each of which depicts a portion of coronary arteries, i.e., the same portion of coronary arteries, within an anatomical region of interest, are obtained either during or after an angiography exam. a respective set of lumen radius measurements is determined based on each of the multiple cardiac images and comprises multiple lumen radius measurements respectively associated with multiple locations of the portion of the coronary arteries. a maximum stenosis severity profile and a minimum stenosis severity profile associated with the portion of the coronary arteries are respectively determined based on the respective sets of lumen radius measurements. a lumen radius profile associated with the portion of the coronary arteries is determined based on the maximum stenosis severity profile and the minimum stenosis severity profile. a respective value for each of at least one hemodynamic index at a given location of the portion of the coronary arteries is determined based on the lumen radius profile.

20250099062. METHOD AND APPARATUS FOR ESTIMATING MATERIAL THICKNESSES IN RADIOLOGICAL PROJECTION IMAGES_simplified_abstract_(siemens healthineers ag)

Inventor(s): Ferdinand LUECK of Erlangen DE for siemens healthineers ag, Ludwig RITSCHL of Buttenheim DE for siemens healthineers ag, Marcel BEISTER of Erlangen DE for siemens healthineers ag, Steffen KAPPLER of Hallerndorf-Pautzfeld DE for siemens healthineers ag

IPC Code(s): A61B6/00, A61B6/50, G06T7/00

CPC Code(s): A61B6/5211

Abstract: one or more example embodiments relates to a method for estimating material thicknesses in radiological projection images, comprising the steps:

20250099062. METHOD AND APPARATUS FOR ESTIMATING MATERIAL THICKNESSES IN RADIOLOGICAL PROJECTION IMAGES_simplified_abstract_(siemens healthineers ag)

Inventor(s): Ferdinand LUECK of Erlangen DE for siemens healthineers ag, Ludwig RITSCHL of Buttenheim DE for siemens healthineers ag, Marcel BEISTER of Erlangen DE for siemens healthineers ag, Steffen KAPPLER of Hallerndorf-Pautzfeld DE for siemens healthineers ag

IPC Code(s): A61B6/00, A61B6/50, G06T7/00

CPC Code(s): A61B6/5211

Abstract: one or more example embodiments further comprises an apparatus and an imaging device.

20250099063. X-Ray Dose Adjustment Method and Apparatus, and Medical Imaging System_simplified_abstract_(siemens healthineers ag)

Inventor(s): Bei Ni of Shanghai CN for siemens healthineers ag, Yu Dan Wang of Shanghai CN for siemens healthineers ag

IPC Code(s): A61B6/00, A61B6/06

CPC Code(s): A61B6/542

Abstract: a x-ray dose adjustment method for a medical imaging system may include: acquiring a first image which is captured by the medical imaging system and comprises a region to be examined; subjecting the first image to image segmentation on the basis of a grayscale value of the first image to acquire a first sub-region and a second sub-region, wherein a grayscale value of the first sub-region is greater than a grayscale value of the second sub-region; determining at least one of the first sub-region and the second sub-region to be a target region on the basis of a comparison of the grayscale value of the first sub-region with a first grayscale threshold; and performing dose adjustment on the basis of the target region.

20250099064. Method and Apparatus for Positioning Movable Component in X-Ray Imaging_simplified_abstract_(siemens healthineers ag)

Inventor(s): Xi Shuai Peng of Shanghai CN for siemens healthineers ag, Ralf Nanke of Neunkirchen am Brand DE for siemens healthineers ag, Sven-Martin Sutter of Herzogenaurach, Bayern DE for siemens healthineers ag, Zhang Ke You of Shanghai CN for siemens healthineers ag, Jing Tai Cao of Shanghai CN for siemens healthineers ag

IPC Code(s): A61B6/00, A61B6/46

CPC Code(s): A61B6/547

Abstract: a method and apparatus are described for positioning a movable component in x-ray imaging. the method comprises: acquiring a 3d image that is captured using a camera component and characterizes a motion process of a movable component; acquiring motion information of the movable component, detected by a motion sensor; positioning the movable component based on the 3d image and the motion information. the disclosure 3d image of the movable component may be combined with motion information of the movable component to position the movable component, so as to increase the precision of positioning of the movable component and improve image stitching quality and the precision of positioning of a detector, as well as to reduce the overlap requirements in image stitching and lower the exposure dose.

