Patents Assigned to Varian Medical Systems, Inc.
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Patent number: 11027147Abstract: A system for estimating a dose from a radiation therapy plan includes a memory that stores machine-readable instructions and a processor communicatively coupled to the memory, the processor operable to execute the instructions to subdivide a representation of a volume of interest into voxels. The processor also determines distances between a planned radiation field origin and each respective voxel. The processor further computes geometry-based expected (GED) metrics based on the distances, a plan parameter, and a field strength parameter. The processor sums the metrics to yield an estimated dose received by the volume of interest from the planned radiation field.Type: GrantFiled: September 4, 2018Date of Patent: June 8, 2021Assignees: Varian Medical Systems International AG., Varian Medical Systems, Inc.Inventors: Corey Zankowski, Janne Nord, Maria Isabel Cordero Marcos, Joona Hartman, Jarkko Peltola, Esa Kuusela
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Patent number: 11027153Abstract: A radiation therapy system is configured to enable imaging and treatment of a target volume during a single patient breath hold. The radiation system includes a rotating gantry on which are mounted a treatment-delivering X-ray source and multiple imaging X-ray sources and corresponding X-ray imaging devices. The multiple imaging X-ray sources and X-ray imaging devices enable the acquisition of volumetric image data for the target volume over a relatively short rotational arc, for example 30 degrees or less. Therefore, intra-fraction motion can be detected in near-real time, for example within about one second or less. The radiation therapy system can perform image guided radiation therapy (IGRT) that monitors intra-fraction motion using X-ray imaging. Detected anatomical variations can then either be compensated for, via patient repositioning and/or treatment modification, or the current treatment can be aborted.Type: GrantFiled: June 25, 2019Date of Patent: June 8, 2021Assignee: VARIAN MEDICAL SYSTEMS, INC.Inventors: John Van Heteren, Liangjia Zhu, Daniel Morf, Stefan Georg Scheib, Pascal Paysan
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Patent number: 11016202Abstract: An imaging device includes: a first scintillator layer; an array of detector elements, wherein the array of detector elements comprises a first detector element; a second scintillator layer configured to receive radiation after the radiation has passed through the first scintillator layer and the array of detector elements, wherein the array of detector elements is located between the first scintillator layer and the second scintillator layer; a first electrode located closer to the first scintillator than the second scintillator; and a second electrode situated between the second scintillator and the first detector element; the first detector element configured to generate a first electrical signal in response to light from the first scintillator layer, and to generate a second electrical signal in response to light from the second scintillator layer; the second electrode configured to allow the light from the second scintillator layer to reach the first detector element.Type: GrantFiled: April 26, 2018Date of Patent: May 25, 2021Assignee: Varian Medical Systems, Inc.Inventors: Daniel Morf, Josh Star-Lack
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Patent number: 11017975Abstract: An apparatus for coupling to an input connection of an electron gun, the input connection having a heater terminal and a cathode terminal, includes: a connector having a first end and a second end; wherein the first end of the connector is configured to attach to a cable; wherein the second end of the connector is configured to connect to the input connection of the electron gun; and wherein the connector comprises an opening configured to receive the heater terminal of the input connection of the electron gun.Type: GrantFiled: December 20, 2019Date of Patent: May 25, 2021Assignee: Varian Medical Systems, Inc.Inventors: Mark E. Trail, Rudolf H. Potter
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Patent number: 11007381Abstract: Systems and methods provide radiotherapy treatment by focusing an electron beam on an x-ray target (e.g., a tungsten plate) to produce a high-yield x-ray output with improved field shaping. A modified electron beam spatial distribution is employed to scan the x-ray target, such as a 2D periodic beam path, which advantageously lowers the x-ray target temperature compared to the typical compact beam spatial distribution. As a result, the x-ray target can produce a high yield output without sacrificing the x-ray target life span. The use of a 2D periodic beam path allows a much colder x-ray target functioning regime such that more dosage can be applied in a short period of time compared to existing techniques.Type: GrantFiled: November 16, 2018Date of Patent: May 18, 2021Assignee: Varian Medical Systems, IncInventors: Anuj Purwar, Dragos Constantin, James Clayton
