Patents by Inventor William Rezach

William Rezach 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: 12636047
    Abstract: A spinal-surgery system having a rod receiver and/or a cap for use insertion and removal from the receiver. The cap has a generally cylindrical body, a set of opposing splay-resisting flanges, and set of opposing rotation-preventing wings, the flanges extending radially from the body along a first radial line of the body, and the wings extending radially away from the body along a second radial line of the body generally orthogonal to the first radial line. Each cap flange has a proximal-facing cap splay-resisting surface, and a distal-facing cap pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resisting surface. The receiver pop-on surfaces are spaced such that each cap pop-on surface contacts a respective receiver pop-on surface when the cap is centered, with the cap wings aligned between receiver arms, and moved distally to contact the receiver.
    Type: Grant
    Filed: September 13, 2021
    Date of Patent: May 26, 2026
    Assignee: WARSAW ORTHOPEDIC, INC.
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Patent number: 12569279
    Abstract: A spinal-surgery system having a rod receiver and/or a cap having a generally cylindrical body, a set of opposing splay-resisting flanges, and a set of opposing rotation-preventing/rotation-resisting wings. Each wing has a lateral rotation-preventing portion and a lateral rotation-resisting portion. A receiver proximal end forms a wing-receiving cavity having a lateral rotation-preventing side and a lateral rotation-resisting side. Each flange has a proximal-facing splay-resist surface, and a distal-facing pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resist surface. Each rotation-preventing portion contacts a corresponding rotation-preventing side and each rotation-resisting portion contacts a corresponding rotation-resisting sides when the cap is popped on. The rotation-preventing portions contacting the rotation-preventing sides prevents cap rotation in a first direction.
    Type: Grant
    Filed: August 24, 2022
    Date of Patent: March 10, 2026
    Assignee: WARSAW ORTHOPEDIC, INC.
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Patent number: 12329419
    Abstract: A spinal-surgery system having a rod receiver and/or a cap. The cap has a cylindrical body, opposing splay-resisting flanges, and an opposing rotation-preventing/rotation-resisting wings, each wing having a lateral rotation-preventing surface and a lateral rotation-resisting surface. A receiver proximal end forms a wing-receiving cavity having a lateral rotation-preventing side and a lateral rotation-resisting side. Each flange has a proximal-facing cap splay-resist surface, and a distal-facing cap pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resist surface. Each rotation-preventing surface contacts a corresponding rotation-preventing side and each rotation-resisting surface contacts a corresponding rotation-resisting sides when the cap is popped on. The rotation-preventing surfaces contacting the rotation-preventing sides prevents cap rotation in a first direction.
    Type: Grant
    Filed: July 28, 2022
    Date of Patent: June 17, 2025
    Assignee: WARSAW ORTHOPEDIC, INC
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Patent number: 12005155
    Abstract: Medical devices, such as implants, having a high-modulus alloy. The alloy includes a biocompatible refractory-metal-based alloy having multiple refractory metals. The alloy has an elastic modulus above about 300 GPa. The alloy comprises 30-35% tungsten, 60% molybdenum, and 5-10% niobium. The alloy is absent of rhenium.
    Type: Grant
    Filed: December 7, 2020
    Date of Patent: June 11, 2024
    Assignee: WARSAW ORTHOPEDIC, INC.
    Inventors: James Davidson, William Rezach, Rodney Ballard
  • Publication number: 20220395300
    Abstract: A spinal-surgery system having a rod receiver and/or a cap having a generally cylindrical body, a set of opposing splay-resisting flanges, and a set of opposing rotation-preventing/rotation-resisting wings. Each wing has a lateral rotation-preventing portion and a lateral rotation-resisting portion. A receiver proximal end forms a wing-receiving cavity having a lateral rotation-preventing side and a lateral rotation-resisting side. Each flange has a proximal-facing splay-resist surface, and a distal-facing pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resist surface. Each rotation-preventing portion contacts a corresponding rotation-preventing side and each rotation-resisting portion contacts a corresponding rotation-resisting sides when the cap is popped on. The rotation-preventing portions contacting the rotation-preventing sides prevents cap rotation in a first direction.
