Patents by Inventor Eric Hassenpflug
Eric Hassenpflug 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: 11980739Abstract: A fluid delivery device has a syringe barrel-type reservoir with plunger, and plunger driver assembly comprising double-acting, telescoping lead screws that is located behind and outside of the barrel. Simultaneously and counter-rotating sleeve screw and center screw telescope out of a nested configuration of the plunger driver assembly and into the reservoir at a rate of double their individual and equal pitch and lead parameters when the sleeve screw is rotated. A threaded nut and gear anchor disposed on an end of the barrel receive the sleeve screw and the threaded nut causes the sleeve screw to translate and rotate in response to motor operation. A distal end of the center screw can be keyed to a plunger pusher for anti-rotation constraint when the motor is imparting rotation on the threaded nut and sleeve screw.Type: GrantFiled: August 13, 2021Date of Patent: May 14, 2024Assignee: Becton, Dickinson and CompanyInventors: Alessandro Pizzochero, Mark Wood, Muzaffer Yalgin Ozsecen, Timothy Blum, Eric Hassenpflug, Cory Baker, Jeffrey Held
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Patent number: 11904289Abstract: Systems, methods, and devices for generating radionuclides for use in production of radiopharmaceuticals; synthesizing the radionuclides generated and removing any unwanted products; measuring the quantity and activity level of the synthesized radionuclides; distributively delivering the radionuclides in appropriate quantities to modular cassette synthesis units in a modular cassette subsystem for contemporaneous/parallel production of radiopharmaceutical output and that allow reuse and/or quick, safe, and disposable replacement of portions of the subsystem; delivering non-radionuclide components to the modular cassette synthesis units as part of production of radiopharmaceutical output; measuring the quantity and activity level of each stream of radiopharmaceutical output; purifying the radiopharmaceutical output; dispensing individual doses in sterile vial(s); automatically producing labeling and dose related information; performing automated quality control on extracted samples of produced radiopharmaceutiType: GrantFiled: December 22, 2020Date of Patent: February 20, 2024Assignee: Cardinal Health 414, LLCInventors: Dennis Eshima, Mehmet Husnu, James Stone, Derrick Alcaide, Joseph E. Zambanini, Thomas A. Klausing, Chad E. Bouton, Henry Padgett, Brian C. Kelley, Scott N. Danhof, David A. Holley, Jeffrey T. Stroup, James B. Gleeson, Eric Hassenpflug, James A. Prescott, Herman Benecke, Daniel B. Garbark
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Publication number: 20220054739Abstract: A fluid delivery device has a syringe barrel-type reservoir with plunger, and plunger driver assembly comprising double-acting, telescoping lead screws that is located behind and outside of the barrel. Simultaneously and counter-rotating sleeve screw and center screw telescope out of a nested configuration of the plunger driver assembly and into the reservoir at a rate of double their individual and equal pitch and lead parameters when the sleeve screw is rotated. A threaded nut and gear anchor disposed on an end of the barrel receive the sleeve screw and the threaded nut causes the sleeve screw to translate and rotate in response to motor operation. A distal end of the center screw can be keyed to a plunger pusher for anti-rotation constraint when the motor is imparting rotation on the threaded nut and sleeve screw.Type: ApplicationFiled: August 13, 2021Publication date: February 24, 2022Applicant: Becton, Dickinson and CompanyInventors: Alessandro PIZZOCHERO, Mark WOOD, Muzaffer Yalgin OZSECEN, Timothy BLUM, Eric HASSENPFLUG, Cory BAKER, Jeffrey HELD
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Publication number: 20210187467Abstract: Systems, methods, and devices for generating radionuclides for use in production of radiopharmaceuticals; synthesizing the radionuclides generated and removing any unwanted products; measuring the quantity and activity level of the synthesized radionuclides; distributively delivering the radionuclides in appropriate quantities to modular cassette synthesis units in a modular cassette subsystem for contemporaneous/parallel production of radiopharmaceutical output and that allow reuse and/or quick, safe, and disposable replacement of portions of the subsystem; delivering non-radionuclide components to the modular cassette synthesis units as part of production of radiopharmaceutical output; measuring the quantity and activity level of each stream of radiopharmaceutical output; purifying the radiopharmaceutical output; dispensing individual doses in sterile vial(s); automatically producing labeling and dose related information; performing automated quality control on extracted samples of produced radiopharmaceutiType: ApplicationFiled: December 22, 2020Publication date: June 24, 2021Inventors: Dennis ESHIMA, Mehmet HUSNU, James STONE, Derrick ALCAIDE, Joseph E. ZAMBANINI, Thomas A. KLAUSING, Chad E. BOUTON, Henry PADGETT, Brian C. KELLEY, Scott N. DANHOF, David A. HOLLEY, Jeffrey T. STROUP, James B. GLEESON, Eric HASSENPFLUG, James A. PRESCOTT, Herman BENECKE, Daniel B. GARBARK
