Patents by Inventor Gregory Allan Whitton

Gregory Allan Whitton 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).

  • Patent number: 11939569
    Abstract: A biodegradable foam which includes a polyester-based polyurethane foam and a mixture comprised of a soil-dwelling carbon-digesting bacteria embedded in a carrier compound. The mixture of the soil-dwelling carbon-digesting bacteria is homogenously dispersed throughout the polyester-based polyurethane foam. This biodegradable foam exhibits biodegradation rates higher than a polyester-based polyurethane foam absent the soil-dwelling carbon-digesting bacteria.
    Type: Grant
    Filed: February 16, 2023
    Date of Patent: March 26, 2024
    Assignee: EVOCO LTD.
    Inventors: Jason James Robinson, Natalie Beth Ashdown, Gregory Allan Whitton
  • Publication number: 20230193236
    Abstract: A biodegradable foam which includes a polyester-based polyurethane foam and a mixture comprised of a soil-dwelling carbon-digesting bacteria embedded in a carrier compound. The mixture of the soil-dwelling carbon-digesting bacteria is homogenously dispersed throughout the polyester-based polyurethane foam. This biodegradable foam exhibits biodegradation rates higher than a polyester-based polyurethane foam absent the soil-dwelling carbon-digesting bacteria.
    Type: Application
    Filed: February 16, 2023
    Publication date: June 22, 2023
    Inventors: JASON JAMES ROBINSON, NATALIE BETH ASHDOWN, GREGORY ALLAN WHITTON
  • Patent number: 11608495
    Abstract: A biodegradable foam which includes a poly-ester-based polyurethane foam and a mixture comprised of a soil-dwelling carbon-digesting bacteria embedded in a carrier compound. The mixture of the soil-dwelling carbon-digesting bacteria is homogenously dispersed throughout the polyester-based polyurethane foam. This biodegradable foam exhibits biodegradation rates higher than a polyester-based polyurethane foam absent the soil-dwelling carbon-digesting bacteria.
    Type: Grant
    Filed: December 9, 2021
    Date of Patent: March 21, 2023
    Assignee: EVOCO LTD.
    Inventors: Jason James Robinson, Natalie Beth Ashdown, Gregory Allan Whitton
  • Publication number: 20220098571
    Abstract: A biodegradable foam which includes a poly-ester-based polyurethane foam and a mixture comprised of a soil-dwelling carbon-digesting bacteria embedded in a carrier compound. The mixture of the soil-dwelling carbon-digesting bacteria is homogenously dispersed throughout the polyester-based polyurethane foam. This biodegradable foam exhibits biodegradation rates higher than a polyester-based polyurethane foam absent the soil-dwelling carbon-digesting bacteria.
    Type: Application
    Filed: December 9, 2021
    Publication date: March 31, 2022
    Inventors: JASON JAMES ROBINSON, NATALIE BETH ASHDOWN, GREGORY ALLAN WHITTON
  • Patent number: 10725136
    Abstract: A cerebrospinal diffusion phantom including a housing having a shape and size configured for insertion into a magnetic resonance coil in one or more preselected poses. A scaffold support structure is mounted on an interior of said housing and a plurality of elongated diffusion mimicking members supported on the support array. The elongated diffusion mimicking members are affixed to the scaffold support structure such that elongated diffusion mimicking members extend in directions needed to substantially emulate a 3 dimensional arrangement of cerebrospinal diffusion fiber tracts in a living organism; modules for elimination of resolution based-bias, angular accuracy evaluation, diffusion rate calibration, and quality assurance image referencing. Each elongated diffusion mimicking member includes an aqueous component which can undergo diffusion along the elongated diffusion mimicking member.
    Type: Grant
    Filed: December 21, 2017
    Date of Patent: July 28, 2020
    Assignee: Synaptive Medical (Barbados) Inc.
    Inventors: Fergal Kerins, Timotheus Anton Gmeiner, Jeff Alan Stainsby, Chad Tyler Harris, Sheryl Rae Thingvold, Gregory Allan Whitton
  • Patent number: 10692402
    Abstract: Disclosed herein are simulated fibrous tissue models of anatomical parts for surgical training. The non-dissolvable simulated fibrous tissue model is made of a polyvinyl alcohol (PVA) and fibrous material composite to simulate realistic tissue properties and behaviors. The simulated fibrous tissue model may be a standalone model of an anatomical part or may be used in a complementary anatomical simulation kit to provide a more comprehensive training approach.
