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No. Publication Number Title Publication/Patent Number Publication/Patent Number Publication Date Publication Date
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1
US11040124B2
Method of and a mold for the manufacture, making and/or production of a multi-component implant, device, construct or material
Publication/Patent Number: US11040124B2 Publication Date: 2021-06-22 Application Number: 16/498,211 Filing Date: 2018-05-01 Inventor: Maher, Suzanne A.   Chen, Tony   Warren, Russell   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: B29C45/03 Abstract: An improved new method of making a multi-component implant comprising a solid hydrogel, a porous hydrogel, and a porous rigid base suitable for implantation into a mammal, to treat, repair or replace defects and/or injury biological tissue as well as the implant made from the improved method. The invention also includes an improved method for making devices, constructs, and materials comprising a hydrogel and a porous rigid material. The invention also includes a mold and kits for performing the methods.
2
US2021038766A1
METHOD OF MAKING, MANUFACTURING OR PRODUCING ORTHOPEDIC SOFT TISSUE
Publication/Patent Number: US2021038766A1 Publication Date: 2021-02-11 Application Number: 16/757,191 Filing Date: 2018-10-19 Inventor: Chen, Tony   Maher, Suzanne A.   Warren, Russell   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: A61L27/36 Abstract: An improved method of making, manufacturing and/or producing engineered orthopedic soft tissue including cartilage, meniscus, annulus fibrosus, and tendon/ligaments which results in engineered soft tissue in which the fibers are aligned the same or nearly the same as naturally occurring tissue. The present invention also includes molds and other apparatus for carrying out the methods of the invention and kits.
3
US11083535B2
System and method for intraoperative joint contact mechanics measurement
Publication/Patent Number: US11083535B2 Publication Date: 2021-08-10 Application Number: 16/023,460 Filing Date: 2018-06-29 Inventor: Maher, Suzanne   Rodeo, Scott   Warren, Russell   Wang, Hongsheng   Lustri, Mario   Assignee: Hospital for Special Surgery   IPC: A61B90/00 Abstract: A method for intraoperatively measuring joint contact mechanics of a patient's joint is provided. The method includes inserting a sensor between first and second bones of a joint. Then a predetermined force is applied to one of the first and second bones. Afterwards, contact mechanics such as, contact stresses, contact areas and/or forces are measured between the first and second bones in response to the applied predetermined force.
4
EP3618773A1
A METHOD OF AND A MOLD FOR THE MANUFACTURE, MAKING AND/OR PRODUCTION OF A MULTI-COMPONENT IMPLANT, DEVICE, CONSTRUCT OR MATERIAL
Publication/Patent Number: EP3618773A1 Publication Date: 2020-03-11 Application Number: 18795213.0 Filing Date: 2018-05-01 Inventor: Maher, Suzanne A.   Chen, Tony   Warren, Russell   Assignee: New York Society for the Ruptured and Crippled Maintaining the Hospital for Special Surgery   IPC: A61F2/30
5
US2020376168A1
A METHOD OF AND A MOLD FOR THE MANUFACTURE, MAKING AND/OR PRODUCTION OF A MULTI-COMPONENT IMPLANT, DEVICE, CONSTRUCT OR MATERIAL
Publication/Patent Number: US2020376168A1 Publication Date: 2020-12-03 Application Number: 16/498,211 Filing Date: 2018-05-01 Inventor: Maher, Suzanne A.   Chen, Tony   Warren, Russell   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: A61L27/52 Abstract: An improved new method of making a multi-component implant comprising a solid hydrogel, a porous hydrogel, and a porous rigid base suitable for implantation into a mammal, to treat, repair or replace defects and/or injury biological tissue as well as the implant made from the improved method. The invention also includes an improved method for making devices, constructs, and materials comprising a hydrogel and a porous rigid material. The invention also includes a mold and kits for performing the methods.
