Patents by Inventor Jon Rowley

Jon Rowley 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: 20240303564
    Abstract: Systems and methods for generating plans are disclosed, where each plan includes actions to achieve goals. An indication to add a goal is received, and a track is displayed representing the goal. For the goal, data describing the goal is received. An input is received to add a node to the track, the node representing an action or area of interest associated with the goal. Within the track, an indication of the node is displayed. One or more node characteristics can be determined and displayed. Additionally or alternatively, a resource may be associated with the node. Using the goal, the data describing the goal, the node, the node characteristics, and/or the resources, the plan is generated. The plan can be output, such as by displaying the plan in a graphical user interface.
    Type: Application
    Filed: March 7, 2024
    Publication date: September 12, 2024
    Inventors: Jon Nordmark, Brainerd Sathianathan, David Jenkins, Solomon Ray, Marek Suscak, David Rowley
  • Patent number: 10385307
    Abstract: Apparatus and corresponding method for concentration and washing of live mammalian cells, for preparation of human cell therapy products. Optimized parameters for a temperature regulated, completely closed, fully disposable and scalable counterflow centrifugation separation system having integrated disposables designed for both the input cells and output cells are provided.
    Type: Grant
    Filed: December 21, 2012
    Date of Patent: August 20, 2019
    Assignee: LONZA WALKERSVILLE, INC.
    Inventors: Jon Rowley, Jacob Pattasseril, Lye Theng Lock
  • Publication number: 20150037882
    Abstract: Apparatus and corresponding method for concentration and washing of live mammalian cells, for preparation of human cell therapy products. Optimized parameters for a temperature regulated, completely closed, fully disposable and scalable counterflow centrifugation separation system having integrated disposables designed for both the input cells and output cells are provided.
    Type: Application
    Filed: December 21, 2012
    Publication date: February 5, 2015
    Applicant: LONZA WALKERSVILLE, INC
    Inventors: Jon Rowley, Jacob Pattasseril, Lye Theng Lock
  • Patent number: 7767446
    Abstract: A bioreactor system comprising a multi-well platform including an array of bioreactor units. The bioreactor system comprises a perfusion unit and a fluid source unit fluidly interconnected by a pumping unit. The perfusion unit comprises a multi-well plate including a plurality of main chambers configured to house or contain a cell culture and in each bioreactor unit an independent cell study or experiment may be performed.
    Type: Grant
    Filed: September 16, 2005
    Date of Patent: August 3, 2010
    Assignee: Becton, Dickinson and Company
    Inventors: Neil F. Robbins, Jon Rowley, Mark Quinto, Abel Z. Hastings, Bryan G. Towns, Bradley R. Snodgrass
  • Publication number: 20060110822
    Abstract: A bioreactor system comprising a multi-well platform including an array of bioreactor units. The bioreactor system comprises a perfusion unit and a fluid source unit fluidly interconnected by a pumping unit. The perfusion unit comprises a multi-well plate including a plurality of main chambers configured to house or contain a cell culture and in each bioreactor unit an independent cell study or experiment may be performed.
    Type: Application
    Filed: September 16, 2005
    Publication date: May 25, 2006
    Inventors: Neil Robbins, Jon Rowley, Mark Quinto, Abel Hastings, Bryan Towns, Bradley Snodgrass
  • Publication number: 20050037512
    Abstract: The present invention relates to compositions comprising a core and a hydrophobic coating material surrounding the core. The core comprises at least one oxygen-sensing particle. The present invention also relates to methods of detecting and monitoring oxygen in a sample using the microencapsulated oxygen-sensing particles.
    Type: Application
    Filed: August 12, 2003
    Publication date: February 17, 2005
    Inventors: Ming-Hsiung Yeh, Jon Rowley, John Hemperly, Steven Keith, Mohammad Heidaran
  • Publication number: 20040234962
    Abstract: Multicoated or multilayer matrices capable of embedding, encapsulating or entrapping binding proteins, optionally with a reporter group attached, specific for analytes of interest, in particular sugars, and methods of making and using such matrices.