20250099065. COMPUTED TOMOGRAPHY SYSTEM WITH IMPROVED DATA TRANSMISSION_simplified_abstract_(siemens healthineers ag)

Inventor(s): Christoph HOHL of Hahnbach DE for siemens healthineers ag, Peter Michael DUEPPENBECKER of Herzogenaurach DE for siemens healthineers ag, Markus BIELE of Hetzles DE for siemens healthineers ag

IPC Code(s): A61B6/00

CPC Code(s): A61B6/563

Abstract: according to one or more example embodiments, a computed tomography system includes a first part; a second part, wherein the first part is rotatable relative to the second part around an axis of rotation; a plurality of first modems on the first part which are connected in a data-technical manner to first coupling elements on the first part; and a plurality of second modems on the second part which are connected in a data-technical manner to second coupling elements on the second part.

20250099066. COMPUTED TOMOGRAPHY SYSTEM WITH IMPROVED DATA TRANSMISSION_simplified_abstract_(siemens healthineers ag)

Inventor(s): Christoph HOHL of Hahnbach DE for siemens healthineers ag, Peter Michael DUEPPENBECKER of Herzogenaurach DE for siemens healthineers ag

IPC Code(s): A61B6/00, H04B1/04

CPC Code(s): A61B6/563

Abstract: a gantry of a computed tomography system is rotated relative to a fixed base body of the computed tomography system. during the rotation of the gantry, digital data is transmitted between the gantry and the base body from a data source via a modulator, a transmission channel and a demodulator to a data sink. a transmission signal generated by the modulator by modulating a data stream supplied to the modulator from the data source is pre-distorted by a pre-distortion facility. the pre-distorted transmission signal is supplied to the transmission channel. alternatively, or in addition, a transmitted signal transmitted via the transmission channel is post-distorted by a post-distortion facility and the post-distorted signal is supplied to the demodulator. the pre-distortion rule and/or the post-distortion rule are repeatedly reset by a setting facility during the rotation of the gantry.

20250099186. COMPUTER-IMPLEMENTED METHOD, PROCESSING APPARATUS, IMAGING FACILITY AND COMPUTER PROGRAM FOR SPECIFYING A LOCATION AND/OR A THICKNESS OF A SLICE OF A PATIENT TO BE IMAGED_simplified_abstract_(siemens healthineers ag)

Inventor(s): Philipp Roser of Erlangen DE for siemens healthineers ag, Marcus Pfister of Bubenreuth DE for siemens healthineers ag

IPC Code(s): A61B34/20, A61B6/00, A61B6/02, A61B6/12

CPC Code(s): A61B34/20

Abstract: a computer-implemented method for predetermining a location and/or a thickness of a slice, to be imaged of a patient during a tomosynthesis imaging to be parameterized by an imaging facility comprising the steps of obtaining three-dimensional image data of a preceding tomosynthesis imaging or of another three-dimensional imaging of the patient, wherein the three-dimensional image data depicts at least one part of an object located at least partly within the patient, evaluating the three-dimensional image data for establishing the location of a longitudinal axis of the object along which the part of the object extends, and establishing the location and/or the thickness of the slice to be imaged as a function of the established location of the longitudinal axis in such a way that the slice to be imaged images a predetermined target position within the patient and at least one longitudinal section of the object when the longitudinal axis of the object is located in the established location.

