FLEXIBLE IMPLANTS AND METHODS OF ENHANCED BONE FIXATION

Organization Name

Board of Regents, The University of Texas System

Inventor(s)

Farshid Alambeigi of Austin TX (US)

Amir Hossein Eskandari Shahrabi of Montreal (CA)

Alexander Cohen of Austin TX (US)

Jordan Amadio of Austin TX (US)

FLEXIBLE IMPLANTS AND METHODS OF ENHANCED BONE FIXATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18264125 titled 'FLEXIBLE IMPLANTS AND METHODS OF ENHANCED BONE FIXATION

Simplified Explanation

The present invention provides methods of forming flexible implant devices and U-bridge implants that drive into curved trajectories to enhance implant fixation in bone. The curved drilling trajectories avoid regions of low bone mineral density, such that flexible implants and/or U-bridge implants driven into the curved drilling trajectories are anchored in regions of high bone mineral density to improve the stability of bone fixation. The flexible implants and U-bridge implants are suitable for several applications, including but not limited to spinal fixation, orthopedic bone fixation, and neurosurgery.

• Methods of forming flexible implant devices and U-bridge implants
• Curved drilling trajectories to enhance implant fixation in bone
• Avoiding regions of low bone mineral density
• Anchoring implants in regions of high bone mineral density
• Improving stability of bone fixation
• Suitable for spinal fixation, orthopedic bone fixation, and neurosurgery

Potential Applications

The technology can be used in various medical applications such as:

• Spinal fixation
• Orthopedic bone fixation
• Neurosurgery

Problems Solved

• Enhancing implant fixation in bone
• Improving stability of bone fixation
• Anchoring implants in regions of high bone mineral density

Benefits

• Increased stability of bone fixation
• Enhanced implant anchoring
• Improved surgical outcomes

Potential Commercial Applications

Optimizing Bone Fixation with Curved Trajectories: Advancements in Implant Technology

Possible Prior Art

There may be prior art related to traditional methods of implant fixation in bone, such as using straight drilling trajectories. However, the specific technique of driving flexible implants and U-bridge implants into curved trajectories to enhance fixation may be a novel approach.

Unanswered Questions

How does this technology compare to existing methods of bone fixation?

This article does not provide a direct comparison to existing methods of bone fixation, such as traditional straight drilling trajectories. Further research or clinical studies may be needed to evaluate the effectiveness and advantages of this new approach.

What are the potential limitations or challenges of implementing this technology in surgical practice?

The article does not address any potential limitations or challenges that may arise when implementing this technology in surgical practice. Factors such as surgical skill requirements, equipment compatibility, and patient outcomes could be important considerations to explore further.

Original Abstract Submitted

The present invention provides methods of forming flexible implant devices and U-bridge implants that drive into curved trajectories to enhance implant fixation in bone. The curved drilling trajectories avoid regions of low bone mineral density, such that flexible implants and/or U-bridge implants driven into the curved drilling trajectories are anchored in regions of high bone mineral density to improve the stability of bone fixation. The flexible implants and U-bridge implants are suitable for several applications, including but not limited to spinal fixation, orthopedic bone fixation, and neurosurgery.