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Publication number: 20210178035Abstract: Devices and systems disclosed herein may include a negative pressure pump that includes a reservoir defining a lumen and a longitudinal axis, a piston, and a drive assembly comprising a spring. Motion of the spring may move the piston along the longitudinal axis of the reservoir to create a negative pressure within the reservoir. Methods of manufacturing a negative pressure pump and using a negative pressure pump to remove fluid from a target site are also described.Type: ApplicationFiled: December 17, 2019Publication date: June 17, 2021Inventors: Eric HASSENPFLUG, John BARTHOLOMEW, Steven MADLAND, David HOLLEY, John P. TALLARICO, Larry K. HOOKS, JR., Corrie BENNISON, William G. ATTERBURY, Michael Scott ULRICH, Russell KITTEL, Jeffrey L. ELLIS, Thomas HAUBERT
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Patent number: 10906020Abstract: Systems, methods, and devices for generating radionuclides for use in production of radiopharmaceuticals; synthesizing the radionuclides generated and removing any unwanted products; measuring the quantity and activity level of the synthesized radionuclides; distributively delivering the radionuclides in appropriate quantities to modular cassette synthesis units in a modular cassette subsystem for contemporaneous/parallel production of radiopharmaceutical output and that allow reuse and/or quick, safe, and disposable replacement of portions of the subsystem; delivering non-radionuclide components to the modular cassette synthesis units as part of production of radiopharmaceutical output; measuring the quantity and activity level of each stream of radiopharmaceutical output; purifying the radiopharmaceutical output; dispensing individual doses in sterile vial(s); automatically producing labeling and dose related information; performing automated quality control on extracted samples of produced radiopharmaceutiType: GrantFiled: September 30, 2015Date of Patent: February 2, 2021Assignee: CARDINAL HEALTH 414, LLCInventors: Dennis Eshima, Mehmet Husnu, James Stone, Derrick Alcaide, Joseph E. Zambanini, Thomas A. Klausing, Chad E. Bouton, Henry Padgett, Brian C. Kelley, Scott N. Danhof, David A. Holley, Jeffrey T. Stroup, James B. Gleeson, Eric Hassenpflug, James A. Prescott, Herman Benecke, Daniel B. Garbark
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Patent number: 10874818Abstract: An aerosol delivery system, which includes an aerosol delivery unit, the aerosol delivery unit including: a cartridge receiver, which is configured to receive a cartridge assembly; and an inductor configured to receive the cartridge assembly and heat a liquid formulation within a capillary tube to produce an aerosol by induction heating. The cartridge assembly including an active part of the cartridge assembly including a capillary tube; a susceptor, the susceptor configured to partially surround the capillary tube; and a pair of displaceable covers, which surround at least the capillary tube and the susceptor.Type: GrantFiled: December 26, 2017Date of Patent: December 29, 2020Assignee: Philip Morris USA Inc.Inventors: Eric Hassenpflug, Larry Keith Hooks, Jr., James A. Prescott, Ludwin Mora, Michael Scott Ulrich, Jane O'Loughlin, Steve Wilder, William G. Atterbury, Thomas D. Haubert, Ryan Somogye, Michael Ko, Stephen C. Schmitt, Michael Lorenz, Lawrence A. Weinstein, James Leamon
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Patent number: 10548778Abstract: Devices and systems disclosed herein may include a negative pressure pump that includes a reservoir defining a lumen and a longitudinal axis, a piston, and a drive assembly comprising a spring. Motion of the spring may move the piston along the longitudinal axis of the reservoir to create a negative pressure within the reservoir. Methods of manufacturing a negative pressure pump and using a negative pressure pump to remove fluid from a target site are also described.Type: GrantFiled: April 1, 2019Date of Patent: February 4, 2020Assignee: IC Surgical, Inc.Inventors: Eric Hassenpflug, John Bartholomew, Steven Madland, David Holley, John P. Tallarico, Larry K. Hooks, Jr., Corrie Bennison, William G. Atterbury, Michael Scott Ulrich, Russell Kittel, Jeffrey L. Ellis, Thomas Haubert
