Patents by Inventor Hyun W. Bae
Hyun W. Bae 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: 20230077763Abstract: The present disclosure relates to a dynamic bioactive bone graft material having an engineered porosity. In one embodiment, a bone graft material is provided having bioactive glass fibers arranged in a porous matrix that is moldable into a desired shape for implantation. The material can be substantially without additives and can include at least one nanofiber. The porous matrix may include a combination of one or more pore sizes including nanopores, macropores, mesopores, and micropores. In another embodiment, a bone graft implant is provided having a matrix comprising a plurality of overlapping and interlocking bioactive glass fibers, and having a distributed porosity based on a range of pores provided in the bioactive glass fibers. The distributed porosity can comprise a combination of macropores, mesopores, and micropores, and the matrix can be formable into a desired shape for implantation into a patient.Type: ApplicationFiled: May 23, 2022Publication date: March 16, 2023Inventors: Charanpreet S. Bagga, Hyun W. Bae, Thomas E. Day
-
Patent number: 11338061Abstract: The present disclosure relates to a dynamic bioactive bone graft material having an engineered porosity. In one embodiment, a bone graft material is provided having bioactive glass fibers arranged in a porous matrix that is moldable into a desired shape for implantation. The material can be substantially without additives and can include at least one nanofiber. The porous matrix may include a combination of one or more pore sizes including nanopores, macropores, mesopores, and micropores. In another embodiment, a bone graft implant is provided having a matrix comprising a plurality of overlapping and interlocking bioactive glass fibers, and having a distributed porosity based on a range of pores provided in the bioactive glass fibers. The distributed porosity can comprise a combination of macropores, mesopores, and micropores, and the matrix can be formable into a desired shape for implantation into a patient.Type: GrantFiled: November 26, 2019Date of Patent: May 24, 2022Assignee: Prosidyan, Inc.Inventors: Charanpreet S. Bagga, Hyun W. Bae, Thomas E. Day
-
Publication number: 20220080085Abstract: Bioactive porous bone graft implants in various forms suitable for bone tissue regeneration and/or repair, as well as methods of use, are provided. The implants are formed of bioactive glass and have an engineered porosity. The implants may take the form of a putty, foam, fibrous cluster, fibrous matrix, granular matrix, or combinations thereof and allow for enhanced clinical results as well as ease of handling.Type: ApplicationFiled: September 27, 2021Publication date: March 17, 2022Inventors: Charanpreet S. Bagga, Steve B. Jung, Hyun W. Bae
-
Patent number: 11129925Abstract: Bioactive porous bone graft implants in various forms suitable for bone tissue regeneration and/or repair, as well as methods of use, are provided. The implants are formed of bioactive glass and have an engineered porosity. The implants may take the form of a putty, foam, fibrous cluster, fibrous matrix, granular matrix, or combinations thereof and allow for enhanced clinical results as well as ease of handling.Type: GrantFiled: July 1, 2019Date of Patent: September 28, 2021Assignee: PROSIDYAN, INC.Inventors: Charanpreet S. Bagga, Steve B. Jung, Hyun W. Bae
-
Publication number: 20210260242Abstract: Implantable medical devices, composite bioactive polymeric biomaterials for forming such devices, and methods for manufacturing these biomaterials and devices are provided. The implantable medical devices are engineered, at least in part, from a composite material comprising a polymer component and a bioactive component incorporated therein to provide bioactivity to the polymeric component for the improved treatment of bone or other purposes. The implantable device may comprise a main body formed of a polymeric framework, and a bioactive glass additive incorporated into the rigid polymeric framework. The implantable device may also comprise a main body and a bioactive component that includes a polyarylretherketone (PAEK) polymer component and a bioactive additive component. The bioactive additive component is incorporated substantially throughout the polymer component to further enhance cellular activity to promote bone fusion and/or regeneration.Type: ApplicationFiled: February 23, 2021Publication date: August 26, 2021Inventors: Charanpreet S. Bagga, Robert T. Warren, Hyun W. Bae
-
Patent number: 10959759Abstract: A posterior vertebral plating system comprising a plate and a plurality of attachment members. The plate has a plurality of holes extending through the plate from an upper surface to a lower surface, and the plate is configured to extend along the posterior side of at least two vertebrae adjacent at least one boney structure of each of the vertebrae. The holes are spaced in such a way that a first plurality of holes is positionable over a boney structure of a first vertebra to define a plurality of fixation points to the first vertebra and a second plurality of holes is positionable over boney structure of a second vertebra to define a plurality of fixation points to the second vertebra. The attachment members are insertable through the holes of the plate and into the boney structure of a corresponding vertebra to fix the plate to the vertebra.Type: GrantFiled: August 6, 2018Date of Patent: March 30, 2021Assignee: DePuy Synthesis Products, Inc.Inventors: Albert A. Montello, Hyun W. Bae, William L. Strausbaugh, Christopher M. Bonner, William P. McDonough, David K. Koch, Jordan N. Milford
