Patents by Inventor Cesare Jenkins
Cesare Jenkins 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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Patent number: 11844637Abstract: A self-shielded and computer controlled system for performing non-invasive stereotactic radiosurgery and precision radiotherapy using a linear accelerator mounted within a two degree-of-freedom radiation shield coupled to a three-degree of freedom patient table is provided. The radiation shield can include an axial shield rotatable about an axial axis and an oblique shield independently rotatable about an oblique axis, thereby providing improved range of trajectories of the therapeutic and diagnostic radiation beams. Such shields can be balanced about their respective axes of rotation and about a common support structure to facilitate ease of movement. Such systems can further include an imaging system to accurately deliver radiation to the treatment target and automatically make corrections needed to maintain the anatomical target at the system isocenter.Type: GrantFiled: November 12, 2019Date of Patent: December 19, 2023Assignee: Zap Surgical Systems, Inc.Inventors: Cesare Jenkins, Younes Achkire, Raymond Wilbur, John Adler, Manoocher Birang, Radhika Mohan Bodduluri, Hui Zhang, Tom McDermott, Chris Lee, Kaustubh Sonawale
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Patent number: 11726217Abstract: Measuring and tracking energy emitted by a radiation source. A system includes an image sensor for sensing electromagnetic radiation and a scintillator. The scintillator absorbs energy emitted by a radiation source and scintillates the absorbed energy. The system is such that the image sensor senses an image frame depicting at least a portion of the scintillator when the radiation source emits the energy. The image frame comprises an indication of where the energy is absorbed by the scintillator.Type: GrantFiled: September 23, 2021Date of Patent: August 15, 2023Assignee: Luca Medical Systems, Inc.Inventors: Paul De Jean, Elliot Grafil, Cesare Jenkins, Tae Jin Kim
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Publication number: 20220091283Abstract: Measuring and tracking energy emitted by a radiation source. A system includes an image sensor for sensing electromagnetic radiation and a scintillator. The scintillator absorbs energy emitted by a radiation source and scintillates the absorbed energy. The system is such that the image sensor senses an image frame depicting at least a portion of the scintillator when the radiation source emits the energy. The image frame comprises an indication of where the energy is absorbed by the scintillator.Type: ApplicationFiled: September 23, 2021Publication date: March 24, 2022Applicant: Luca Medical Systems, Inc.Inventors: Paul De Jean, Elliot Grafil, Cesare Jenkins, Tae Jin Kim
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Publication number: 20210369217Abstract: A self-shielded and computer controlled system for performing non-invasive stereotactic radiosurgery and precision radiotherapy using a linear accelerator mounted within a two degree-of-freedom radiation shield coupled to a three-degree of freedom patient table is provided. The radiation shield can include an axial shield rotatable about an axial axis and an oblique shield independently rotatable about an oblique axis, thereby providing improved range of trajectories of the therapeutic and diagnostic radiation beams. Such shields can be balanced about their respective axes of rotation and about a common support structure to facilitate ease of movement. Such systems can further include an imaging system to accurately deliver radiation to the treatment target and automatically make corrections needed to maintain the anatomical target at the system isocenter.Type: ApplicationFiled: August 10, 2021Publication date: December 2, 2021Applicant: Zap Surgical Systems, Inc.Inventors: Younes Achkire, Raymond Wilbur, John Adler, Manoocher Birang, Radhika Mohan Bodduluri, Hui Zhang, Tom McDermott, Chris Lee, Kaustubh Sonawale, Cesare Jenkins
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Publication number: 20200146640Abstract: A self-shielded and computer controlled system for performing non-invasive stereotactic radiosurgery and precision radiotherapy using a linear accelerator mounted within a two degree-of-freedom radiation shield coupled to a three-degree of freedom patient table is provided. The radiation shield can include an axial shield rotatable about an axial axis and an oblique shield independently rotatable about an oblique axis, thereby providing improved range of trajectories of the therapeutic and diagnostic radiation beams. Such shields can be balanced about their respective axes of rotation and about a common support structure to facilitate ease of movement. Such systems can further include an imaging system to accurately deliver radiation to the treatment target and automatically make corrections needed to maintain the anatomical target at the system isocenter.Type: ApplicationFiled: November 12, 2019Publication date: May 14, 2020Applicant: Zap Surgical Systems, Inc.Inventors: Younes Achkire, Raymond Wilbur, John Adler, Manoocher Birang, Radhika Mohan Bodduluri, Hui Zhang, Tom McDermott, Chris Lee, Kaustubh Sonawale, Cesare Jenkins
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Patent number: 10499861Abstract: A self-shielded and computer controlled system for performing non-invasive stereotactic radiosurgery and precision radiotherapy using a linear accelerator mounted within a two degree-of-freedom radiation shield coupled to a three-degree of freedom patient table is provided. The radiation shield can include an axial shield rotatable about an axial axis and an oblique shield independently rotatable about an oblique axis, thereby providing improved range of trajectories of the therapeutic and diagnostic radiation beams. Such shields can be balanced about their respective axes of rotation and about a common support structure to facilitate ease of movement. Such systems can further include an imaging system to accurately deliver radiation to the treatment target and automatically make corrections needed to maintain the anatomical target at the system isocenter.Type: GrantFiled: September 6, 2018Date of Patent: December 10, 2019Assignee: Zap Surgical Systems, Inc.Inventors: Younes Achkire, Raymond Wilbur, John Adler, Manoocher Birang, Radhika Mohan Bodduluri, Hui Zhang, Tom McDermott, Chris Lee, Kaustubh Sonawale, Cesare Jenkins
