Patents by Inventor Kirk Owens
Kirk Owens 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: 20240082605Abstract: Described herein are methods for beam station delivery of radiation treatment, where the patient platform is moved to a series of discrete patient platform locations or beam stations that are determined during treatment planning, stopped at each of these locations while the radiation source rotates about the patient delivering radiation to the target regions that intersect the radiation beam path, and then moving to the next location after the prescribed dose of radiation (e.g., in accordance with a calculated fluence map) for that location has been delivered to the patient.Type: ApplicationFiled: September 21, 2023Publication date: March 14, 2024Inventors: Yevgen VORONENKO, Jayakrishnan Janardhanan, Debashish Pal, Rostem Bassalow, Peter Demetri Olcott, Michael Kirk Owens
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Patent number: 11896848Abstract: Disclosed herein are methods for patient setup and registration for the irradiation of target tissue regions. A method for positioning a patient for radiation therapy may include acquiring an image of a first patient target region and a second patient target region. A first set of patient position-shift vectors may be calculated based on the acquired image and a treatment planning image of the first patient target region. A second set of patient position-shift vectors may be calculated based on the acquired image, a treatment planning image of the second patient target region, and the first set of patient position-shift vectors. The patient may be positioned according to the first set of patient position-shift vectors in a first location. The patient may be moved to a second location and positioned according to the second set of patient position-shift vectors.Type: GrantFiled: July 14, 2021Date of Patent: February 13, 2024Assignee: RefleXion Medical, Inc.Inventors: Jayakrishnan Janardhanan, Michael Kirk Owens
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Publication number: 20230405359Abstract: Disclosed herein are methods for radiotherapy treatment plan optimization for irradiating one or more target regions using both an internal therapeutic radiation source (ITRS) and an external therapeutic radiation source (ETRS). One variation of a method comprises iterating through ITRS radiation dose values and ETRS radiation dose values to attain a cumulative dose that meets prescribed dose requirements. In some variations, an ITRS is an injectable compound that has a targeting backbone and a radionuclide, and images acquired using an imaging compound that has the same targeting backbone as the injectable compound can be used to calculate the radiation dose deliverable using the injectable ITRS, and also to calculate firing filters for delivering radiation using a biologically-guided radiation therapy (BGRT) system. Image data acquired from a previous treatment session may be used to adapt the dose provided by an ITRS and/or ETRS for a future treatment session.Type: ApplicationFiled: April 14, 2023Publication date: December 21, 2023Inventors: Peter Demetri Olcott, Michael Kirk Owens, Debashish Pal
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Publication number: 20230390580Abstract: Disclosed herein are systems and methods for adapting and/or updating radiotherapy treatment plans based on biological and/or physiological data and/or anatomical data extracted or calculated from imaging data acquired in real-time (e.g., during a treatment session). Functional imaging data acquired at the time of radiation treatment is used to modify a treatment plan and/or dose delivery instructions to provide a prescribed dose distribution to patient target regions. Also disclosed herein are methods for evaluating treatment plans based on imaging data acquired in real-time.Type: ApplicationFiled: April 4, 2023Publication date: December 7, 2023Inventors: Michael Kirk Owens, Rostem BASSALOW, Peter Demetri OLCOTT, Yevgen VORONENKO, David Quentin LARKIN, Samuel MAZIN
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Patent number: 11801398Abstract: Described herein are methods for beam station delivery of radiation treatment, where the patient platform is moved to a series of discrete patient platform locations or beam stations that are determined during treatment planning, stopped at each of these locations while the radiation source rotates about the patient delivering radiation to the target regions that intersect the radiation beam path, and then moving to the next location after the prescribed dose of radiation (e.g., in accordance with a calculated fluence map) for that location has been delivered to the patient.Type: GrantFiled: June 2, 2022Date of Patent: October 31, 2023Assignee: RefleXion Medical, Inc.Inventors: Yevgen Voronenko, Jayakrishnan Janardhanan, Debashish Pal, Rostem Bassalow, Peter Demetri Olcott, Michael Kirk Owens
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Publication number: 20230248347Abstract: A surgical system includes a plurality of alternate engaging surfaces. A first member is connectable with an engaging surface such that the first member is interchangeable with the plurality of engaging surfaces. A second member is connectable with an engaging surface such that the second member is interchangeable with the plurality of engaging surfaces. The members are relatively movable to distract and/or compress vertebral tissue. Surgical instruments, constructs, implants and methods are disclosed.Type: ApplicationFiled: February 10, 2022Publication date: August 10, 2023Applicant: Warsaw Orthopedic, Inc.Inventors: Christel Italiaie, Bret Matthew Wilfong, Richard A. Hynes, Charles Hopkins Crawford, III, Roger Kirk Owens, II, Mladen Djurasovic, Jeffrey Lynn Gum