    Type: Application
    Filed: August 24, 2022
    Publication date: December 15, 2022
    Applicant: WARSAW ORTHOPEDIC INC.
    Inventors: JASON M. MAY, Christel Italiaie, William Rezach
  • Patent number: 11504163
    Abstract: A spinal-surgery system having a rod receiver and/or a cap. The cap has a cylindrical body, opposing splay-resisting flanges, and an opposing rotation-preventing/rotation-resisting wings, each wing having a lateral rotation-preventing surface and a lateral rotation-resisting surface. A receiver proximal end forms a wing-receiving cavity having a lateral rotation-preventing side and a lateral rotation-resisting side. Each flange has a proximal-facing cap splay-resist surface, and a distal-facing cap pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resist surface. Each rotation-preventing surface contacts a corresponding rotation-preventing side and each rotation-resisting surface contacts a corresponding rotation-resisting sides when the cap is popped on. The rotation-preventing surfaces contacting the rotation-preventing sides prevents cap rotation in a first direction.
    Type: Grant
    Filed: March 31, 2020
    Date of Patent: November 22, 2022
    Assignee: Warsaw Orthopedic, Inc.
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Publication number: 20220361923
    Abstract: A spinal-surgery system having a rod receiver and/or a cap. The cap has a cylindrical body, opposing splay-resisting flanges, and an opposing rotation-preventing/rotation-resisting wings, each wing having a lateral rotation-preventing surface and a lateral rotation-resisting surface. A receiver proximal end forms a wing-receiving cavity having a lateral rotation-preventing side and a lateral rotation-resisting side. Each flange has a proximal-facing cap splay-resist surface, and a distal-facing cap pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resist surface. Each rotation-preventing surface contacts a corresponding rotation-preventing side and each rotation-resisting surface contacts a corresponding rotation-resisting sides when the cap is popped on. The rotation-preventing surfaces contacting the rotation-preventing sides prevents cap rotation in a first direction.
    Type: Application
    Filed: July 28, 2022
    Publication date: November 17, 2022
    Applicant: Warsaw Orthopedic Inc.
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Patent number: 11471194
    Abstract: A spinal-surgery system having a rod receiver and/or a cap having a generally cylindrical body, a set of opposing splay-resisting flanges, and a set of opposing rotation-preventing/rotation-resisting wings. Each wing has a lateral rotation-preventing portion and a lateral rotation-resisting portion. A receiver proximal end forms a wing-receiving cavity having a lateral rotation-preventing side and a lateral rotation-resisting side. Each flange has a proximal-facing splay-resist surface, and a distal-facing pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resist surface. Each rotation-preventing portion contacts a corresponding rotation-preventing side and each rotation-resisting portion contacts a corresponding rotation-resisting sides when the cap is popped on. The rotation-preventing portions contacting the rotation-preventing sides prevents cap rotation in a first direction.
    Type: Grant
    Filed: March 31, 2020
    Date of Patent: October 18, 2022
    Assignee: Warsaw Orthopedic, Inc.
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Patent number: 11219473
    Abstract: A spinal-surgery system having a receiver for receiving a rod and/or a receiver cap. The cap has a generally cylindrical body and a set of opposing splay-resisting flanges extending radially from the body. The receiver has arms each having an inner proximal protrusion at or adjacent the proximal end, and an inner sloped splaying surface distal of the proximal protrusion. Each cap flange has a proximal-facing cap splay-prevent surface, and a distal-facing cap pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-prevent surface. The receiver pop-on surfaces are spaced so each cap pop-on surface contacts a respective receiver pop-on surface in operation. Each splaying revision surface extends distally and radially inward toward the longitudinal axis and into a cylindrical plane defined by an inner diameter of the cap. The cap inner diameter is greater than a rod width.
    Type: Grant
    Filed: March 31, 2020
    Date of Patent: January 11, 2022
    Assignee: Warsaw Orthopedic, Inc.