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Patent number: 11010850Abstract: The present invention is directed to a method, system, and article of manufacture of a treatment environment engine on a mobile device to allow performance of workflow tasks inside of a high radiation medical procedure room. The treatment environment engine comprises a capturing module, a synchronization module, and a medical device control console component for capturing data (e.g., images or text) on the mobile device inside the medical procedure room and synchronizing the data via a wireless network with a medical device control console located outside the medical procedure room.Type: GrantFiled: February 4, 2019Date of Patent: May 18, 2021Assignee: Varian Medical Systems, Inc.Inventor: Srinath Hariharan Kashyap
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Patent number: 11004549Abstract: Techniques for the mapping, selection and import of patient medical objects can include receiving metadata of a plurality of patient medical objects from one or more data sources. Metadata icons can be generated for the received metadata of the plurality of patient medical objects. The metadata icons can be filtered based on one or more received criteria. A patient map including the filtered metadata icons can be generated. In addition, the selection of one or more metadata icons in the patient map can be received and used to determine one or more selected patient medical objects. The selected patient medical objects can thereafter be imported from the one or more data sources.Type: GrantFiled: September 28, 2018Date of Patent: May 11, 2021Assignees: Varian Medical Systems International AG, Varian Medical Systems, IncInventors: Tobias Gass, Benjamin Haas, Tomasz Morgas, Joao Neta, Pawel Zak, Yarema Mazuryk
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Patent number: 10974076Abstract: A beam modifier shapes the distribution of a dose delivered to a target by a radiation beam emitted from a beam emitter of a radiotherapy device, particularly a beam that delivers a high radiation dose within a single, short period of time (e.g., less than a second). Elements of the beam modifier (e.g., rods) include material that can block or attenuate the beam. The elements can be dynamically and quickly configured to form an opening or transparent area through which a portion of the beam can pass unimpeded and to present different thicknesses of material to block or attenuate other portions of the beam, in this manner shaping the dose distribution at the target while protecting surrounding tissue.Type: GrantFiled: December 14, 2017Date of Patent: April 13, 2021Assignee: Varian Medical Systems, IncInventors: Elizabeth Bowman, Roberto Luevano, Stephen Mohr, Cody Hellstern, Borislav Djurovic
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Patent number: 10974069Abstract: A radiosurgical method for treating cardiorenal disease of a patient, the method including directing radiosurgery radiation from outside the patient towards one or more target treatment regions encompassing sympathetic ganglia of the patient so as to inhibit the cardiorenal disease. In an exemplary embodiment, the method further includes acquiring three dimensional planning image data encompassing the first and second renal arteries, planning an ionizing radiation treatment of first and second target regions using the three dimensional planning image data so as to mitigate the hypertension, the first and second target regions encompassing neural tissue of or proximate to the first and second renal arteries, respectively, and remodeling the target regions by directing the planned radiation from outside the body toward the target regions.Type: GrantFiled: February 11, 2019Date of Patent: April 13, 2021Assignee: Varian Medical Systems, Inc.Inventors: Patrick Maguire, Edward Gardner
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Patent number: 10973770Abstract: Polymeric particles are provided for use in therapeutic and/or diagnostic procedures. The particles include poly[bis(trifluoroethoxy)phosphazene and/or a derivative thereof which may be present throughout the particles or within an outer coating of the particles. The particles may also include a core having a hydrogel formed from an acrylic-based polymer. Such particles may be provided to a user in specific selected sizes to allow for selective embolization of certain sized blood vessels or localized treatment with an active component agent in specific clinical uses. Particles of the present invention may further be provided as color-coded microspheres or nanospheres to allow ready identification of the sized particles in use. Such color-coded microspheres or nanospheres may further be provided in like color-coded delivery or containment devices to enhance user identification and provide visual confirmation of the use of a specifically desired size of microspheres or nanospheres.Type: GrantFiled: May 22, 2015Date of Patent: April 13, 2021Assignee: Varian Medical Systems, Inc.Inventors: Ulf Fritz, Olaf Fritz, Thomas A. Gordy, Ronald Wojcik, Jacques Blummel, Alexander Kuller
