Patents by Inventor Sajad Arabnejad KHANOKI

Sajad Arabnejad KHANOKI 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).

  • BONE REPLACEMENT IMPLANTS WITH MECHANICALLY BIOCOMPATIBLE CELLULAR MATERIAL
    Publication number: 20210052389
    Abstract: A methodology integrating multiscale analysis and design optimization to design a novel bone replacement implant made of a functionally graded cellular material that meets fatigue requirements imposed by cyclic loadings. The pore microarchitecture, described by interconnectivity, porosity, pore size as well as pore topology, is optimally designed for tissue regeneration and mechanical strength. A bone implant with a graded cellular microstructure is also provided.
    Type: Application
    Filed: September 3, 2020
    Publication date: February 25, 2021
    Inventors: Damiano PASINI, Sajad Arabnejad KHANOKI, Michael TANZER
  • Bone replacement implants with mechanically biocompatible cellular material
    Patent number: 10799363
    Abstract: A methodology integrating muitiscale analysis and design optimization to design a novel bone replacement implant made of a functionally graded cellular material that meets fatigue requirements imposed by cyclic loadings. The pore microarchitecture, described by interconnectivity, porosity, pore size as well as pore topology, is optimally designed for tissue regeneration and mechanical strength. The method can contribute to the development of a new generation of bone replacement implants with a graded cellular microstructure.
    Type: Grant
    Filed: June 20, 2014
    Date of Patent: October 13, 2020
    Assignee: THE ROYAL INSTITUTION FOR THE ADVANCEMENT OF LEARNING/MCGILL UNIVERSITY
    Inventors: Damiano Pasini, Sajad Arabnejad Khanoki, Michael Tanzer
  • BONE REPLACEMENT IMPLANTS WITH MECHANICALLY BIOCOMPATIBLE CELLULAR MATERIAL
    Publication number: 20140363481
    Abstract: A methodology integrating multiscale analysis and design optimization to design a novel bone replacement implant made of a functionally graded cellular material that meets fatigue requirements imposed by cyclic loadings. The pore microarchitecture, described by interconnectivity, porosity, pore size as well as pore topology, is optimally designed for tissue regeneration and mechanical strength. The method can contribute to the development of a new generation of bone replacement implants with a graded cellular microstructure.
    Type: Application
    Filed: June 20, 2014
    Publication date: December 11, 2014
    Inventors: Damiano PASINI, Sajad Arabnejad KHANOKI, Michael TANZER