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Publication number: 20210401473
    Abstract: A spinal-surgery system having a rod receiver and/or a cap for use insertion and removal from the receiver. The cap has a generally cylindrical body, a set of opposing splay-resisting flanges, and set of opposing rotation-preventing wings, the flanges extending radially from the body along a first radial line of the body, and the wings extending radially away from the body along a second radial line of the body generally orthogonal to the first radial line. Each cap flange has a proximal-facing cap splay-resisting surface, and a distal-facing cap pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resisting surface. The receiver pop-on surfaces are spaced such that each cap pop-on surface contacts a respective receiver pop-on surface when the cap is centered, with the cap wings aligned between receiver arms, and moved distally to contact the receiver.
    Type: Application
    Filed: September 13, 2021
    Publication date: December 30, 2021
    Applicant: WARSAW ORTHOPEDIC INC.
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Publication number: 20210298799
    Abstract: A spinal-surgery system having a rod receiver and/or a cap for use insertion and removal from the receiver. The cap has a generally cylindrical body, a set of opposing splay-resisting flanges, and set of opposing rotation-preventing wings, the flanges extending radially from the body along a first radial line of the body, and the wings extending radially away from the body along a second radial line of the body generally orthogonal to the first radial line. Each cap flange has a proximal-facing cap splay-resisting surface, and a distal-facing cap pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resisting surface. The receiver pop-on surfaces are spaced such that each cap pop-on surface contacts a respective receiver pop-on surface when the cap is centered, with the cap wings aligned between receiver arms, and moved distally to contact the receiver.
    Type: Application
    Filed: March 31, 2020
    Publication date: September 30, 2021
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Publication number: 20210298791
    Abstract: A spinal-surgery system having a receiver for receiving a rod and/or a receiver cap. The cap has a generally cylindrical body and a set of opposing splay-resisting flanges extending radially from the body. The receiver has arms each having an inner proximal protrusion at or adjacent the proximal end, and an inner sloped splaying surface distal of the proximal protrusion. Each cap flange has a proximal-facing cap splay-prevent surface, and a distal-facing cap pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-prevent surface. The receiver pop-on surfaces are spaced so each cap pop-on surface contacts a respective receiver pop-on surface in operation. Each splaying revision surface extends distally and radially inward toward the longitudinal axis and into a cylindrical plane defined by an inner diameter of the cap. The cap inner diameter is greater than a rod width.
    Type: Application
    Filed: March 31, 2020
    Publication date: September 30, 2021
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Publication number: 20210298800
    Abstract: A spinal-surgery system having a rod receiver and/or a cap having a generally cylindrical body, a set of opposing splay-resisting flanges, and a set of opposing rotation-preventing/rotation-resisting wings. Each wing has a lateral rotation-preventing portion and a lateral rotation-resisting portion. A receiver proximal end forms a wing-receiving cavity having a lateral rotation-preventing side and a lateral rotation-resisting side. Each flange has a proximal-facing splay-resist surface, and a distal-facing pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resist surface. Each rotation-preventing portion contacts a corresponding rotation-preventing side and each rotation-resisting portion contacts a corresponding rotation-resisting sides when the cap is popped on. The rotation-preventing portions contacting the rotation-preventing sides prevents cap rotation in a first direction.
    Type: Application
    Filed: March 31, 2020
    Publication date: September 30, 2021
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Publication number: 20210298790
    Abstract: A spinal-surgery system having a rod receiver and/or a cap. The cap has a cylindrical body, opposing splay-resisting flanges, and an opposing rotation-preventing/rotation-resisting wings, each wing having a lateral rotation-preventing surface and a lateral rotation-resisting surface. A receiver proximal end forms a wing-receiving cavity having a lateral rotation-preventing side and a lateral rotation-resisting side. Each flange has a proximal-facing cap splay-resist surface, and a distal-facing cap pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resist surface. Each rotation-preventing surface contacts a corresponding rotation-preventing side and each rotation-resisting surface contacts a corresponding rotation-resisting sides when the cap is popped on. The rotation-preventing surfaces contacting the rotation-preventing sides prevents cap rotation in a first direction.