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Patent number: 11654300Abstract: Disclosed herein are methods for radiotherapy treatment plan optimization for irradiating one or more target regions using both an internal therapeutic radiation source (ITRS) and an external therapeutic radiation source (ETRS). One variation of a method comprises iterating through ITRS radiation dose values and ETRS radiation dose values to attain a cumulative dose that meets prescribed dose requirements. In some variations, an ITRS is an injectable compound that has a targeting backbone and a radionuclide, and images acquired using an imaging compound that has the same targeting backbone as the injectable compound can be used to calculate the radiation dose deliverable using the injectable ITRS, and also to calculate firing filters for delivering radiation using a biologically-guided radiation therapy (BGRT) system. Image data acquired from a previous treatment session may be used to adapt the dose provided by an ITRS and/or ETRS for a future treatment session.Type: GrantFiled: January 26, 2021Date of Patent: May 23, 2023Assignee: RefleXion Medical, Inc.Inventors: Peter Demetri Olcott, Michael Kirk Owens, Debashish Pal
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Patent number: 11648418Abstract: Disclosed herein are systems and methods for adapting and/or updating radiotherapy treatment plans based on biological and/or physiological data and/or anatomical data extracted or calculated from imaging data acquired in real-time (e.g., during a treatment session). Functional imaging data acquired at the time of radiation treatment is used to modify a treatment plan and/or dose delivery instructions to provide a prescribed dose distribution to patient target regions. Also disclosed herein are methods for evaluating treatment plans based on imaging data acquired in real-time.Type: GrantFiled: June 22, 2018Date of Patent: May 16, 2023Assignee: Reflexion Medical, Inc.Inventors: Michael Kirk Owens, Rostem Bassalow, Peter Demetri Olcott, Yevgen Voronenko, David Quentin Larkin, Samuel Mazin
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Publication number: 20220288422Abstract: Described herein are methods for beam station delivery of radiation treatment, where the patient platform is moved to a series of discrete patient platform locations or beam stations that are determined during treatment planning, stopped at each of these locations while the radiation source rotates about the patient delivering radiation to the target regions that intersect the radiation beam path, and then moving to the next location after the prescribed dose of radiation (e.g., in accordance with a calculated fluence map) for that location has been delivered to the patient.Type: ApplicationFiled: June 2, 2022Publication date: September 15, 2022Inventors: Yevgen VORONENKO, Jayakrishnan JANARDHANAN, Debashish PAL, Rostem BASSALOW, Peter Demetri OLCOTT, Michael Kirk OWENS
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Patent number: 11358008Abstract: Described herein are methods for beam station delivery of radiation treatment, where the patient platform is moved to a series of discrete patient platform locations or beam stations that are determined during treatment planning, stopped at each of these locations while the radiation source rotates about the patient delivering radiation to the target regions that intersect the radiation beam path, and then moving to the next location after the prescribed dose of radiation (e.g., in accordance with a calculated fluence map) for that location has been delivered to the patient.Type: GrantFiled: February 13, 2019Date of Patent: June 14, 2022Assignee: RefleXion Medical, Inc.Inventors: Yevgen Voronenko, Jayakrishnan Janardhanan, Debashish Pal, Rostem Bassalow, Peter Demetri Olcott, Michael Kirk Owens
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Publication number: 20220126117Abstract: Disclosed herein are methods for patient setup and patient target region localization for the irradiation of multiple patient target regions in a single treatment session. Virtual localization is a method that can be used to register a patient target region without requiring that the patient is physically moved using the patient platform. Instead, the planned fluence is updated to reflect the current location of the patient target region by selecting a localization reference in the localization image, calculating a localization function based on the localization reference point, and calculating the delivery fluence by convolving the localization function with a shift-invariant firing filter. Mosaic multi-target localization partitions a planned fluence map for multiple patient target regions into sub-regions that can be individually localized.Type: ApplicationFiled: January 7, 2022Publication date: April 28, 2022Inventors: Yevgen VORONENKO, Debashish PAL, David Quentin LARKIN, George ZDASIUK, Jayakrishnan JANARDHANAN, Michael Kirk OWENS, Peter Demetri OLCOTT
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Patent number: 11266391Abstract: A surgical retractor comprises at least one blade including a first arm and a second arm spaced apart from the first arm. The at least one blade further including a member being disposed with the arms to support at least one surgical instrument in a selected orientation relative to a surgical site. Surgical systems, instruments, constructs, implants and methods are disclosed.Type: GrantFiled: February 11, 2019Date of Patent: March 8, 2022Assignee: Warsaw Orthopedic, Inc.Inventors: Madeline G. Wilson, Mladen Djurasovic, Charles Hopkins Crawford, III, Jeffrey Lynn Gum, Roger Kirk Owens, II