[[20250099190. MEDICAL INSTRUMENT ARRANGEMENT FOR THE MINIMALLY INVASIVE EXAMINATION AND/OR TREATMENT OF A SUBJECT, METHOD FOR OPERATING A MEDICAL INSTRUMENT ARRANGEMENT, COMPUTER PROGRAM, AND ELECTRONICALLY READABLE DATA MEDIUM_simplified_abstract_(siemens healthineers ag)]]

Inventor(s): Marcus Pfister of Bubenreuth DE for siemens healthineers ag

IPC Code(s): A61B34/32, G05B13/02

CPC Code(s): A61B34/32

Abstract: a medical instrument arrangement includes: a medical instrument having a proximal operational section for moving the instrument; a robot for active manipulation of the medical instrument on the operational section; an operational capture device for capturing operator movement patterns of the operational section of the medical instrument generated manually; and a control device. the control device is configured to: control the robot in accordance with control commands for generating corresponding movements of the operational section; determine an intervention situation for captured operator movement patterns; store captured operator movement patterns with the assigned intervention situation; and automatically select and/or generate a control movement pattern from stored operator movement patterns and/or from evaluation movement patterns deduced therefrom as a function of a present intervention situation of the situation capture unit and for the automatic implementation of the control movement pattern as control commands using the control unit.

20250102606. Acquisition of Measurement Data Using Magnetic Resonance with Magnetization Preparation_simplified_abstract_(siemens healthineers ag)

Inventor(s): Patrick Liebig of Erlangen DE for siemens healthineers ag, Moritz Zaiss of Nürnberg DE for siemens healthineers ag

IPC Code(s): G01R33/56, G01R33/24

CPC Code(s): G01R33/5605

Abstract: techniques are described for acquiring measurement data of an object under examination positioned in a magnetic resonance system using magnetic resonance with magnetization preparation. the techniques include performing a magnetization preparation block, applying at least two further preparation rf pulses, after the end of the magnetization preparation block, performing an acquisition block which comprises at least one further rf pulse and during which at least two echo signals are each acquired as measurement data, wherein at least one of the at least two echo signals is generated by the at least two further preparation rf pulses and the further rf pulse, and storing and/or further processing the acquired measurement data.

20250102608. Computer-Implemented Method for Ascertaining Correction Information and for Reconstructing Image Data of a Magnetic Resonance Imaging Scan, Processing Device and Computer Program_simplified_abstract_(siemens healthineers ag)

Inventor(s): Max Müller of Erlangen DE for siemens healthineers ag, Christian Meixner of Erlangen DE for siemens healthineers ag, Michael Köhler of Nuernberg DE for siemens healthineers ag, Marcel Dominik Nickel of Herzogenaurach DE for siemens healthineers ag, Dominik Paul of Bubenreuth DE for siemens healthineers ag

IPC Code(s): G01R33/565, G01R33/483, G06T11/00

CPC Code(s): G01R33/56572

Abstract: in a method for ascertaining correction information for correcting a magnetic resonance imaging scan, respective first and second magnetic resonance data for at least one gradient direction are acquired, where the first magnetic resonance data is acquired while the magnetic field gradient is applied in the respective gradient direction, and the second magnetic resonance data is acquired while the magnetic field gradient is applied counter to the respective gradient direction. the method may further include determining a respective phase difference for reference points along a respective position space line in the position space that extends in the respective gradient direction based on the first and second magnetic resonance data, and providing the phase differences of at least one subgroup of the reference points as correction information or ascertaining the provided correction information based on the phase differences of at least the subgroup of the reference points.

20250102688. IMAGING SYSTEM AND METHOD FOR RECORDING PROJECTION IMAGES_simplified_abstract_(siemens healthineers ag)

Inventor(s): Stefan SCHAFFERT of Erlangen DE for siemens healthineers ag, Thorsten ERGLER of Erlangen DE for siemens healthineers ag

IPC Code(s): G01T1/24, G01T1/29

CPC Code(s): G01T1/242

Abstract: one or more example embodiments relates to an imaging system configured to record projection images, the imaging system comprising a detector unit; a radiation source, wherein the detector unit includes two detector elements arranged one behind the other, both of the two detector elements cover a same recording area, the two detector elements including a first detector element and a second detector element, and at least one of the radiation source or the detector unit is configured such that the second detector element is not saturated for sections of the recording area in which the first detector element is saturated during irradiation; and a data acquisition unit configured to record a first data set of the first detector element and to record a second data set of the second detector element such that first data set and the second data set are separable from one another.