    Type: Grant
    Filed: May 5, 2017
    Date of Patent: June 23, 2020
    Assignee: Synaptive Medical (Barbados) Inc.
    Inventors: Brandon William Russell Tyler, Gregory Allan Whitton, Fergal Kerins
  • Patent number: 10559227
    Abstract: Simulated tissue products and methods involving an enhanced simulated tissue product, the enhanced simulated tissue product formed from a polyvinyl alcohol material having a molecular chain length in a range of at least approximately 7000 vinyl alcohol repeat units; and water, wherein the polyvinyl alcohol material has a preferred molecular chain length in a range of at least approximately 7150 vinyl alcohol repeat units; wherein the aqueous polyvinyl alcohol solution involves an additive, and, wherein the additive involves a plurality of nanoparticles. The simulated tissue products and methods are further useful with multi-metric surgery simulator devices, systems, and methods, such as those for training surgical tasks.
    Type: Grant
    Filed: June 2, 2016
    Date of Patent: February 11, 2020
    Assignee: Synaptive Medical (Barbados) Inc.
    Inventors: Timotheus Anton Gmeiner, Fergal Kerins, Gregory Allan Whitton, Kimberly Bojanowski Hoang
  • Patent number: 10319259
    Abstract: Disclosed herein are anatomical simulators produced using three dimensional (3D) printing to produce interior components of the simulator. The method of producing void structures in an anatomical phantom, includes 3D printing one or more structures of one or more desired sub-anatomical features using a dissolvable material; supporting and enclosing the one or more structures in an interior of a mold of the anatomical phantom; filling a remaining internal volume in the interior of the mold between an outer surface of the one or more structures and an inner surface of the mold with a liquid precursor of a matrix material selected to mimic anatomical tissue and processing the liquid precursor to form a tissue mimic matrix material; and dissolving the one or more structures with a fluid selected to dissolve said dissolvable material to produce one or more internal cavities within the tissue mimic matrix material.
    Type: Grant
    Filed: September 23, 2015
    Date of Patent: June 11, 2019
    Assignee: SYNAPTIVE MEDICAL (BARBADOS) INC.
    Inventors: Fergal Kerins, Gregory Allan Whitton, Joshua Lee Richmond, Timotheus Anton Gmeiner
  • Publication number: 20180322810
    Abstract: Disclosed herein are simulated fibrous tissue models of anatomical parts for surgical training. The non-dissolvable simulated fibrous tissue model is made of a polyvinyl alcohol (PVA) and fibrous material composite to simulate realistic tissue properties and behaviors. The simulated fibrous tissue model may be a standalone model of an anatomical part or may be used in a complementary anatomical simulation kit to provide a more comprehensive training approach.
    Type: Application
    Filed: May 5, 2017
    Publication date: November 8, 2018
    Inventors: Brandon William Russell TYLER, Gregory Allan WHITTON, Fergal KERINS
  • Publication number: 20180308393
    Abstract: Simulated tissue products and methods involving an enhanced simulated tissue product, the enhanced simulated tissue product formed from a polyvinyl alcohol material having a molecular chain length in a range of at least approximately 7000 vinyl alcohol repeat units; and water, wherein the polyvinyl alcohol material has a preferred molecular chain length in a range of at least approximately 7150 vinyl alcohol repeat units; wherein the aqueous polyvinyl alcohol solution involves an additive, and, wherein the additive involves a plurality of nanoparticles. The simulated tissue products and methods are further useful with multi-metric surgery simulator devices, systems, and methods, such as those for training surgical tasks.
    Type: Application
    Filed: June 2, 2016
    Publication date: October 25, 2018
    Inventors: Timotheus Anton GMEINER, Fergal KERINS, Gregory Allan WHITTON, Kimberly Bojanowski HOANG
  • Publication number: 20180113186
    Abstract: Disclosed herein are cerebrospinal diffusion phantoms which include a housing having a shape and size configured for insertion into a magnetic resonance coil in one or more preselected poses. A scaffold support structure is mounted on an interior of said housing and a plurality of elongated diffusion mimicking members supported on the support array. The elongated diffusion mimicking members are affixed to the scaffold support structure such that elongated diffusion mimicking members extend in directions needed to substantially emulate a 3 dimensional arrangement of cerebrospinal diffusion fiber tracts in a living organism; as well as modules for elimination of resolution based-bias, angular accuracy evaluation, diffusion rate calibration, and quality assurance image referencing. Each elongated diffusion mimicking member includes an aqueous component which can undergo diffusion along the elongated diffusion mimicking member.
