TREATMENT PROCEDURE PLANNING SYSTEM AND METHOD

Organization Name

Covidien LP

Inventor(s)

Jeetendra Bharadwaj of Erie CO (US)

Kevin J. Frank of Louisville CO (US)

Darren G. Girotto of Louisville CO (US)

Benjamin M. Corum of Mattapan MA (US)

TREATMENT PROCEDURE PLANNING SYSTEM AND METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240013474 titled 'TREATMENT PROCEDURE PLANNING SYSTEM AND METHOD

Simplified Explanation

The abstract describes a system and method for planning surgical procedures using CT image data. The system includes a treatment zone setting view that presents a 3D reconstruction of the CT image data, including a target. The view also includes a treatment zone marker that defines the location and size of a treatment zone and can be adjusted based on user input. The system also includes a volumetric view that presents a 3D volume derived from the reconstruction and a 3D representation of the treatment zone marker relative to structures depicted in the volume.

• The system and method involve planning surgical procedures using CT image data.
• The treatment zone setting view presents a 3D reconstruction of the CT image data, including a target.
• The treatment zone marker defines the location and size of a treatment zone and can be adjusted based on user input.
• The volumetric view presents a 3D volume derived from the reconstruction.
• The 3D representation of the treatment zone marker is shown relative to structures depicted in the volume.

Potential applications of this technology:

• Surgical planning: The system and method can be used to plan surgical procedures by visualizing the treatment zone and its relationship to surrounding structures.
• Precision medicine: The technology can aid in personalized treatment planning by accurately defining the treatment zone based on individual patient data.
• Minimally invasive surgery: The system can assist in planning minimally invasive procedures by precisely locating the treatment zone and avoiding unnecessary damage to surrounding tissues.

Problems solved by this technology:

• Accurate treatment zone definition: The system provides a visual representation of the treatment zone, allowing surgeons to accurately define its location and size.
• Improved surgical planning: By presenting a 3D reconstruction and volumetric view, the system enhances surgical planning by providing a comprehensive understanding of the treatment area and its relationship to surrounding structures.
• User-friendly interface: The ability to adjust the treatment zone marker based on user input improves the usability and customization of the system.

Benefits of this technology:

• Enhanced surgical precision: The system allows surgeons to precisely define and visualize the treatment zone, leading to more accurate and targeted surgical procedures.
• Improved patient outcomes: By accurately planning surgical procedures and minimizing damage to surrounding tissues, this technology can potentially improve patient outcomes and reduce complications.
• Time and cost savings: The system streamlines the surgical planning process by providing a comprehensive view of the treatment area, potentially reducing the need for additional imaging or exploratory procedures.

Original Abstract Submitted

a system and method for planning surgical procedure including a treatment zone setting view presenting at least one slice of a 3d reconstruction generated from ct image data including a target. the treatment zone setting view presenting a treatment zone marker defining a location and a size of a treatment zone and configured to adjust the treatment zone marker in response to a received user input. the system and method further including a volumetric view presenting a 3d volume derived from the 3d reconstruction and a 3d representation of the treatment zone marker relative to structures depicted in the 3d volume.