Patents by Inventor Scott N. Danhof

Scott N. Danhof 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).

  • Publication number: 20240299900
    Abstract: 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 radiopharmaceuti
    Type: Application
    Filed: January 9, 2024
    Publication date: September 12, 2024
    Inventors: 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
  • Publication number: 20240269080
    Abstract: A process system and method for the making of articles, using an omnidirectional magnetic movement system with a transport surface and fabrication modules having a formation surface that can be transported omnidirectionally over the transport surface under the control of a movement controller. An article forming system provides process unit operations for forming articles onto the formation surface as the fabrication modules are moved asynchronously between a plurality of processing positions on the transport surface, and features a depositing device for placing a construction material onto the formation surface and one or more processing devices to form the construction material into the article.
    Type: Application
    Filed: April 26, 2024
    Publication date: August 15, 2024
    Inventors: Thomas J. BRADBURY, Scott N. DANHOF, Jared T. EMERSON, Thomas D. HAUBERT, Jeffrey R. HELD, Steven Van Cleve KOROL, Grace M. LILLIE, James A. PRESCOTT, Jake M. PYZZA, Steven M. RISSER, Kenneth B. SCOTT, Frederick A. SEXTON, Kyle Edward SMITH, John P. TALLARICO, Jaedeok YOO, Kevin L. YUGULIS
  • Patent number: 11904289
    Abstract: 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 radiopharmaceuti
    Type: Grant
    Filed: December 22, 2020
    Date of Patent: February 20, 2024
    Assignee: Cardinal Health 414, LLC
    Inventors: 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
  • Publication number: 20210187467
    Abstract: 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 radiopharmaceuti
    Type: Application
    Filed: December 22, 2020
    Publication date: June 24, 2021
    Inventors: 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
  • Patent number: 10906020
    Abstract: 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 radiopharmaceuti
    Type: Grant
    Filed: September 30, 2015
    Date of Patent: February 2, 2021
    Assignee: CARDINAL HEALTH 414, LLC
    Inventors: 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
  • Publication number: 20190117895
    Abstract: A valve for permitting mixing of at least two components within a barrel is provided including a stopper configured for slidable liquid-tight engagement with an inner surface of the barrel. The stopper is moveable between a first position and a second position and includes a proximal end, a distal end, and a channel extending therebetween. The valve further includes a stationary body comprising a base and a stem, the stem being disposed within the channel of the stopper when the stopper is in the second position. When the stopper is in the first position, there is a liquid-tight seal in the channel, such that fluid flow through the channel is prevented. Movement of the stopper to the second position terminates the liquid-tight seal, thereby establishing fluid communication through the channel. A drug containing device and assembly for delivering a reconstituted drug are also provided herein.
    Type: Application
    Filed: December 18, 2018
    Publication date: April 25, 2019
    Inventors: Matthew Ferriter, Frank E. Martin, Vincent J. Sullivan, Scott N. Danhof, Eric G. Hassenpflug
  • Patent number: 10195344
    Abstract: A valve (10) for permitting mixing of at least two components within a barrel (12) is provided including a stopper (20) configured for slidable liquid-tight engagement with an inner surface (13) of the barrel. The stopper is moveable between a first position and a second position and includes a proximal end (22), a distal end (24), and a channel (26) extending therebetween. The valve further includes a stationary body (30) comprising a base (32) and a stem (34), the stem being disposed within the channel of the stopper when the stopper is in the second position. When the stopper is in the first position, there is a liquid-tight seal in the channel, such that fluid flow through the channel is prevented. Movement of the stopper to the second position terminates the liquid-tight seal, thereby establishing fluid communication through the channel. A drug containing device and assembly for delivering a reconstituted drug are also provided herein.
    Type: Grant
    Filed: November 20, 2013
    Date of Patent: February 5, 2019
    Assignee: Becton, Dickinson and Company
    Inventors: Matthew Ferriter, Frank Martin, Vincent J. Sullivan, Scott N. Danhof, Eric G. Hassenpflug
  • Publication number: 20180136204
    Abstract: Provided herein are methods, systems, and devices for detecting and/or identifying one or more specific microorganisms in a culture sample. Indicator particles, such as surface enhanced Raman spectroscopy (SERS)-active nanoparticles, each having associated therewith one or more specific binding members having an affinity for the one or more microorganisms of interest, can form a complex with specific microorganisms in the culture sample. Further, agitating magnetic capture particles also having associated therewith one or more specific binding members having an affinity for the one or more microorganisms of interest can be used to capture the microorganism-indicator particle complex and concentrate the complex in a localized area of an assay vessel for subsequent detection and identification. The complex can be dispersed, pelleted, and redispersed so that the culture sample can be retested a number of times during incubation so as to allow for real-time monitoring of the culture sample.
    Type: Application
    Filed: November 27, 2017
    Publication date: May 17, 2018
    Applicant: BECTON DICKINSON AND COMPANY
    Inventors: Kristin Weidemaier, Robert L. Campbell, Erin Gooch Carruthers, Adam Craig Curry, Kevin G. Dolan, Andrea Liebmann-Vinson, Wendy Dale Woodley, Melody M.H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Artis R. Lockhart, Ernie Ritchey, Eric A. Fallows, Donald E. Gorelick, Jack Kessler, Spencer Lovette, Jeffrey S. Ojala, Mark A. Talmer, Miroslaw Bartkowiak, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich, David S. Sebba
  • Patent number: 9874555
    Abstract: Provided herein are methods, systems, and devices for detecting and/or identifying one or more specific microorganisms in a culture sample. Indicator particles, such as surface enhanced Raman spectroscopy (SERS)-active nanoparticles, each having associated therewith one or more specific binding members having an affinity for the one or more microorganisms of interest, can form a complex with specific microorganisms in the culture sample. Further, agitating magnetic capture particles also having associated therewith one or more specific binding members having an affinity for the one or more microorganisms of interest can be used to capture the microorganism-indicator particle complex and concentrate the complex in a localized area of an assay vessel for subsequent detection and identification. The complex can be dispersed, pelleted, and redispersed so that the culture sample can be retested a number of times during incubation so as to allow for real-time monitoring of the culture sample.