20250103326. SYSTEM AND METHOD FOR AUTOMATIC IMPLEMENTATION OF A MIGRATION AND PORTABILITY FOR LEGACY APPLICATION SOFTWARE_simplified_abstract_(siemens healthineers ag)

Inventor(s): Lutz DOMINICK of Eggolsheim DE for siemens healthineers ag, Chiheb CHARRAD of Neunkirchen A. Brand DE for siemens healthineers ag

IPC Code(s): G06F8/76

CPC Code(s): G06F8/76

Abstract: one or more example embodiments provides a system for implementing a migration and portability for legacy application software based on a use case, in particular a medical use case, said system comprising an input unit which is configured to read in data relating to a configuration of the legacy application software and a plurality of legacy service applications; comprising a strategy determination unit which is configured to determine a runtime architecture automatically in connection with the selected use case based on the read-in data; comprising a portability unit which is configured to load portability requirements based on the determined runtime architecture, wherein the portability requirements comprise new service applications which are linked to the legacy service applications; comprising a configuration unit which is configured to provide a new configuration of the legacy application software based on the loaded portability requirements.

20250104199. METHOD AND APPARATUS FOR DENOISING A TOMOGRAPHY RECORDING_simplified_abstract_(siemens healthineers ag)

Inventor(s): Philipp Roser of Erlangen DE for siemens healthineers ag, Christopher Syben of Cadolzburg DE for siemens healthineers ag, Alois Regensburger of Poxdorf DE for siemens healthineers ag

IPC Code(s): G06T5/70

CPC Code(s): G06T5/70

Abstract: a method for denoising a tomography recording with a plurality of projection images includes: selecting an action projection image to be denoised; selecting a plurality of reference projection images having recording angles that lie in a range of the recording angle of the action projection image and/or an opposite recording angle; adapting a binning of the reference projection images to the action projection image so that the reference projection images correspond to the projection geometry of the action projection image; and denoising the action projection image based on a noise of the reference projection images.

20250104228. Coronary Artery Lumen Contour Adjustment Based on Segmentation Uncertainty_simplified_abstract_(siemens healthineers ag)

Inventor(s): Dominik Neumann of Erlangen DE for siemens healthineers ag, Alexandru Turcea of Busteni RO for siemens healthineers ag, Lucian Mihai Itu of Brasov RO for siemens healthineers ag, Serkan Cimen of West Orange NJ US for siemens healthineers ag

IPC Code(s): G06T7/00, G06T7/11, G16H30/40

CPC Code(s): G06T7/0012

Abstract: techniques for adjusting or editing respective segments of a contour of a given lumen segmentation of a portion of coronary arteries are described. the respective segments of the contour are adjusted by processing multiple cardiac images. each of the multiple cardiac images depicts a portion of coronary arteries, i.e., the same portion of coronary arteries, within an anatomical region of interest. respective magnitudes of one or more local segmentation uncertainties are determined based on the multiple cardiac images. each of the one or more local segmentation uncertainties is associated with a respective segment of the contour of the given lumen segmentation. the respective segments of the contour are adjusted edited or manipulated based on the respective magnitudes of the one or more local segmentation uncertainties.

20250104246. METHODS, DEVICES AND SYSTEMS FOR PREPARING MEDICAL IMAGE DATA OF THE HEART FOR A DEFORMATION ANALYSIS_simplified_abstract_(siemens healthineers ag)

Inventor(s): Klaus FISCHER of Erlangen DE for siemens healthineers ag, Michael WELS of Bamberg DE for siemens healthineers ag, Felix DENZINGER of Herzogenaurach DE for siemens healthineers ag

IPC Code(s): G06T7/11, A61B6/00, A61B6/50, G06T7/00, G06T7/174, G06T7/20

CPC Code(s): G06T7/11

Abstract: a method is described for generating segmented, masked 4d image data of the heart. furthermore, a cardiac deformation analysis method is described. an image data generating device is also described. moreover, a medical imaging system is described.

