Patents by Inventor Max LANGHOF

Max LANGHOF 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: 12648817
    Abstract: The present invention relates to computer-implemented method of predicting a deformation of at least one part of a patient body, a corresponding computer program, a program storage medium with such a program, as well as a medical system. The method comprises the steps of providing a computer simulatable biomechanical model of the at least one part of a patient body (step S1); carrying out S>1 forward simulations of the biomechanical model thereby calculating S resulting deformation vectors (step S2); calculating an approximated biomechanical model based on the S resulting deformation vectors (step S3); acquiring pre-operative data (step S4); optimizing, in a calculative manner, a deformation predicted by the approximated biomechanical model, which results in an optimized, predicted deformation vector (step S5); and deforming the pre-operative data by applying the optimized, predicted deformation vector to the pre-operative patient data (step S6).
    Type: Grant
    Filed: March 20, 2023
    Date of Patent: June 9, 2026
    Assignee: BRAINLAB SE
    Inventors: Danas Sutula, Max Langhof
  • Publication number: 20240225738
    Abstract: The present invention relates to computer-implemented method of predicting a deformation of at least one part of a patient body, a corresponding computer program, a program storage medium with such a program, as well as a medical system. The method comprises the steps of providing a computer simulatable biomechanical model of the at least one part of a patient body (step S1); carrying out S>1 forward simulations of the biomechanical model thereby calculating S resulting deformation vectors (step S2); calculating an approximated biomechanical model based on the S resulting deformation vectors (step S3); acquiring pre-operative data (step S4); optimizing, in a calculative manner, a deformation predicted by the approximated biomechanical model, which results in an optimized, predicted deformation vector (step S5); and deforming the pre-operative data by applying the optimized, predicted deformation vector to the pre-operative patient data (step S6).
    Type: Application
    Filed: March 20, 2023
    Publication date: July 11, 2024
    Inventors: Danas SUTULA, Max LANGHOF