METHODS AND APPARATUS FOR RADIOABLATION TREATMENT

Organization Name

Varian Medical Systems, Inc.

Inventor(s)

Jonas Michael Honegger of Zurich (CH)

Francesca Attanasi of Baar (CH)

METHODS AND APPARATUS FOR RADIOABLATION TREATMENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240038362 titled 'METHODS AND APPARATUS FOR RADIOABLATION TREATMENT

Simplified Explanation

The patent application describes systems and methods for radioablation treatment planning. It involves a computing device that provides a user interface for a medical professional to define a target region of a patient for treatment. The user interface allows the professional to select a treatment area using interactive target maps generated for the patient. The computing device also receives image data from an imaging system, which identifies a 3D volume of the patient's scanned structure. Based on this data, the computing device generates a 3D image of the scanned structure and superimposes a target region map that the professional can manipulate to define the treatment area. Once defined, the computing device transmits the target region to a treatment system for treating the patient.

• The patent application describes a system for radioablation treatment planning.
• A computing device provides a user interface for a medical professional to define a target region of a patient for treatment.
• The user interface allows the professional to select a treatment area using interactive target maps.
• The computing device receives image data from an imaging system, identifying a 3D volume of the patient's scanned structure.
• Based on the image data, the computing device generates a 3D image of the scanned structure.
• The computing device superimposes a target region map on the 3D image, which the professional can manipulate to define the treatment area.
• Once defined, the computing device transmits the target region to a treatment system for treating the patient.

Potential Applications

This technology can be applied in various medical fields where radioablation treatment planning is required, such as:

• Oncology: Planning and targeting tumors for radioablation treatment.
• Cardiology: Planning and targeting specific regions of the heart for radioablation treatment.
• Neurology: Planning and targeting specific areas of the brain for radioablation treatment.

Problems Solved

The technology solves the following problems in radioablation treatment planning:

• Accurate targeting: The interactive target maps and 3D image visualization help medical professionals accurately define the target region for treatment.
• Efficient planning: The user interface and image data integration streamline the planning process, saving time and effort.
• Improved patient outcomes: Precise targeting reduces the risk of damaging healthy tissue and improves the effectiveness of the treatment.

Benefits

The technology offers several benefits in radioablation treatment planning:

• Enhanced precision: The combination of interactive target maps and 3D image visualization improves the precision of target region definition.
• Streamlined workflow: The user interface and integration with imaging systems simplify the planning process, making it more efficient.
• Improved treatment outcomes: Accurate targeting reduces the risk of complications and improves the success rate of radioablation treatments.

Original Abstract Submitted

systems and methods for radioablation treatment planning are disclosed. in some examples, a computing device provides for display a user interface that allows a medical professional to define a target region of a patient for treatment. the user interface may allow the medical professional to select a treatment area using interactive target maps generated for the patient. the computing device also receives image data from an imaging system for the patient, such as image data identifying a 3d volume of the patient's scanned structure. the computing device may generate for display a 3d image of the scanned structure based on the received image data, and may superimpose on the 3d image a target region map that the medical professional can manipulate to define the target region of treatment for the patient. once defined, the computing device may transmit the defined target region to a treatment system for treating the patient.