-
Publication number: 20200093963Abstract: The present disclosure relates to a dynamic bioactive bone graft material having an engineered porosity. In one embodiment, a bone graft material is provided having bioactive glass fibers arranged in a porous matrix that is moldable into a desired shape for implantation. The material can be substantially without additives and can include at least one nanofiber. The porous matrix may include a combination of one or more pore sizes including nanopores, macropores, mesopores, and micropores. In another embodiment, a bone graft implant is provided having a matrix comprising a plurality of overlapping and interlocking bioactive glass fibers, and having a distributed porosity based on a range of pores provided in the bioactive glass fibers. The distributed porosity can comprise a combination of macropores, mesopores, and micropores, and the matrix can be formable into a desired shape for implantation into a patient.Type: ApplicationFiled: November 26, 2019Publication date: March 26, 2020Inventors: Charanpreet S. Bagga, Hyun W. Bae, Thomas E. Day
-
Publication number: 20200000970Abstract: Bioactive porous bone graft implants in various forms suitable for bone tissue regeneration and/or repair, as well as methods of use, are provided. The implants are formed of bioactive glass and have an engineered porosity. The implants may take the form of a putty, foam, fibrous cluster, fibrous matrix, granular matrix, or combinations thereof and allow for enhanced clinical results as well as ease of handling.Type: ApplicationFiled: July 1, 2019Publication date: January 2, 2020Inventors: Charanpreet S. Bagga, Steve B. Jung, Hyun W. Bae
-
Patent number: 10500312Abstract: Bioactive porous bone graft implants in various forms suitable for use in bone tissue regeneration and/or repair, as well as methods of use are provided. The implants are formed of bioactive glass and have an engineered porosity. The implants may be contained in polymer for enhanced clinical results and better handling.Type: GrantFiled: November 17, 2014Date of Patent: December 10, 2019Assignee: PROSIDYAN, INC.Inventors: Charanpreet S. Bagga, Steve B. Jung, Hyun W. Bae
-
Patent number: 10478528Abstract: Synthetic, bioactive ultra-porous bone graft materials having an engineered porosity, and implants formed from such materials are provided. In particular, these implants comprise bioactive glass and incorporate allograft material for osteoinduction. The implants are suitable for bone tissue regeneration and/or repair.Type: GrantFiled: July 1, 2016Date of Patent: November 19, 2019Assignee: PROSIDYAN, INC.Inventors: Charanpreet S. Bagga, Steven B. Jung, Hyun W. Bae
-
Patent number: 10335516Abstract: Bioactive porous bone graft implants in various forms suitable for bone tissue regeneration and/or repair, as well as methods of use, are provided. The implants are formed of bioactive glass and have an engineered porosity. The implants may take the form of a putty, foam, fibrous cluster, fibrous matrix, granular matrix, or combinations thereof and allow for enhanced clinical results as well as ease of handling.Type: GrantFiled: November 7, 2014Date of Patent: July 2, 2019Assignee: PROSIDYAN, INC.Inventors: Charanpreet S. Bagga, Steve B. Jung, Hyun W. Bae
-
Publication number: 20190099515Abstract: Implantable devices that comprise an improved bone graft material, such as for example, bioactive glass, are disclosed. Additionally, implantable devices that work in conjunction with an improved bone graft material and act as a composite implantable device, for the improved treatment of bone, are also disclosed. These devices are bioactive, and are engineered to provide enhanced cellular activity to promote bone fusion or regrowth.Type: ApplicationFiled: October 4, 2018Publication date: April 4, 2019Inventors: Charanpreet S. BAGGA, Shrikar P. Bondre, Steven B. Jung, Hyun W. Bae
-
Publication number: 20180344362Abstract: A posterior vertebral plating system comprising a plate and a plurality of attachment members. The plate has a plurality of holes extending through the plate from an upper surface to a lower surface, and the plate is configured to extend along the posterior side of at least two vertebrae adjacent at least one boney structure of each of the vertebrae. The holes are spaced in such a way that a first plurality of holes is positionable over a boney structure of a first vertebra to define a plurality of fixation points to the first vertebra and a second plurality of holes is positionable over boney structure of a second vertebra to define a plurality of fixation points to the second vertebra. The attachment members are insertable through the holes of the plate and into the boney structure of a corresponding vertebra to fix the plate to the vertebra.Type: ApplicationFiled: August 6, 2018Publication date: December 6, 2018Inventors: Albert A. Montello, Hyun W. Bae, William L. Strausbaugh, Christopher M. Bonner, William P. McDonough, David K. Koch, Jordan N. Milford