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Patent number: 10974075Abstract: Method and systems are disclosed for radiating a moving target inside a heart. The method includes acquiring sequential volumetric representations of an area of the heart and defining a target tissue region and/or a radiation sensitive structure region in 3D for a first of the representations. The target tissue region and/or radiation sensitive structure region are identified for another of the representations by an analysis of the area of the heart from the first representation and the other representation. Radiation beams to the target tissue region are fired in response to the identified target tissue region and/or radiation sensitive structure region from the other representation.Type: GrantFiled: November 19, 2018Date of Patent: April 13, 2021Assignee: Varian Medical Systems, Inc.Inventors: Thilaka Sumanaweera, Patrick Maguire, Ed Gardner
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Patent number: 10974071Abstract: An apparatus includes a first multileaf collimator comprising a plurality of pairs of beam-blocking leaves each comprising an end portion. The end portions of beam-blocking leaves of two adjacent pairs are configured to collectively form an aperture when the two adjacent pairs of beam-blocking leaves are closed. The aperture may be sized and shaped to allow a radiation beam to pass through for radiosurgery.Type: GrantFiled: April 30, 2019Date of Patent: April 13, 2021Assignee: Varian Medical Systems, Inc.Inventors: Corey Zankowski, Sasa Mutic
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Patent number: 10967202Abstract: A method of generating an image synthesis process is disclosed, where the image synthesis process improves image quality of degraded volumetric images. In the method, a machine learning process is trained in a supervised learning framework as the image synthesis process. In the supervised learning process, a lower-quality partial-data reconstruction of a target volume is employed as an input object in the supervised learning process and a higher-quality full data reconstruction of the target volume is employed as an expected output. The full data reconstruction is generated based on a first set of projection images of the three-dimensional volume and the partial-data reconstruction is generated based on a second set of projection images of the three-dimensional volume, where the second set of projection images includes projection images that have less image information and/or are of a lower image quality than the first set of projection images.Type: GrantFiled: June 4, 2019Date of Patent: April 6, 2021Assignee: VARIAN MEDICAL SYSTEMS, INC.Inventors: John Van Heteren, Petr Jordan, Adam Wang, Josh Star-Lack
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Patent number: 10960231Abstract: A radiation therapy system includes an accelerator and beam transport system that generates a beam of particles. The accelerator and beam transport system guides the beam on a path and into a nozzle that is operable for aiming the beam toward an object. The nozzle includes a scanning magnet operable for steering the beam toward different locations within the object, and also includes a beam energy adjuster configured to adjust the beam by, for example, placing different thicknesses of material in the path of the beam to affect the energies of the particles in the beam.Type: GrantFiled: May 2, 2019Date of Patent: March 30, 2021Assignee: Varian Medical Systems, Inc.Inventor: Stanley Mansfield
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Patent number: 10960232Abstract: A radiation therapy system delivers radiation treatment over a 360-degree arc and performs a prepended imaging process, in a single pass, via an extended rotation gantry. While rotating the gantry in one direction about a bore of the radiation system, the radiation system generates multiple images of a target volume disposed in the bore using an imaging X-ray source mounted on the gantry. Then, while continuing to rotate the gantry in the same direction, the radiation system delivers a treatment beam to the target volume using a treatment-delivering X-ray source mounted on the gantry, where the treatment beam is delivered from some or all of a 360-degree arc about the bore. Thus, the prepended imaging process and the delivery of radiation are performed in a single pass of the gantry about a target volume, eliminating the need for a return stroke of the gantry for completion.Type: GrantFiled: November 5, 2018Date of Patent: March 30, 2021Assignee: VARIAN MEDICAL SYSTEMS, INC.Inventors: Blake Gaderlund, Josh Star-Lack, John Van Heteren, Adam Wang