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Publication number: 20220001209Abstract: Described herein are methods for monitoring the radiation delivery during a radiotherapy delivery session and providing a graphical representation of radiation delivery to an operator (e.g., a clinician, a medical physicist, a radiation therapy technologist). The graphics are updated in real-time, as radiation data is collected by the radiotherapy system, and in some variations, can be updated every 15 minutes or less. A variety of graphical representations (“graphics”) can be used to indicate the status of radiation delivery relative to the planned radiation delivery. Methods optionally include calculating a range of acceptable metric values, generating graphics that represent the range of acceptable metrics values, and generating a graphic that depicts the real-time values of those metrics overlaid with the range of acceptable metrics values.Type: ApplicationFiled: September 20, 2021Publication date: January 6, 2022Inventors: Michael Kirk OWENS, Peter Demetri OLCOTT, Rostem BASSALOW
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Patent number: 11180223Abstract: A roller mount for seats is used in connection with a boat and a seat. First and second base slides are mounted spaced apart on a base plate. The base slides have longitudinal rack gears. First and second top slides are mounted for linear movement on the base slides in a longitudinal direction, on a plurality of rollers. A top plate is mounted on the top slides to support the seat. First and second detent plates have longitudinal top rack gears, for selective releasable engagement with the base rack gears to preclude movement of the top slides. First and second locking bars extend longitudinally adjacent the base rack gears. The top rack gears include locking slots extending longitudinally for engagement with the locking bars, to guide the top rack gears into engagement with the base rack gears. The base rack gears and the top rack gears have teeth extending upward and inward at an angle with the base plane.Type: GrantFiled: August 7, 2020Date of Patent: November 23, 2021Inventors: Robert M. Kohen, Kirk Owens
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Publication number: 20210339047Abstract: Disclosed herein are methods for patient setup and registration for the irradiation of target tissue regions. A method for positioning a patient for radiation therapy may include acquiring an image of a first patient target region and a second patient target region. A first set of patient position-shift vectors may be calculated based on the acquired image and a treatment planning image of the first patient target region. A second set of patient position-shift vectors may be calculated based on the acquired image, a treatment planning image of the second patient target region, and the first set of patient position-shift vectors. The patient may be positioned according to the first set of patient position-shift vectors in a first location. The patient may be moved to a second location and positioned according to the second set of patient position-shift vectors.Type: ApplicationFiled: July 14, 2021Publication date: November 4, 2021Inventors: Jayakrishnan JANARDHANAN, Michael Kirk OWENS
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Publication number: 20210228907Abstract: Disclosed herein are methods for radiotherapy treatment plan optimization for irradiating one or more target regions using both an internal therapeutic radiation source (ITRS) and an external therapeutic radiation source (ETRS). One variation of a method comprises iterating through ITRS radiation dose values and ETRS radiation dose values to attain a cumulative dose that meets prescribed dose requirements. In some variations, an ITRS is an injectable compound that has a targeting backbone and a radionuclide, and images acquired using an imaging compound that has the same targeting backbone as the injectable compound can be used to calculate the radiation dose deliverable using the injectable ITRS, and also to calculate firing filters for delivering radiation using a biologically-guided radiation therapy (BGRT) system. Image data acquired from a previous treatment session may be used to adapt the dose provided by an ITRS and/or ETRS for a future treatment session.Type: ApplicationFiled: January 26, 2021Publication date: July 29, 2021Inventors: Peter Demetri OLCOTT, Michael Kirk OWENS, Debashish PAL
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Patent number: D945609Type: GrantFiled: May 5, 2021Date of Patent: March 8, 2022Assignee: Warsaw Orthopedic, Inc.Inventors: Madeline G. Wilson, Mladen Djurasovic, Charles Hopkins Crawford, III, Jeffrey Lynn Gum, Roger Kirk Owens, II
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Patent number: D945610Type: GrantFiled: May 5, 2021Date of Patent: March 8, 2022Assignee: Warsaw Orthopedic, Inc.Inventors: Madeline G. Wilson, Mladen Djurasovic, Charles Hopkins Crawford, III, Jeffrey Lynn Gum, Roger Kirk Owens, II
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Patent number: D946147Type: GrantFiled: May 5, 2021Date of Patent: March 15, 2022Assignee: Warsaw Orthopedic, Inc.Inventors: Madeline G. Wilson, Mladen G. Djurasovic, Charles Hopkins Crawford, III, Jeffrey Lynn Gum, Roger Kirk Owens, II
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Patent number: D954260Type: GrantFiled: May 5, 2021Date of Patent: June 7, 2022Assignee: Warsaw Orthopedic, Inc.Inventors: Madeline G. Wilson, Mladen Djurasovic, Charles Hopkins Crawford, III, Jeffrey Lynn Gum, Roger Kirk Owens, II