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Publication number: 20190069856Abstract: A self-shielded and computer controlled system for performing non-invasive stereotactic radiosurgery and precision radiotherapy using a linear accelerator mounted within a two degree-of-freedom radiation shield coupled to a three-degree of freedom patient table is provided. The radiation shield can include an axial shield rotatable about an axial axis and an oblique shield independently rotatable about an oblique axis, thereby providing improved range of trajectories of the therapeutic and diagnostic radiation beams. Such shields can be balanced about their respective axes of rotation and about a common support structure to facilitate ease of movement. Such systems can further include an imaging system to accurately deliver radiation to the treatment target and automatically make corrections needed to maintain the anatomical target at the system isocenter.Type: ApplicationFiled: September 6, 2018Publication date: March 7, 2019Inventors: Younes Achkire, Raymond Wilbur, John Adler, Manoocher Birang, Radhika Mohan Bodduluri, Hui Zhang, Tom McDermott, Chris Lee, Kaustubh Sonawale, Cesare Jenkins
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Publication number: 20170157427Abstract: A method of real-time radiotherapy beam visualization is provided that includes disposing a free-form flexible scintillating sheet on a subject of interest, irradiating the subject of interest with a source of ionizing radiation, where the free-forming flexible scintillating sheet emits light when irradiated by the therapeutic photon beam, collecting the emitted light and collecting ambient light reflected from the subject of interest and surrounding objects using a camera, where the collected light is converted to image data by the camera, where the image data is communicated to an appropriately programmed computer, and processing the image data to determine beam characteristics and the characteristics of the subject of interest, using the appropriately programmed computer, where the beam characteristics and the characteristics of the subject of interest are displayed in real-time to a machine operator enabling real-time verification of treatment delivery.Type: ApplicationFiled: February 16, 2017Publication date: June 8, 2017Inventors: Lei Xing, Dominik Jan Naczynski, Cesare Jenkins
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Patent number: 9604077Abstract: A method of real-time radiotherapy beam visualization is provided that includes disposing a free-form flexible scintillating sheet on a subject of interest, irradiating the subject of interest with a source of ionizing radiation, where the free-forming flexible scintillating sheet emits light when irradiated by the therapeutic photon beam, collecting the emitted light and collecting ambient light reflected from the subject of interest and surrounding objects using a camera, where the collected light is converted to image data by the camera, where the image data is communicated to an appropriately programmed computer, and processing the image data to determine beam characteristics and the characteristics of the subject of interest, using the appropriately programmed computer, where the beam characteristics and the characteristics of the subject of interest are displayed in real-time to a machine operator enabling real-time verification of treatment delivery.Type: GrantFiled: June 15, 2015Date of Patent: March 28, 2017Assignee: The Board of Trustees of the Leland Stanford Junior UniversityInventors: Lei Xing, Dominik Jan Naczynski, Cesare Jenkins
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Publication number: 20150360056Abstract: A method of real-time radiotherapy beam visualization is provided that includes disposing a free-form flexible scintillating sheet on a subject of interest, irradiating the subject of interest with a source of ionizing radiation, where the free-forming flexible scintillating sheet emits light when irradiated by the therapeutic photon beam, collecting the emitted light and collecting ambient light reflected from the subject of interest and surrounding objects using a camera, where the collected light is converted to image data by the camera, where the image data is communicated to an appropriately programmed computer, and processing the image data to determine beam characteristics and the characteristics of the subject of interest, using the appropriately programmed computer, where the beam characteristics and the characteristics of the subject of interest are displayed in real-time to a machine operator enabling real-time verification of treatment delivery.Type: ApplicationFiled: June 15, 2015Publication date: December 17, 2015Inventors: Lei Xing, Dominik Jan Naczynski, Cesare Jenkins
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Publication number: 20150265203Abstract: Antepartum conditions can be monitored using a smart phone or other portable user device. By providing a way to monitor antepartum conditions using a smart phone, the present invention allows virtually any user to monitor such conditions in any location without needing to visit a hospital or other health care facility. The ability to monitor antepartum conditions via a smart phone can therefore minimize false alarm trips to the hospital and can provide peace of mind to expectant mothers as they await active labor.Type: ApplicationFiled: March 20, 2014Publication date: September 24, 2015Inventors: Mark McConkie, Cesare Jenkins