    Type: Application
    Filed: March 31, 2020
    Publication date: September 30, 2021
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Patent number: 11129651
    Abstract: A spinal-surgery system having a rod receiver and/or a cap for use insertion and removal from the receiver. The cap has a generally cylindrical body, a set of opposing splay-resisting flanges, and set of opposing rotation-preventing wings, the flanges extending radially from the body along a first radial line of the body, and the wings extending radially away from the body along a second radial line of the body generally orthogonal to the first radial line. Each cap flange has a proximal-facing cap splay-resisting surface, and a distal-facing cap pop-on surface. Each receiver proximal protrusion has a proximal-facing sloped receiver pop-on surface, and a distal-facing sloped receiver splay-resisting surface. The receiver pop-on surfaces are spaced such that each cap pop-on surface contacts a respective receiver pop-on surface when the cap is centered, with the cap wings aligned between receiver arms, and moved distally to contact the receiver.
    Type: Grant
    Filed: March 31, 2020
    Date of Patent: September 28, 2021
    Assignee: Warsaw Orthopedic, Inc.
    Inventors: Jason M. May, Christel Italiaie, William Rezach
  • Publication number: 20210220513
    Abstract: Medical devices, such as implants, having a high-modulus alloy. The alloy includes a biocompatible refractory-metal-based alloy having multiple refractory metals. The alloy in various embodiments has an elastic modulus above about 300 GPa, and includes tungsten, molybdenum, and tungsten.
    Type: Application
    Filed: December 7, 2020
    Publication date: July 22, 2021
    Inventors: James Davidson, William Rezach, Rodney Ballard
  • Publication number: 20070270805
    Abstract: A spinal rod system includes a first rod and a second rod engaged to a connector with the first and second rods extending axially therefrom in opposite directions from one another. The connector is mountable to a mounting anchor and securable thereto with an engaging member. The connector secures the first rod in the mounting anchor and the connector is clampingly engaged between the engaging member and the first rod. The second rod is engageable in a receiving portion of the connector adjacent to the mounting anchor.
    Type: Application
    Filed: April 7, 2006
    Publication date: November 22, 2007
    Inventors: Keith Miller, William Rezach
  • Publication number: 20070233122
    Abstract: A bone screw comprising a threaded shank including a distal end portion and a proximal end portion, and defining a first threaded section extending from the distal end portion toward the proximal end portion and adapted for anchoring in cancellous bone, and a second threaded section extending contiguously from the first threaded section toward the proximal end portion and adapted for engagement in cortical bone, with the second threaded section having a finer thread pattern relative to the first threaded section. In one embodiment, the first threaded section includes a first helical threading defining a single lead thread pattern for anchoring in cancellous bone, and the second threaded section includes a second helical threading interleaved with the first threading to define a duel lead thread pattern for engagement in cortical bone. In a further embodiment, the bone screw includes a head portion extending from the threaded shank and configured for coupling to a spinal implant.
    Type: Application
    Filed: February 16, 2006
    Publication date: October 4, 2007
    Inventors: Francis Denis, Timothy Garvey, Joseph Perra, Manuel Pinto, James Schwender, Ensor Transfeldt, Michael Veldman, William Rezach
  • Publication number: 20070123860
    Abstract: An orthopedic implant is disclosed having at least one passage for an elongated member that is compressible. In certain embodiments, multiple compressible elongated member passages may be provided, or an elongated member passage may be U-shaped and closable by a closure member. Split ring members may be provided in compressible passages and around elongated members. A bone anchor may be connected to the implant so that locking the anchor to the implant compresses one or more of the elongated member passages.
    Type: Application
    Filed: November 4, 2005
    Publication date: May 31, 2007
    Inventors: Denis Francis, Timothy Garvey, Joseph Perra, Manuel Pinto, James Schwender, Ensor Transfeldt, Michael Veldman, William Rezach