Patents by Inventor Adam Harrington
Adam Harrington 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: 20240173489Abstract: The portable ultrasonic nebulizer is a device that uses a high-frequency piezoelectric oscillator to create an aerosolized medication for inhalation. The medication is typically a liquid, but can also be a suspension, emulsion, or solution. The portable ultrasonic nebulizer is formed from two primary components: a controller and a cartridge. The controller includes the electronics and power source for the operation of the device. The cartridge includes the reservoir in which the medication is held, as well as the associated components for delivery of the medication, including the wick and piezoelectric oscillator. The cartridge is single-use, or disposable. Thus, the user keeps the controller, to which she joins cartridges as desired, whether to change medications, or as a refill.Type: ApplicationFiled: November 30, 2022Publication date: May 30, 2024Inventors: Chris Gerlach, Mauricio Amaya, Zachary Hudson, Adam Gerlach, Aaron Hudson, Tim Harrington
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Patent number: 11992703Abstract: A method used for planning radiation treatment accessing information that includes calculated doses and calculated dose rates for sub-volumes in a treatment target, and also accessing information that includes values of a measure of the sub-volumes as a function of the calculated doses and the calculated dose rates. A graphical user interface includes a rendering that is based on the calculated doses, the calculated doses rates, and the values of the measure.Type: GrantFiled: May 18, 2021Date of Patent: May 28, 2024Assignees: VARIAN MEDICAL SYSTEMS PARTICLE THERAPY GMBH & CO. KG, VARIAN MEDICAL SYSTEMS, INC., SIEMENS HEALTHINEERS INTERNATIONAL AGInventors: Pierre Lansonneur, Perttu Niemela, Viljo Petaja, Simon Busold, Michiko Rossi, Matti Sakari Ropo, Michael Folkerts, Jessica Perez, Christel Smith, Adam Harrington, Eric Abel, Lauri Halko
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Patent number: 11920647Abstract: In one aspect of the present disclosure, a disc brake rotor assembly is provided that includes a disc brake rotor and a wheel hub. One of the disc brake rotor and the wheel hub includes a plurality of pairs of partial keyways and the other of the disc brake rotor and the wheel hub includes intermediate partial keyways configured to fit intermediate the pairs of partial keyways to form keyways. The disc brake rotor assembly further includes a plurality of fasteners configured to be received in the keyways to secure the disc brake rotor and the wheel hub together.Type: GrantFiled: April 12, 2021Date of Patent: March 5, 2024Assignee: Consolidated Metco, Inc.Inventors: Jonathan David Harrington, Jared Wiley Richard Burris, William Joseph Edwards, Darren Kirk Johnson, Pavan Kumar Dunna, Jeffrey Adam Ricks
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Patent number: 11865361Abstract: Embodiments of the present invention provide methods and systems for proton therapy planning that maximize the dose rate for different target sizes for FLASH therapy treatment are disclosed herein according to embodiments of the present invention. According to embodiments, non-standard scanning patterns can be generated, for example, using a TPS optimizer, to maximize dose rate and the overall FLASH effect for specific volumes at risk. The novel scanning patterns can include scanning subfields of a field that are scanned independently or spiral-shaped patterns, for example. In general, spot locations and beam paths between spots are optimized to substantially achieve a desired dose rate in defined regions of the patient's body for FLASH therapy treatment.Type: GrantFiled: April 3, 2020Date of Patent: January 9, 2024Assignees: VARIAN MEDICAL SYSTEMS, INC., VARIAN MEDICAL SYSTEMS PARTICLE THERAPY GMBH & CO. KG, SIEMENS HEALTHINEERS INTERNATIONAL AGInventors: Jessica Perez, Eric Abel, Michael Folkerts, Christel Smith, Adam Harrington, Timo Koponen, Reynald Vanderstraeten, Anthony Magliari, Michiko Rossi
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Publication number: 20210393982Abstract: A method used for planning radiation treatment accessing information that includes calculated doses and calculated dose rates for sub-volumes in a treatment target, and also accessing information that includes values of a measure of the sub-volumes as a function of the calculated doses and the calculated dose rates. A graphical user interface includes a rendering that is based on the calculated doses, the calculated doses rates, and the values of the measure.Type: ApplicationFiled: May 18, 2021Publication date: December 23, 2021Inventors: Pierre Lansonneur, Perttu NIEMELA, Viljo Petaja, Simon Busold, Michiko Rossi, Matti Sakari Ropo, Michael Folkerts, Jessica Perez, Christel Smith, Adam Harrington, Eric Abel, Lauri HALKO
