SYSTEM AND METHOD FOR OPTIC-BASED ABLATION ZONE SIMULATION

Organization Name

Covidien LP

Inventor(s)

Scott E. M. Frushour of Boulder CO (US)

John W. Komp of Dillon CO (US)

William J. Dickhans of Longmont CO (US)

SYSTEM AND METHOD FOR OPTIC-BASED ABLATION ZONE SIMULATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18498326 titled 'SYSTEM AND METHOD FOR OPTIC-BASED ABLATION ZONE SIMULATION

Simplified Explanation

The patent application describes an ablation system that uses fiber Bragg gratings to monitor temperature during microwave ablation of a target in real time.

• The ablation device includes fiber Bragg gratings for temperature monitoring.
• The computing device calculates temperature measurements based on light reflected from the fiber Bragg gratings.
• Temperature measurements are extrapolated to generate an ablation volume in real time.

Key Features and Innovation

• Ablation device with fiber Bragg gratings for temperature monitoring.
• Real-time calculation of temperature measurements during microwave ablation.
• Extrapolation of temperature measurements to generate an ablation volume.

Potential Applications

This technology can be used in medical procedures such as tumor ablation, where precise temperature monitoring is crucial for successful treatment.

Problems Solved

• Accurate temperature monitoring during ablation procedures.
• Real-time calculation of ablation volume for better treatment outcomes.

Benefits

• Improved precision and effectiveness in ablation procedures.
• Real-time feedback for immediate adjustments during treatment.

Commercial Applications

Title: Real-time Temperature Monitoring System for Ablation Procedures This technology can be used in hospitals and medical facilities for various ablation procedures, potentially improving patient outcomes and reducing treatment times.

Prior Art

Researchers can explore prior patents related to fiber Bragg gratings in medical devices and ablation systems to understand the existing technology landscape.

Frequently Updated Research

Researchers are constantly exploring new applications and enhancements for fiber Bragg gratings in medical devices, including ablation systems.

Questions about Ablation Systems

How does real-time temperature monitoring improve ablation procedures?

Real-time temperature monitoring allows for precise control of the ablation process, leading to better treatment outcomes and reduced risk of damage to surrounding tissues.

What are the potential challenges in implementing fiber Bragg gratings in ablation devices?

Challenges may include ensuring the accuracy and reliability of temperature measurements, as well as integrating the technology seamlessly into existing ablation systems.

Original Abstract Submitted

An ablation system includes an ablation device configured to ablate a target, and a computing device. The ablation device includes fiber Bragg gratings for monitoring temperature. The computing device is configured to calculate temperature measurements based on light reflected from the fiber Bragg gratings during application of microwave ablation energy to the target and extrapolate the temperature measurements calculated to generate an ablation volume in real time.