Patents by Inventor Brad Beale

Brad Beale 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: 12035958
    Abstract: A hemostatic surgical blade is formed of five symmetrically layers. A martensitic stainless steel core with oppositely disposed faces is bonded to layers exhibiting a high thermal conductivity which, in turn, are supported by buttressing layers of austenitic stainless steel. A thin aluminum layer is deposited on one side of blade blanks to enable chemical reaction bonding to electrically insulative dielectric inks formulated for use with aluminum substrates. The blade is heated by a blade heating circuit that is manufactured by thick-film printing and firing an electrically resistive heating element layer and an electrically conductive leads on an electrically insulative dielectric layer with all layers subsequently covered by a thick-film printed electrically insulative dielectric overcoat. Tissue contacting portions of blade are coated with a very thin non-stick coating.
    Type: Grant
    Filed: September 9, 2020
    Date of Patent: July 16, 2024
    Assignee: Hemostatix Medical Technologies, LLC
    Inventors: Philip E. Eggers, Brad Beale
  • Patent number: 11219480
    Abstract: Disclosed is a soft tissue excision apparatus having a handle and an elongated blade support member extending from the handle. The distal end of blade support member includes a first thermally conductive blade support arm and a second thermally conductive blade support arm. An electrically heatable blade is supported at and electrically isolated from the distal ends of the two thermally conductive blade support arms. A first electrically conductive lead extends from the proximal end of the thermally conductive blade support member to a first blade heater contact pad. A second electrically conductive lead extends from the proximal end of the thermally conductive blade support member to a second blade heater contact pad. First and second electrically conductive flexible leads extend from the proximal end of the thermally conductive blade support member to a controller.
    Type: Grant
    Filed: March 4, 2019
    Date of Patent: January 11, 2022
    Assignee: Hemostatix Medical Technologies, LLC
    Inventors: Philip E. Eggers, Brad Beale, Jerry Van Eyck
  • Publication number: 20210077175
    Abstract: A hemostatic surgical blade is formed of five symmetrically layers. A martensitic stainless steel core with oppositely disposed faces is bonded to layers exhibiting a high thermal conductivity which, in turn, are supported by buttressing layers of austenitic stainless steel. A thin aluminum layer is deposited on one side of blade blanks to enable chemical reaction bonding to electrically insulative dielectric inks formulated for use with aluminum substrates. The blade is heated by a blade heating circuit that is manufactured by thick-film printing and firing an electrically resistive heating element layer and an electrically conductive leads on an electrically insulative dielectric layer with all layers subsequently covered by a thick-film printed electrically insulative dielectric overcoat. Tissue contacting portions of blade are coated with a very thin non-stick coating.
    Type: Application
    Filed: September 9, 2020
    Publication date: March 18, 2021
    Applicant: Hemostatix Medical Technologies, LLC
    Inventors: Philip E. Eggers, Brad Beale
  • Publication number: 20190192209
    Abstract: Disclosed is a soft tissue excision apparatus having a handle and an elongated blade support member extending from the handle. The distal end of blade support member includes a first thermally conductive blade support arm and a second thermally conductive blade support arm. An electrically heatable blade is supported at and electrically isolated from the distal ends of the two thermally conductive blade support arms. A first electrically conductive lead extends from the proximal end of the thermally conductive blade support member to a first blade heater contact pad. A second electrically conductive lead extends from the proximal end of the thermally conductive blade support member to a second blade heater contact pad. First and second electrically conductive flexible leads extend from the proximal end of the thermally conductive blade support member to a controller.
    Type: Application
    Filed: March 4, 2019
    Publication date: June 27, 2019
    Applicant: Hemostatix Medical Technologies, LLC
    Inventors: Philip E. Eggers, Brad Beale, Jerry Van Eyck
  • Publication number: 20160242836
    Abstract: Disclosed is a soft tissue excision apparatus having a handle and an elongated blade support member extending from the handle. The distal end of blade support member includes a first thermally conductive blade support arm and a second thermally conductive blade support arm. An electrically heatable blade is supported at and electrically isolated from the distal ends of the two thermally conductive blade support arms. A first electrically conductive lead extends from the proximal end of the thermally conductive blade support member to a first blade heater contact pad. A second electrically conductive lead extends from the proximal end of the thermally conductive blade support member to a second blade heater contact pad. First and second electrically conductive flexible leads extend from the proximal end of the thermally conductive blade support member to a controller.
    Type: Application
    Filed: February 18, 2016
    Publication date: August 25, 2016
    Applicant: Hemostatix Medical Technologies, LLC
    Inventors: Philip E. Eggers, Brad Beale, Jerry Van Eyck
  • Patent number: 5615770
    Abstract: A sterilizable medical implant package insert that provides enhanced protection of the implant during shipment and easier access of the implant at its destination. The sterile implant package insert is placed within standard sterile implant packages and provides for the automatic presentation of the implant from the insert when the sterile package top is opened. The insert also provides increased protection of the implants during shipping and operating room manipulation by securely holding the implant, thus preventing damage from collisions between the implant and the container walls and by providing double wall containment.
    Type: Grant
    Filed: August 10, 1995
    Date of Patent: April 1, 1997
    Assignee: Smith & Nephew, Inc.
    Inventors: Edward L. Applebaum, Brad Beale