Development of patient-specific phantoms for verification of stereotactic body radiation therapy planning in patients with metallic screw fixation

Dongryul Oh,Sang Gyu Ju,Chae-Seon Hong,Hee Chul Park,Doo Ho Choi,Hongryull Pyo,Minkyu Kim,Sungback Choi,Bum Yong Koo

doi:10.1038/srep40922

Abstract

A new technique for manufacturing a patient-specific dosimetric phantom using three-dimensional printing (PSDP_3DP) was developed, and its geometrical and dosimetric accuracy was analyzed. External body contours and structures of the spine and metallic fixation screws (MFS) were delineated from CT images of a patient with MFS who underwent stereotactic body radiation therapy for spine metastasis. Contours were converted into a STereoLithography file format using in-house program. A hollow, four-section PSDP was designed and manufactured using three types of 3DP to allow filling with a muscle-equivalent liquid and insertion of dosimeters. To evaluate the geometrical accuracy of PSDP_3DP, CT images were obtained and compared with patient CT data for volume, mean density, and Dice similarity coefficient for contours. The dose distribution in the PSDP_3DP was calculated by applying the same beam parameters as for the patient, and the dosimetric characteristics of the PSDP_3DP were compared with the patient plan. The registered CT of the PSDP_3DP was well matched with that of the real patient CT in the axial, coronal, and sagittal planes. The physical accuracy and dosimetric characteristics of PSDP_3DP were comparable to those of a real patient. The ability to manufacture a PSDP representing an extreme patient condition was demonstrated.

Highlights

Because prosthetic devices are difficult to measure with SDPs, they complicate dose calculation in the treatment planning system (TPS), which can result in serious dosimetric errors
This approach is capable of producing high-resolution structures and is an excellent design tool that can incorporate the digital imaging and communication in medicine for radiotherapy (DICOMRT) protocol[19] and computer-aided design (CAD) technology
The percent difference in volume for metallic fixation screws (MFS) was slightly higher compared with the other structures, but the absolute volume difference was very small (2 cm3)

Summary

Introduction

SDPs generate different patterns of dose distribution due to different dose absorption and scatter interactions compared with those in real patients. SDPs have a limited ability to represent extreme patient conditions such as the presence of prosthesis Such prosthetic devices usually consist of high-density materials near targets, including hip prostheses, dental prostheses, and spinal fixation devices[14,15,16,17]. The presence of such devices can generate different patterns of absorption and scatter compared to internal organs. Accurate DQA requires a patient-specific dosimetric phantom (PSDP) that generates the same dose distribution as a real patient, with customizable measurement conditions. We report the manufacturing procedure for a PSDP_3DP containing metallic fixation screws (MFS) and describe its geometrical and dosimetric accuracy

Methods

Results

Conclusion