6
EP3697341A2
METHOD OF MAKING, MANUFACTURING OR PRODUCING ORTHOPEDIC SOFT TISSUE
Publication/Patent Number: EP3697341A2 Publication Date: 2020-08-26 Application Number: 18867715.7 Filing Date: 2018-10-19 Inventor: Chen, Tony   Maher, Suzanne A.   Warren, Russell   Assignee: New York Society for the Ruptured and Crippled Maintaining the Hospital for Special Surgery   IPC: A61F2/08
7
US10583224B2
Multi-component non-biodegradable implant, a method of making and a method of implantation
Publication/Patent Number: US10583224B2 Publication Date: 2020-03-10 Application Number: 15/370,832 Filing Date: 2016-12-06 Inventor: Maher, Suzanne A.   Chen, Tony   Lipman, Joseph D.   Torzilli, Peter   Warren, Russell   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: A61F2/30 Abstract: An implant comprising at least three components, namely, a solid hydrogel, a porous hydrogel adjacent to or surrounding the solid hydrogel (together considered “the hydrogel”), and a porous rigid base. The solid hydrogel and porous rigid base carry joint load, and the porous hydrogel layer and the porous rigid base allow for cellular migration into and around the implant. The invention is also a novel method of manufacturing the implant, a novel method of implanting the implant, and a method of treating, repairing or replacing biological tissue, more preferably musculoskeletal tissue, with the implant.
8
AU2018261753A1
A method of and a mold for the manufacture, making and/or production of a multi-component implant, device, construct or material
Publication/Patent Number: AU2018261753A1 Publication Date: 2019-10-17 Application Number: 2018261753 Filing Date: 2018-05-01 Inventor: Warren, Russell   Chen, Tony   Maher, Suzanne A.   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: A61F2/38 Abstract: An improved new method of making a multi-component implant comprising a solid hydrogel, a porous hydrogel, and a porous rigid base suitable for implantation into a mammal, to treat, repair or replace defects and/or injury biological tissue as well as the implant made from the improved method. The invention also includes an improved method for making devices, constructs, and materials comprising a hydrogel and a porous rigid material. The invention also includes a mold and kits for performing the methods.
9
WO2019079678A3
METHOD OF MAKING, MANUFACTURING OR PRODUCING ORTHOPEDIC SOFT TISSUE
Publication/Patent Number: WO2019079678A3 Publication Date: 2019-05-31 Application Number: 2018056642 Filing Date: 2018-10-19 Inventor: Warren, Russell   Chen, Tony   Maher, Suzanne A.   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: C08L89/06 Abstract: An improved method of making, manufacturing and/or producing engineered orthopedic soft tissue including cartilage, meniscus, annulus fibrosus, and tendon/ligaments which results in engineered soft tissue in which the fibers are aligned the same or nearly the same as naturally occurring tissue. The present invention also includes molds and other apparatus for carrying out the methods of the invention and kits.
10
WO2019079678A2
METHOD OF MAKING, MANUFACTURING OR PRODUCING ORTHOPEDIC SOFT TISSUE
Publication/Patent Number: WO2019079678A2 Publication Date: 2019-04-25 Application Number: 2018056642 Filing Date: 2018-10-19 Inventor: Warren, Russell   Chen, Tony   Maher, Suzanne A.   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: B29C39/02 Abstract: An improved method of making, manufacturing and/or producing engineered orthopedic soft tissue including cartilage, meniscus, annulus fibrosus, and tendon/ligaments which results in engineered soft tissue in which the fibers are aligned the same or nearly the same as naturally occurring tissue. The present invention also includes molds and other apparatus for carrying out the methods of the invention and kits.
11
CA3058197A1
A METHOD OF AND A MOLD FOR THE MANUFACTURE, MAKING AND/OR PRODUCTION OF A MULTI-COMPONENT IMPLANT, DEVICE, CONSTRUCT OR MATERIAL
Publication/Patent Number: CA3058197A1 Publication Date: 2018-11-08 Application Number: 3058197 Filing Date: 2018-05-01 Inventor: Warren, Russell   Chen, Tony   Maher, Suzanne A.   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: A61F2/38 Abstract: An improved new method of making a multi-component implant comprising a solid hydrogel, a porous hydrogel, and a porous rigid base suitable for implantation into a mammal, to treat, repair or replace defects and/or injury biological tissue as well as the implant made from the improved method. The invention also includes an improved method for making devices, constructs, and materials comprising a hydrogel and a porous rigid material. The invention also includes a mold and kits for performing the methods.
