Patents by Inventor Marcus Brehm
Marcus Brehm 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).
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Publication number: 20230169654Abstract: A first image data set and at least one second image data set are captured, and a contrast-enhanced image data set and a non-contrast image data set are determined based on the first and the at least one second image data set. The perfusion image data set is calculated based on a ratio of image values of the contrast-enhanced image data set and locally corresponding image values of the non-contrast image data set, and the perfusion image data set is provided via a second interface.Type: ApplicationFiled: November 28, 2022Publication date: June 1, 2023Applicant: Siemens Healthcare GmbHInventors: Marcus BREHM, Bernhard Schmidt, Thomas Flohr
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Patent number: 11173324Abstract: Reconstruction of projection images of a CBCT scan is performed by generating simulated projection data, comparing the simulated projection data to the projection images of the CBCT scan, determining a residual volume based on the comparison, and using the residual volume to determine an accurate reconstructed volume. The reconstructed volume can be used to segment a tumor (and potentially one or more organs) and align the tumor to a planning volume (e.g., from a CT scan) to identify changes, such as shape of the tumor and proximity of the tumor to an organ. These changes can be used to update a radiation therapy procedure, such as by altering a radiation treatment plan and fine-tuning a patient position.Type: GrantFiled: April 13, 2018Date of Patent: November 16, 2021Assignees: VARIAN MEDICAL SYSTEMS, INC.Inventors: Pascal Paysan, Marcus Brehm, Adam Wang, Dieter Seghers, Josh Star-Lack
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Patent number: 10524756Abstract: One example method to reduce image artifacts, which may include obtaining measured projection data acquired using an imaging system. The measured projection data is associated with a target object and an artifact source within a radiation field of the imaging system. The method may also include generating virtual projection data associated with the artifact source by forward projecting a model representing one or more physical properties of the artifact source. The method may further include generating corrected projection data based on the measured projection data and the virtual projection data; and reconstructing the corrected projection data into reconstructed volume image data to reduce image artifacts caused by the artifact source.Type: GrantFiled: August 27, 2015Date of Patent: January 7, 2020Assignee: VARIAN MEDICAL SYSTEMS INTERNATIONALInventors: Pascal Paysan, Luis Melo De Carvalho, Dieter Seghers, Marcus Brehm
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Patent number: 10062168Abstract: An apparatus includes: an input configured to receive a plurality of images, wherein the images include respective sub-images of a bodily part of a subject, and wherein a position of the bodily part relates to a breathing movement and a cardiac movement of the subject; a first registration engine configured to determine a first registration of at least two breathing correlated images, wherein the at least two breathing correlated images comprise two of the plurality of images or are derived from at least some of the plurality of images; a second registration engine configured to determine a second registration of at least two cardiac correlated images; and a volumetric image generator configured to generate a volumetric image using the first registration and the second registration.Type: GrantFiled: February 26, 2016Date of Patent: August 28, 2018Assignee: Varian Medical Systems International AGInventors: Marcus Brehm, Marc Kachelriess, Pascal Paysan
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Publication number: 20180229056Abstract: Reconstruction of projection images of a CBCT scan is performed by generating simulated projection data, comparing the simulated projection data to the projection images of the CBCT scan, determining a residual volume based on the comparison, and using the residual volume to determine an accurate reconstructed volume. The reconstructed volume can be used to segment a tumor (and potentially one or more organs) and align the tumor to a planning volume (e.g., from a CT scan) to identify changes, such as shape of the tumor and proximity of the tumor to an organ. These changes can be used to update a radiation therapy procedure, such as by altering a radiation treatment plan and fine-tuning a patient position.Type: ApplicationFiled: April 13, 2018Publication date: August 16, 2018Applicants: Varian Medical Systems, Inc., Varian Medical Systems International AGInventors: Pascal Paysan, Marcus Brehm, Adam Wang, Dieter Seghers, Josh Star-Lack
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Publication number: 20170249740Abstract: An apparatus includes: an input configured to receive a plurality of images, wherein the images include respective sub-images of a bodily part of a subject, and wherein a position of the bodily part relates to a breathing movement and a cardiac movement of the subject; a first registration engine configured to determine a first registration of at least two breathing correlated images, wherein the at least two breathing correlated images comprise two of the plurality of images or are derived from at least some of the plurality of images; a second registration engine configured to determine a second registration of at least two cardiac correlated images; and a volumetric image generator configured to generate a volumetric image using the first registration and the second registration.Type: ApplicationFiled: February 26, 2016Publication date: August 31, 2017Applicant: Varian Medical Systems International AGInventors: Marcus BREHM, Marc KACHELRIESS, Pascal PAYSAN
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Publication number: 20170055931Abstract: One example method to reduce image artifacts, which may include obtaining measured projection data acquired using an imaging system. The measured projection data is associated with a target object and an artifact source within a radiation field of the imaging system. The method may also include generating virtual projection data associated with the artifact source by forward projecting a model representing one or more physical properties of the artifact source. The method may further include generating corrected projection data based on the measured projection data and the virtual projection data; and reconstructing the corrected projection data into reconstructed volume image data to reduce image artifacts caused by the artifact source.Type: ApplicationFiled: August 27, 2015Publication date: March 2, 2017Inventors: Pascal PAYSAN, Luis MELO DE CARVALHO, Dieter SEGHERS, Marcus BREHM
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Patent number: 9047701Abstract: A method of obtaining a volumetric image includes obtaining a plurality of volumetric images, the volumetric images generated using respective sets of projection images, wherein the volumetric images and the respective sets of projection images correspond with different respective bins for a physiological cycle, and determining an additional volumetric image using one or more of the projection images from each of the sets that correspond with the different respective bins for the physiological cycle, wherein the act of determining the additional volumetric image is performed using a processor.Type: GrantFiled: March 31, 2012Date of Patent: June 2, 2015Assignees: VARIAN MEDICAL SYSTEMS, INC., VARIAN MEDICAL SYSTEMS INTERNATIONAL AG, FRIEDRICH-ALEXANDER-UNIVERSITAET ERLANGEN-NUERNBERGInventors: Marcus Brehm, Timo Berkus, Markus Oelhafen, Patrik Kunz, Marc Kachelriess, Corey E. Zankowski
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Publication number: 20130259338Abstract: A method of obtaining a volumetric image includes obtaining a plurality of volumetric images, the volumetric images generated using respective sets of projection images, wherein the volumetric images and the respective sets of projection images correspond with different respective bins for a physiological cycle, and determining an additional volumetric image using one or more of the projection images from each of the sets that correspond with the different respective bins for the physiological cycle, wherein the act of determining the additional volumetric image is performed using a processor.Type: ApplicationFiled: March 31, 2012Publication date: October 3, 2013Applicants: Varian medical Systems, Inc., Friedrich-alexander-Universitaet Erlangen-Nuernberg, Varian Medical Systems International AGInventors: Marcus Brehm, Timo Berkus, Markus Oelhafen, Patrik Kunz, Marc Kachelriess, Corey E. Zankowski