技术说明：无屏蔽立体定向放射外科系统的绝对剂量测量。

Technical note: Absolute dose measurements of a vault-free radiosurgery system.

机构信息

Department of Radiation Oncology, St. Joseph's Hospital and Medical Center, Phoenix, Arizona, USA.

出版信息

Med Phys. 2022 Dec;49(12):7733-7741. doi: 10.1002/mp.15912. Epub 2022 Aug 31.

DOI:10.1002/mp.15912

PMID:35964159

Abstract

BACKGROUND

Methods for accurate absolute dose (AD) calibration are essential for the proper functioning of radiotherapy treatment machines. Many systems do not conform to TG-51 calibration standards, and modifications are required. TG-21 calibration is also a viable methodology for these situations with the appropriate setup, equipment, and factors. It has been shown that both these methods result in minimal errors. A similar approach has been taken in calibrating the dose for a recent vault-free radiosurgery system.

PURPOSE

To evaluate modified TG-21 and TG-51 protocols for AD calibrations of the ZAP-X radiosurgery system using ion chambers, film, and thermoluminescent dosimeters (TLDs).

METHODS

The current treatment planning system for ZAP-X requires AD calibration at d (7 mm) and 450 mm source-to-axis distance. Both and N [R/C] calibration coefficients were provided by an accredited dosimetry calibration laboratory for a physikalisch technische werkstatten (PTW) 31010 chamber (0.125 cc). The vendor provides an f-bracket that can be mounted on the collimator. Various phantoms can then be attached to the f-bracket. A custom acrylic phantom was designed based on recommendations from TG-21 and technical report series-398 that places the chamber at 500 mm from the source with a depth of 44-mm acrylic and 456-mm SSD. N along with other TG-21 parameters was used to calculate the AD. Measurements using a PTW MP3-XS water tank and the same chamber were used to calculate AD using and TG-51 factors. Dose verification was performed using Gafchromic film and 3rd party TLDs.

RESULTS

Measurements from TG-51, TG-21 (utilizing the custom acrylic phantom), film, and TLDs agreed to within ± 2%.

CONCLUSIONS

A modified TG-51 AD calculation in water is preferred but may not be practical due to the difficulty in tank setup. The TG-21 modified protocol using a custom acrylic phantom is an accurate alternative option for dose calibration. Both of these methods are within acceptable agreement and provide confidence in the system's AD calibration.

摘要

背景

准确的绝对剂量 (AD) 校准方法对于放疗治疗机的正常运行至关重要。许多系统不符合 TG-51 校准标准，需要进行修改。在适当的设置、设备和因素下，TG-21 校准也是一种可行的方法。已经表明，这两种方法都导致最小的误差。最近，在对无穹顶放射外科系统的剂量进行校准时，也采用了类似的方法。

目的

使用电离室、胶片和热释光剂量计 (TLD) 评估用于 ZAP-X 放射外科系统的改良 TG-21 和 TG-51 协议的 AD 校准。

方法

ZAP-X 的当前治疗计划系统需要在 d（7 毫米）和 450 毫米源轴距离处进行 AD 校准。经认证的剂量校准实验室为 physikalisch technische werkstatten (PTW) 31010 室（0.125 cc）提供了和 N [R/C] 校准系数。供应商提供一个可以安装在准直器上的 f 支架。然后可以将各种模体附加到 f 支架上。根据 TG-21 和技术报告系列-398 的建议，设计了一个定制的丙烯酸体模，将腔室放置在距源 500 毫米处，深度为 44 毫米的丙烯酸和 456 毫米 SSD。使用 N 以及其他 TG-21 参数来计算 AD。使用 PTW MP3-XS 水箱和相同的腔室进行测量，使用和 TG-51 因子计算 AD。使用 Gafchromic 胶片和第三方 TLD 进行剂量验证。