Incorporating multiple targets in trajectory optimization for radiotherapy treatment planning

Active Publication Date: 2021-08-06
VARIAN MEDICAL SYST INT AG +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Given the variability in patient anatomy and clinical goals, this regimen may be suboptimal
Additionally, radiation therapy treatment may involve tumors or lesions that may have very different volumes

Method used

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  • Incorporating multiple targets in trajectory optimization for radiotherapy treatment planning
  • Incorporating multiple targets in trajectory optimization for radiotherapy treatment planning
  • Incorporating multiple targets in trajectory optimization for radiotherapy treatment planning

Examples

Experimental program
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Embodiment Construction

[0033] The present disclosure generally relates to the treatment plan for radiotherapy using an external beam radiation therapy system, and more particularly to the optimization of trajectories and field geometries in the radiation therapy plan. The beam direction view (BEV) area and the BEV region connectivity flow can be determined by evaluating the dose response of each of the respective values ​​of each of the apex in the delivery coordinate space (DCS). The information contained in the BEV region and the BEV region connectivity can be used to generate an optimized trajectory or optimized field geometry in the radiation therapy plan.

[0034] I. Treatment system

[0035] figure 1 and figure 2 A radiation therapy system that can be used in conjunction with the present invention. refer to figure 1 The perspective view of the radiation therapy system (in this case is a linear accelerator) is shown. Typically, such a system can generate an electron (particle) beam or X-ray (photo...

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Abstract

Methods of treatment trajectory optimization for radiotherapy treatment of multiple targets include determining beam's eye view (BEV) regions and a BEV region connectivity manifold for each target group of a plurality of target groups separately. The information contained in the BEV regions and the BEV region connectivity manifolds for all target groups is used to guide an optimizer to find optimal treatment trajectories. To improve the visibility of insufficiently exposed voxels of planning target volumes (PTVs), a post-processing step may be performed to enlarge certain BEV regions, which are considered for exposing during treatment trajectory optimization.

Description

Background technique [0001] A significant progress has been made in the reverse therapeutic plan of an outer lead radiation therapy using, for example, IMRT and VMAT treatment modes. As planned quality requirements, the role of automated and higher degree of personalized treatment programs in the treatment requirements and patient throughput in the clinic have become increasingly important. Select treatment fields such as VMAT trajectory or IMRT fields may be required prior to reverse optimization of the MLC blade sequence and dose rate in the radiological treatment plan. Treatment of geometry (eg, one or more equal central points, starter angles, and stop rack angle, as well as one or more collimator angles of VMAT arc, or stop position, rack angle, The choice of bed angle and collimator angle may be determined by the clinical scheme of a given treatment site. This solution may be a secondary place in consideration of the variability of the patient anatomical structure and clinic...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61N5/10
CPCA61N5/1031A61N5/1047A61N5/1077A61N2005/1092A61N2005/1097A61N5/1036
Inventor C·B·洛克S·奥尔里拉K·K·布什
Owner VARIAN MEDICAL SYST INT AG
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