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Publication number: 20210308486Abstract: Embodiments of the present invention provide methods and systems for proton therapy planning that maximize the dose rate for different target sizes for FLASH therapy treatment are disclosed herein according to embodiments of the present invention. According to embodiments, non-standard scanning patterns can be generated, for example, using a TPS optimizer, to maximize dose rate and the overall FLASH effect for specific volumes at risk. The novel scanning patterns can include scanning subfields of a field that are scanned independently or spiral-shaped patterns, for example. In general, spot locations and beam paths between spots are optimized to substantially achieve a desired dose rate in defined regions of the patient's body for FLASH therapy treatment.Type: ApplicationFiled: April 3, 2020Publication date: October 7, 2021Inventors: Jessica PEREZ, Eric ABEL, Michael FOLKERTS, Christel SMITH, Adam Harrington, Timo KOPONEN, Reynald VANDERSTRAETEN, Anthony MAGLIARI, Michiko ALCANZARE
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Patent number: 10646730Abstract: Collision free regions are predetermined for one or more class solutions. Each class solution has defined limits for allowed field geometry variations. Collision free regions in planning can be defined as a set of allowed isocenter positions relative to a fixation device. The collision free regions may be visualized by a user to plan for field geometry and isocenter position tradeoffs. Collision free regions in delivery can be defined as a set of allowed couch support coordinates. The treatment fields in a radiation treatment plan can be checked against the collision free regions in delivery to determine whether they will pose any collision risks.Type: GrantFiled: November 13, 2018Date of Patent: May 12, 2020Assignees: Varian Medical Systems International AG, Varian Medical Systems, Inc.Inventors: Janne Nord, Joakim Pyyry, Adam Harrington, Sean Herries, Joseph Schumm, Reto Filiberti, Kari Jyrkkälä, Sylvie Spiessens, Roland Meier, Dominique Gasser
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Publication number: 20190076672Abstract: Collision free regions are predetermined for one or more class solutions. Each class solution has defined limits for allowed field geometry variations. Collision free regions in planning can be defined as a set of allowed isocenter positions relative to a fixation device. The collision free regions may be visualized by a user to plan for field geometry and isocenter position tradeoffs. Collision free regions in delivery can be defined as a set of allowed couch support coordinates. The treatment fields in a radiation treatment plan can be checked against the collision free regions in delivery to determine whether they will pose any collision risks.Type: ApplicationFiled: November 13, 2018Publication date: March 14, 2019Applicants: Varian Medical Systems International AG, Varian Medical Systems, Inc.Inventors: Janne Nord, Joakim Pyyry, Adam Harrington, Sean Herries, Joseph Schumm, Reto Filiberti, Kari Jyrkkälä, Sylvie Spiessens, Roland Meier, Dominique Gasser
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Patent number: 10166406Abstract: Collision free regions are predetermined for one or more class solutions. Each class solution has defined limits for allowed field geometry variations. Collision free regions in planning can be defined as a set of allowed isocenter positions relative to a fixation device. The collision free regions may be visualized by a user to plan for field geometry and isocenter position tradeoffs. Collision free regions in delivery can be defined as a set of allowed couch support coordinates. The treatment fields in a radiation treatment plan can be checked against the collision free regions in delivery to determine whether they will pose any collision risks.Type: GrantFiled: February 24, 2017Date of Patent: January 1, 2019Assignees: Varian Medical Systems International AG, Varian Medical Systems, Inc.Inventors: Janne Nord, Joakim Pyyry, Adam Harrington, Sean Herries, Joseph Schumm, Reto Filiberti, Kari Jyrkkälä, Sylvie Spiessens, Roland Meier, Dominique Gasser
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Publication number: 20180243584Abstract: Collision free regions are predetermined for one or more class solutions. Each class solution has defined limits for allowed field geometry variations. Collision free regions in planning can be defined as a set of allowed isocenter positions relative to a fixation device. The collision free regions may be visualized by a user to plan for field geometry and isocenter position tradeoffs. Collision free regions in delivery can be defined as a set of allowed couch support coordinates. The treatment fields in a radiation treatment plan can be checked against the collision free regions in delivery to determine whether they will pose any collision risks.Type: ApplicationFiled: February 24, 2017Publication date: August 30, 2018Applicant: Varian Medical Systems International AGInventors: Janne Nord, Joakim Pyyry, Adam Harrington, Sean Herries, Joseph Schumm, Reto Filiberti, Kari Jyrkkälä, Sylvie Spiessens, Roland Meier, Dominique Gasser
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Patent number: D1028220Type: GrantFiled: November 30, 2022Date of Patent: May 21, 2024Inventors: Chris Gerlach, Adam Gerlach, Aaron Hudson, Zachary Hudson, Mauricio Amaya, Tim Harrington