12
WO2018204315A1
A METHOD OF AND A MOLD FOR THE MANUFACTURE, MAKING AND/OR PRODUCTION OF A MULTI-COMPONENT IMPLANT, DEVICE, CONSTRUCT OR MATERIAL
Publication/Patent Number: WO2018204315A1 Publication Date: 2018-11-08 Application Number: 2018030377 Filing Date: 2018-05-01 Inventor: Warren, Russell   Chen, Tony   Maher, Suzanne   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: A61F2/38 Abstract: An improved new method of making a multi-component implant comprising a solid hydrogel, a porous hydrogel, and a porous rigid base suitable for implantation into a mammal, to treat, repair or replace defects and/or injury biological tissue as well as the implant made from the improved method. The invention also includes an improved method for making devices, constructs, and materials comprising a hydrogel and a porous rigid material. The invention also includes a mold and kits for performing the methods.
13
US10070972B2
System and method for intraoperative joint contact mechanics measurement
Publication/Patent Number: US10070972B2 Publication Date: 2018-09-11 Application Number: 14/875,230 Filing Date: 2015-10-05 Inventor: Maher, Suzanne   Rodeo, Scott   Warren, Russell   Wang, Hongsheng   Lustri, Mario   Assignee: Hospital for Special Surgery   IPC: A61F2/46 Abstract: A method for intraoperatively measuring joint contact mechanics of a patient's joint is provided. The method includes inserting a sensor between first and second bones of a joint. Then a predetermined force is applied to one of the first and second bones. Afterwards, contact mechanics such as, contact stresses, contact areas and/or forces are measured between the first and second bones in response to the applied predetermined force.
14
US2018318463A1
SYSTEM AND METHOD FOR INTRAOPERATIVE JOINT CONTACT MECHANICS MEASUREMENT
Publication/Patent Number: US2018318463A1 Publication Date: 2018-11-08 Application Number: 16/023,460 Filing Date: 2018-06-29 Inventor: Maher, Suzanne   Rodeo, Scott   Warren, Russell   Wang, Hongsheng   Lustri, Mario   Assignee: Hospital for Special Surgery   IPC: A61L15/44 Abstract: A method for intraoperatively measuring joint contact mechanics of a patient's joint is provided. The method includes inserting a sensor between first and second bones of a joint. Then a predetermined force is applied to one of the first and second bones. Afterwards, contact mechanics such as, contact stresses, contact areas and/or forces are measured between the first and second bones in response to the applied predetermined force.
15
ES2654097T3
Un implante no biodegradable multicomponente
Title (English): Perfluorooctane sulfonate
Publication/Patent Number: ES2654097T3 Publication Date: 2018-02-12 Application Number: 14789087 Filing Date: 2014-04-25 Inventor: Warren, Russell   Chen, Tony   Lipman, Joseph D   Maher, Suzanne A   Torzilli, Peter   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: B29C70/70 Abstract: Un implante (100) adecuado para implantación en un mamífero para el tratamiento, la reparación o el reemplazo de defectos o una lesión en tejido musculoesquelético, que comprende: un hidrogel macizo (110); un hidrogel poroso (120) adyacente al hidrogel macizo (110); y una base rígida porosa (130); caracterizado porque el hidrogel macizo (110) y la base rígida porosa (130) portan la carga articular, y la capa de hidrogel poroso (120) y la base rígida porosa (130) permiten la migración celular al interior y alrededor del implante (100) y el hidrogel macizo (110) se une a o se integra con la base rígida porosa (130) mediante inmovilización mecánica o entrelazamiento y donde antes de la implantación, el implante (100) es deshidratado de modo que el hidrogel macizo (110) y el hidrogel poroso (120) disminuyan de tamaño y/o cambien de forma y, tras la implantación, el implante (100) se rehidrata y el hidrogel macizo (110) y el hidrogel poroso (120) aumentan de tamaño y/o recuperan sus formas y, donde el hidrogel poroso (120) se rehidrata antes que el hidrogel macizo (110).
16
US2017209624A1
MULTI-COMPONENT NON-BIODEGRADABLE IMPLANT, A METHOD OF MAKING AND A METHOD OF IMPLANTATION
Publication/Patent Number: US2017209624A1 Publication Date: 2017-07-27 Application Number: 15/370,832 Filing Date: 2016-12-06 Inventor: Maher, Suzanne A.   Chen, Tony   Lipman, Joseph D.   Torzilli, Peter   Warren, Russell   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: A61L27/56 Abstract: An implant comprising at least three components, namely, a solid hydrogel, a porous hydrogel adjacent to or surrounding the solid hydrogel (together considered “the hydrogel”), and a porous rigid base. The solid hydrogel and porous rigid base carry joint load, and the porous hydrogel layer and the porous rigid base allow for cellular migration into and around the implant. The invention is also a novel method of manufacturing the implant, a novel method of implanting the implant, and a method of treating, repairing or replacing biological tissue, more preferably musculoskeletal tissue, with the implant.
17
EP2988701A4
A MULTI-COMPONENT NON-BIODEGRADABLE IMPLANT
Publication/Patent Number: EP2988701A4 Publication Date: 2017-01-11 Application Number: 14789087 Filing Date: 2014-04-25 Inventor: Lipman, Joseph D   Maher, Suzanne A   Torzilli, Peter   Warren, Russell   Chen, Tony   Assignee: New York Society for the Ruptured and Crippled Maintaining the Hospital for Special Surgery   IPC: A61B17/16
18
US9545310B2
Multi-component non-biodegradable implant, a method of making and a method of implantation
Publication/Patent Number: US9545310B2 Publication Date: 2017-01-17 Application Number: 14/261,821 Filing Date: 2014-04-25 Inventor: Maher, Suzanne A.   Chen, Tony   Lipman, Joseph D.   Torzilli, Peter   Warren, Russell   Assignee: NEW YORK SOCIETY FOR THE RUPTURED AND CRIPPLED MAINTAINING THE HOSPITAL FOR SPECIAL SURGERY   IPC: A61F2/30 Abstract: An implant having at least three components, namely, a solid hydrogel, a porous hydrogel adjacent to or surrounding the solid hydrogel (together considered “the hydrogel”), and a porous rigid base. The solid hydrogel and porous rigid base carry joint load, and the porous hydrogel layer and the porous rigid base allow for cellular migration into and around the implant. The invention is also a novel method of manufacturing the implant, a novel method of implanting the implant, and a method of treating, repairing or replacing biological tissue, more preferably musculoskeletal tissue, with the implant.
19
EP2988701B1
A MULTI-COMPONENT NON-BIODEGRADABLE IMPLANT
Publication/Patent Number: EP2988701B1 Publication Date: 2017-11-22 Application Number: 14789087.5 Filing Date: 2014-04-25 Inventor: Lipman, Joseph D   Maher, Suzanne A   Torzilli, Peter   Warren, Russell   Chen, Tony   Assignee: New York Society for the Ruptured and Crippled Maintaining the Hospital for Special Surgery   IPC: B29C70/70
20
US2017360327A1
SYSTEM AND APPARATUS FOR SECURING KNEE JOINT WITH A LOAD FOR MAGNETIC RESONANCE IMAGING
Publication/Patent Number: US2017360327A1 Publication Date: 2017-12-21 Application Number: 15/531,190 Filing Date: 2015-12-21 Inventor: Maher, Suzanne   Rodeo, Scott A.   Warren, Russell F.   Potter, Hollis   Koff, Matthew F.   Wang, Hongsheng   Assignee: New York Society for the Ruptured and Crippled Maintaining the Hospital for Special Surgery   IPC: A61B5/055 Abstract: A system that includes: a force sensor assembly adapted to monitor a load as applied on a subject's knee joint when the force sensor assembly remains in direct contact with the subject's lower extremity and the load is monitored from inside a main magnet of an MRI scanner; a mobile unit comprising tracks configured to adjust a position of the force sensor assembly; a stationary base on which the mobile unit and the force sensor assembly are located, the mobile unit translatable solely axially on the stationary base; and a processor coupled to the force sensor assembly and programmed to read information encoding the load being monitored by the force sensor assembly, wherein an MRI scan of the knee joint is initiated only when a pre-determined load has been applied to the subject's knee joint for a pre-determined period of time.
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