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Publication number: 20190298576Abstract: Devices and systems disclosed herein may include a negative pressure pump that includes a reservoir defining a lumen and a longitudinal axis, a piston, and a drive assembly comprising a spring. Motion of the spring may move the piston along the longitudinal axis of the reservoir to create a negative pressure within the reservoir. Methods of manufacturing a negative pressure pump and using a negative pressure pump to remove fluid from a target site are also described.Type: ApplicationFiled: April 1, 2019Publication date: October 3, 2019Inventors: Eric HASSENPFLUG, John BARTHOLOMEW, Steven MADLAND, David HOLLEY, John P. TALLARICO, Larry K. HOOKS, JR., Corrie BENNISON, William G. ATTERBURY, Michael Scott ULRICH, Russell KITTEL, Jeffrey L. ELLIS, Thomas HAUBERT
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Publication number: 20180185604Abstract: An aerosol delivery system is disclosed, the system comprising: an aerosol delivery unit, the aerosol delivery unit comprising: a cartridge receiver, which is configured to receive a cartridge assembly; and an inductor configured to receive the cartridge assembly and heat a liquid formulation within a capillary tube to produce an aerosol by induction heating. The cartridge assembly including an active part of the cartridge assembly including a capillary tube; a susceptor, the susceptor configured to partially surround the capillary tube; and a pair of displaceable covers, which surround at least the capillary tube and the susceptor.Type: ApplicationFiled: December 26, 2017Publication date: July 5, 2018Applicant: Philip Morris USA Inc.Inventors: Eric Hassenpflug, Larry Keith Hooks, JR., James A. Prescott, Ludwin Mora, Michael Scott Ulrich, Jane O'Loughlin, Steve Wilder, William G. Atterbury, Thomas D. Haubert, Ryan Somogye, Michael Ko, Stephen C. Schmitt, Michael Lorenz, Lawrence A. Weinstein, James Leamon
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Publication number: 20160263545Abstract: Systems, methods, and devices for generating radionuclides for use in production of radiopharmaceuticals; synthesizing the radionuclides generated and removing any unwanted products; measuring the quantity and activity level of the synthesized radionuclides; distributively delivering the radionuclides in appropriate quantities to modular cassette synthesis units in a modular cassette subsystem for contemporaneous/parallel production of radiopharmaceutical output and that allow reuse and/or quick, safe, and disposable replacement of portions of the subsystem; delivering non-radionuclide components to the modular cassette synthesis units as part of production of radiopharmaceutical output; measuring the quantity and activity level of each stream of radiopharmaceutical output; purifying the radiopharmaceutical output; dispensing individual doses in sterile vial(s); automatically producing labeling and dose related information; performing automated quality control on extracted samples of produced radiopharmaceutiType: ApplicationFiled: September 30, 2015Publication date: September 15, 2016Applicant: CARDINAL HEALTH 414, LLCInventors: DENNIS ESHIMA, MEHMET HUSNU, JIM STONE, DERRICK ALCAIDE, JOSEPH E. ZAMBANINI, THOMAS A. KLAUSING, CHAD E. BOUTON, HENRY PADGETT, BRIAN C. KELLEY, SCOTT N. DANHOF, DAVID A. HOLLEY, JEFFREY T. STROUP, JAMES B. GLEESON, ERIC HASSENPFLUG, JAMES A. PRESCOTT, HERMAN BENECKE, DANIEL B. GARBARK
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Publication number: 20160199257Abstract: A closed path vial fill system includes a bulk product vial, a peristaltic pump operated by a stepper motor, a dispensing manifold assembly to which may be coupled at least one final product vial, an optional quality check station, and an optional waste collection system. A concentration, activity, and volume (CAV) sensor may be incorporated into the system to receive a radiopharmaceutical product directly from a synthesizing unit. A control system may be integrated into the system to provide automated control of various aspects of the radiopharmaceutical dispensing process. The system is used to aseptically dispense finished radiopharmaceuticals into receiving vessels, such as a Quality Control vial, a sterility vial, and/or final product vials, while providing users an efficient means for removing and discarding contaminated disposable components.Type: ApplicationFiled: August 10, 2015Publication date: July 14, 2016Applicant: CARDINAL HEALTH 414, LLCInventors: MEHMET HUSNU, DENNIS ESHIMA, DERRICK ALCAIDE, SCOTT N. DANHOF, JIM GLEESON, ERIC HASSENPFLUG, JIM PRESCOTT
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Patent number: 9139316Abstract: A closed path vial fill system includes a bulk product vial, a peristaltic pump operated by a stepper motor, a dispensing manifold assembly to which may be coupled at least one final product vial, an optional quality check station, and an optional waste collection system. A concentration, activity, and volume (CAV) sensor may be incorporated into the system to receive a radiopharmaceutical product directly from a synthesizing unit. A control system may be integrated into the system to provide automated control of various aspects of the radiopharmaceutical dispensing process. The system is used to aseptically dispense finished radiopharmaceuticals into receiving vessels, such as a Quality Control vial, a sterility vial, and/or final product vials, while providing users an efficient means for removing and discarding contaminated disposable components.Type: GrantFiled: December 28, 2011Date of Patent: September 22, 2015Assignee: Cardinal Health 414, LLCInventors: Mehmet Husnu, Dennis Eshima, Derrick Alcaide, Scott N. Danhof, Jim Gleeson, Eric Hassenpflug, Jim Prescott
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Publication number: 20130102772Abstract: Systems, methods, and devices for generating radionuclides for use in production of radiopharmaceuticals; synthesizing the radionuclides generated and removing any unwanted products; measuring the quantity and activity level of the synthesized radionuclides; distributively delivering the radionuclides in appropriate quantities to modular cassette synthesis units in a modular cassette subsystem for contemporaneous/parallel production of radiopharmaceutical output and that allow reuse and/or quick, safe, and disposable replacement of portions of the subsystem; delivering non-radionuclide components to the modular cassette synthesis units as part of production of radiopharmaceutical output; measuring the quantity and activity level of each stream of radiopharmaceutical output; purifying the radiopharmaceutical output; dispensing individual doses in sterile vial(s); automatically producing labeling and dose related information; performing automated quality control on extracted samples of produced radiopharmaceutiType: ApplicationFiled: July 16, 2012Publication date: April 25, 2013Applicant: CARDINAL HEALTH 414, LLCInventors: Dennis ESHIMA, Mehmet Husnu, Jim Stone, Derrick Alcaide, Henry Padgett, Joseph E. Zambanini, Thomas A. Klausing, Chad E. Bouton, Brian C. Kelley, Scott N. Danhof, David A. Holley, Jeffrey T. Stroup, James B. Gleeson, Eric Hassenpflug, James A. Prescott, Herman Benecke, Daniel B. Garbark
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Publication number: 20120222774Abstract: A closed path vial fill system includes a bulk product vial, a peristaltic pump operated by a stepper motor, a dispensing manifold assembly to which may be coupled at least one final product vial, an optional quality check station, and an optional waste collection system. A concentration, activity, and volume (CAV) sensor may be incorporated into the system to receive a radiopharmaceutical product directly from a synthesizing unit. A control system may be integrated into the system to provide automated control of various aspects of the radiopharmaceutical dispensing process. The system is used to aseptically dispense finished radiopharmaceuticals into receiving vessels, such as a Quality Control vial, a sterility vial, and/or final product vials, while providing users an efficient means for removing and discarding contaminated disposable components.Type: ApplicationFiled: December 28, 2011Publication date: September 6, 2012Applicant: CARDINAL HEALTH 414, LLCInventors: Mehmet HUSNU, Dennis Eshima, Derrick Alcaide, Scott N. Danhof, Jim Gleeson, Eric Hassenpflug, Jim Prescott
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Publication number: 20100128944Abstract: The present invention relates to the analysis of specimens. Specifically, the invention relates to methods and apparatus for reviewing specimen slides, including apparatus for holding the slides. The invention also relates to an automatic focusing method for an imaging system and methods for accommodating vibration in the imaging system. In particular, the methods and apparatus may be applied to the automated analysis of cytological specimen slides.Type: ApplicationFiled: January 27, 2010Publication date: May 27, 2010Applicant: CYTYC CORPORATIONInventors: David Zahniser, Theodore S. Geiselman, Roy Ostgaard, Howard L. Greene, Joseph E. Zambanini, Joseph A. Juratovac, Matthew S. Zelinski, Scott N. Danhof, Eric Hassenpflug, Thomas D. Haubert, Randal Chinnock
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Publication number: 20060077541Abstract: The present invention relates to the analysis of specimens. Specifically, the invention relates to methods and apparatus for reviewing specimen slides, including apparatus for holding the slides. The invention also relates to an automatic focusing method for an imaging system and methods for accommodating vibration in the imaging system. In particular, the methods and apparatus may be applied to the automated analysis of cytological specimen slides.Type: ApplicationFiled: September 26, 2005Publication date: April 13, 2006Applicant: Cytyc CorporationInventors: David Zahniser, Theodore Geiselman, Roy Ostgaard, Howard Greene, Joseph Zambanini, Joseph Juratovac, Matthew Zelinski, Scott Danhof, Eric Hassenpflug, Thomas Haubert, Randal Chinnock