用于DSA介入诊疗的辐射精细测量设备研制

Research on Measurement Methods of Radiation Dose in DSA Diagnosis

  • 摘要: DSA介入诊疗需要医生在X射线引导下进行手术,长时间的手术可能造成医生过量照射。有必要研制一款小型的实时辐射测量仪,对医生手术过程中重点关注部位所受的辐照情况进行精准测量,发现辐射屏蔽弱项,制定合理的屏蔽方案。基于芯片技术研制一款小型化、低功耗、实时测量的辐射剂量测量模块,使用MCNP模拟程序,计算在不同补偿片厚度下探测器的能量响应曲线,得出补偿片的最优厚度。并对该测量模块的各项性能指标如重复性、剂量线性、能量响应、耐辐照剂量进行测试验证。结果表明,测量模块的重量小于15 g,体积小于15 mm×10 mm×5 mm,剂量率测量上限可拓展至1 Sv/h,能量响应在10~250 keV范围内好于±30%,耐辐照剂量上限好于100 Gy。本研究解决了实时辐射测量设备小型化的难题,可为DSA诊疗的医生提供辐射测量方法,实现手部X射线照射剂量的实时测量,通过术后数据回溯,进行辐照风险分析,为屏蔽方案优化提供技术和数据参考。

     

    Abstract: Doctors have to perform surgery under the guidance of X-rays during DSA intervention diagnosis. Long-term surgery may cause excessive radiation exposure to doctors. It is necessary to develop a small real-time radiation detector to measure the radiation exposure of the different tissues during the surgery, identify weak points in radiation shielding, and develop safer shielding plans. Based on chip technology, we developed a miniaturized, low-power, real-time radiation dose measurement module, which can be easily worn on the hand for real-time measurement of radiation dose. Using the MCNP simulation program, the energy response curve of the detector was calculated under different compensation thicknesses, and the optimal thickness of the compensation was obtained. Various parameters of the measurement module, such as repeatability, dose linearity, energy response, and radiation tolerance dose, were tested and verified. The results showed that the weight of the measurement module was less than 15 g, the volume was less than 15 mm×10 mm×5 mm, the upper limit of dose rate could be extended to 1 Sv/h, and the energy response was better than ±30% in the range of 10~250 keV. The radiation tolerance dose was better than 100 Gy. This work solved the problem of miniaturization of real-time radiation detector, provided radiation real-time measurement methods of exposure dose on the hand for doctors in DSA diagnosis and treatment, measuring X-ray. Through analysis of post data, it can analyze the radiation risk during the surgical process, thus providing technical means and data support for optimization of radiation protection.

     

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