Pencil beam dose algorithm based on self consistency

A pencil beam, self-consistent technology, applied in radiotherapy, X-ray/γ-ray/particle irradiation therapy, treatment, etc., can solve the problem of underestimating the dose contribution of pencil beam, increasing the amount of dose calculation, and reducing the speed, etc. Achieve the effect of meeting the requirements of symmetry and self-consistency, uniform and consistent dose distribution, and improving calculation speed

Inactive Publication Date: 2018-10-19
中科超精(南京)科技有限公司
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Problems solved by technology

But because the dose distribution of a pen kernel is in three-dimensional space, discretizing the dose distribution in three-dimensional space into a numerical table requires a large storage space, such as a typical three-dimensional Monte Carlo pen kernel, in order to ensure the accuracy of the data under interpolation, the depth At least about 200 grids are required, and at least 100 grids are required in the X and Y directions in the horizontal direction, so the pen core data is at least on the order of millions. Excessively large data not only increases the storage cost, but also reduces the speed
[0006] If the 3D pen nucleus is no

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[0022] The preferred embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, so as to define the protection scope of the present invention more clearly.

[0023] There are many ways to obtain the pencil beam dose distribution, that is, the pen nucleus. Here, the Monte Carlo simulation method is used to obtain the pen nucleus as an example, and the self-consistent pen nucleus model uses two-dimensional data to obtain the three-dimensional dose distribution of the pen nucleus. figure 1 As shown, the irradiation field 1 is decomposed into a plurality of small pencil beams 2, assuming that the length of the pencil beam 2 in the X direction is a, and the width in the Y direction is b.

[0024] 1) Monte Carlo simulates the dose distribution of the pencil beam irradiating the water phantom, and extracts t...

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Abstract

The invention discloses a pencil beam dose algorithm based on self consistency. An original three dimensional pencil beam dose distribution is decomposed into a product of two functions, wherein the two functions respectively represent two dimensional dose distributions of a beam with finite width and infinite length. The algorithm uses two dimensional data to obtain a three dimensional dose distribution of a pencil core, which means a dose distribution of a rectangular pencil beam is processed to be a product of a depth dose distribution and two transverse distributions, wherein the depth dose distribution represents a dose value along the center axis of the pencil beam (denoted as a Z direction) and is a one dimensional distribution, and the transverse distributions represent the relative dose distributions in XZ and YZ planes and are two dimensional distributions. The algorithm reduces storage requirements, and the form of the algorithm is simple which facilitates the calculation and improves the calculation speed. Meanwhile, the decomposition form can satisfy requirements of symmetry and self consistency, which means uniform dose distributions can be produced under uniform field intensity.

Description

technical field [0001] The invention relates to the field of dose calculation in tumor radiotherapy, in particular to a pencil beam dose algorithm based on self-consistency. Background technique [0002] Radiation therapy is one of the main ways to treat cancer. It uses radioactive rays to kill tumor cells. Radiation therapy requires the calculation of the dose distribution of radiation beams in the body, known as dose calculation. A commonly used method for clinical dose calculation is called the pencil beam algorithm. This algorithm decomposes the radiotherapy beam into multiple small pencil beams, calculates the dose distribution of each pencil beam separately, and then superimposes to obtain the total dose distribution. [0003] [0004] in, Indicates the intensity of the radiotherapy beam at that point, It is the pen core. [0005] Therefore, the key point in the pencil beam dose algorithm is to calculate the dose distribution of a single pencil beam vertically...

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Application Information

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IPC IPC(8): A61N5/10
CPCA61N5/1031
Inventor 不公告发明人
Owner 中科超精(南京)科技有限公司
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