    Type: Application
    Filed: May 2, 2003
    Publication date: November 25, 2004
    Inventors: Javier Alarcon, Helen V. Hsieh, Jon A. Rowley, Ross W. Jacobson, J. Bruce Pitner, Douglas B. Sherman
  • Patent number: 6773713
    Abstract: The invention features methods of making living tissue constructs having a predetermined shape by providing a negative mold having a defined shape; suspending isolated tissue precursor cells in a hydrogel to form a liquid hydrogel-precursor cell composition; introducing the liquid hydrogel-precursor cell composition into the mold; inducing gel formation to solidify the liquid hydrogel-precursor cell composition to form a living tissue construct; and removing the living tissue construct from the mold after gel formation.
    Type: Grant
    Filed: February 21, 2002
    Date of Patent: August 10, 2004
    Assignee: University of Massachusetts
    Inventors: Lawrence J. Bonassar, Jon A. Rowley, David J. Mooney
  • Publication number: 20040063206
    Abstract: A programmable scaffold which is a three-dimensional scaffold having interconnected pore structures and biologically active molecules physically entrapped therein. Preferably, the scaffold is a lyophilized hydrogel of crosslinked alginate or hyaluronic acid. The scaffold can be arrayed on a platform and loaded with various combinations of biologically active molecules for high throughput and high parallel screening and tissue engineering. A method for making and modifying the scaffold having steps of impregnating the scaffold with solutions of biologically active molecule and lyophilizing the impregnated scaffold.
    Type: Application
    Filed: September 30, 2002
    Publication date: April 1, 2004
    Inventors: Jon A. Rowley, Mohammad A. Heidaran
  • Patent number: 6642363
    Abstract: Materials which contain polysaccharide chains, particularly alginate or modified alginate chains. The polysaccharide chains may be included as side chains or auxiliary chains from a backbone polymer chain, which may also be a polysaccharide. Further, the polysaccharide chains may be cross-linked between side chains, auxiliary chains and/or backbone chains. These materials and non-modified or otherwise modified alginate materials are advantageously modified by covalent bonding thereto of a biologically active molecule for cell adhesion or other cellular interaction. Processes for preparation of these alginate materials and methods for using them, particularly for cell transplantation and tissue engineering applications.
    Type: Grant
    Filed: May 3, 1999
    Date of Patent: November 4, 2003
    Assignee: The Regents of the University of Michigan
    Inventors: David J. Mooney, Kamal H. Bouhadir, Wai Kung Wong, Jon A. Rowley
  • Publication number: 20030113813
    Abstract: The present invention is directed to methods and devices which can be used to test bioactive agents alone or in conjunction with 3D scaffolds for their effect on cell growth, differentiation, and other cellular functions.
    Type: Application
    Filed: September 30, 2002
    Publication date: June 19, 2003
    Inventors: Mohammad A. Heidaran, Mary K. Meyer, Jon A. Rowley, John J. Hemperly
  • Patent number: 6511650
    Abstract: This invention is directed to a new approach to form porous hydrogel materials by first creating gas pockets in the gel and then removing this gas. The removal of the gas creates a porous material, and the initial incorporation of sufficient gas allows one to create a material with an open, interconnected pore structure. Advantageous features of the resulting materials, in addition to their interconnected pore structure, may include that the pore structure is maintained over extended time periods and that the gels maintain a high mechanical integrity that allows seeding with cells and implantation without destruction or compression of the material.
    Type: Grant
    Filed: April 18, 2002
    Date of Patent: January 28, 2003
    Assignee: The Regents of the University of Michigan
    Inventors: Petra Eiselt, Craig Halberstadt, David Mooney, Julia Yeh, Rachel Latvala, Jon A. Rowley
  • Publication number: 20020159982
    Abstract: The invention features methods of making living tissue constructs having a predetermined shape by providing a negative mold having a defined shape; suspending isolated tissue precursor cells in a hydrogel to form a liquid hydrogel-precursor cell composition; introducing the liquid hydrogel-precursor cell composition into the mold; inducing gel formation to solidify the liquid hydrogel-precursor cell composition to form a living tissue construct; and removing the living tissue construct from the mold after gel formation.
    Type: Application
    Filed: February 21, 2002
    Publication date: October 31, 2002
    Inventors: Lawrence J. Bonassar, Jon A. Rowley, David J. Mooney