    Type: Grant
    Filed: March 15, 2013
    Date of Patent: January 23, 2018
    Assignee: BECTON, DICKINSON AND COMPANY
    Inventors: Kristin Weidemaier, Robert L. Campbell, Erin Gooch Carruthers, Adam C. Curry, Kevin G. Dolan, Andrea Liebmann-Vinson, Wendy Dale Woodley, Melody M. H. Kuroda, Eric A. Fallows, Miroslaw Bartkowiak, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich, David S. Sebba
  • Publication number: 20160263545
    Abstract: 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 radiopharmaceuti
    Type: Application
    Filed: September 30, 2015
    Publication date: September 15, 2016
    Applicant: CARDINAL HEALTH 414, LLC
    Inventors: 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
  • Publication number: 20160199257
    Abstract: 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: Application
    Filed: August 10, 2015
    Publication date: July 14, 2016
    Applicant: CARDINAL HEALTH 414, LLC
    Inventors: MEHMET HUSNU, DENNIS ESHIMA, DERRICK ALCAIDE, SCOTT N. DANHOF, JIM GLEESON, ERIC HASSENPFLUG, JIM PRESCOTT
  • Publication number: 20150314071
    Abstract: A valve (10) for permitting mixing of at least two components within a barrel (12) is provided including a stopper (20) configured for slidable liquid-tight engagement with an inner surface (13) of the barrel. The stopper is moveable between a first position and a second position and includes a proximal end (22), a distal end (24), and a channel (26) extending therebetween. The valve further includes a stationary body (30) comprising a base (32) and a stem (34), the stem being disposed within the channel of the stopper when the stopper is in the second position. When the stopper is in the first position, there is a liquid-tight seal in the channel, such that fluid flow through the channel is prevented. Movement of the stopper to the second position terminates the liquid-tight seal, thereby establishing fluid communication through the channel. A drug containing device and assembly for delivering a reconstituted drug are also provided herein.
    Type: Application
    Filed: November 20, 2013
    Publication date: November 5, 2015
    Inventors: Matthew Ferriter, Frank Martin, Vincent J. Sullivan, Scott N. Danhof, Eric G. Hassenpflug
  • Patent number: 9139316
    Abstract: 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: Grant
    Filed: December 28, 2011
    Date of Patent: September 22, 2015
    Assignee: Cardinal Health 414, LLC
    Inventors: Mehmet Husnu, Dennis Eshima, Derrick Alcaide, Scott N. Danhof, Jim Gleeson, Eric Hassenpflug, Jim Prescott
  • Publication number: 20150118688
    Abstract: Provided herein are methods, systems, and devices for detecting and/or identifying one or more specific microorganisms in a culture sample. Indicator particles, such as surface enhanced Raman spectroscopy (SERS)-active nanoparticles, each having associated therewith one or more specific binding members having an affinity for the one or more microorganisms of interest, can form a complex with specific microorganisms in the culture sample. Further, agitating magnetic capture particles also having associated therewith one or more specific binding members having an affinity for the one or more microorganisms of interest can be used to capture the microorganism-indicator particle complex and concentrate the complex in a localized area of an assay vessel for subsequent detection and identification. The complex can be dispersed, pelleted, and redispersed so that the culture sample can be retested a number of times during incubation so as to allow for real-time monitoring of the culture sample.
    Type: Application
    Filed: March 15, 2013
    Publication date: April 30, 2015
    Inventors: Kristin Weidemaier, Robert L. Campbell, Erin Gooch Carruthers, Adam C. Curry, Kevin G. Dolan, Andrea Liebmann-Vinson, Wendy Dale Woodley, Melody M.H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Artis R. Lockhart, Ernie Ritchey, Eric A. Fallows, Donald E. Gorelick, Jack Kessler, Spencer Lovette, Jeffrey S. Ojala, Mark A. Talmer, Miroslaw Bartkowiak, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich, David S. Sebba
  • Publication number: 20130102772
    Abstract: 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 radiopharmaceuti
    Type: Application
    Filed: July 16, 2012
    Publication date: April 25, 2013
    Applicant: CARDINAL HEALTH 414, LLC
    Inventors: 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
  • Patent number: D690826
    Type: Grant
    Filed: April 12, 2012
    Date of Patent: October 1, 2013
    Assignee: Becton Dickinson and Company
    Inventors: Melody M. H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich
  • Patent number: D731672
    Type: Grant
    Filed: March 15, 2013
    Date of Patent: June 9, 2015
    Assignee: Becton, Dickinson and Company
    Inventors: Melody M. H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy Somerville, M. Scott Ulrich
  • Patent number: D796687
    Type: Grant
    Filed: May 29, 2015
    Date of Patent: September 5, 2017
    Assignee: Becton, Dickinson and Company
    Inventors: Melody M. H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich
  • Cap
    Patent number: D881408
    Type: Grant
    Filed: August 25, 2017
    Date of Patent: April 14, 2020
    Assignee: Becton, Dickinson and Company
    Inventors: Melody M. H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich
  • Patent number: D932049
    Type: Grant
    Filed: April 13, 2020
    Date of Patent: September 28, 2021
    Assignee: Becton, Dickinson and Company
    Inventors: Melody M. H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich