Patents by Inventor Jonas Widmer

Jonas Widmer 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: 12616522
    Abstract: A method for determining the screw trajectory of a pedicle bone screw comprises: obtaining a CT image of the target bone area intended to receive the pedicle bone screw, establishing an individualized three-dimensional geometric model of the target bone area based on the CT image, accessing a database comprising a three-dimensional bone area model; wherein the bone area model comprises a bone screw insertion surface and a pedicle traversing surface for each pedicle, morphing the bone area model to the geometric model of the target bone area generating a morphed vertebra model with a bone screw insertion surface and the pedicle traversing surface, calculating a maximum of bone density when the bone material is replaced by a bone screw for a bone screw in the morphed vertebra model of the target bone, and outputting the space vector of the screw trajectory for the bone screw together with the length and diameter of the bone screw in the morphed vertebra model of the target bone.
    Type: Grant
    Filed: December 13, 2021
    Date of Patent: May 5, 2026
    Assignee: 25SEGMENTS AG
    Inventors: Jonas Widmer, Sebastiano Caprara, Mazda Farshad
  • Publication number: 20250248762
    Abstract: Computer implemented method, computing device, system and computer pro-gram product for assessment of interconnection(s) between orthopaedic implant(s) and a bone tissue(s) by: extracting location specific material properties of the bone tissue(s) from pre- and/or post-operative images; generating a 3D-Finite Element Model comprising first finite elements representing the orthopaedic implant interconnected to the bone tissue(s), and second finite elements representing at least part of the bone tissue(s) surrounding the orthopaedic implant; applying the location-specific material properties to the second finite elements; applying at least one external load to the one or more of the first finite elements; determining internal stresses of the 3D-Finite Element Model; and outputting an assessment of the interconnection between orthopaedic implant(s) and the bone tissue(s) based on the determining internal stresses.
    Type: Application
    Filed: March 21, 2023
    Publication date: August 7, 2025
    Applicant: 25SEGMENTS AG
    Inventors: Jonas WIDMER, Marie-Rosa FASSER, Mazda FARSHAD
  • Publication number: 20250177046
    Abstract: Computer implemented method, computing device, system and computer pro-gram product to support selection between different types of pedicle screws (201-m) to be applied in a spine (202) comprising: generating a spinal 3D-model (MSpine) of a patient; generating a reinforcement 3D-model (MRod) of a reinforce-5 ment structure (30) for interconnecting vertebrae (2001-n) of the spine (202); generating a finite element model (FE) corresponding to the spinal 3D-model (MSpine) and the reinforcement 3D-model (MRod); applying a load onto the finite element model (FE) and determining loading factor(s) of the pedicle screws (201-m) using the finite element model (FE); and outputting an assessment of the plurality of different types of pedicle screws (201-m) based on the calculated loading factor(s).
    Type: Application
    Filed: March 7, 2023
    Publication date: June 5, 2025
    Applicant: 25SEGMENTS AG
    Inventors: Jonas WIDMER, Marie-Rosa FASSER, Mazda FARSHAD
  • Publication number: 20250025215
    Abstract: Vertebral stabilization techniques labelled “vertebropexy” can be used after microsurgical decompression (intact posterior structures) and midline decompression (removed posterior structures). Vertebropexy is a concept of semi-rigid spinal stabilization based on reinforcement of the spinal segment and is able to reduce motion, especially in flexion-extension.
    Type: Application
    Filed: July 19, 2024
    Publication date: January 23, 2025
    Applicant: MOVING SPINE AG
    Inventors: Jonas WIDMER, Mazda FARSHAD, Robert FRIGG
  • Publication number: 20250025214
    Abstract: Vertebral stabilization techniques labelled “vertebropexy” can be used after microsurgical decompression (intact posterior structures) and midline decompression (removed posterior structures). Vertebropexy involves semi-rigid spinal stabilization based on reinforcement of the spinal segment and is able to reduce motion, especially in flexion-extension.
    Type: Application
    Filed: July 21, 2023
    Publication date: January 23, 2025
    Applicant: MOVING SPINE AG
    Inventors: Jonas WIDMER, Mazda FARSHAD, Robert FRIGG
  • Publication number: 20250017622
    Abstract: A method of injecting a foldable implant (1) into a body cavity of a patient includes the step of providing the foldable implant (1). The method further includes the step of injecting the provided implant (1) in an unfolded state into the body cavity, wherein in the unfolded state the implant (1) is essentially straight extending along a longitudinal axis (L). The method further includes the step of folding the injected implant (1) from the unfolded state into a folded state, wherein in the folded state the implant (1) has a plurality of loops (2) each extending radially from a fold center (3).
    Type: Application
    Filed: July 12, 2024
    Publication date: January 16, 2025
    Applicant: MOVING SPINE AG
    Inventors: Robert FRIGG, Jonas WIDMER, Mazda FARSHAD
  • Publication number: 20240299095
    Abstract: A method for determining the screw trajectory of a pedicle bone screw comprises: obtaining a CT image of the target bone area intended to receive the pedicle bone screw, establishing an individualized three-dimensional geometric model of the target bone area based on the CT image, accessing a database comprising a three-dimensional bone area model; wherein the bone area model comprises a bone screw insertion surface and a pedicle traversing surface for each pedicle, morphing the bone area model to the geometric model of the target bone area generating a morphed vertebra model with a bone screw insertion surface and the pedicle traversing surface, calculating a maximum of bone density when the bone material is replaced by a bone screw for a bone screw in the morphed vertebra model of the target bone, and outputting the space vector of the screw trajectory for the bone screw together with the length and diameter of the bone screw in the morphed vertebra model of the target bone.
    Type: Application
    Filed: December 13, 2021
    Publication date: September 12, 2024
    Inventors: Jonas Widmer, Sebastiano Caprara, Mazda Farshad