Medical Radiology and Radiation Safety. 2018. Vol. 63. No. 2. P. 55–61

RADIATION PHYSICS, TECHNOLOGY AND DOSIMETRY

DOI: 10.12737/article_5ac622371650f7.48983677

Field Junction Technique for Helical Tomotherapy-Based Total Body Irradiation

A.A. Loginova¹, D.A. Tovmasian², A.P. Chernyaev², S.M. Varzar², D.A. Kobyseva¹, A.V. Nechesnyuk¹

1. Dmitry Rogachev National Research Center of Pediatric Hematology, Oncology and Immunology, Moscow, Russia, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ; 2. M.V. Lomonosov Moscow State University, Moscow, Russia

A.A. Loginova – Senior Med. Physicist; D.A. Tovmasian – Master’s Degree Student; A.P. Chernyaev – Head of the Dep., Prof., Dr. Sc. Phys.-Math.; S.M. Varzar – Associate Prof., PhD Phys.-Math.; D.A. Kobyzeva – Pediatric Oncologist; A.V. Nechesnyuk – Head of the Radiother. Dep., PhD Med.

Abstract

Purpose: Combination of total body irradiation (TBI) with chemotherapy is widely used technique for conditioning before hematopoietic stem cell transplantation for patient with hematological malignancies worldwide. Total body irradiation for patients with high height has to be divided into two parts: irradiation of upper part of the patient’s body (including head, body and part of legs) and irradiation of lower part of the patient’s body (including leg). There is an area in which the fields overlap each other – the junction area. The aim of this work is the development and verification of simple junction technique that would provide the dose distribution in the junction area from 90 to 125 % of prescribed dose.

Material and methods: Total body irradiation was performed on the Tomotherapy machine using helical geometry of the beam delivery. Distribution of the dose in junction area was investigated. Simple solution was proposed: during the optimization of the radiotherapy plan certain margin should be maintained between upper and lower targets while dose distribution in junction area satisfies the uniformity requirements for the given irradiation geometry. The dimension of the margin was determined experimentally using a CheesePhantom and radiochromic EBT-2 films. The uniformity of dose distribution in the junction area was monitored by in vivo measurements using radiochromic EBT-2 films located on the skin surface of patients.

Results: The dimension of the margin at which the dose in the junction area is within the range of 90 to 125 % of the prescribed dose was determined experimentally and amounted to 5.25 cm. The values of the measured dose were in the range from 97 to 105 %. In total 18 in vivo measurements of the junction area were performed. According to the results of in vivo dosimetry, the values of the doses measured in the junction area were in the range from 93 ± 3 % to 108 ± 4 %.

Conclusion:The developed planning method with the selected plan geometry ensures satisfactory heterogeneity of the dose distribution in the area of field junction between the upper and lower irradiation regions, despite of the existing uncertainty of patient positioning. Results were confirmed by in vivo measurements. The obtained data can be used for total body irradiation of the patients using Helical Tomotherapy.

Key words: radiotherapy, tomotherapy, total body irradiation, junction area

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For citation: Loginova AA, Tovmasian DA, Chernyaev AP, Varzar SM, Kobyseva DA, Nechesnyuk AV. Junction Technique for Helical Tomotherapy-Based Total Body Irradiation. Medical Radiology and Radiation Safety. 2018;63(2):55-61. Russian. DOI: 10.12737/article_5ac622371650f7.48983677.

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