20250104276. PIXELWISE POSITIONAL EMBEDDINGS FOR MEDICAL IMAGES IN VISION TRANSFORMERS_simplified_abstract_(siemens healthineers ag)

Inventor(s): Gengyan Zhao of Plainsboro NJ US for siemens healthineers ag, Badhan Kumar Das of Erlangen DE for siemens healthineers ag, Eli Gibson of Plainsboro NJ US for siemens healthineers ag, Dorin Comaniciu of Princeton NJ US for siemens healthineers ag

IPC Code(s): G06T7/73, G16H30/40

CPC Code(s): G06T7/74

Abstract: systems and methods for performing a medical imaging analysis task based on pixelwise positionally encoded features are provided. one or more input medical images are received. one or more pixelwise positional embedding images are generated for the one or more input medical images using a spatially varying function. patches are extracted from the one or more input medical images and the one or more pixelwise positional embedding images. the patches extracted from the one or more input medical images are encoded with corresponding ones of the patches extracted from the one or more pixelwise positional embedding images into pixelwise positionally encoded features. a medical imaging analysis task is performed using a machine learning based network based on the pixelwise positionally encoded features. results of the medical imaging analysis task are output.

20250104384. SYSTEM AND METHOD FOR SEGMENTATION OF MEDICAL IMAGING DATA_simplified_abstract_(siemens healthineers ag)

Inventor(s): Arnaud Arindra ADIYOSO of Nuernberg DE for siemens healthineers ag, Florin-Cristian GHESU of Baiersdorf DE for siemens healthineers ag

IPC Code(s): G06V10/26, G06F40/279, G06F40/30, G06V10/77, G06V10/82, G10L15/22

CPC Code(s): G06V10/26

Abstract: a system configured to segment medical imaging data, comprising an input unit configured to receive text data and the medical imaging data, wherein the received text data comprises a segmentation task formulated in natural language with regard to the medical imaging data; a text encoder unit configured to generate a text embedding based on the received text data; an imaging encoder unit configured to generate an image embedding based on the received medical imaging data; a segmentation unit configured to receive the generated text embedding and the generated image embedding and to determine a segmentation of the received medical imaging data via a function trained by an artificial intelligence algorithm; and an output interface configured to output the segmentation of the medical imaging data.

20250104403. IMPROVED DELINEATION OF IMAGE LEVEL ANNOTATION, FOR INSTANCE FOR ACCURATE TRAINING OF MEDICAL IMAGE SEGMENTATION MODELS_simplified_abstract_(siemens healthineers ag)

Inventor(s): Punith B V of Hassan IN for siemens healthineers ag, Asha K.K of Bangalore IN for siemens healthineers ag

IPC Code(s): G06V10/774, A61B6/00, G06V10/26, G06V10/50, G06V10/74, G06V20/70

CPC Code(s): G06V10/774

Abstract: a method for refining annotations in medical images, comprises: obtaining an initially annotated image; cropping said initially annotated image to obtain a cropped image, which retains only a part of the initially annotated image indicated by the annotation; analyzing pixel intensity distributions within the cropped image; segmenting the cropped image based on the analysis of the pixel intensity distributions to obtain a segmented image; refining the segmented image to obtain a refined segmented image; and performing similarity matching on the refined segmented image to obtain a delineation mask.

20250104823. MEDICAL DATA PROCESSING APPARATUS AND METHOD FOR PROCESSING MEDICAL DATA_simplified_abstract_(siemens healthineers ag)

Inventor(s): Sven KOHLE of Erlangen DE for siemens healthineers ag, Mathias NEUGEBAUER of Bremen DE for siemens healthineers ag, Diego BARRIOS ROMERO of Osterholz-Scharmbeck DE for siemens healthineers ag, Felix RITTER of Bremen DE for siemens healthineers ag, Christoph BRACHMANN of Achim DE for siemens healthineers ag, Sandra SIEGEL of Bremen DE for siemens healthineers ag, Anita STEIN of Hannover DE for siemens healthineers ag, Alexander ROESLER of Hannover DE for siemens healthineers ag, Steffen WEICHERT of Wohltorf DE for siemens healthineers ag, Felix NENSA of Essen DE for siemens healthineers ag, Christian TIETJEN of Fuerth DE for siemens healthineers ag, Gerhard KOHL of Neunkirchen am Brand DE for siemens healthineers ag, Michael RUSITSKA of Forchheim DE for siemens healthineers ag

