20240033092. SCAFFOLD STRUCTURES AND COMPOSITIONS FACILITATING OSSEOINTEGRATION simplified abstract (General Electric Company)

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SCAFFOLD STRUCTURES AND COMPOSITIONS FACILITATING OSSEOINTEGRATION

Organization Name

General Electric Company

Inventor(s)

Gautam Parthasarathy of Niskayuna NY (US)

Daniel J. Erno of Clifton Park NY (US)

Chitresh Bhushan of Schenectady NY (US)

Cathleen Ann Hoel of Schenectady NY (US)

Sara Kelly Peterson of Schenectady NY (US)

Jessica Susanne Martinez of Niskayuna NY (US)

Brian Michael Davis of Niskayuna NY (US)

Steven Jude Duclos of Clifton Park NY (US)

Fiona Ginty of Saratoga Springs NY (US)

SCAFFOLD STRUCTURES AND COMPOSITIONS FACILITATING OSSEOINTEGRATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240033092 titled 'SCAFFOLD STRUCTURES AND COMPOSITIONS FACILITATING OSSEOINTEGRATION

Simplified Explanation

The present discussion relates to the design, fabrication, and use of synthetic scaffold structures for bone growth. These scaffold structures are made up of repeating structures, each defined by a local topology. The local topologies are determined by various parameters such as shape index, curvedness, mean curvature, and Gauss curvature.

  • The patent/application focuses on the development of synthetic scaffold structures for bone growth.
  • The scaffold structures are composed of repeating structures defined by local topologies.
  • The local topologies are determined by parameters like shape index, curvedness, mean curvature, and Gauss curvature.

Potential Applications:

  • Bone tissue engineering and regenerative medicine.
  • Orthopedic surgeries and implants.
  • Treatment of bone defects and fractures.
  • Dental implants and oral/maxillofacial surgeries.

Problems Solved:

  • Addressing bone loss and defects.
  • Enhancing bone regeneration and healing.
  • Providing a scaffold structure that mimics the natural bone environment.
  • Improving the success rate and outcomes of bone-related procedures.

Benefits:

  • Facilitates the growth and regeneration of bone tissue.
  • Provides a customizable and adaptable scaffold structure.
  • Enhances the integration of synthetic scaffolds with natural bone.
  • Offers potential for improved patient outcomes and reduced complications.
  • Enables the development of more effective bone implants and treatments.


Original Abstract Submitted

the present discussion relates to the design fabrication and use of synthetic scaffold structure for bone growth. in certain implementations the scaffold structures are comprised of a plurality of repeating structures each defined by a local topology. the local topologies are defined at a subset of points in their respective volumes by various parameters including, but not limited to, shape index, curvedness, mean curvature, and gauss curvature.