    Type: Application
    Filed: December 21, 2017
    Publication date: April 26, 2018
    Inventors: Fergal KERINS, Timotheus Anton GMEINER, Jeff Alan STAINSBY, Chad Tyler HARRIS, Sheryl Rae THINGVOLD, Gregory Allan WHITTON
  • Patent number: 9880251
    Abstract: Disclosed herein are cerebrospinal diffusion phantoms which include a housing having a shape and size configured for insertion into a magnetic resonance coil in one or more preselected poses. A scaffold support structure is mounted on an interior of said housing and a plurality of elongated diffusion mimicking members supported on the support array. The elongated diffusion mimicking members are affixed to the scaffold support structure such that elongated diffusion mimicking members extend in directions needed to substantially emulate a 3 dimensional arrangement of cerebrospinal diffusion fiber tracts in a living organism; as well as modules for elimination of resolution based-bias, angular accuracy evaluation, diffusion rate calibration, and quality assurance image referencing. Each elongated diffusion mimicking member includes an aqueous component which can undergo diffusion along the elongated diffusion mimicking member.
    Type: Grant
    Filed: September 4, 2015
    Date of Patent: January 30, 2018
    Assignee: Synaptive Medical (Barbados) Inc.
    Inventors: Fergal Kerins, Timotheus Anton Gmeiner, Jeff Alan Stainsby, Chad Tyler Harris, Sheryl Rae Thingvold, Gregory Allan Whitton
  • Publication number: 20170291359
    Abstract: Disclosed herein are anatomical simulators produced using three dimensional (3D) printing to produce interior components of the simulator. The method of producing void structures in an anatomical phantom, includes 3D printing one or more structures of one or more desired sub-anatomical features using a dissolvable material; supporting and enclosing the one or more structures in an interior of a mold of the anatomical phantom; filling a remaining internal volume in the interior of the mold between an outer surface of the one or more structures and an inner surface of the mold with a liquid precursor of a matrix material selected to mimic anatomical tissue and processing said liquid precursor to form a tissue mimic matrix material; and dissolving the one or more structures with a fluid selected to dissolve said dissolvable material to produce one or more internal cavities within the tissue mimic matrix material.
    Type: Application
    Filed: September 23, 2015
    Publication date: October 12, 2017
    Inventors: Fergal KERINS, Gregory Allan WHITTON, Joshua Lee RICHMOND, Timotheus Anton GMEINER
  • Publication number: 20170192076
    Abstract: Disclosed herein are cerebrospinal diffusion phantoms which include a housing having a shape and size configured for insertion into a magnetic resonance coil in one or more preselected poses. A scaffold support structure is mounted on an interior of said housing and a plurality of elongated diffusion mimicking members supported on the support array. The elongated diffusion mimicking members are affixed to the scaffold support structure such that elongated diffusion mimicking members extend in directions needed to substantially emulate a 3 dimensional arrangement of cerebrospinal diffusion fiber tracts in a living organism; as well as modules for elimination of resolution based-bias, angular accuracy evaluation, diffusion rate calibration, and quality assurance image referencing. Each elongated diffusion mimicking member includes an aqueous component which can undergo diffusion along the elongated diffusion mimicking member.
    Type: Application
    Filed: September 4, 2015
    Publication date: July 6, 2017
    Inventors: Fergal KERINS, Timotheus Anton GMEINER, Jeff Alan STAINSBY, Chad Tyler HARRIS, Sheryl Rae THINGVOLD, Gregory Allan WHITTON
  • Patent number: D790709
    Type: Grant
    Filed: September 28, 2015
    Date of Patent: June 27, 2017
    Assignee: SYNAPTIVE MEDICAL (BARBADOS) INC.
    Inventors: Timotheus Anton Gmeiner, Gregory Allan Whitton, Fergal Kerins