IPC Code(s): G16H15/00, G06F40/30, G06T7/00

CPC Code(s): G16H15/00

Abstract: embodiments relate to processing of medical data, in particular image data of medical images and related medical reports for automated generation of a draft report for a newly recorded medical image. the image elements relating to corresponding documentation elements for a former medical image are mapped to image elements in the newly recorded medical image, and based on this mapping, an automated generation of the draft of the medical report of the newly recorded medical image is performed.

20250104839. METHODS AND SYSTEMS FOR PROVIDING A TREATMENT RESPONSE PREDICTION BASED ON A WHOLE SLIDE IMAGE_simplified_abstract_(siemens healthineers ag)

Inventor(s): Svenja LIPPOK of Uttenreuth DE for siemens healthineers ag, Sushil BERIWAL of Wexford PA US for siemens healthineers ag, Sven KOHLE of Erlangen DE for siemens healthineers ag, Ricky Anupam SHARMA of Lightwater GB for siemens healthineers ag, Marta VILALTA of Belmont CA US for siemens healthineers ag

IPC Code(s): G16H20/40, G16H10/60, G16H30/00

CPC Code(s): G16H20/40

Abstract: a computer-implemented method for providing a treatment response prediction for a patient suffering from a cancerous disease, comprises: obtaining a whole slide image of the patient showing a tissue sample relating to the cancerous disease; providing a prediction function configured to derive a treatment response prediction for one or more treatment options from whole slide images; and applying the prediction function to the whole slide image to provide the treatment response prediction.

20250104844. ANATOMICAL POSITIONING FRAMEWORK_simplified_abstract_(siemens healthineers ag)

Inventor(s): Mohammad Abdishektaei of Charlottesville VA US for siemens healthineers ag, Halid Yerebakan of Carmel IN US for siemens healthineers ag, Gerardo Hermosillo Valadez of West Chester PA US for siemens healthineers ag

IPC Code(s): G16H30/40, G06V10/25, G06V10/44, G06V10/82, G16H10/60

CPC Code(s): G16H30/40

Abstract: a framework for anatomical positioning. in accordance with one aspect, input text is mapped into normalized coordinates using an artificial neural network. a location in a target image that corresponds to the normalized coordinates is determined and presented. in accordance with another aspect, a user selection of a point-of-interest in a medical image is received. a context set of points nearest to the point-of-interest is determined. a prompt containing the point-of-interest and context set of points is constructed. a large language model may then generate text data associated with the point-of-interest in response to the prompt

20250104875. METHOD OF PREDICTING METASTASIS SITES_simplified_abstract_(siemens healthineers ag)

Inventor(s): Svenja LIPPOK of Uttenreuth DE for siemens healthineers ag, Sven KOHLE of Erlangen DE for siemens healthineers ag, Ricky Anupam SHARMA of Lightwater GB for siemens healthineers ag, Marta VILALTA of Belmont CA US for siemens healthineers ag

IPC Code(s): G16H50/30, G16H15/00, G16H30/40, G16H50/70

CPC Code(s): G16H50/30

Abstract: one or more example embodiments provides a computer-implemented method of predicting secondary sites of a primary tumour. the method includes obtaining a whole-slide image of a primary tumour of a patient; obtaining a primary site descriptor of the primary tumour of the patient; inputting the whole-slide image and the primary site descriptor to a deep learning system previously trained to predict a metastasis probability for an appearance of a secondary tumour for one or more body parts of patients based on a particular whole-slide image and an associated particular primary site descriptor of a particular primary tumour; and outputting a secondary site prediction for at least one body part of the patient, wherein a secondary site prediction comprises a descriptor of the at least one body part and the metastasis probability associated with the at least one body part.

Siemens Healthineers AG patent applications on March 27th, 2025