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Publication number: 20210062277Abstract: The methods described herein allow for the classification of patients into groups for receiving optimized radiation treatment based on patient specific biomarker signature. The biomarker signature includes markers that have been shown to correlate with TGF-B expression and to be associated with tumor aggressiveness, radioresistance and poor prognosis. The markers play a key role in the epithelial-mesenchymal transition. The methods described herein provide the dual benefits of anti-tumor efficacy plus normal tissue protection when combining TGF-B inhibitors with ionizing radiation to treat cancer patients.Type: ApplicationFiled: October 14, 2020Publication date: March 4, 2021Applicant: Varian Medical Systems, Inc.Inventor: Renate Parry
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Patent number: 10926103Abstract: An energy degrading device for attenuating energy of a particle beam with reduced emittance growth. An energy degrader comprises an emittance control material that can preferentially scatter the beam particles that is incident on a surface with a shallow angle. In one approach, the energy degrader may include alternating layers of a low-Z and a high-Z material, wherein the low Z material serves to attenuate energy of the beam particles by virtue of scattering and the high Z material serves to suppress the emittance increase by scattering back the beam particles toward the beam axis. In another approach, the energy degrader may be composed of carbon nanotubes or a material with oriented crystalline structure that is substantially orientated in the incident direction of the particle beam. The carbon nanotubes may serve to preferentially scatter beam particles towards the central beam axis as well as attenuate energy thereof.Type: GrantFiled: March 13, 2017Date of Patent: February 23, 2021Assignee: Varian Medical Systems, Inc.Inventor: Luis Alberto Cruz
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Patent number: 10918886Abstract: A computing system comprising a central processing unit (CPU), and memory coupled to the CPU and having stored therein instructions that, when executed by the computing system, cause the computing system to execute operations to generate a radiation treatment plan. The operations include accessing a minimum prescribed dose to be delivered into and across the target, determining a number of beams and directions of the beams, and determining a beam energy for each of the beams, wherein the number of beams, the directions of the beams, and the beam energy for each of the beams are determined such that the entire target receives the minimum prescribed dose. The operations further include prescribing a dose rate and optimizing dose rate constraints for FLASH therapy, and displaying a dose rate map of the FLASH therapy.Type: GrantFiled: June 10, 2019Date of Patent: February 16, 2021Assignees: Varian Medical Systems, Inc., Varian Medical Systems International AG, Varian Medical Systems Particle Therapy GMBHInventors: Christel Smith, Timo Koponen, Reynald Vanderstraeten, Anthony Magliari, Eric Abel, Jessica Perez, Michael Folkerts, Deepak Khuntia
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Patent number: 10921756Abstract: The present system and method for simulating particles and waves is useful for calculations involving nuclear and full spectrum radiation transport, quantum particle transport, plasma transport and charged particle transport. The invention provides a mechanism for creating accurate invariants for embedding in general three-dimensional problems and describes means by which a series of simple single collision interaction finite elements can be extended to formulate a complex multi-collision finite element.Type: GrantFiled: February 27, 2015Date of Patent: February 16, 2021Assignee: Varian Medical Systems, Inc.Inventor: Richard Andrew Holland
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Patent number: 10912952Abstract: A high-energy radiation treatment system can comprise a laser-driven accelerator system, a patient monitoring system, and a control system. The laser-driven accelerator system, such as a laser-driven plasma accelerator or a laser-driven dielectric microstructure accelerator, can be constructed to irradiate a patient disposed on a patient support. The patient monitoring system can be configured to detect and track a location or movement of a treatment volume within the patient. The control system can be configured to control the laser-driven accelerator system responsively to the location or movement of the treatment volume. The system can also include a beam control system, which generates a magnetic field that can affect the radiation beam and/or secondary electrons produced by the irradiation beam. In some embodiments, the beam control system and the patient monitoring system can comprise a magnetic resonance imaging system.Type: GrantFiled: February 13, 2019Date of Patent: February 9, 2021Assignee: VARIAN MEDICAL SYSTEMS, INC.Inventor: James E. Clayton