-
Patent number: 10045799Abstract: A posterior vertebral plating system comprising a plate and a plurality of attachment members. The plate has a plurality of holes extending through the plate from an upper surface to a lower surface, and the plate is configured to extend along the posterior side of at least two vertebrae adjacent at least one boney structure of each of the vertebrae. The holes are spaced in such a way that a first plurality of holes is positionable over a boney structure of a first vertebra to define a plurality of fixation points to the first vertebra and a second plurality of holes is positionable over boney structure of a second vertebra to define a plurality of fixation points to the second vertebra. The attachment members are insertable through the holes of the plate and into the boney structure of a corresponding vertebra to fix the plate to the vertebra.Type: GrantFiled: August 16, 2016Date of Patent: August 14, 2018Assignee: DePuy Synthes Products, Inc.Inventors: Albert A. Montello, Hyun W. Bae, William L. Strausbaugh, Christopher M. Bonner, William P. McDonough, David K. Koch, Jordan N. Milford
-
Patent number: 9814804Abstract: Methods of providing dose controlled application of bone graft materials are disclosed. In particular, methods for determining a target quantity of bone graft material for clinical application in order to ensure maximum clinical results are provided. These methods comprise determining the target weight of the material to be applied.Type: GrantFiled: May 16, 2016Date of Patent: November 14, 2017Assignee: PROSIDYAN, INC.Inventors: Charanpreet S. Bagga, Hyun W. Bae
-
Publication number: 20160354122Abstract: A posterior vertebral plating system comprising a plate and a plurality of attachment members. The plate has a plurality of holes extending through the plate from an upper surface to a lower surface, and the plate is configured to extend along the posterior side of at least two vertebrae adjacent at least one boney structure of each of the vertebrae. The holes are spaced in such a way that a first plurality of holes is positionable over a boney structure of a first vertebra to define a plurality of fixation points to the first vertebra and a second plurality of holes is positionable over boney structure of a second vertebra to define a plurality of fixation points to the second vertebra. The attachment members are insertable through the holes of the plate and into the boney structure of a corresponding vertebra to fix the plate to the vertebra.Type: ApplicationFiled: August 16, 2016Publication date: December 8, 2016Inventors: Albert A. Montello, Hyun W. Bae, William L. Strausbaugh, Christopher M. Bonner, William P. McDonough, David K. Koch, Jordan N. Milford
-
Publication number: 20160310638Abstract: Synthetic, bioactive ultra-porous bone graft materials having an engineered porosity, and implants formed from such materials are provided. In particular, these implants comprise bioactive glass and incorporate allograft material for osteoinduction. The implants are suitable for bone tissue regeneration and/or repair.Type: ApplicationFiled: July 1, 2016Publication date: October 27, 2016Inventors: Charanpreet S. Bagga, Steven B. Jung, Hyun W. Bae
-
Publication number: 20160256609Abstract: Methods of providing dose controlled application of bone graft materials are disclosed. In particular, methods for determining a target quantity of bone graft material for clinical application in order to ensure maximum clinical results are provided. These methods comprise determining the target weight of the material to be applied.Type: ApplicationFiled: May 16, 2016Publication date: September 8, 2016Inventors: Charanpreet S. Bagga, Hyun W. Bae
-
Patent number: 9433443Abstract: A posterior vertebral plating system comprising a plate and a plurality of attachment members. The plate has a plurality of holes extending through the plate from an upper surface to a lower surface, and the plate is configured to extend along the posterior side of at least two vertebrae adjacent at least one boney structure of each of the vertebrae. The holes are spaced in such a way that a first plurality of holes is positionable over a boney structure of a first vertebra to define a plurality of fixation points to the first vertebra and a second plurality of holes is positionable over boney structure of a second vertebra to define a plurality of fixation points to the second vertebra. The attachment members are insertable through the holes of the plate and into the boney structure of a corresponding vertebra to fix the plate to the vertebra.Type: GrantFiled: September 19, 2014Date of Patent: September 6, 2016Assignee: DePuy Synthes Products, Inc.Inventors: Albert A. Montello, Hyun W. Bae, William L. Strausbaugh, Christopher M. Bonner, William P. McDonough, David K. Koch, Jordan N. Milford
-
Patent number: 9381274Abstract: Synthetic, bioactive ultra-porous bone graft materials having an engineered porosity, and implants formed from such materials are provided. In particular, these implants comprise bioactive glass and incorporate allograft material for osteoinduction. The implants are suitable for bone tissue regeneration and/or repair.Type: GrantFiled: March 14, 2013Date of Patent: July 5, 2016Assignee: PROSIDYAN, INC.Inventors: Charanpreet S. Bagga, Steve B. Jung, Hyun W. Bae